Literature DB >> 8596498

Vitamin A status affects the development of diabetes and insulitis in BB rats.

H K Driscoll1, B S Chertow, T M Jelic, R J Baltaro, S B Chandor, E M Walker, J M Dadgari, A B Pofahl.   

Abstract

BB/Wor rats develop autoimmune diabetes mellitus with many features in common with human insulin-dependent diabetes mellitus. Since retinoids are known to have effects on insulin secretion and immune function, these studies were designed to investigate the effects of retinoid deficiency on diabetes in BB/Wor rats and to identify a role for retinoid status in the pathogenesis of autoimmune diabetes mellitus. Litters of diabetes-prone (DP) and diabetes-resistant (DR) BB/Wor rats were divided at weaning and fed a diet either (1) devoid of retinoids and leading to clinical deficiency at approximately 60 days of age (A-def diet)-following 10 days of clinical deficiency, rats on the A-def diet were changed to a diet containing 2 microg/g retinoic (A-def/RA diet); (2) containing 2 microg/g retinoic acid but deficient in retinol (RA diet); or (3) replete in retinol with 4 microg/g retinyl palmitate (RP diet). Rats receiving RP or RA diets were pair-fed to rats on the A-def/RA diet. Diabetes by 120 days of age was greatly reduced (P < .01) in DP rats that received the A-def/RA diet (four of 27) or RA diet (four of 29) versus the RP diet (13 of 31). Insulitis progressed with age in nondiabetic DP rats receiving the RP diet (P < .02) or RA diet (P < .05), but not the A-def/RA diet (P > .22). Insulin secretion was measured in perfused pancreas of nondiabetic rats after age 120 days and correlated negatively with insulitis (P < .05). DP rats receiving the RP diet had reduced insulin secretion as compared with other DP and DR rats (P < .05). In DR rats, retinoid status had no effects on insulitis through 120 days of age or on insulin secretion after 120 days of age. In conclusion, retinol deficiency reduces diabetes and insulitis in DP BB/Wor rats, and retinoic acid can at least partly substitute for retinol in the development of insulitis.

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Year:  1996        PMID: 8596498     DOI: 10.1016/s0026-0495(96)90062-1

Source DB:  PubMed          Journal:  Metabolism        ISSN: 0026-0495            Impact factor:   8.694


  11 in total

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