Hormones and the development of mating behavior in male rats

Baum, Michael J.

January 1969

No description available.

Rats -- Behavior.

Hormones, Sex.

Unravelling the mechanism of ghrelin secretion and the effects of ghrelin reduction using a receptor decoy approach

Gagnon, Jeffrey

18 March 2013

The incidence of obesity, and the associated morbidities and mortality are increasing. Strategies to manage this disease hinge on the balance of caloric intake and energy expenditure. This regulation depends largely on endocrine input from the periphery. The recently discovered stomach derived hormone, ghrelin, has emerged as a key player in the regulation of appetite and energy storage. Ghrelin achieves these functions through binding the ghrelin receptor in appetite regulating neurons and in peripheral metabolic organs including the pancreas and adipose tissue. Since ghrelin acts on energy regulating metabolic organs, its secretion from the stomach is tightly coupled to energy availability. Ghrelin levels increase during periods of fasting and decrease after a meal is consumed. Under chronic energy surplus (such as obesity) ghrelin levels decrease while in chronic energy deficit (anorexia nervosa, weight loss) ghrelin levels increase. While major advances have been made in understanding both the function of ghrelin and its dysregulation in disease, little is known about the cellular regulation of ghrelin secretion. This is due to the lack of cellular models of ghrelin secretion. In this thesis, I describe the development of a novel ghrelin secreting primary rat stomach cell culture. Using this system I elucidated the roles and mechanisms of neurotransmitters, hormones (insulin and glucagon), nutrients (glucose) and anti-diabetics (metformin) in the regulation of ghrelin secretion. These findings have clearly demonstrated the ability of ghrelin cells to sense energy availability and provide important insights for ghrelin altering therapies. To evaluate both the function of ghrelin and the feasibility of reducing circulating ghrelin, I developed a novel in vivo ghrelin-reducing strategy. In vivo expression of a decoy protein based on the ligand binding domains of the ghrelin receptor was expressed in mice. Mice treated with this plasmid construct had reduced circulating levels of ghrelin. Interestingly, reduced circulating ghrelin was protective from high fat diet-induced obesity and resulted in improved glucose metabolism. This work demonstrates both the importance of ghrelin in peripheral energy storage and the feasibility of this novel ghrelin reducing approach for the treatment of obesity and insulin resistance.

diabetes

ghrelin

hormones

Effects of growth hormone, insulin, and thyroxine on hepatic UDPG-glycogen glucosyltransferase, hexokinase, and glucokinase in the fetal rat

Ennis, Patricia Joy

08 1900

No description available.

Hormones

Rats Physiology

Steroid estrogen conjugates in the urine of laying hens : a thesis.

Baker, Susan Jane

January 1977

No description available.

Steroid hormones

Urine -- Analysis.

Seasonal differences in pituitary and testicular function in bulls

Peirce, Anthony R. J.

January 1984

No description available.

Cattle -- Reproduction.

Hormones, Sex.

Growth factor studies on anterior pituitary adenomas in vitro

Atkin, Stephen Lawrence

January 1993

No description available.

572.8

Growth hormones

Ecdysteroid metabolism in Spodoptera littoralis

Hoggard, Nigel

January 1989

No description available.

572

Insect moulting hormones

Evidence for the existence of a prohormone for relaxin

Kwok, Simon C. M

January 1978

Typescript. / Thesis (Ph. D.)--University of Hawaii at Manoa, 1978. / Bibliography: leaves 138-148. / Microfiche. / xiii, 148 leaves ill

Hormones, Sex

Relaxin

Steroid hormones and subcellular processes

James, Gordon Price

January 1968

Typescript. / Thesis (Ph. D.)--University of Hawaii, 1968. / Bibliography: leaves 91-103. / ix, 103 l graphs, tables

Steroid hormones

RNA

A study of the biosynthesis of growth hormone and prolactin in bovine pituitary slices and cell-free systems

Robertson, Mary Chalmers

January 1969

Typescript. / Thesis (Ph. D.)--University of Hawaii, 1969. / Bibliography: leaves [174]-183. / xiii, 183 l illus

Proteins -- Synthesis

Hormones