Abstract
The present studies were undertaken to examine concomitant diet-induced changes in pancreatic islets and cells of the gut immune system of diabetes-prone BB rats in the period before classic insulitis. Diabetes-prone (BBdp) and control non-diabetes prone (BBc) BB rats were fed for ~ 17 days either a mainly plant-based standard laboratory rodent diet associated with high diabetes frequency, NIH-07 (NIH) or a protective semipurified diet with hydrolyzed casein (HC) as the amino acid source. By about 7 weeks of age, NIH-fed BBdp rats had lower plasma insulin and insulin/glucose ratio, lower insulin content of isolated islets, lower basal levels of NO but higher responsiveness of NO production to IL-1β in cultured islets, and higher Con A response and biosynthetic activities in mesenteric lymphocytes than control rats fed the same diet. In control rats, the HC diet caused only minor changes in most variables, except for a decrease in oxidation of L-[U−C14]glutamine in Peyer's patch (PP) cells and an increase in protein biosynthesis in mesenteric lymphocytes. In BBdp rats, however, the HC diet increased plasma insulin concentration, islet insulin/ protein ratio, and tended to normalize the basal and IL-1β-stimulated NO production by cultured islets. The HC diet decreased oxidation of L-[U−C14]glutamine in BBdp pancreatic islets, whereas oxidation of L-[U−C14]glutamine in PP cells was increased, and the basal [Methyl-H3] thymidine incorporation in mesenteric lymphocytes was decreased. These findings are compatible with the view that alteration of nutrient catabolism in islet cells as well as key cells of the gut immune system, particularly changes in mitotic and biosynthetic activities in mesenteric lymphocytes, as well as basal and IL-1β stimulated NO production, participate in the sequence of events leading to autoimmune diabetes in BB rats. Thus, the protection afforded by feeding a hydrolysed casein-based diet derives from alterations in both the target islet tissue and key cells of the gut immune system in this animal model of type 1 diabetes.
Highlights
Certain diets affect the development of spontaneous, autoimmune type 1 diabetes in susceptible BioBreeding rat (BB) rats,1 NOD mice[2’31 and possibly humans.I4’51 The identity of some foods that can induce diabetes in BB rats is known6 and feeding susceptible rats a protective diet such as a hydrolysed casein (HC)-based semipurified mixture inhibits the appearance of diabetes and dampens the severity of pancreatic islet inflammation
It was reported that feeding an HC diet for,20 days to diabetesprone BB rat (BBdp) rats, decreased L-[U-14C]glutamine oxidation, but not D-[U- 14C]glucose oxidation in mesenteric lymphocytes of animals at 7 weeks of age, before the onset of insulitis. [11a1 From these studies it was proposed that a remodelling of nutrient catabolism in mesenteric lymph node (MLN) lymphocytes was a key event in the process by which this dietary manipulation affects autoimmune diabetes
409 4- 44 ng/islet (n=40); p
Summary
Certain diets affect the development of spontaneous, autoimmune type 1 diabetes in susceptible BB rats, NOD mice[2’31 and possibly humans.I4’51 The identity of some foods that can induce diabetes in BB rats is known and feeding susceptible rats a protective diet such as a hydrolysed casein (HC)-based semipurified mixture inhibits the appearance of diabetes and dampens the severity of pancreatic islet inflammation. It was reported that feeding an HC diet for ,-20 days to BBdp rats, decreased L-[U-14C]glutamine oxidation, but not D-[U- 14C]glucose oxidation in mesenteric lymphocytes of animals at 7 weeks of age, before the onset of insulitis. The purpose of the present study was to investigate further a possible association among diet, gut immune cells and islet endocrine tissue. To do this we investigated whether the same HC diet affects L-[U-14C]glutamine oxidation in isolated pancreatic islets and Peyer’s patch cells and determined its effects on plasma D-glucose and insulin concentrations, pancreatic islet protein and insulin content, production of the suspected fl-cell cytotoxin NO, by cultured islets, as well as mitogenic and biosynthetic activity in mesenteric lymphocytes in diabetesprone and control, non-diabetes-prone BB rats
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