In recent studies we have demonstrated a marked increase in albumin permeation of new vessels formed by angiogenesis (in subcutaneous tissue) in the diabetic milieu. Likewise, lysyl oxidase-mediated collagen cross-linking is markedly increased in the scar tissue associated with angiogenesis. The present studies were undertaken to determine whether sorbinil, a chemical inhibitor of aldose reductase that has been shown to prevent and reverse diabetic cataracts and neuropathy, also could prevent the vascular permeability and collagen cross-linking changes in this model. Vascular permeation by 125I-BSA, collagen cross-linking, and tissue levels of sorbitol, myo-inositol, and scyllo-inositol were assessed in male Sprague-Dawley rats 3 wk after injection of streptozocin and induction of angiogenesis and collagen synthesis in polyester fabric implanted subcutaneously. Sorbinil (approximately 25 mg/kg/day) added to the diet of diabetic rats reduced the diabetes-induced increases in albumin permeation by 80%, completely prevented diabetes-induced changes in tissue levels of sorbitol and myo-inositol, and markedly reduced diabetes-induced changes in tissue levels of scyllo-inositol. In contrast, sorbinil had no effect on plasma glucose levels or collagen solubility (an index of collagen cross-linking). These observations indicate that increased vascular permeability associated with diabetes is linked to imbalances in sorbitol/inositol metabolism. These findings also indicate that diabetes-induced increases in vascular permeability and in collagen cross-linking are independent phenomena and diabetes-induced increases in vascular permeability are largely preventable by treatment with an aldose reductase inhibitor in the face of high plasma glucose levels.
The effects of castration on diabetes-induced increases in collagen cross-linking and vascular permeability and on polyol levels in new granulation tissue formed after induction of streptozocin (STZ) diabetes were examined in male Sprague-Dawley rats. New granulation tissue formation was induced by implanting sterile polyester fabric subcutaneously (s.c.) at the time of STZ injection 3 wk before assessment of vascular permeability and collagen cross-linking. Castration was performed 10 days before implanting the fabric. The characteristic increases in collagen cross-linking (manifested by decreased solubility in 0.5 M acetic acid) and in albumin permeation of the vasculature seen in intact diabetic rats were completely prevented by castration. Net collagen accumulation was not affected by diabetes or castration. Castration also markedly diminished diabetes-induced increases in tissue levels of sorbitol and completely prevented the decreases in tissue levels of myo-inositol and scyllo-inositol observed in intact diabetic rats, but had no effect on serum glucose levels, nonenzymatic glycosylation of plasma and granulation tissue proteins, or plasma somatomedin-C levels. The demonstration that castration prevents diabetes-induced increases in vascular permeability and collagen cross-linking as well as imbalances in tissue levels of sorbitol, myo-inositol, and scyllo-inositol in this model indicates that all of these changes are sex steroid-dependent phenomena. While the pathogenesis of these vascular permeability and collagen cross-linking changes is clearly multifactorial, these new findings: indicate that the role of sex steroids in the development of late complications of diabetes may be far more important than hitherto suspected, and suggest an explanation for the clinical observation that diabetic complications are uncommon in prepubertal diabetic subjects regardless of duration of diabetes.
Microorganisms in the placenta have been linked to adverse pregnancy outcomes as well as neonatal illness. Inflammation in the placenta has been identified as a contributing factor in this association, but the underlying biological mechanisms are not yet fully understood. The placental epigenome may serve as an intermediate between placental microbes and inflammation, contributing to adverse outcomes in the offspring. In the present study, genome-wide DNA methylation (n = 486,428 CpG sites) of 84 placentas was analyzed in relation to 16 species of placental microorganisms using samples collected from the Extremely Low Gestation Age Newborns (ELGAN) cohort. A total of n = 1,789 CpG sites, corresponding to n = 1,079 genes, displayed differential methylation (q<0.1) in relation to microorganisms. The altered genes encode for proteins that are involved in immune/inflammatory responses, specifically the NF-κB signaling pathway. These data support bacteria-dependent epigenetic patterning in the placenta and provide potential insight into mechanisms that associate the presence of microorganisms in the placenta to pregnancy and neonatal outcomes. This study lays the foundation for investigations of the placental microbiome and its role in placental function.
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