Marty H. Porter scite author profile

Hepatic insulin gene therapy (HIGT) ameliorates hyperglycemia in multiple rodent models of diabetes mellitus, with variable degrees of glucose control. We demonstrate here that adenoviral delivery of a glucose-regulated transgene into rat hepatocytes produces near-normal glycemia in spontaneously diabetic BB/Wor rats without administration of exogenous insulin. We compared growth, glycemia, counterregulatory hormones, and lipids in HIGT-treated diabetic rats to nondiabetic rats and diabetic rats treated with either insulin injections or sustained-release insulin pellets. HIGT-treated rats achieved near-normal blood glucose levels within 1 week and maintained glycemic control for up to 3 months. Rats treated with sustained release insulin implants had similar blood sugars, but more hypoglycemia and gained more weight than HIGT-treated rats. HIGT-treated rats normalized blood glucose within 2 hr after a glucose load, and tolerated a 24-hr fast without hypoglycemia. HIGT treatment suppressed ketogenesis similarly to peripheral insulin. However, glucagon levels and free fatty acids were increased in HIGT-treated rats compared to either nondiabetic controls or rats treated with exogenous insulin. In addition to extending successful application of HIGT to a rat model of autoimmune diabetes, these findings emphasize the relative contribution of hepatic insulin effect in the metabolic stabilization of diabetes mellitus.

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Vagal and splanchnic afferents are not necessary for the anorexia produced by peripheral IL-1β, LPS, and MDP

Porter

Hrupka

Langhans

et al. 1998

American Journal of Physiology-Regulatory, Integrative and Comp

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We investigated the extrinsic gut neural mediation of the suppression of food intake in male Sprague-Dawley rats induced by peripheral intraperitoneal administration of 2 μg/kg interleukin-1β (IL-1β), 100 μg/kg bacterial lipopolysaccharide (LPS), and 2 mg/kg muramyl dipeptide (MDP). Food intake during the first 3 and 6 h of the dark cycle was measured in rats with subdiaphragmatic vagal deafferentation ( n = 9), celiac superior mesenteric ganglionectomy ( n = 9), combined vagotomy and ganglionectomy ( n = 9), and sham deafferentation ( n = 9). IL-1β, LPS, and MDP suppressed food intake at 3 and 6 h in all surgical groups. The results demonstrate that neither vagal nor nonvagal afferent nerves from the upper gut are necessary for the feeding-suppressive effects of intraperitoneal IL-1β, LPS, or MDP in the rat and suggest that peripheral administration of immunomodulators produces anorexia via a humoral pathway.

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Effects of TNF-α on glucose metabolism and lipolysis in adipose tissue and isolated fat-cell preparations

Porter

Cutchins

Fine

et al. 2002

Journal of Laboratory and Clinical Medicine

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Marty H. Porter

Effects of age on the feeding response to moderately low dietary protein in rats

Protein selection, food intake, and body composition in response to the amount of dietary protein

Glucose-Responsive Hepatic Insulin Gene Therapy of Spontaneously Diabetic BB/Wor Rats

Vagal and splanchnic afferents are not necessary for the anorexia produced by peripheral IL-1β, LPS, and MDP

Effects of TNF-α on glucose metabolism and lipolysis in adipose tissue and isolated fat-cell preparations

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