Sally Hojvat scite author profile

Extracts of homogenates of rat, mouse, rabbit, and human submaxillary salivary glands contain a significant quantity of a material with glucagon-like immunoreactivity. Fractionation of this material on columns of Sephadex G-100 reveals a single peak immediately following a gamma globulin marker but in advance of a rat growth hormone marker, crystalline amylase, and isotopically labeled porcine insulin and glucagon. This material, which is urea stable, shows identical immunoassay dilution curves when measured with the highly specific K-30 glucagon antiserum. Study of paired glands in vitro shows that low concentrations of glucose stimulate and high concentrations of glucose suppress release of this material. Arginine promotes brisk release in vitro. Somatostatin does not influence arginine-stimulated secretion and insignificantly suppresses basal release in vitro. These findings lend support to previous speculations that the salivary glands may possess endocrine as well as exocrine functions. Salivary gland glucagon may also be the source of circulating glucagon recently reported in pancreatectomized and eviscerated rats.

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Growth hormone (GH), thyroid-stimulating hormone (TSH), and luteinizing hormone (LH)-like peptides in the rodent brain: non-parallel ontogenetic development with pituitary counterparts

Hojvat

Emanuele

Baker

et al. 1982

Developmental Brain Research

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Biologically Active Pituitary Hormones in the Rat Brain Amygdaloid Nucleus

Kirsteins

Hojvat

et al. 1978

Science

106

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While an attempt was being made to identify the source of the growth hormone releasing factor present in cerebral spinal fluid of man, it was discovered that cells of the rat amygdaloid nucleus, grown in tissue culture, produce a material that is immunologically and chromatographically identical to growth hormone found in the pituitary. Immunoperoxidase staining revealed dense accumulation of the peroxidase-antibody to growth hormone complex in amygdala cells. Significant amounts of growth hormone and adrenocorticotropin could be extracted from this limbic structure. Extracts containing immunoequivalent amounts of growth hormone were measured by bioassay in hypophysectomized rats. Stimulation of the growth of epiphyseal cartilage by extracts of the amygdala was comparable to the stimulation by extracts of anterior pituitary glands. The stimulatory effect of amygdala extracts on adrenal and gonadal size and weight and on growth of thyroid follicular epithelium was also comparable to that of pituitary extracts.

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Hypothalamic Luteinizing Hormone (LH): Characteristics and Response to Hypophysectomy

Emanuele

Connick

Howell

et al. 1981

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Salivary gland glucagon in man and animals

Lawrence¹,

Tan²,

Hojvat³

et al. 1976

Metabolism

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Immunoreactive thyroid stimulating hormone (TSH): Association with synaptosomally-rich fractions in the rat hypothalamus

et al. 1983

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Impact of Endocrine Manipulations on Brain-Based Rat Growth Hormone

Hojvat¹,

Emanuele²,

Kirsteins³

et al. 1986

Neuroendocrinology

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Our laboratory has previously described the widespread distribution of an immunoreactive and bioactive rat growth hormone (rGH)-like protein in rat brain. It has also been demonstrated that regulation of pituitary rGH secretion is at least partly mediated by a short-loop negative feedback system. In such a system, increased levels of rGH, acting at a suprapituitary locus, would decrease pituitary GH secretion. Thus, the present study has dealt with attempts to further investigate the hypothesis that one function of brain-based rGH might be as a mediator of the short-loop negative feedback system controlling pituitary rGH release. If brain-based rGH were to function as a mediator of such a system, then in situations where serum rGH levels are decreased, brain rGH concentrations should increase, indicating activation of a negative feedback loop. In the present communication we report that significantly decreased serum GH levels in oophor-ectomized and in thyroidectomized rats were coupled with a significant increase in rGH concentrations in the hypothalamus and in the amygdala. By contrast, adrenalectomy, which was not associated with any changes in levels of GH in serum caused no perturbations in levels of rGH in the brain. These discordant changes in serum and brain-based rGH are findings compatible with the hypothesis that one function of brain-based rGH is as a mediator of the short-loop negative feedback system regulating the release of pituitary GH.

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Sally Hojvat

Growth hormone (GH) immunoreactivity in the rodent and primate CNS: Distribution, characterization and presence posthypophysectomy

Salivary Gland Hyperglycemic Factor: An Extrapancreatic Source of Glucagon-Like Material

Growth hormone (GH), thyroid-stimulating hormone (TSH), and luteinizing hormone (LH)-like peptides in the rodent brain: non-parallel ontogenetic development with pituitary counterparts

Biologically Active Pituitary Hormones in the Rat Brain Amygdaloid Nucleus

Hypothalamic Luteinizing Hormone (LH): Characteristics and Response to Hypophysectomy

Salivary gland glucagon in man and animals

Immunoreactive thyroid stimulating hormone (TSH): Association with synaptosomally-rich fractions in the rat hypothalamus

Impact of Endocrine Manipulations on Brain-Based Rat Growth Hormone

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