Your search keyword '"Mary Beth Cordle"' showing total 2 results

1. Vitamin A Stimulation of Insulin Secretion

Author

Henry K. Driscoll, Mary Beth Cordle, Todd E. Chertow, Kimberly A. Matthews, Bruce S. Chertow, and Clark D. Adkins

Subjects

endocrine system, medicine.medical_specialty, Hepatology, biology, Tissue transglutaminase, Endocrinology, Diabetes and Metabolism, Pancreatic islets, Insulin, medicine.medical_treatment, Cell, Retinol, Retinoic acid, Biological activity, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, chemistry, Cell culture, Internal medicine, Internal Medicine, medicine, biology.protein

Abstract

Summary Retinol or retinoic acid is required for insulin release. Retinoids increase transglutaminase activity, and transglutaminase has been implicated in islet insulin release. To examine whether transglutaminase could mediate effects of retinoids on insulin secretion, we measured (i) transglutaminase activity in islets from rats deficient in vitamin A or repleted with retinol or retinoic acid, (ii) transglutaminase activity in RINm5F and INS-1 insulin-secreting cells cultured in retinol or retinoic acid, (iii) mRNA for transglutaminase in RINm5F and INS-1 cells, and (iv) insulin secretion from INS-1 cells in response to retinoic acid. Islets from rats repleted with retinol or retinoic acid showed more than twice the transglutaminase activity of islets from vitamin A-deficient rats. Retinoic acid increased RINm5F cells and INS-1 cell transglutaminase activity. Retinol did not increase transglutaminase activity. Transglutaminase mRNA was detected in INS-1 cells but not in RINm5F cells. Retinoic acid increased insulin secretion from INS-1 cells as observed previously in RINm5F cells. In conclusion, retinoic acid increases transglutaminase activity in both rat islets and two insulin-secreting cell lines. Retinoic acid stimulates insulin secretion from INS-1 cells. Transglutaminase is a candidate for mediating retinoid-induced changes in insulin secretion.

Published

1997

2. Effects of Vitamin A Deficiency and Repletion on Rat Glucagon Secretion

Author

Henry K. Driscoll, W S Blaner, Mary Beth Cordle, Kimberly A. Matthews, Bruce S. Chertow, and Paolo Meda

Subjects

Vitamin, Retinyl Esters, endocrine system, medicine.medical_specialty, Arginine, Receptors, Retinoic Acid, Endocrinology, Diabetes and Metabolism, Radioimmunoassay, Tretinoin, Biology, Glucagon, Alpha cell, Cell Line, Rats, Sprague-Dawley, Islets of Langerhans, Retinoids, chemistry.chemical_compound, Endocrinology, Pregnancy, Internal medicine, Insulin Secretion, Internal Medicine, medicine, Animals, Insulin, Secretion, Vitamin A, Hepatology, Vitamin A Deficiency, Glucagon secretion, Retinol, Retinol-Binding Proteins, Cellular, medicine.disease, Rats, Retinol-Binding Proteins, Vitamin A deficiency, Glucose, chemistry, Female, Diterpenes

Abstract

To determine whether vitamin A is involved in pancreatic alpha cell function, we tested for (a) effects of vitamin A deficiency on glucagon release from perifused islets and perfused pancreases, and (b) the presence of cytosolic retinol-binding proteins (CRBP) and retinoic acid-binding proteins (CRABP), in the glucagon-secreting alpha cell line, ln-R1-G9. Arginine 19 mM plus glucose 2.8 mM-stimulated glucagon secretion was markedly impaired in islets and pancreases of vitamin A-deficient rats or rats that had at some time been cycled through vitamin A deficiency (ever A-def) despite repletion with retinoids for 2-4 weeks. Insulin secretion was impaired likewise. Repletion starting early in the development of vitamin A deficiency and for a longer period of time (18 or 60 days) did not restore glucagon secretion, but did normalize insulin secretion. CRBP and CRABP were present in ln-R1-G9 cells. We conclude that (a) vitamin A deficiency is associated with a defect in glucagon secretion; (b) The defect in secretion occurs early in the course of vitamin A deficiency; (c) The defect persists despite repletion; and (d) The requirement of vitamin A for secretion and the presence of CRBP and CRABP in glucagon-secreting cells support a physiologic role for vitamin A at the alpha cell level.

Published

1994