Feeding a low-protein (LP) diet to pregnant and lactating rats impairs pancreatic islet mass and insulin release in the offspring, leading to glucose intolerance as adults. We hypothesized that an LP diet changes the number of pancreatic endocrine precursor cells or cells supporting endocrine cell neogenesis. Pregnant rats were given LP (8% protein) or a control (20% protein) diet from conception until postnatal d 21. Cells containing nestin, CD34, or c-Kit were quantified in pancreata of the offspring. Stellate cells immunoreactive for nestin were seen to be adjacent to ductal epithelium and were resident within the islets. These were proliferative and immunonegative for cytokeratin 20, fibronectin, tyrosine hydroxylase, pancreatic duodenal homeobox 1, Nk homeodomain transcription factor 6.1, or insulin, but expressed vimentin. Approximately 20% of islet nestin-positive cells also expressed the endothelial cell marker platelet endothelial cell adhesion molecule-1. Both ducts and islets also contained CD34- and c-Kit-positive cells with similar morphology to those expressing nestin. Offspring from rats fed the LP diet had significantly less nestin/CD34-positive cells and reduced expression of nestin mRNA. Within islets, there was an associated decrease in cell proliferation and in cells immunopositive for pancreatic duodenal homeobox 1. Nestin-positive cell number within islets correlated positively with the percent area of beta-cells. Supplementation of pregnant and lactating rats with taurine reversed the deficits in mean islet area and nestin-positive cells caused by the LP diet within the islets of the offspring. Nutritional programming of postnatal beta-cell mass may involve an altered abundance of cells expressing nestin and/or CD34, which may limit endocrine cell development.
1. Two populations of albino rats : normal and treated by phentolamine, or normal and vagotomized, have inhaled normoxic or hyperoxic mixtures with 3, 15 or 30% CO2 during 5 min. 2. Bradycardia is proportional to CO2 concentration, from 3% CO2. It is not suppressed by vagotomy. 3. Systemic arterial pressures, both systolic and diastolic, are decreased by 14% CO2. This hypotension is long lasting. At 30% CO2, immediate hypotension is followed by progressive recovery. After phentolamine, the return to normal is abolished. 4. Bradycardia is caused by CO2 or acidosis acting directly on the pace-maker cells. Variations of the systemic blood pressure are explained by an interference between a direct vasodilatation and a vasoconstriction due to sympathetic centres stimulation by CO2.
Unanaesthetized rats whose arterial chemoreceptors were stimulated by an one hour acute exposition to hypoxic gaseous mixtures with various carbon dioxide concentrations, presented depletion of the catecholamines content of their adrenal glands only when hypocapnia or increased pH was present (non compensated hypoxia). Moreover, exposition to simultaneous hypoxia and hypercapnia increased the epinephrine stock of the adrenal glands. No changes were found in the myocardium amine content in the same conditions. When anaesthetized rats were treated by iv injection of almitrine bismesylate, a peripheral chemoreceptors stimulating drug, adrenal catecholamines content was insignificantly reduced. In the myocardium, the amines remained at control levels. The most powerful factor related to catecholamines depletion in the adrenals seems to be the hypocapnia or the alkalosis induced by the hyperventilation provoked by glomic stimulation. No indication has been found in favor of an effective adrenergic stimulation caused directly by chemoreceptors stimulation.
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