Nancy R. Voyles scite author profile

Nancy R. Voyles

5Publications

184Citation Statements Received

29Citation Statements Given

How they've been cited

295

162

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Affiliations

National Institute of Mental Health, United States Department of Veterans Affairs, Georgetown University

Publications

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Insulin, Glucagon, and Somatostatin Receptors on Cultured Cells and Clones from Rat Islet Cell Tumor

Bhathena

Oie

Gazdar

et al. 1982

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Cells grown in culture from rat islet cell tumor (parent cells) and clones obtained from them were used in this study. Parent cells secreted primarily insulin and somatostatin with very small quantities of glucagon. The clones, based on hormone content and secretion, were divided into three phenotypic groups: insulin secreting, somatostatin secreting, and nonsecreting clones. Specific receptors for insulin, glucagon, and somatostatin were demonstrated on parent cells and clones. Parent cells bound 4.12 +/- 0.46% insulin, 2.11 +/- 0.29% glucagon, and 2.49 +/- 1.24% somatostatin per 2 x 10(6) cells. Characteristic hormone binding patterns were observed in insulin secreting versus somatostatin secreting clones. Insulin secreting versus somatostatin secreting clones. Insulin secreting clones bound less insulin than somatostatin and other noninsulin-secreting clones (P less than 0.02). In contrast, somatostatin secreting clones bound more somatostatin than non-somatostatin-secreting clones (P less than 0.05). Somatostatin-secreting clones had a significantly greater number of receptors for all three hormones. The difficulties involved in the interpretation of the quantitative aspects of binding in the presence of continued hormone secretion are discussed. Nonetheless, the presence of receptors on the cells for hormones secreted by the same cells strongly suggests autoregulation. The apparent low affinity of some of these receptors and the presence of receptors for all three islet cell hormones on all islet cells supports the likelihood of paracrine controls.

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Naltrexone reduces weight gain, alters “β-endorphin”, and reduces insulin output from pancreatic islets of genetically obese mice

et al. 1980

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Reversible Impairment of Glucose-Induced Insulin Secretion in SHR/N-cp Rats: Genetic Model of Type II Diabetes

Voyles

Powell²,

Timmers³

et al. 1988

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The SHR/N-cp rat is a new genetically obese model for non-insulin-dependent diabetes mellitus. Expression of the diabetes is enhanced by a high-sucrose (54%) diet. After 4 wk on the diet, the cp/cp rats weigh significantly more than their +/? controls, have postprandial hyperglycemia (greater than 400 mg/dl), and are hyperinsulinemic, with immunoreactive insulin (IRI) levels 10- to 20-fold greater than controls. Total pancreatic IRI tends to be increased 1.6-fold in the cp/cp rats (although not significantly). There is no increase in pancreatic proinsulin content as a percent of total IRI. Studies of in vitro pancreatic function were carried out with the isolated nonrecirculating perfused pancreas method. The cp/cp rats (n = 10) showed impaired or absent IRI responses to 16.5 mM glucose, whereas +/? rats (n = 9) responded with classic biphasic curves. Comparison of insulin secreted in 20 min revealed a greater than 53% decrease in IRI secretion in cp/cp rats (P less than .05). A paradoxical hypersecretion of IRI at glucose concentrations of 0-2.7 mM was noted in cp/cp but not lean rats, i.e., 1.8 +/- 0.2 mU/min IRI in cp/cp rats vs. 0.04 +/- 0.007 mU/min in +/? rats. Perfusion of pancreases for 45 min with buffers containing no glucose resulted in restoration of a normal biphasic IRI response to 16.5 mM glucose in the cp/cp rats, whereas response in the lean rats was markedly reduced. Brisk IRI responses to 10 mM arginine in buffers with no glucose also occurred in cp/cp but not +/? rats. Glucagon secretion was relatively suppressed in the cp/cp rats.(ABSTRACT TRUNCATED AT 250 WORDS)

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Insulin, Glucagon, and Somatostatin Secretion by Cultured Rat Islet Cell Tumor and Its Clones

Bhathena¹,

Awoke²,

Voyles³

et al. 1984

Experimental Biology and Medicine

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The Effect of Fasting on Tissue Cyclic cAMP and Plasma Glucagon in the Obese Hyperglycemic Mouse

Voyles

et al. 1975

Endocrinology

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The effect of 48 h of fasting in C57B1/6J-ob/ob and +/+ mice on body weight (BW), blood glucose (BG), serum immunreactive insulin (IRI), plasma immunoreactive glucagon (IRG) and on tissue levels of cyclic adenosine monophosphate (cAMP) were studied. Both groups of mice lost weight and demonstrated a decrease in BG and IRI with fasting. However, the BG and IRI of the ob/ob animals were initially highter and remained higher than those of the 2% of their initial weight while the +/+ lost 14 %. The +/+ mice exhibited an increase in cAMP levels in skeletal muscle, fat and liver with fasting, while the ob/ob mice had increased levels of cAMP in fat, but not in muscle. They also had a paradoxical decrease in liver cAMP levels with fasting, and associated with this was the lack of stimulation of glycogenolysis. Glycogenolysis was significant in the livers of fasted +/+ mice. The plasma IRG levels of the fed ob/ob mice were significantly higher (1.8) times) than those of the fed +/+ mice. Islet cAMP levels were decreased with fasting in ob/ob mice. However, the levels were significantly higher in 48-h faster ob/ob mice compared to the fasted +/+ group. The apparent paradoxical response to fasting observed in the livers of the ob/ob mice remains unexplained.

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Nancy R. Voyles

Insulin, Glucagon, and Somatostatin Receptors on Cultured Cells and Clones from Rat Islet Cell Tumor

Naltrexone reduces weight gain, alters “β-endorphin”, and reduces insulin output from pancreatic islets of genetically obese mice

Reversible Impairment of Glucose-Induced Insulin Secretion in SHR/N-cp Rats: Genetic Model of Type II Diabetes

Insulin, Glucagon, and Somatostatin Secretion by Cultured Rat Islet Cell Tumor and Its Clones

The Effect of Fasting on Tissue Cyclic cAMP and Plasma Glucagon in the Obese Hyperglycemic Mouse

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