A role for islet somatostatin in mediating sympathetic regulation of glucagon secretion.

Aims/hypothesis: Somatostatin (SST) released from islet δ-cells inhibits both insulin and glucagon secretion but the role of this tonic inhibition is unclear. In this study we investigated whether δ-cell SST may facilitate sympathetic regulation of glucagon secretion as part of an 'accelerator/brake' mechanism.

Methods: The secretory characteristics of islets isolated from SST-deficient (Sst-/-) and control mouse islets were assessed in static incubation studies.

Visceral obesity without insulin resistance in late-onset obesity rats.

We describe a line of transgenic rats in which the males develop a unique autosomal dominant, late-onset obesity (LOB) phenotype. LOB males gradually accumulate fat specifically in visceral, but not peripheral, fat depots despite a normal intake of a low fat diet. LOB females normally develop only mild obesity with advanced age.

Transgenesis and neuroendocrine physiology: a transgenic rat model expressing growth hormone in vasopressin neurones.

Human growth hormone (hGH) and bovine neurophysin (bNP) DNA reporter fragments were inserted into the rat vasopressin (VP) and oxytocin (OT) genes in a 44 kb cosmid construct used to generate two lines of transgenic rats, termed JP17 and JP59. Both lines showed specific hGH expression in magnocellular VP cells in the hypothalamic paraventricular (PVN) and supraoptic nuclei (SON). hGH was also expressed in parvocellular neurones in suprachiasmatic nuclei (SCN), medial amygdala and habenular nuclei in JP17 rats; the rat OT-bNP (rOT-bNP) transgene was not expressed in either line.

Differential radiosensitivity of hypothalamo-pituitary function in the young adult rat.

Cranial irradiation in children and adults often results in irreversible hypopituitarism. The earliest and most common endocrine abnormality is GH deficiency, often followed by other pituitary hormone deficits. We investigated whether a similar pattern of progressive hypopituitarism could be reproduced in an animal model.

Regulation of the synthesis and secretion of vasopressin.

We have developed a transgenic system that, for the first time, facilitates the monitoring of the regulatory dynamics of a central peptidergic system from transcription of a neuropeptide gene to the storage and release of the mature secretory product. Here we describe novel studies on the regulation of this system by physiological stimuli. The rat hypothalamic vasopressin (VP) mRNA responds in two ways to the functional demand imposed by an osmotic challenge.