Apical periodontitis promotes insulin resistance and alters adaptive immunity markers in rats.

OBJECTIVE: Apical periodontitis (AP) is a chronic or acute inflammatory disease usually developed from endodontic infections, predominantly due to gram-negative anaerobic bacteria invading the dental pulp. This study aimed to evaluate lymphocyte markers to assess the involvement of adaptive immunity in insulin resistance (IR) in a rat model of AP.Design.Forty-five male Wistar albino rats were divided into 3 groups (control, 1AP and 4AP). AP was induced in the upper right first molar (1AP), and in the first and second upper and lower right molars (4AP). The spleen was collected to evaluate the expression of transcription factors involved in lymphocyte polarization, including T-bet (Th1), GATA3 (Th2), and FOXP3 (Treg). Blood samples were assessed for serum cytokine levels transcribed by the respective lymphocyte polarizations, INF-γ (Th1), IL-4 (Th2) and TGF-ß (Treg). In addition, glucose and insulin levels were measured to evaluate IR by the HOMA-IR method. RESULTS: The results showed higher T-bet expression on AP groups, along with lower GATA3 and FOXP3 expression in the 1AP, in addition to increased GATA3 and decreased FOXP3 expression in the 4AP group compared to the CN group. There was no difference in the INF-γ levels, while IL-4 was decreased in the AP groups. Taken together, these results suggest that the adaptive immune system, with a predominance of the Th1 polarization, may be involved in the development of IR in rats with AP. CONCLUSIONS: AP promotes increase in the expression of T-bet (4AP) and decrease of FOXP3 expressions and IL-4 levels (1AP and 4AP). However, depending on the number of lesions (1 or 4 lesions), the expression of GATA3 appears differently. Thus, innate immunity and adaptive immunity may contribute to the IR observed in rats with AP.

Programmed Cell Senescence in the Mouse Developing Spinal Cord and Notochord.

Programmed cell senescence is a cellular process that seems to contribute to embryo development, in addition to cell proliferation, migration, differentiation and programmed cell death, and has been observed in evolutionary distant organisms such as mammals, amphibians, birds and fish. Programmed cell senescence is a phenotype similar to stress-induced cellular senescence, characterized by the expression of the cell cycle inhibitors p21CIP1/WAF and p16INK4A, increased activity of a lysosomal enzyme with beta-galactosidase activity (coined senescence-associated beta-galactosidase) and secretion of growth factors, interleukins, chemokines, metalloproteases, etc., collectively known as a senescent-associated secretory phenotype that instructs surrounding tissue. How wide is the distribution of programmed cell senescence during mouse development and its specific mechanisms to shape the embryo are still poorly understood. Here, we investigated whether markers of programmed cell senescence are found in the developing mouse spinal cord and notochord. We found discrete areas and developmental windows with high senescence-associated beta galactosidase in both spinal cord and notochord, which was reduced in mice embryos developed ex-utero in the presence of the senolytic ABT-263. Expression of p21CIP1/WAF was documented in epithelial cells of the spinal cord and the notochord, while p16INK4A was observed in motoneurons. Treatment with the senolytic ABT-263 decreased the number of motoneurons, supporting their senescent phenotype. Our data suggest that a subpopulation of motoneurons in the developing spinal cord, as well as some notochord cells undergo programmed cell senescence.

Single-cell analysis challenges the connection between autophagy and senescence induced by DNA damage.

Autophagy and senescence have been described as central features of cell biology, but the interplay between these mechanisms remains obscure. Using a therapeutically relevant model of DNA damage-induced senescence in human glioma cells, we demonstrated that acute treatment with temozolomide induces DNA damage, a transitory activation of PRKAA/AMPK-ULK1 and MAPK14/p38 and the sustained inhibition of AKT-MTOR. This produced a transient induction of autophagy, which was followed by senescence. However, at the single cell level, this coordinated transition was not observed, and autophagy and senescence were triggered in a very heterogeneous manner. Indeed, at a population level, autophagy was highly negatively correlated with senescence markers, while in single cells this correlation did not exist. The inhibition of autophagy triggered apoptosis and decreased senescence, while its activation increased temozolomide-induced senescence, showing that DNA damage-induced autophagy acts by suppressing apoptosis.

Asociación de esquizofrenia y sus dimensiones clínicas con el gen NOS1AP en población colombiana / Association of schizophrenia and its clinical implications with the nos1ap gene in the colombian population

Introducción: El gen NOS1AP codifica para la proteína adaptadora de óxido nítrico sintasa neuronal 1, que posiblemente está implicada en la etiopatogénesis de la esquizofrenia. Objetivos: Determinar si existe asociación de variantes en el gen NOS1AP con esquizofrenia y si estas variantes tienen relación con las dimensiones clínicas del trastorno en población colombiana. Metodología: Es un estudio de casos y controles, con 255 sujetos por grupo. Se tipificaron marcadores dentro del gen NOS1AP y otros informativos de origen genético, con el fin de ajustar por estratificación de la población. Se hizo un análisis factorial de componentes principales de cada uno de los ítems de las escalas de evaluación de síntomas negativos (SANS) y de síntomas positivos (SAPS) para determinar las dimensiones clínicas. Posteriormente, se evaluó la asociación de las variantes genéticas con la esquizofrenia y con cada una de las dimensiones. Resultados: Se encontró asociación entre el genotipo C/C del marcador rs945713 con esquizofrenia (OR = 1,79, IC95%: 1,13-2,84). El genotipo C/C de rs945713 se asoció con puntuaciones más altas en la dimensión “aplanamiento afectivo y alogia” y el genotipo A/A del marcador rs4657181 se relacionó con puntuaciones más bajas en esa misma dimensión. Conclusiones: Se encontró asociación significativa de marcadores dentro de NOS1AP con esquizofrenia y la dimensión clínica “aplanamiento afectivo y alogia”. Estos resultados son consistentes con estudios previos y apoyan la posibilidad de que NOS1AP influya en la susceptibilidad a esquizofrenia y que sea un modificador de sus características clínicas…

Introduction: The nitric oxide synthase 1 adaptor protein (NOS1AP) gene is possibly implicated in schizophrenia etiopathogenesis. Objective: To determine the association of NOS1AP gene variants with schizophrenia and the relationship of variants with the clinical dimensions of the disorder in the Colombian population. Methodology: It is a case-control study with 255 subjects per group. Markers within the NOS1AP gene were typified as well as other informative material of genetic origin so as to adjust by population stratification. A factorial analysis of the main components for each item in the Scales for Evaluating Negative Symptoms (SENS) together with the Scales for Evaluating Positive Symptoms (SEPS) to determine clinical dimensions. Results: Association between the C/C genotype of the rs945713 marker with schizophrenia (OR = 1.79, 95% CI: 1.13 – 2.84) was found. The C/C genotype of the rs945713 was related to higher scores in the “affective flattening and alogia” dimension; and the A/A genotype of the rs4657181 marker was associated to lower scores in the same dimension. Conclusions: Significant associations of markers inside the NOS1AP gene with schizophrenia and the “affective flattening and alogia” clinical dimension were found. These results are consistent with previous studies and support the possibility that NOS1AP influences schizophrenia susceptibility. Furthermore, NOS1AP might be a modifier of schizophrenia clinical characteristics…

[Association of Schizophrenia and its Clinical Implications with the NOS1AP Gene in the Colombian Population]. / Asociación de esquizofrenia y sus dimensiones clínicas con el gen NOS1AP en población colombiana.

INTRODUCTION: The nitric oxide synthase 1 adaptor protein (NOS1AP) gene is possibly implicated in schizophrenia etiopathogenesis. OBJECTIVE: To determine the association of NOS1AP gene variants with schizophrenia and the relationship of variants with the clinical dimensions of the disorder in the Colombian population. METHODOLOGY: It is a case-control study with 255 subjects per group. Markers within the NOS1AP gene were typified as well as other informative material of genetic origin so as to adjust by population stratification. A factorial analysis of the main components for each item in the Scales for Evaluating Negative Symptoms (SENS) together with the Scales for Evaluating Positive Symptoms (SEPS) to determine clinical dimensions. RESULTS: Association between the C/C genotype of the rs945713 marker with schizophrenia (OR = 1.79, 95% CI: 1.13 - 2.84) was found. The C/C genotype of the rs945713 was related to higher scores in the "affective flattening and alogia" dimension; and the A/A genotype of the rs4657181 marker was associated to lower scores in the same dimension. CONCLUSIONS: Significant associations of markers inside the NOS1AP gene with schizophrenia and the "affective flattening and alogia" clinical dimension were found. These results are consistent with previous studies and support the possibility that NOS1AP influences schizophrenia susceptibility. Furthermore, NOS1AP might be a modifier of schizophrenia clinical characteristics.