Effect of induced diabetes on morphometric indexes of the cerebellar cortex and gene expression in C57BL mice.

Objectives: Diabetes is a metabolic disorder that affects the development of the central nervous system and plays an important role in learning and memory. Diabetes increases the reactive oxygen species (ROS) level in cells and changes the expression of several genes, including SYP, BDNF, PAX7, and SYNCAM1, through the FOXO transcription factor. This study was done to assess the effect of diabetes on morphometric indexes of the cerebellar cortex and gene expression in mice. Materials and Methods: Diabetes was induced in twelve adult, male C57BL mice using an injection of streptozotocin. After two months, the mice were dissected, and the cerebellum was stored for further analysis. For the morphometric analysis, tissue sections were stained with cresyl violet and examined with a light microscope. For gene expression analysis, the RNA was extracted, and cDNA was synthesized. The mRNA levels of SYP, BDNF, PAX7, and SYNCAM1 genes were measured by the real-time PCR method. Results: The thickness of the molecular layer and Purkinje layer, and the number of Purkinje and granular cells in the diabetic group were significantly reduced compared to controls P<0.0 1). The area, perimeter, and diameter of Purkinje cells in the diabetic group were significantly reduced compared to controls P<0.0 1). The expression of PAX7, SYP, and BDNF genes of the diabetic group was significantly reduced. However, SYNCAM1 expression in the cerebellum of the diabetic group was significantly increased compared to controls (P<0.05). Conclusion: Induced diabetes in mice can decrease the expression of memory-related genes in the cerebellum. Also, these genes affect the morphology and thickness of the cerebellum.

Gestational diabetes mellitus increased the number of dopaminergic neurons in the olfactory bulb of rat offspring.

Objectives: Gestational Diabetes Mellitus (GDM) is the most common metabolic complication of pregnancy that causes central nervous system and olfactory dysfunction in the offspring. It has been demonstrated that dopamine modulates several aspects of olfactory information processing in vertebrates. Materials and Methods: In this study, we investigated the effect of gestational diabetes on the expression of the Dopamine (DA) metabolism genes, tyrosine hydroxylase (TH), and dopa decarboxylase (DDC) in the olfactory bulb (OB) tissue of rats' offspring. Female Wistar rats were divided into a control group which received citrate buffer and the diabetic group which received 45 mg/kg of streptozotocin (STZ) on day 0 of gestation. Fasting blood glucose levels were measured before and 72 hr after injection. OB tissues of adult offspring were isolated, and TH-positive cells were counted by immunofluorescence staining. Also, TH and DDC expressions were analyzed by qRT- PCR and western blot. Results: The data showed that gestational diabetes could cause up-regulation of TH (P<0.01) and DDC (P<0.05) in the OB tissue of offspring. Furthermore, our results showed that GDM causes a significant increase in TH and DDC protein levels in the OB tissues of offspring. Immunohistochemistry showed a significant increase in the number of TH-positive cells in the offspring of diabetic mothers (P<0.05). Conclusion: This study showed that gestational diabetes could cause an increase in TH and DDC gene expression in the OB tissue in the offspring, which may be correlated with reduced olfactory sensitivity.

In Utero Exposure to Gestational Diabetes Alters DNA Methylation and Gene Expression of CDKN2A/B in Langerhans Islets of Rat Offspring.

OBJECTIVE: DNA methylation, a major epigenetic reprogramming mechanism, contributes to the increased prevalence of type 2 diabetes mellitus (T2DM). Based on genome-wide association studies, polymorphisms in CDKN2A/B are associated with T2DM. Our previous studies showed that gestational diabetes mellitus (GDM) causes apoptosis in ß-cells, leading to a reduction in their number in pancreatic tissue of GDM-exposed adult rat offspring. The aim of this study was to examine the impact of intrauterine exposure to GDM on DNA methylation, mRNA transcription, as well as protein expression of these factors in the pancreatic islets of Wistar rat offspring. Our hypothesis was that the morphological changes seen in our previous study might have been caused by aberrant methylation and expression of CDKN2A/B. MATERIALS AND METHODS: In this experimental study, we delineated DNA methylation patterns, mRNA transcription and protein expression level of CDKN2A/B in the pancreatic islets of 15-week-old rat offspring of streptozotocin-induced GDM dams. We performed bisulfite sequencing to determine the DNA methylation patterns of CpGs in candidate promoter regions of CDKN2A/B. Furthermore, we compared the levels of mRNA transcripts as well as the cell cycle inhibitory proteins P15 and P16 in two groups by qPCR and western blotting, respectively. RESULTS: Our results demonstrated that hypomethylation of CpG sites in the vicinity of CDKN2A and CDKN2B genes is positively related to increased levels of CDKN2A/B mRNA and protein in islets of Langerhans in the GDM offspring. The average percentage of CDKN2A promoter methylation was significantly lower in GDM group compared to the controls (P<0.01). CONCLUSION: We postulate that GDM is likely to exert its adverse effects on pancreatic ß-cells of offspring through hypomethylation of the CDKN2A/B promoter. Abnormal methylation of these genes may have a link with ß-cell dysfunction and diabetes. These data potentially lead to a novel approach to the treatment of T2DM.

Gestational diabetes influences retinal Muller cells in rat's offspring.

OBJECTIVES: The Muller cell is the principal glial cell of the vertebrate retina. The expression of Glial fibrillary acidic protein (GFAP) in the Muller cells was used as a cellular marker for retinal damage. This study was done to evaluate the effect of gestational diabetes on retinal Muller cells in rat's offspring. MATERIALS AND METHODS: In this experimental study, 12 Wistar rat dams were randomly allocated in control and diabetic groups. Gestational diabetes was induced by 40 mg/kg/body weight of streptozotocin at the first day of gestation, intraperitoneally. Dams in control group received an equivalent volume normal saline. Eye of six offspring of each group were removed at postnatal day 28 (P28). The histopathological changes in retina were examined through H&E staining and ultrastructure transmission electron microscopy (TEM). The expression of GFAP was examined using Immunohisto-chemical staining of GFAP in Muller cells. Photographs of retina were taken using Olympus BX51 microscope and a digital camera DP12 and EM LEO906; Zeiss, Germany. RESULTS: In the control rat's offspring, GFAP expression was not significant in Muller cells. According to the optical microscope images, GFAP expression was observed in the processes of the Muller cell in the inner plexiform layer of retina in offspring of diabetic mothers. In TEM technique, nuclear fragmentation and apoptotic bodies were observed in Muller cell of diabetic offspring. CONCLUSION: This study showed that the uncontrolled gestational diabetes can increase GFAP expression in Muller cells and retinal thickness of retinal layer in rat offspring's, therefore uncontrolled gestational can damage the Muller cells.

The effect of gestational diabetes mellitus on sciatic nerve in adult offspring rats / Efecto de la diabetes mellitus gestacional sobre el nervio ciático en ratas adultas

Gestational diabetes mellitus (GDM) is one form of diabetes affect approximately 7 % of pregnancies. Diabetic peripheral neuropathy (DPN) is a common complication of diabetes that is associated with loss of nerve fibers, myelin abnormalities and significant decrease in the expression of myelin basic protein (MBP) in peripheral nerves. This study was done to determine the effect of induced diabetes during pregnancy on sciatic nerve in adult rat offspring. In this study, wistar rats' dams were allocated to control and diabetic groups. Diabetic rats were received 40 mg/kg/body weight of streptozotocin (STZ) on the first day of gestation. Six offspring of each group were randomly selected on 12 weeks postnatal and histopathological changes in their nerve tissue were examined through H&E staining and transmission electron microscopy. Furthermore, the expression of MBP in sciatic nerve was examined by immunohistochemistry. We found that the myelinated fiber number of sciatic nerve in offspring of diabetic rats was reduced compared to the controls, but this difference was not significant. The average thickness of the myelin sheath of sciatic nerve fibers in the control and GDM was 97.1±0.1and 94.1±0.2 µm, respectively that the difference was not statistically significant. The expression of MBP protein in the myelin sheath of both groups was similar. TEM results showed that myelin sheath of diabetic offspring had not any changes compared to control. Atrophy of axons and schwannocytus (Schwann cells) alterations were not observed in diabetic offspring. Induction of diabetes during pregnancy reduced the number of nerve fibers and thickness of the myelin sheath. But it has no effect on MBP expression and schwannocytus morphology.

La diabetes mellitus gestacional (DMG) es una forma de diabetes que afecta aproximadamente al 7 % de los embarazos. La neuropatía periférica diabética (NPD) es una complicación frecuente de la diabetes asociada a la pérdida de fibras nerviosas, anomalías de la mielina y disminución significativa de la expresión de la proteína básica de mielina (PBM) en los nervios periféricos. Este estudio se realizó para determinar el efecto de la diabetes inducida durante el embarazo en el nervio ciático en descendientes de ratas adultas. Las ratas Wistar madres fueron asignadas a los grupos control y diabéticas. Las ratas diabéticas recibieron 40 mg/kg/peso corporal de estreptozotocina (STZ) el primer día de gestación. Seis descendientes de cada grupo fueron seleccionados al azar en la semana 12 postnatal y los cambios histopatológicos en su tejido nervioso se examinaron a través de tinción H-E y microscopía electrónica de transmisión. Además, la expresión de PBM en el nervio ciático se examinó mediante inmunohistoquímica. Se encontró que el número de fibras mielinizadas de nervio ciático en descendientes de ratas diabéticas se redujo en comparación con los controles, pero esta diferencia no fue significativa. El espesor medio de la vaina de mielina de las fibras nerviosas ciáticas en el control y DMG fue de 97,1±0,1 y 94,1±0,2 µm, respectivamente, y la diferencia no fue estadísticamente significativa. La expresión de la proteína PBM en la vaina de mielina de ambos grupos fue similar. Los resultados del TEM mostraron que la vaina de mielina de la descendencia diabética no tuvo ningún cambio en comparación con el control. La atrofia de los axones y las alteraciones de los schwannocitos (células de Schwann) no se observaron en descendientes diabéticos. La inducción de diabetes durante el embarazo redujo el número de fibras nerviosas y el grosor de la vaina de mielina. Pero no tiene ningún efecto sobre la expresión de PBM y la morfología de las schwannocitos.

Gestational diabetes reduces pancreatic beta cells in rat offspring / La diabetes gestacional reduce las células beta pancreáticas en crías de ratas

Previous study has shown the adverse effects of gestational diabetes on hippocampal and spinal cord neuronal density in animal model. This study was conducted to determine the effect of gestational diabetes on beta cells in rat pancreas in early postnatal life. In this experimental study, 10 dams randomly allocated into control and diabetic groups on day 1 of gestation. Five dams in diabetic group received 40 mg/kg/BW of streptozotocin (intraperitoneally) and control animals received normal saline. Six of 28 and 56-day-old offspring of each gestational diabetes mellitus and controls were randomly scarified and sections were taken from the pancreas and stained using Gomorra's method. The density of beta cells and number and area of pancreatic islets were evaluated by quantitative computer-assisted morphometric method. The density of beta cells of 28-day-old offspring pancreas significantly reduced from 96.23±5.0 in control group to 71.5±5.3 cells in 10000 mm2 area of islet in diabetic group (P <0.01). The number of the pancreatic islets of in gestational diabetes (15.25±3.7) significantly reduced in comparison with the controls (8.61±0.7). The density of beta cells of 56-day-old offspring pancreas significantly reduced from 105.33±8.6 in control group to 62.12±5.9 in diabetic group (P <0.01). The number of the pancreatic islets of in gestational diabetes (13.5±0.5) significantly reduced compared to controls (6.75±1.7) (P <0.01). This study revealed that gestational diabetes loss the number of the beta cells in 28 and 56-day-old rat offspring.

Estudios previos han mostrado los efectos adversos de la diabetes gestacional en la densidad neuronal del hipocampo y de la médula espinal en modelos animales. Este estudio se llevó a cabo para determinar el efecto de la diabetes gestacional en las células beta del páncreas de rata en vida postnatal temprana. En este estudio experimental, 10 ratas fueron asignadas al azar a los grupos control y diabético en el día 1 de gestación. Cinco ratas del grupo diabético recibieron 40 mg/kg/BW de estreptozotocina (intraperitonealmente), mientras que los animales del grupo control recibieron solución salina normal. Seis de los descendientes, de 28 y 56 días de edad, de cada grupo, diabetes mellitus gestacional y control, se escarificaron al azar y se tomaron secciones del páncreas, que se tiñeron usando el método de Gomorra. La densidad de las células beta y el número y área de islotes pancreáticos fueron evaluados a través de método cuantitativo asistido por computadora morfométrica. La densidad de células beta del páncreas en las crías de 28 días disminuyó significativamente de 96,23 ± 5,0 en el grupo de control a 71,5 ± 5,3 células en el grupo diabético, en 10000 mm2 de área de islote (P <0,01). El número de islotes pancreáticos de la diabetes gestacional (15,25 ± 3,7) se redujo significativamente en comparación con los controles (8,61 ± 0,7). La densidad de células beta del páncreas en las crías de 56 días de edad se redujo de 105,33 ± 8,6 en el grupo de control a 62,12 ± 5,9 en el grupo diabético (P <0,01). El número de islotes pancreáticos en el grupo de diabetes gestacional (13,5 ± 0,5) se redujo significativamente en comparación con los controles (6,75 ± 1,7) (P <0,01). Este estudio reveló que la diabetes gestacional provoca una pérdida en el número de células beta en crías de ratas de 28 y 56 días de edad.

Hippocampal neuronal apoptosis in rat offspring due to gestational diabetes / Apoptosis neuronal del hipocampo en crías de ratas debido a la diabetes gestacional

Gestational diabetes mellitus (GDM) defined as impaired glucose tolerance affects approximately 6 % of all pregnant women who have never before had diabetes, but who do have high blood glucose levels during pregnancy. This study was done to evaluate the apoptosis in the neuronal cells in the CA1, CA2 and CA3 subfields of hippocampus and dentate gyrus in offspring of gestational diabetes at the 7, 21 and 28 d in postnatal rats. Thirty Wistar rat dams were randomly allocated in control and diabetic group. Dams in diabetic group were received 40 mg/kg/BW of streptozotocin at the first day of gestation and control groups received an equivalent volume normal saline injection intraperitoneally (IP). Six offspring of GDM and control dams, at the 7, 21, 28 postnatal day were randomly were sacrificed quickly with anesthesia. The coronal sections of brain serially collected. The apoptosis neurons were evaluated with TUNEL Assay. In the CA1, the number of apoptotic cells in 7, 21 and 28 d of postnatal life were significantly increased in GDM compared to controls (P<0.001). In the CA2, CA3 the number of apoptotic cells in 7, 21 and 28 d age-old offspring were significantly increased in GDM compared to controls (P<0.001). In the dentate gyrus, the number of apoptotic cells in 7, 21 and 28 d of postnatal life were significantly increased in GDM compared to controls (P<0.01). This study showed that the uncontrolled gestational diabetes significantly increases neuronal apoptosis in hippocampal and dentate gyrus in rat offspring.

La diabetes mellitus gestacional (DMG) se define como la intolerancia a la glucosa que afecta aproximadamente al 6 % de todas las mujeres embarazadas que nunca han tenido diabetes, pero que sí tienen niveles de glucosa en la sangre elevados durante el embarazo. El objetivo de este estudio fue evaluar la apoptosis de células neuronales en CA1, CA2 y CA3, subcampos del hipocampo y el giro dentado, en las crías de ratas con diabetes gestacional en los días 7, 21 y 28 luego del nacimiento. Se utilizaron 30 ratas Wistar asignadas aleatoriamente en grupos control y diabético (GDM). Se administró al grupo diabético 40 mg/kg de peso corporal de estreptozotocina en el primer día de gestación y el grupo control recibió un volumen equivalente de solución salina normal por inyección vía intraperitoneal. Seis crías de los grupos GDM y control fueron seleccionadas aleatoriamente y sacrificadas bajo anestesia los días 7, 21, 28. Se tomaron secciones seriales coronales del cerebro. La apoptosis neuronal se evaluó mediante ensayo TUNEL. En el CA1, el número de células apoptóticas a los 7, 21 y 28 d se incrementó significativamente en el grupo GDM en comparación con los controles (P <0.001). En el CA2 y CA3 el número de células apoptóticas en los días 7, 21 y 28 también se incrementó significativamente en GDM en comparación con los controles (P <0,001). En el giro dentado, el número de células apoptóticas en los días 7, 21 y 28 se incrementó significativamente en GDM en comparación con los controles (P <0,01). Este estudio mostró que la diabetes gestacional no controlada aumenta significativamente la apoptosis neuronal en el hipocampo y el giro dentado en las crías de las ratas.

Alterations of the giant pyramidal neurons (Betz cells) in brain cortex of rat offspring born from gestational diabetic dams: a morphometric study / Alteraciones de las neuronas piramidales gigantes de la corteza cerebral en crías de ratas nacidas de hembras con diabetes gestacional: un estudio morfométrico

A few studies reported the adverse effects of gestational diabetes on hippocampus and spinal cord of rat offspring. Giant pyramidal neurons are giant pyramidal neurons located in fifth layers of the gray matter in the primary motor cortex. Therefore, this study was conducted to determine the effect of gestational diabetes on the giant pyramidal neurons and the thickness of internal pyramidal layer in the brain cortex of rat offspring. On day 1 of gestation, 10 Wistar rat dams were randomly allocated into two control and diabetic groups. Five animals in diabetic group received 40 mg/kg/BW of Streptozotocin (intraperitoneally) and control animals received normal saline. We randomly selected six offspring of every subject in both groups at day 28, 56 and 84. Rat offspring were scarified and then coronal sections were taken from the right brain cortex and sections were stained with Cresyl violet. The density of giant pyramidal neurons in brain cortex and thickness of internal pyramidal layer of brain cortex were evaluated. In P28, P56, P84 the Betz cells density of brain cortex were significantly reduced from 107.6±6.2, 131.6±4.6 and 143.5±4.0 in controls to 84.96±2.1, 109.8±7.3 and 121.05±5.6 in cases (p<0.05), respectively. The thickness of the internal pyramidal layer of brain cortex in P28, 56 and P84 was significantly higher in gestational diabetic group in comparison with the control group (p<0.05). This study showed that uncontrolled gestational diabetes reduces the giant pyramidal neurons density and internal pyramidal layer thickness in brain cortex of rat offspring.

Pocos estudios han informado de los efectos adversos de la diabetes gestacional sobre las células del hipocampo y médula espinal. Este estudio, se realizó para determinar el efecto de la diabetes gestacional sobre las neuronas piramidales gigantes ubicadas en la quinta capas de la sustancia gris en la corteza motora primaria y el espesor de la capa piramidal interna en la corteza cerebral en crías de ratas. En el día 1 de la gestación, 10 ratas Wistar se asignaron aleatoriamente en dos grupos: control y diabéticos. Cinco animales del grupo diabético, fueron inyectados con 40 mg/kg de peso corporal de estreptozotocina (por vía intraperitoneal), y los de el grupo control, con solución salina. Aleatoriamente, se seleccionaron seis crías de cada hembra de ambos grupos los días 28, 56 y 84. Las crías fueron sacrificadas, se tomaron secciones coronales de la corteza cerebral derecha y se tiñeron con violeta de cresilo. Se evaluó la densidad de las neuronas piramidales gigantes en la corteza cerebral y el espesor de la capa piramidal interna de la corteza cerebral. En los días 28, 56, 84 la densidad de las neuronas piramidales gigantes en corteza cerebral se redujo significativamente al comparar los controles (107,6±6,2, 131,6±4,6 y 143,5±4,0 respectivamente) con los casos (84,96±2,1, 109,8±7,3 y 121,05±5,6 respectivamente) (p<0,05). El espesor de la capa piramidal interna de la corteza cerebral en los días 28, 84 y 56 fue significativamente mayor en el grupo diabético gestacional en comparación con el grupo control (p<0,05). Este estudio muestra que la diabetes gestacional no controlada reduce la densidad de neuronas piramidales gigantesy el espesor interno de la capa piramidal en la corteza cerebral de las crías de rata.

Effect of Gestational Diabetes on Purkinje and Granule Cells Distribution of the Rat Cerebellum in 21 and 28 days of Postnatal Life.

INTRODUCTION: Diabetes mellitus is associated with nervous system alterations in both human and animal models. This study was done to determine the effect of gestational diabetes on the Purkinje and granular cells in the cerebellum of rat offspring. METHODS: 10 Wistar rats Dams were randomly allocated in control and diabetic group. The experimental group received 40 mg/kg/body weight of streptozotocin (STZ) at the first day of gestation and control groups received saline injection intraperitoneally (IP). Six male offsprings of gestational diabetic mothers and control dams, at the 21, 28 postnatal days were randomly scarified and coronal sections of cerebellum (6 micrometer) serially collected. The neurons were stained with cresyl violet. RESULTS: The Purkinje cells density in the apex and depth of cerebellum in P21, in the experimental group was reduced 23% and 15% in comparison with the control group (P<0.001). The granular cells density in the experimental group was reduced 19.58% and 18.3% in comparison with the controls (P<0.001). The Purkinje cells density of cerebellum in P28, in the diabetic group reduced to 22.12% and 12.62% in comparison with the control group (P<0.001). The granular cells density in the diabetic group reduced 17.14% and 16.12% in comparison with the control group (P<0.001). DISCUSSION: The Purkinje and granular cells significantly reduced in gestational diabetes rat offspring.

Ganglionic cells apoptosis in retinal layer of rat offspring due to gestational diabetes / Células ganglionares apoptóticas en la capa de la retina de crías de ratas debido a la diabetes gestacional

Previous studies have shown the adverse effects of gestational diabetes on hippocampal neuronal density in animal models. This study was conducted to determine the effect of gestational diabetes on retinal ganglionic cell density, the thickness of the retinal layer and apoptotic ganglionic cell density in 28-day-old of rat offspring. In this experimental study, 10 Wistar rat dams were randomly allocated in control and diabetic groups. Gestational diabetes was induced by 40 mg/kg/body weight of streptozotocin at the first day of gestation, intraperitoneally, dams in control group received an equivalent volume normal saline. At postnatal day 28, six offspring of each gestational diabetes and controls were randomly selected, sacrificed and sections (6 micrometer) were taken from the eye and stained with hematoxylin and eosin. The density of ganglionic cells and the number of dUTP end-labeling (TUNEL)-positive cells were evaluated in 20000 mm2 area of ganglion layer of the retina. The ganglionic cells density were reduced (27.4%) in gestational diabetic offspring in compared to controls (22.5±1.5 vs. 31.0±0.9, P<0.01). The apoptotic ganglionic cells of retina in interventional group significantly increased in compared to controls (6.74±0.60 vs. 5.12±0.26, P<0.02). This study showed that the uncontrolled gestational diabetes can reduce the number of ganglionic cells and increase apoptotic ganglionic cells of retina layer in rat offspring.

Estudios previos en un modelo animal han demostrado los efectos adversos de la diabetes gestacional en la densidad neuronal del hipocampo. El objetivo fue determinar el efecto de la diabetes gestacional en la densidad de las células ganglionares de la retina, en el espesor de la capa de la retina y en la densidad de las células apoptóticas ganglionares, en crías de ratas de 28 días. En este estudio experimental, 10 ratas Wistar fueron asignadas aleatoriamente en grupos control y diabéticos. La diabetes gestacional se indujo a partir de la administración de 40 mg/kg/peso corporal de estreptozotocina en el primer día de la gestación, por vía intraperitoneal. Al grupo control se administró un volumen equivalente de solución salina normal. En el día 28 luego del nacimiento, se seleccionaron aleatoriamente seis crías procedentes de los grupos con diabetes gestacional y controles, se eutanasiaron y se tomaron muestras de los ojos, en forma de secciones de 6 micrómetros, las cuales se tiñeron con H & E. La densidad de las células ganglionares y el número final de células dUTP positivas (TUNEL) se evaluaron a nivel de la capa ganglionar de la retina, en un área de 20.000 mm2. La densidad de las células ganglionares se redujo un 27,4% en la descendencia con diabetes gestacional en comparación con los controles (22,5±1,5 vs. 31,0±0,9, P<0,01). Las células ganglionares apoptóticas de la retina en el grupo con diabetes gestacional aumentaron significativamente en comparación con los controles (6,74±0,60 vs. 5,12 ± 0,26, P <0,02). Este estudio demostró que la diabetes gestacional no controlada puede reducir el número de células ganglionares y aumentar el número de células ganglionares apoptóticas de la capa de la retina en las crías de las ratas con diabetes gestacional.

Effect of gestational diabetes on neuronal cells in rat cerebellum in early postnatal life / Efecto de la diabetes gestacional sobre las células neuronales del cerebelo de ratas en el período postnatal

Previous study has shown the adverse effects of gestational diabetes on hippocampal neuronal density in animal model. This study was conducted to determine the effect of gestational diabetes on rat cerebellum in early postnatal life. In this experimental study, 10 dams randomly allocated into control and diabetic groups on day 1 of gestation. Five dams in diabetic group were administered 40 mg/kg/BW (intraperitoneally) of streptozotocin and control animals received normal saline. Six offspring of each gestational diabetes mellitus and controls were randomly selected at day 7 of postnatal life. Offspring were sacrificed and coronal sections were taken from the cerebellum and stained with cresyl violet. The number of Purkinje and granular cells and thickness of layers of cerebellum were evaluated by quantitative computer-assisted morphometric method. The Purkinje cells density at apex and depth of cerebellar lobules in the experimental group (14.40±0.7, 14.86±0.6) significantly reduced in comparison with the control group (16.72±0.3, 17.85±0.7) (P<0.05). The granular cell density at apex and depth of cerebellar lobules in the experimental group (23.94±0.6, 22.81±0.5) significantly reduced in comparison with the control group (29.20±0.8, 28.1±0.8) (P<0.05). The thickness of the Purkinje and internal granular and molecular layers at apex and depth of cerebellar cortex significantly reduced in diabetics group compared to controls (P<0.05). This study revealed that gestational diabetes induces loss of number and size of the Purkinje cells and the granular cells and reduction of thickness of the Purkinje and internal granular layer of the cerebellar cortex in neonatal mice.

Estudios previos han demostrado los efectos adversos de la diabetes gestacional sobre la densidad neuronal del hipocampo en modelos animales. Este estudio se realizó para determinar el efecto de la diabetes gestacional en el cerebelo de ratas durante la edad temprana postnatal. Fueron asignadas 10 ratas hembras al azar en grupos control y diabético en el primer día de gestación. Cinco en el grupo diabético recibieron una dosis de 40 mg/kg/Peso corporal de estreptozotocina (intraperitoneal) y los control una solución salina normal. Seis crías de cada una de las hembras del grupo diabetes mellitus gestacional y del grupo controles fueron seleccionados al azar el día 7 de vida postnatal. Fueron sacrificadas y se obtuvieron secciones coronales desde el cerebelo que fueron teñidas con violeta de cresilo. El número de células granulares de Purkinje y espesor de las capas de cerebelo fueron evaluadas por método morfométrico y ordenador cuantitativo. La densidad de células de Purkinje en el ápice y profundidad de los lóbulos del cerebelo en el grupo experimental (14,40±0,7 y 14,86±0,6) se redujeron significativamente en comparación con el grupo control (16,72±0,3 y 17,85±0,7) (P<0,05). La densidad de células granulares en el ápice y profundidad de los lóbulos del cerebelo en el grupo experimental (23,94±0,6 y 22,81±0,5) se redujo significativamente en comparación con el grupo control (29,20±0,8 y 28,1±0,8) (P<0,05). En el espesor de células Purkinje, las capas moleculares y granulares internas en el ápice y profundidad de la corteza del cerebelo, se observó una reducción significativa en el grupo diabéticos en comparación con los controles (P<0,05). Se observó que la diabetes gestacional induce la pérdida del número y tamaño de las células Purkinje y de células granulares, así como la reducción del espesor de las capas de Purkinje y granular interna de la corteza del cerebelo en ratones neonatos.

Prenatal morphine exposure reduces pyramidal neurons in CA1, CA2 and CA3 subfields of mice hippocampus.

OBJECTIVE(S): This study was carried out to evaluate the effect of maternal morphine exposure during gestational and lactation period on pyramidal neurons of hippocampus in 18 and 32 day mice offspring. MATERIALS AND METHODS: Thirty female mice were randomly allocated into cases and controls. In case group, animals received morphine sulfate 10 mg/kg.body weight intraperitoneally during 7 days before mating, gestational period (GD 0-21), 18 and 32 days after delivery in the experimental groups. The control animals received an equivalent volume of normal saline. Cerebrum of six offsprings in each group was removed and stained with cresyl violet and a monoclonal antibody NeuN for immunohistochemical detection of surviving pyramidal neurons. Quantitative computer-assisted morphometric study was done on hippocampus. RESULTS: The number of pyramidal neurons in CA1, CA2 and CA3 in treated groups was significantly reduced in postnatal day 18 and 32 (P18, P32) compared to control groups (P<0.05). The mean thickness of the stratum pyramidal layer was decreased in the treated groups in comparison with controls (P<0.05), whereas the mean thickness of the stratum oriens, stratum radiatum and stratum lacunosum-moleculare in CA1 field and stratum oriens, stratum lucidum, stratum radiatum and stratum lacunosum-moleculare in CA3 were significantly increased in morphine treated group in comparison with controls (P<0.05). CONCLUSION: Morphine administration before and during pregnancy and during lactation period causes pyramidal neurons loss in 18 and 32 days old infant mice.

Preventing effect of vitamin E on oocytes apoptosis in morphine-treated mice / Efecto preventivo de la vitamina E sobre la apoptosis de ovocitos en ratones tratados con morfina

Several studies have shown that Morphine Sulfate affects on fertility, embryogenesis and consequent pregnancy loss and ultrastructural alterations of oocytes in animal model. This study was done to determine the effect of morphine sulfate on oocytes apoptosis and preventive role of daily supplementation of Vitamin E on oocytes apoptosis in morphine sulfate -treated mice. Twenty-four NMARI female mice were randomly allocated into four experimental groups. For 15 days, control group received saline (0.2 ml/day by subcutaneous injection), group I Vitamin E (60 mg/kg/day orally), group II Morphine Sulfate (10 mg/kg/day by subcutaneous injection) and group III Morphine Sulfate with Vitamin E (60 mg/kg/day orally). Then, animals were superovulated with PSMG (10 Units) and 10 Unites of HCG. The next day the animals were sacrificed, oocytes were flushed from each fallopian tube. The collected oocytes were subjected to determine apoptosis by Tunnel assay with using Fluorescent Microscope. According to our results, the number of retrieved oocytes were 121, 132, 86 and 114 in control, experimental group I, II and III, respectively. Morphine Sulfate treatment increased apoptosis in oocytes to 17.44 percent whereas oocytes apoptosis was 4.13 percent in Controls. Supplementation with Vitamin E in Morphine Sulfate -treated mice reduced the oocytes apoptosis to 7.01 percent. This study showed that Morphine can increase apoptosis in oocytes and Vitamin E treatment significantly reduces oocytes apoptosis in the Morphine Sulfate -treated mice.

Diversos estudios han demostrado que el sulfato de morfina afecta la fertilidad, embriogénesis y en consecuencia pérdida de la preñez y alteraciones ultraestructurales de los ovocitos en el modelo animal. Este estudio determinó el efecto del sulfato de morfina sobre la apoptosis de los ovocitos y papel preventivo de la suplementación diaria de la vitamina E en la apoptosis de ovocitos en ratones tratados con sulfato de morfina. Veinte y cuatro ratones NMARI hembras fueron asignados al azar en 4 grupos experimentales. Durante 15 días, el grupo control recibió solución salina (0,2 ml/día por inyección subcutánea), el grupo I vitamina E (60 mg/kg/día por vía oral), el grupo II Sulfato de morfina (10 mg/kg/día por inyección subcutánea) y el grupo de III sulfato de morfina con vitamina E (60 mg/kg/día por vía oral). Posteriormente, los animales superovularon con PSMG (10 unidades) y 10 unidades de HCG. El día siguiente, los animales fueron sacrificados, los ovocitos fueron aspirados desde cada tubo uterino. Los ovocitos recogidos fueron utilizados para determinar la apoptosis mediante el ensayo de TUNEL con el uso de microscopio de fluorescencia. El número de ovocitos recuperados fueron 121, 132, 86 y 114 en los grupos control y experimental I, II y III, respectivamente. El tratamiento con sulfato de morfina aumentó la apoptosis en los ovocitos un 17,44 por ciento, mientras que la apoptosis de los ovocitos fue 4,13 por ciento en los controles. La suplementación con vitamina E en los ratones tratados con sulfato de morfina redujo la apoptosis de los ovocitos en 7,01 por ciento. Este estudio demostró que la morfina puede aumentar la apoptosis en los ovocitos y el tratamiento vitamina E redujo significativamente la apoptosis en los ovocitos de ratones tratados con sulfato de morfina.

The preventive and treatment effect of urtica dioica on astrocyte density in the CA1 and CA3 subfields of hippocampus in STZ induced diabetic rats / Efecto preventivo y del tratamiento de urtica dioica sobre la densidad de astrocitos en los subcampos CA1 y CA3 del hipocampo en ratas con diabetes inducida por STZ

Several animal model studies have shown that Diabetes mellitus can affect on the activity of hippocampus astrocytes, but these studies reported controversial findings. This study was done to evaluate the preventive and treatment effect of Urtica dioica (U. dioica) on astrocytes density in the CA1 and CA3 subfields of hippocampus of streptozotocin (STZ) induced diabetic rats. Twenty-eight male albino Wistar rats were randomly allocated equally into control, diabetic, U. dioica treatment and U. dioica preventive groups. Hyperglycemia was induced by STZ (80 mg/kg/BW). One week after injection of the streptozotocin, animals in treatment group were received hydroalcoholic extract of U. dioica (100 mg/kg/BW /day) for 4 weeks by intraperitoneally. In preventive group, diabetic rats were received 100 mg/kg/BW/ daily hydroalcoholic extract of U. dioica for 5 days before STZ injection. Then, animals were sacrificed and coronal sections were taken from the right dorsal hippocampus, stained with PTAH. The area densities of the astrocytes were measured. The number of astrocytes in CA1 of controls, diabetic treatment and preventive groups was 19.00+/-5.5, 17.14+/-6.4, 21+/-8.1 and 16.48+/-3.2, respectively. The densities of astrocytes in CA3 of controls, diabetic, treatment and preventive groups were 25.45+/-7.60, 21.54+/-7.5, 23.75+/-5.6 and 19.89+/-3.8, respectively. The density of astrocytes in diabetic rats reduced in comparison with controls (P<0.05). In CA1 and CA3, in spite of preventive administration, treatment of diabetic rats with U. dioica significantly increased the astrocytes. This study showed that treatment with U. dioica extract can help compensate for the CA1 and CA3 subfields of hippocampus astrocytes in diabetic rats.

Varios estudios en modelos animales han mostrado que la diabetes mellitus puede afectar la actividad de los astrocitos del hipocampo, pero estos resultados son controvertidos. Este estudio se realizó para evaluar el efecto preventivo y de tratamiento de la Urtica dioica (U. dioica) en la densidad de los astrocitos en los subcampos CA1 y CA3 del hipocampo en ratas diabéticas inducidas por estreptozotocina (STZ). Veintiocho ratas Wistar albinas macho fueron asignadas al azar por igual en grupos control, diabético, con tratamiento U. dioica y preventivo con U.dioica. La hiperglucemia se indujo por STZ (80 mg/kg/peso corporal). Una semana después, los animales del grupo tratamiento recibieron el extracto hidroalcohólico de U. dioica (100 mg/kg/peso corporal/día) durante 4 semanas vía intraperitoneal. El grupo preventivo, recibió 100 mg/kg/peso corporal/día de extracto hidroalcohólico U. dioica durante 5 días antes de la inyección de STZ. Los animales fueron sacrificados, se tomaron secciones coronales del hipocampo dorsal derecho y se tiñeron con PTAH. Fueron medidas las densidades de área de los astrocitos. El número de astrocitos en CA1 de los grupos de ratas control, diabéticas, con tratamiento de U. dioica y preventivo con U. dioica fue 19,00+/-5,5, 17,14+/-6,4, 21+/-8,1 y 16,48+/-3,2, respectivamente. Las densidades de los astrocitos en CA3 de los grupos de ratas control, diabéticas, con tratamiento de U. dioica y preventivo con U. dioica fue 25,45+/-7,60, 21,54+/-7,5, 23,75+/-5,6 y 19,89+/-3,8, respectivamente. La densidad de los astrocitos en las ratas diabéticas se redujo en comparación con los controles (P <0,05). En CA1 y CA3, a pesar de la administración preventiva, sólo el tratamiento de ratas diabéticas con U. dioica aumentó significativamente los astrocitos. Este estudio mostró que el tratamiento con extracto de U. dioica puede ayudar a compensar los astrocitos de los subcampos CA1 y CA3 del hipocampo en ratas diabéticas.

Purkinje cells loss in off spring due to maternal morphine sulfate exposure: a morphometric study.

The toxic effects of morphine sulfate in the adult cerebral cortex and one-day neonatal cerebellum have been studied. This study was carried out to evaluate the effect of maternal morphine exposure during gestational and lactation period on the Purkinje cells and cerebellar cortical layer in 18- and 32-day-old mice offspring. Thirty female mice were randomly allocated into cases and controls. In cases, animals received morphine sulfate (10 mg/kg/body weight intraperitoneally) during the 7 days before mating, gestational day (GD 0-21) 18 or 32. The controls received an equivalent volume of saline. The cerebellum of six infants for each group was removed and each was stained with cresyl violet. Quantitative computer-assisted morphometric study was done on cerebellar cortex. The linear Purkinje cell density in both experimental groups (postnatal day [P]18, 23.40±0.5; P32, 23.45±1.4) were significantly reduced in comparison with the control groups (P18, 28.70±0.9; P32, 28.95±0.4) (P<0.05). Purkinje cell area, perimeter and diameter at apex and depth of simple lobules in the experimental groups were significantly reduced compared to the controls (P<0.05). The thickness of the Purkinje layer of the cerebellar cortex was significantly reduced in morphine treated groups (P<0.05). This study reveals that morphine administration before pregnancy, during pregnancy and during the lactation period causes Purkinje cells loss and Purkinje cell size reduction in 18- and 32-day-old infant mice.

Alteration of dentate gyrus astrocytes in diabetic rats: protective role of urtica dioica / Alteración de los astrocitos del giro dentado en ratas diabéticas: rol protector de urtica dioica

Diabetes mellitus can cause astrocytes alterations in the central nervous system. Urtica dioica (Nettle) is among several species listed for their use against diabetes in folk medicine. Therefore, this study was done to evaluate the protective effect of Urtica dioica on astrocytes density of the dentate gyrus in STZ induced diabetic rats. In this experimental study, 21 male albino Wistar rats were randomly allocated equally into normal, diabetic and protective (nettle treated diabetic) groups. Hyperglycemia was induced by streptozotocin (80 mg/kg) in the animals of diabetic and treatment groups. Before induction of diabetes in animals, animals in protective group received hydroalcoholic extract of Urtica dioica (100 mg/kg/BW /day) for five days intraperitoneally. Four weeks after induction of diabetes, animals were sacrificed and coronal sections were taken from the dorsal hippocampal formation of the right cerebral hemispheres and stained with PTAH stain. The area densities of the astrocytes were measured and compared in the three groups (p < 0.05). The number of astrocytes in DG area of controls was 17.72+/-6.7. The density of astrocytes increased in diabetic (24.26+/-9.5) in comparison with controls. The density in the nettle treated rats (23.17+/-5.8) was lower than diabetic rats. This study showed that the administration of U. dioica extract before induction of diabetes can not significantly help compensate for astrocytes in the dentate gyrus of treated rats.

La diabetes mellitus puede provocar alteraciones de los astrocitos en el sistema nervioso central. La Urtica dioica (ortiga) es una de varias especies incluidas para su uso contra la diabetes en la medicina popular. Este estudio se realizó para evaluar el efecto protector de la Urtica dioica sobre la densidad de los astrocitos en el giro dentado en ratas con diabetes inducida por STZ. En este estudio experimental 21 ratas albinas Wistar fueron asignadas al azar equitativamente en grupos normal, diabético y protegido (diabéticos tratados con ortiga). La hiperglicemia fue inducida por estreptozotocina (80 mg/kg) en los grupos de animales diabéticos y en tratamiento protector. Previo a la inducción diabética, los animales del grupo protegido recibieron, por vía intraperitoneal, extracto hidroalcohólico de Urtica dioica (100 mg/kg/peso corporal/día) durante cinco días . Cuatro semanas después de la inducción de la diabetes, los animales fueron sacrificados y se tomaron secciones coronales de la formación del hipocampo dorsal de los hemisferios cerebrales derechos y se tiñeron con tinción PTAH. La densidad de área de los astrocitos fue medida y comparada en los tres grupos (p<0,05). El número de astrocitos en el área del giro dentado en los controles fue 17,72+/-6,7. La densidad de los astrocitos aumentó con la diabetes (24,26+/-9,5) en comparación con los controles. La densidad en las ratas tratadas con ortiga (23,17+/-5,8) fue menor que las ratas diabéticas. Este estudio demostró que la administración del extracto de U. dioica antes de la inducción diabética no ayuda significativamente a la compensación de los astrocitos en el giro dentados de las ratas tratadas.

Study of embryotoxicity of mentha piperita L. during organogenesis in balb/c mice / Estudio de la embriotoxicidad de mentha piperita L. durante la organogénesis en ratones balb/c

Mentha piperita (Labiatae), commonly known as peppermint is a native Iranian herb which is used in folk medicine for various purposes. This study was carried out to reveal the teratogenic effect of Mentha piperita on mice fetuses. In this experimental study, pregnant Balb/c mice divided to four groups. Case group received 600 (treatment I) and 1200 (treatment II) mg/kg/day the hydroalcoholic extract of Mentha piperita during 6-15 of gestational days and one control group received normal saline during GD6-GD15 by gavages and other control group did not receive any matter during 6-15 of gestational days. Mice sacrificed at GD18 and embryos were collected. Macroscopic observation was done by stereomicroscope. 20 fetuses of each group were stained by Alizarin red-S and Alcian blue staining method. The Mean weight of fetuses decreased in treatment groups rather than control (P<0.05) but CRL there was no significant difference between treatments and controls groups. In the treatment I (600 mg/kg/day) and treatment II (1200 mg/kg/day), normal saline and control group, no gross congenital malformations were observed in fetuses. Treated fetuses also had no delayed bone ossification as determined by Alizarin red-S and Alcian blue staining method. This study showed that the hydroalcoholic extract of Mentha piperita (600 and 1200 mg/kg/day) has no teratogenic effect in mice fetuses if used continuously during embryonic period.

Mentha piperita (Labiatae), comúnmente conocida como menta, es una hierba nativa de Irán, que se utiliza en la medicina tradicional para diversos fines. Este estudio fue realizado para descubrir el efecto teratogénico de la Mentha piperita en fetos de ratones. Los ratones Balb/c preñadas fueron divididas en cuatro grupos. Los grupos recibieron 600 (tratamiento I) y 1200 (tratamiento II) mg/kg/día del extracto hidroalcohólico de Mentha piperita durante los días 6-15 de gestación (DG), mientras que un grupo control recibió solución salina normal durante los DG 6-15 vía oral y otro grupo control sano no recibió substancia durante los DG 6-15. Los ratones fueron sacrificados el DG 18, recolectando los fetos. Se realizó la observación macroscópica mediante un estereomicroscopio. 20 fetos de cada grupo se tiñeron por el método de rojo de alizarina-S y azul de Alcián. La media de peso de los fetos disminuyó más en los grupos de tratamientos que los controles (p <0,05), pero CRL no presentó diferencias significativas entre los tratamientos y los grupos control. En los fetos del grupos tratamiento I (600 mg/kg/día), tratamiento II (1200 mg/kg/día), solución salina normal y control no se observó ninguna malformación congénita grave. Los fetos tratados tampoco tuvieron osificación ósea retrasada según lo determinado por el método de rojo de alizarina-S y azul de Alcián. Este estudio mostró que el extracto hidroalcohólico de Mentha piperita (600 y 1200 mg/kg/día) no tiene efectos teratogénicos en fetos de ratones al ser utilizado continuamente durante el período embrionario.

Protective Effect of Urtica dioica L. (Urticaceae) on Morphometric and Morphologic Alterations of Seminiferous Tubules in STZ Diabetic Rats.

OBJECTIVES: Urtica dioica L. has been known as a medicinal plant in the world. This study was conducted to determine the effects of the hydroalcoholic extract of Urtica dioica leaves on seminiferous tubules of diabetic rats. MATERIALS AND METHODS: Animals were allocated to control, diabetic and protective groups. Treated animals received extract of U. dioica (100 mg/ kg/ day) IP for the first 5 days and STZ injection on the 6th day. After 5 weeks, testes removed and stained with H&E technique. RESULTS: Tubular cell disintegration, sertoli and spermatogonia cell vacuolization, and decrease in sperm concentration observed in diabetic in comparison with control and protective groups. External seminiferous tubular diameter and seminiferous epithelial height significantly reduced (P< 0.05) in diabetic compared with controls, and these parameters increased (P< 0.05) in the treated compared with diabetics. CONCLUSION: Hydroalcoholic extract of U. dioica, before induction of diabetes; has protective role on seminiferous tubules alterations.

Effect of intrauterine morphine sulfate exposure on cerebellar histomorphological changes in neonatal mice.

Neurotoxic effects of morphine sulfate in adult cerebellar cortex and neonatal cerebral cortex have been studied in animal models. This study was done to determine the neurotoxic effects of prenatal morphine exposure on the histo-morphological changes of cerebellar cortical layer and Purkinje cells in mice neonates. In this experimental study 30 female mice were randomly allocated into cases and controls. In the case group, animals received morphine sulfate 10 mg/kg/body weight intraperitoneally for 7 days. After mating, dams received morphine sulfate 10 mg/kg/body weight intraperitoneally for 20 days of gestation. Animals in the control group received normal saline. On the day of delivery (P0), the cerebella of six neonates for each group were removed and stained with cresyl violet. Quantitative computer-assisted morphometric study was done on the cortical layer of the cerebellum. Morphine exposure caused a non-significant increase in fetal weight in the case group. Purkinje cells in cases were decreased in comparison with controls (p < 0.05). Histomorphometric examination revealed that the thickness of Purkinje and internal granular layers of the cerebellar cortex decreased in the morphine-exposed group (p < 0.05). This study revealed that morphine administration before and during pregnancy can cause Purkinje cell loss and reduction of thickness of the Purkinje and internal granular layer of the cerebellar cortex and size of Purkinje cells in neonatal mice.

Protective role of Urtica dioica L. (Urticaceae) extract on hepatocytes morphometric changes in STZ diabetic Wistar rats.

BACKGROUND/AIMS: The present investigation was carried out to evaluate the protective effect of the hydroalcoholic extract of Urtica dioica leaves on the quantitative morphometric changes in the liver of streptozotocin-induced diabetic rats. METHODS: Thirty male Wistar rats were divided into control (G1), diabetic (G2), diabetic + Urtica dioica (G3) groups. The control group received only sham injections of intraperitoneal saline; the diabetic group received intraperitoneal saline for 5 days followed by streptozotocin (80 mg/kg) on the 6th day; and the diabetic + Urtica dioica group received 100 mg/kg Urtica dioica intraperitoneal (7) injections for 5 days and streptozotocin injection on the 6th day. After five weeks, the animals were sacrificed and whole livers removed. Liver specimens were used for quantitative morphometric analysis after hematoxylin and eosin staining. All data were statistically analyzed by one-way ANOVA and expressed as the mean with standard error of means. RESULTS: In the G3 (diabetic + Urtica diocia) group, the mean surface area of hepatocytes in the periportal zone (Z1) was greater than in G2 (diabetic) and G1 (control) groups, but this difference was not significant. No alteration was observed in the surface area of hepatocytes in the perivenous zone (Z3) in the diabetic + Urtica dioica (G3) group compared to the diabetic (G2) group. The mean nuclear area of hepatocytes of the rats in the diabetic + Urtica dioica (G3) group was higher in Z1 and lower in Z3 than that of rats in the diabetic (G2) group. The mean diameter of hepatocyte nuclei in the diabetic + Urtica dioica (G3) group was lower than that of diabetic (G2) and control (G1) groups in both Z1 and Z3. CONCLUSIONS: This study revealed that the administration of extract of Urtica dioica leaves before induction of diabetic with streptozotocin has a protective effect on the morphometric alterations of hepatocytes in the periportal and perivenous zones of the liver lobule in rats.