Glucokinase Deficit Prevalence in Women With Diabetes in Pregnancy: A Matter of Screening Selection.

Introduction: The prevalence among pregnant women with diabetes of monogenic diabetes due to glucokinase deficit (GCK-MODY) varies from 0 to 80% in different studies, based on the chosen selection criteria for genetic test. New pregnancy-specific Screening Criteria (NSC), validated on an Anglo-Celtic pregnant cohort, have been proposed and include pre-pregnancy BMI <25 kg/m2 and fasting glycemia >99 mg/dl. Our aim was to estimate the prevalence of GCK-MODY and to evaluate the diagnostic performance of NSC in our population of women with diabetes in pregnancy. Patients and Methods: We retrospectively selected from our database of 468 diabetic pregnant patients in Sant'Andrea Hospital, in Rome, from 2010 to 2018, all the women who received a genetic test for GCK deficit because of specific clinical features. We estimated the prevalence of GCK-MODY among tested women and the minimum prevalence in our entire population with non-autoimmune diabetes. We evaluated diagnostic performance of NSC on the tested cohort and estimated the eligibility to genetic test based on NSC in the entire population. Results: A total of 409 patients had diabetes in pregnancy, excluding those with autoimmune diabetes; 21 patients have been tested for GCK-MODY, 8 have been positive and 13 have been negative (2 of them had HNF1-alfa mutations and 1 had HNF4-alfa mutation). We found no significant differences in clinical features between positive and negative groups except for fasting glycemia, which was higher in the positive group. The minimum prevalence of monogenic diabetes in our population was 2.4%. The minimum prevalence of GCK-MODY was 1.95%. In the tested cohort, the prevalence of GCK-MODY was 38%. In this group, NSC sensitivity is 87% and specificity is 30%, positive predictive value is 43%, and negative predictive value is 80%. Applying NSC on the entire population of women with non-autoimmune diabetes in pregnancy, 41 patients (10%) would be eligible for genetic test; considering a fasting glycemia >92 mg/dl, 85 patients (20.7%) would be eligible. Discussion: In our population, NSC have good sensitivity but low specificity, probably because there are many GDM with GCK-MODY like features. It is mandatory to define selective criteria with a good diagnostic performance on Italian population, to avoid unnecessary genetic tests.

Placental antioxidant enzyme status and lipid peroxidation in pregnant women with type 1 diabetes: The effect of vitamin C and E supplementation.

AIM: In view of the increased rates of pre-eclampsia observed in diabetic pregnancy and the lack of ex vivo data on placental biomarkers of oxidative stress in T1 diabetic pregnancy, the aim of the current investigation was to examine placental antioxidant enzyme status and lipid peroxidation in pregnant women with type 1 diabetes. A further objective of the study was to investigate the putative impact of vitamin C and E supplementation on antioxidant enzyme activity and lipid peroxidation in type 1 diabetic placentae. METHODS: The current study measured levels of antioxidant enzyme [glutathione peroxidase (Gpx), glutathione reductase (Gred), superoxide dismutase (SOD) and catalase] activity and degree of lipid peroxidation (aqueous phase hydroperoxides and 8-iso-prostaglandin F2α) in matched central and peripheral samples from placentae of DAPIT (n=57) participants. Levels of vitamin C and E were assessed in placentae and cord blood. RESULTS: Peripheral placentae demonstrated significant increases in Gpx and Gred activities in pre-eclamptic in comparison to non-pre-eclamptic women. Vitamin C and E supplementation had no significant effect on cord blood or placental levels of these vitamins, nor on placental antioxidant enzyme activity or degree of lipid peroxidation in comparison to placebo-supplementation. CONCLUSION: The finding that maternal supplementation with vitamin C/E does not augment cord or placental levels of these vitamins is likely to explain the lack of effect of such supplementation on placental indices including antioxidant enzymes or markers of lipid peroxidation.

GCK monogenic diabetes and gestational diabetes: possible diagnosis on clinical grounds.

AIM: To determine if the previously published clinical criteria for identifying glucokinase monogenic diabetes [GCK gene mutation in maturity-onset diabetes of the young (GCK-MODY)], an elevated antenatal fasting blood glucose of 5.5-8.0 mmol/l, an increment of < 4.6 mmol/l at 2 h in an oral glucose tolerance test and slim are applicable in a large multi-ethnic cohort of women with gestational diabetes. METHODS: We analysed de-identified data from all women with gestational diabetes, diagnosed using the Australasian Diabetes in Pregnancy Society (1998) Australian criteria at our institution between 1993 and 2013, making comparisons among those with complete antenatal data including: diagnostic oral glucose tolerance test results meeting the above criteria; pregestational BMI; birth outcomes; and postpartum oral glucose tolerance test data. We categorized these women into two groups: Group A1 had a BMI ≤ 21 kg/m(2) and Group A2 had a BMI > 21 kg/m(2) and < 25 kg/m(2). RESULTS: Of the 302 women meeting the study entry criteria, we had complete data including a postpartum oral glucose tolerance test result for 171 women: 54 in Group A1 and 117 in Group A2. Ethnicity was significantly different between the groups. The oral glucose tolerance test and postpartum HbA1c results identified few women ( < 14%) in Group A1 and Group A2 who still had 'possible GCK-MODY'. CONCLUSIONS: Our findings indicate that previously recommended clinical criteria for the identification of women likely to have GCK-MODY lack specificity in a cohort of women with multi-ethnic backgrounds. Using these criteria to select women for testing for GCK-MODY in pregnancy would therefore be costly and is likely to yield few women positive for this condition.

S6K1 controls pancreatic ß cell size independently of intrauterine growth restriction.

Type 2 diabetes mellitus (T2DM) is a worldwide heath problem that is characterized by insulin resistance and the eventual loss of ß cell function. As recent studies have shown that loss of ribosomal protein (RP) S6 kinase 1 (S6K1) increases systemic insulin sensitivity, S6K1 inhibitors are being pursued as potential agents for improving insulin resistance. Here we found that S6K1 deficiency in mice also leads to decreased ß cell growth, intrauterine growth restriction (IUGR), and impaired placental development. IUGR is a common complication of human pregnancy that limits the supply of oxygen and nutrients to the developing fetus, leading to diminished embryonic ß cell growth and the onset of T2DM later in life. However, restoration of placental development and the rescue of IUGR by tetraploid embryo complementation did not restore ß cell size or insulin levels in S6K1-/- embryos, suggesting that loss of S6K1 leads to an intrinsic ß cell lesion. Consistent with this hypothesis, reexpression of S6K1 in ß cells of S6K1-/- mice restored embryonic ß cell size, insulin levels, glucose tolerance, and RPS6 phosphorylation, without rescuing IUGR. Together, these data suggest that a nutrient-mediated reduction in intrinsic ß cell S6K1 signaling, rather than IUGR, during fetal development may underlie reduced ß cell growth and eventual development of T2DM later in life.

Does the presence of thyroid antibodies affect the course and outcome of pregnancy in type 1 diabetic women?

OBJECTIVE: The aim of the study was to evaluate the significance of the presence of thyroid peroxidase autoantibodies (anti-TPO Abs) in type 1 diabetes mellitus (DM1) pregnant women relative to the course of pregnancy and, especially, with regard to metabolic control, thyroid function, maternal complications and neonatal outcome. METHODS: In a prospective observational study of 91 DM1 women with singleton pregnancies, anti-TPO, anti-thyroglobulin, thyroid-stimulating hormone (TSH), and free thyroxine index (T4/thyroid binding capacity) were measured in each trimester. At each visit, HbA1c, body mass index, and units of insulin per kilogram were recorded, as were complications and pregnancy outcome. RESULTS: Twenty-one (27%) of the 78 women who met the inclusion criteria presented with positive anti-TPO Abs. There were no differences regarding glycemic control (HbA1c) or insulin dose. First-trimester TSH levels were significantly higher in the anti-TPO-positive group than in the anti-TPO-negative group. Finally, no differences were observed regarding diabetic or obstetric complications and neonatal outcome. CONCLUSION: One fourth of DM1 pregnant women presented with positive anti-TPO Abs. However, the presence of anti-TPO Abs does not seem to be related with worse metabolic control or adverse pregnancy outcome. Further investigation is needed; meanwhile, the effort for early treatment of thyroid dysfunction and strict metabolic control in all DM1 women should be continued.

A parallel increase in placental oxidative stress and antioxidant defenses occurs in pre-gestational type 1 but not gestational diabetes.

We aimed to determine the oxidative stress status in placentas obtained from gestational (GDM) and type 1 (T1D) diabetic pregnancies. Malonaldehyde and protein carbonyls, two biomarkers of oxidative damage, were higher in T1D but not in GDM placentas. Also, higher reduced glutathione and lower oxidized glutathione levels and higher glutathione peroxidase activity were found in T1D but not in GDM placentas. These results suggest that T1D placentas may develop a protective antioxidant mechanism to overcome higher oxidative stress levels.

c-Jun NH2-terminal kinase 1/2 and endoplasmic reticulum stress as interdependent and reciprocal causation in diabetic embryopathy.

Embryos exposed to high glucose exhibit aberrant maturational and cytoarchitectural cellular changes, implicating cellular organelle stress in diabetic embryopathy. c-Jun-N-terminal kinase 1/2 (JNK1/2) activation is a causal event in maternal diabetes-induced neural tube defects (NTD). However, the relationship between JNK1/2 activation and endoplasmic reticulum (ER) stress in diabetic embryopathy has never been explored. We found that maternal diabetes significantly increased ER stress markers and induced swollen/enlarged ER lumens in embryonic neuroepithelial cells during neurulation. Deletion of either jnk1 or jnk2 gene diminished hyperglycemia-increased ER stress markers and ER chaperone gene expression. In embryos cultured under high-glucose conditions (20 mmol/L), the use of 4-phenylbutyric acid (4-PBA), an ER chemical chaperone, diminished ER stress markers and abolished the activation of JNK1/2 and its downstream transcription factors, caspase 3 and caspase 8, and Sox1 neural progenitor apoptosis. Consequently, both 1 and 2 mmol/L 4-PBA significantly ameliorated high glucose-induced NTD. We conclude that hyperglycemia induces ER stress, which is responsible for the proapoptotic JNK1/2 pathway activation, apoptosis, and NTD induction. Suppressing JNK1/2 activation by either jnk1 or jnk2 gene deletion prevents ER stress. Thus, our study reveals a reciprocal causation of ER stress and JNK1/2 in mediating the teratogenicity of maternal diabetes.

Reduction in embryonic malformations and alleviation of endoplasmic reticulum stress by nitric oxide synthase inhibition in diabetic embryopathy.

Maternal diabetes-induced neural tube defects (NTDs) are associated with increased programmed cell death (apoptosis) in the neuroepithelium, which is related to intracellular nitrosative stress. To alleviate nitrosative stress, diabetic pregnant mice were fed via gavage an inhibitor of nitric oxide (NO) synthase (NOS) 2, L-N6-(1-iminoethyl)-lysine (L-NIL; 80 mg/kg), once a day from embryonic (E) day 7.5 to 9.5 during early stages of neurulation. The treatment significantly reduced NTD rate in the embryos, compared with that in vehicle (normal saline)-treated diabetic group. In addition to alleviation of nitrosative stress, endoplasmic reticulum (ER) stress was also ameliorated, assessed by quantification of associated factors. Apoptosis was reduced, indicated by caspase 8 activation. These results show that nitrosative stress is important in diabetes-induced NTDs via exacerbating ER stress, leading to increased apoptosis. Oral treatment with NOS-2 inhibitor alleviates nitrosative and ER stress, decreases apoptosis, and reduces NTDs in the embryos, providing information for further interventional studies to reduce diabetes-associated birth defects.

Regulation of matrix metalloproteinases 2 and 9 activities by peroxynitrites in term placentas from type 2 diabetic patients.

Matrix metalloproteinases (MMPs) are proteolytic enzymes related to a proinflammatory environment in several diseases, including diabetes, which can be activated by reactive nitrogen species. This work aimed to determine MMP-2 and MMP-9 activities and nitration in term placentas from type 2 diabetic patients and verify the hypothesis that peroxynitrites are positive regulators of placental MMP-2 and MMP-9 activities. For this purpose, term placentas from healthy and type 2 diabetic patients were analyzed for MMP-2 and MMP-9 levels and activities, protein nitration, and nitration of MMP-2 and MMP-9. Villous explants were cultured in the presence of peroxynitrites for further evaluation of MMP-2 and MMP-9 activities. We found that MMP-2 and MMP-9 activities were increased in term placentas from diabetic patients. These changes were found even when MMP-2 protein concentrations were diminished and MMP-9 protein concentrations were not changed in the diabetic group. Increased protein nitration and specific nitration of MMP-2 and MMP-9 were found in term placentas from diabetic patients. Peroxynitrites were able to increase the activity of placental MMP-2 and MMP-9. Taken together, this study has shown for first time that peroxynitrites can nitrate and activate MMP-2 and MMP-9 in the placenta, a nitrative pathway possibly related to MMPs overactivity in the placentas from type 2 diabetic patients.

[The regulation of glucose-6-phosphate dehydrogenase and glycogen synthase activities by insulin superfamily peptides in myometrium of pregnant women and its impairments under different types of diabetes mellitus].

The regulatory effects of insulin, insulin-like growth factor 1 (IGF-1), and relaxin on glucose-6-phosphate dehydrogenase (G6PDH) and glycogen synthase (GS) activities have been studied in myometrium of pregnant women of control group and with diabetes mellitus of different etiology. In patients with type 1 diabetes G6PDH activity did not differ from the control group, but the enzyme activity was sharply decreased in pregnant women with type 2 diabetes and gestational diabetes. In the control group maximal stimulation of G6PDH activity was observed at 10(-9) M of peptides and their stimulating effect decreased in the following order: insulin > relaxin > IGF-1. In pregnant women with types 1 diabetes insulin effect on the enzyme activity was lower than in the control, and the effects of IGF-1 and relaxin were absent. In the group of pregnant women with type 2 diabetes and gestational diabetes the effects of insulin and IGF-1 were decreased, but the effect of relaxin was somewhat higher thus giving the following order in their efficiency relaxin > IGF-1 = insulin. At 10(-9) M peptides exhibited similar stimulating effects on the active form of GS-I, but had no influence on the total enzyme activity in the control group of pregnant women. In patients with type 1 diabetes GS activity remained unchanged (versus control), and peptides did not stimulate the enzyme activity. In patients with type 2 diabetes a significant decrease in GS activity was accompanied by the decrease in the effect of peptides, giving the following order of their efficiency: insulin = IGF-1 > relaxin. In myometrium of pregnant women with gestational (treated and untreated) diabetes GS activity decreased, the effect of insulin was weaker, whereas the effects of relaxin and IGF-1 increased thus giving the following order of their efficiency: relaxin > IGF-1 > insulin. Insulin therapy of type 1 diabetes incompletely restored sensitivity of the enzymes to the peptide actions. At the same time, in women with gestational diabetes and subjected to insulin therapy the stimulating effect of relaxin on the enzyme activities increased. This fact suggests that relaxin exhibits replacement functions under conditions of attenuated insulin action.

Caspase-8: a key role in the pathogenesis of diabetic embryopathy.

Maternal diabetes causes neural tube defects in embryos, which are associated with increased apoptosis in the neuroepithelium. Many factors, including effector caspases, have been shown to be involved in the events. However, the key regulators have not been identified and the underlying mechanisms remain to be addressed. Caspase-8, an initiator caspase, has been shown to be altered in diabetic embryopathy, suggesting a role as an upstream apoptotic regulator. Using mouse embryos as a model system, this study demonstrates that caspase-8 is required for the production of hyperglycemia-associated embryonic malformations. Caspase-8 was shown to be expressed in the developing neural tube. Its activity, as evidenced by enhanced cleavage, was increased by hyperglycemia. These changes were associated with increased formation of the active cleavage of Bid. Inhibition of caspase-8 activity in high glucose-challenged embryos reduced the rate of embryonic malformation and this was associated with decreased apoptosis in the neuroepithelium of the neural tube. Inhibition of caspase-8 activity also reduced hyperglycemia-induced Bid activation and caspase-9 cleavage. These data suggest that caspase-8 may control diabetic embryopathy-associated apoptosis via regulation of the Bid-stimulated mitochondrion/caspase-9 pathway.

Maternal diabetes adversely affects AMP-activated protein kinase activity and cellular metabolism in murine oocytes.

Maternal diabetes is associated with an increased risk of miscarriages and congenital anomalies. Preovulatory oocytes in murine models also experience maturational delay and greater granulosa cell apoptosis. The objective of this study was to examine whether maternal diabetes influences preovulatory oocyte metabolism and impacts meiotic maturation. Streptozotocin-induced diabetic B6SJLF1 mice were superovulated, and oocytes were collected at 0, 2, and 6 h after human chorionic gonadotropin (hCG) injection. Individual oocyte concentrations of ATP, 5'-AMP, glycogen, and fructose-1,6-phosphate (FBP) and enzyme activities of glucose-6-phosphate dehydrogenase (G6PDH), adenylate kinase, hydroxyacyl-CoA dehydrogenase (Hadh2), and glutamic pyruvate transaminase (Gpt2) were measured. Protein levels of phosphorylated AMP-activated protein kinase (AMPK) and acetyl-CoA carboxylase (ACC) were also measured. ATP levels were significantly lower in oocytes from diabetic mice, and the percent change in the AMP-to-ATP ratio was significantly higher in these oocytes. In contrast, activities of Hadh2 and Gpt2, two enzymes activated by AMPK, were significantly less in these oocytes. Additionally, glycogen and FBP levels, both endogenous inhibitors of AMPK, were elevated. Phosphorylated ACC, a downstream target of AMPK, and phosphorylated AMPK were both decreased in diabetic oocytes, thus confirming decreased AMPK activity. Finally, addition of the activator AICAR to the in vitro maturation assay restored AMPK activity and corrected the maturation defect experienced by the oocytes from diabetic mice. In conclusion, maternal diabetes adversely alters cellular metabolism leading to abnormal AMPK activity in murine oocytes. Increasing AMPK activity in these oocytes during the preovulatory phase reverses the metabolic changes and corrects delays in meiotic maturation.

Diabetic pregnancy in rats leads to impaired glucose metabolism in offspring involving tissue-specific dysregulation of 11beta-hydroxysteroid dehydrogenase type 1 expression.

Population-based studies have shown that the offspring of diabetic mothers have an increased risk of developing obesity, insulin resistance, type 2 diabetes and hypertension in later life. To investigate mechanism for the high incidence of metabolic diseases in the offspring of diabetic mothers, we focused on the tissue-specific glucocorticoid regulation by 11beta-hydroxysteroid dehydrogenase type 1 (11beta-HSD1) and studied offspring born to streptozotocin-induced diabetic rats. The body weights of newborn rats from diabetic mothers were heavier than those from control mothers. Offspring born to diabetic mothers demonstrated insulin resistance and mild glucose intolerance after glucose loading at 10 weeks and showed significantly increased 11beta-HSD1 mRNA and enzyme activity in adipose tissue at 12 weeks of age without obvious obesity. Hepatic 11beta-HSD1 mRNA was also elevated. We propose that the 11beta-HSD1 in adipose tissue and liver may play a key role in the development of metabolic syndrome in the offspring of diabetic mothers. Tissue-specific glucocorticoid dysregulation provides a candidate mechanism for the high incidence of metabolic diseases in the offspring of diabetic mothers. Therefore early analyses before apparent obesity are needed to elucidate the molecular mechanisms that may be programmed during the fetal period.

[Selenium and glutathion peroxidase enzyme levels in diabetic patients with early spontaneous abortions].

UNLABELLED: The incidence of spontaneous abortions in women with type 1 diabetes mellitus varies between 10-30%. The etiology of this is still unclear despite numerous experimental studies. Pregnancy is a condition of increased oxidative stress due to impaired balance between pro- and antioxidants. Glutathion and related enzymes perform the best antioxidant protection. Some authors point to a possible correlation between spontaneous abortions and low plasma Se levels as well as low intracellular activity of glutathion peroxidase enzyme. Others report that Hb A1-c, values over 1SD above normal increase the risk of spontaneous abortions with 3% and Hb A1-C values between 10-12% are critically high for the occurrence of spontaneous abortions. The purpose of the study was to evaluate the levels of Se and glutathion peroxidase enzyme (Gl-Px) in pregnant women with type 1 diabetes mellitus in the first trimester of pregnancy and to find out is there a correlation between glycemic control of diabetes and the incidence of spontaneous abortions. DESCRIPTION OF PROJECT: 75 pregnant women enrolled in an- 1 year prospective study divided in 3 groups according to pregnancy outcome: gr. 1 - n = 30 with type diabetes mellitus, no abortions, gr.2 - n = 16 with type diabetes mellitus with first trimester spontaneous abortion and gr. 3 - n = 29 healthy pregnant women. Women with type 1 diabetes mellitus were divided into three subgr. according to glycemic control - subgr. 1 - n = 12 (Hb A1-c < 7%), subgr.2 - n = 18 (Hb A1-c > 7< 8%), subgr.3 - n = 16 (Hb A1-c > 8%). Gl-Px activity was determined in Er hemolisate with test reagents of Randox Ransel, with ref.values 27.5 - 73 U/g Hb. Selen concentration was determined in whole blood sample by atomic absorption spectrophotometry with ref. values 0.12-1.1 micromol/l. HbA 1-C was measured by affinity chromatography with ref. values 4.5-6.3%. Statistical methods used were: dispersion, correlation analysis - SPSS package version 11.01.01. RESULTS: Basic Se levels were low in all pregnant women in early pregnancy. The metabolic control level did not influence the levels of Se in pregnant women with diabetes mellitus type1. Gl -Px activity was within the normal limits in all women. There was no correlation between Se levels and Gl -Px activity in pregnant diabetics with and without abortions. There was a correlation between Se levels and Gl -Px activity only in healthy pregnant women. Pregnant women with poor glycemic control had higher incidence of spontaneous abortions. CONCLUSIONS: We could not support the hypothesis of reduced antioxidant protection (low Se and Gl-Px levels) as a causative factor in the pathogenesis of spontaneous abortions in diabetic patients. Our study results showed that poor metabolic control of diabetes (high Hb A1-c) in the first trimester of pregnancy had a primary role in the occurrence of early abortions. We could speculate that the early hyperglycemic maternal-fetal environment most probably plays a role of an additional stress to the developing embryo.

Placental triglyceride accumulation in maternal type 1 diabetes is associated with increased lipase gene expression.

Maternal diabetes can cause fetal macrosomia and increased risk of obesity, diabetes, and cardiovascular disease in adulthood of the offspring. Although increased transplacental lipid transport could be involved, the impact of maternal type 1 diabetes on molecular mechanisms for lipid transport in placenta is largely unknown. To examine whether maternal type 1 diabetes affects placental lipid metabolism, we measured lipids and mRNA expression of lipase-encoding genes in placentas from women with type 1 diabetes (n = 27) and a control group (n = 21). The placental triglyceride (TG) concentration and mRNA expression of endothelial lipase (EL) and hormone-sensitive lipase (HSL) were increased in placentas from women with diabetes. The differences were more pronounced in women with diabetes and suboptimal metabolic control than in women with diabetes and good metabolic control. Placental mRNA expression of lipoprotein lipase and lysosomal lipase were similar in women with diabetes and the control group. Immunohistochemistry showed EL protein in syncytiotrophoblasts facing the maternal blood and endothelial cells facing the fetal blood in placentas from both normal women and women with diabetes. These results suggest that maternal type 1 diabetes is associated with TG accumulation and increased EL and HSL gene expression in placenta and that optimal metabolic control reduces these effects.

Oxidative stress promotes the increase of matrix metalloproteinases-2 and -9 activities in the feto-placental unit of diabetic rats.

Maternal diabetes increases the risk of congenital malformations, placental dysfunction and diseases in both the neonate and the offspring's later life. Oxidative stress has been involved in the etiology of these abnormalities. Matrix metalloproteases (MMPs), involved in multiple developmental pathways, are increased in the fetus and placenta from diabetic experimental models. As oxidants could be involved in the activation of latent MMPs, we investigated a putative relationship between MMPs activities and oxidative stress in the feto-placental unit of diabetic rats at midgestation. We found that H2O2 enhanced and that superoxide dismutase (SOD) reduced MMPs activities in the maternal side of the placenta and in the fetuses from control and diabetic rats. MMPs were not modified by oxidative status in the fetal side of the placenta. Lipid peroxidation was enhanced in the maternal and fetal sides of the placenta and in the fetus from diabetic rats when compared to controls, and gradually decreased from the maternal placental side to the fetus in diabetic animals. The activities of the antioxidant enzymes SOD and catalase were decreased in the maternal placental side, catalase activity was enhanced in the fetal placental side and both enzymes were increased in the fetuses from diabetic rats when compared to controls. Our data demonstrate changes in the oxidative balance and capability of oxidants to upregulate MMPs activity in the feto-placental unit from diabetic rats, a basis to elucidate links between oxidative stress and alterations in the developmental pathways in which MMPs are involved.

Dysfunction of the cyclo-oxygenase pathway in the foetoplacental circulation in Type 1 diabetes mellitus.

AIM: In diabetes, perinatal morbidity is significantly increased. This may partly be related to functional changes in the foetoplacental vascular bed. In diabetes models, a defect in the cyclo-oxygenase pathway is a common observation. Therefore, we hypothesized that the human foetoplacental circulation of diabetic patients is characterized by dysfunction of the cyclo-oxygenase pathway, as well. METHODS: We performed ex-vivo perfusions of isolated placental cotyledons from healthy women (n = 14) and from patients with Type 1 diabetes (n = 9). The contribution of cyclo-oxygenase products to foetoplacental vascular tone was quantified by measuring the response to the cyclo-oxygenase inhibitor indomethacin. RESULTS: Baseline foetoplacental arterial pressure was comparable between controls and diabetic women (mean +/- sem, 21.7 +/- 1.2 vs. 24.4 +/- 2.0 mmHg). Maximum foetoplacental arterial pressure at highest dose of indomethacin was 32.8 +/- 3.0 mmHg in controls vs. 27.3 +/- 2.3 mmHg in diabetic women. The indomethacin-induced increase in pressure was reduced in diabetes (2.9 +/- 0.7 vs. 11.2 +/- 2.4 mmHg in controls, P = 0.01). CONCLUSIONS: Under baseline conditions, the net effect of all cyclo-oxygenase products in the foetoplacental vascular bed is vasodilation. In diabetes, this vasodilator effect seems significantly impaired.

Placental alkaline phosphatase (PLAP) study in diabetic human placental villi infected with Trypanosoma cruzi.

Previous work has demonstrated that PLAP activity decreases in serum and placental villi from term chagasic and diabetic pregnant women. In vitro, T. cruzi induces changes in human syncytiotrophoblast's PLAP. Our aim was to determine if infection with T. cruzi induces changes in PLAP activity in diabetic and chagasic women's placenta, in order to elucidate if PLAP plays a role in the mechanisms of interaction between placenta and T. cruzi, and whether hyperglycemic conditions could worsen the placental infection. Using zymogrammes, Western blot, biochemical and immunohistological techniques, PLAP activity was determined in placental villi from diabetic and chagasic women, and in normal placentas cultured under hyperglycemic conditions with or without trypomastigotes. A significant reduction of PLAP expression was immunologically detected in infected diabetic and normal placental villi cultured under hyperglycemic conditions of 71 and 81%, respectively, compared with controls. A significant decrease of PLAP specific activity was registered in homogenates and in the culture media from both infected diabetic and normal placentas under hyperglycemic conditions (of about 50-70%), and in chagasic ones (of about 87%), when compared with controls. Thus, PLAP might be involved in parasite invasion and diabetic and hyperglycemic placentas could be more susceptible to T. cruzi infection.

[Effect of lipid peroxidation and antioxidant defence system on the development of hemorrhagic complications in neonates of mothers with diabetes mellitus].

217 postmortem protocols of autopsies have been analyzed to study percentage of hemorrhagic complications. The analyzes allowed to determine frequency and localization hemorrhages happened in children bourn by mothers suffering from diabetes mellitus. The most detected localizations of hemorrhages are follows: ependyma (38.8%), ventricles of brain (30.8%), parenchyma of brain (30.8%) as well as frequently have been observed pleura, epicardium and adrenal glands hemorrhages.

Changes of oxidative stress parameters in diabetic pregnancy.

BACKGROUND: The molecular aetiology of disturbed embryogenesis and other unfavourable outcomes in offspring of diabetic mothers is not fully understood. Experimental studies have suggested an involvement of radical oxygen species (ROS) in the teratological process. THE AIM OF OUR STUDY: To investigate if maternal diabetes in humans is capable of inducing alterations in vascular oxidative stress parameters and whether such changes are associated with disturbances in foetal development. METHODS: Seventy patients with pre-gestational diabetes (PGDM) were chosen for the study: 29 (41.4%) belonged to class B according to White, 15 (21.4%) to class C, 8 (11.4%) to class D, 3 (4.3%) to class F, 3 to class R and 12 (17.1%) to class F/R. In 20 (28.6%) patients from this group an unfavourable outcome was noted. All patients were subjected to intensive insulin therapy. Glycaemia was estimated by daily self-monitoring, and diurnal glucose profiles and glycated haemoglobin (HbA1c) concentrations were measured monthly. Oxidative stress was evaluated as changed superoxide dismutase, catalase and glutathione peroxidase activities as well as of malondialdehyde (MDA) and peroxides concentrations in maternal erythrocytes and blood serum. RESULTS: Prior to conception, the mean glycaemia in the group that had a planned pregnancy was 6.6mmol/l and HBA1c was 9.35%. Throughout the course of pregnancy, these parameters were maintained at a level of 6.7 mmol/l and 7.85%, respectively. The activity of all antioxidative enzymes was lower before than during pregnancy, and so was the concentration of MDA. The MDA concentrations were higher in patients with elevated glycaemia and with an unfavourable outcome. The investigated ROS, the glycaemia level, as well as the concentration of HBA1c did not show any significant differences between pregnancies with and without vascular complications. Patients with a favourable perinatal outcome presented a higher activity of antioxidant enzymes, than those with unfavourable outcome, throughout the whole course of pregnancy. The appearance of unfavourable perinatal outcomes in relation to parameters of oxidative stress was assessed by logistic regression. Both SOD and GPX activities, as well as peroxides' concentration, showed significant correlations (p < 0.005) with foetal complications. However, after mean glucose levels in the studied group were included into these analyses, this relationship was only evident with SOD and GPX activity (p < 0.0016). CONCLUSION: Oxidative stress is one of several important factors contributing to unfavourable outcome of human diabetic pregnancy.