R. A. Floyd scite author profile

Tumor necrosis factor-alpha (TNF alpha) is thought to play a physiological role in the brain. These studies were performed to determine whether a diurnal rhythm of TNF alpha exist in the rat brain. Samples were collected from hippocampus, hypothalamus, cerebral cortex, cerebellum, pons and midbrain at light onset and at 6 h intervals thereafter over a day. A TNF alpha bioassay was used to measure TNF alpha in each area. TNF alpha was highest at light onset in the hypothalamus, hippocampus and cerebral cortex. Levels at light onset were about 10-fold greater than minimal night-time levels. Changes in TNF alpha activity in other brain areas were also evident, but smaller. These results support the hypothesis that TNF alpha has physiological roles in the brain.

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Effects of systemic GHRH on sleep in intact and hypophysectomized rats

Obál

Floyd

Kapás

et al. 1996

American Journal of Physiology-Endocrinology and Metabolism

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The role of pituitary growth hormone (GH) in the mediation of enhanced sleep elicited by GH-releasing hormone (GHRH) was studied in the rat. Intact and hypophysectomized (HYPOX) rats received systemic injections of GHRH or physiological saline. GHRH (0.5, 5.0, or 50 micrograms/kg in the intact rats and 0.5 or 50 micrograms/kg in HYPOX rats) was injected 6 h after light onset (P.M. injection) or just before light onset (A.M. injection, 0.5 microgram/kg in both A.M. groups). Sleep-wake activity and brain cortical temperature were recorded for 23 h (12 h light + 11 h dark). A.M. injection of GHRH did not alter sleep in normal or HYPOX rats. Each dose of P.M. GHRH increased rapid-eye-movement sleep (REMS) during 6 h postinjection in the intact rats. Hypophysectomy abolished the REMS-promoting activity of GHRH. P.M. injection of 0.5 microgram/kg GHRH increased non-REM sleep (NREMS) and enhanced electroencephalogram slow-wave activity during NREMS in both the intact and the HYPOX rats. The NREMS-promoting activity disappeared when the dose of GHRH was increased in the intact rats, whereas a tendency to enhanced NREMS was still observed after 50 micrograms/kg GHRH in the HYPOX rats. GHRH stimulated GH secretion dose dependently in the intact rats. A.M. injection of 0.5 microgram/kg GHRH tended to be less effective in stimulating GH release than the same dose administered P.M. The results confirm the time-of-day variations in the GHRH effects on sleep previously reported in human subjects. It is likely that pituitary GH is involved in the mediation of the REMS-promoting activity of GHRH but not in the NREMS-promoting activity of GHRH. Nevertheless, the results do not exclude the possibility that GH may modulate NREMS.

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Induction of arthritis in monkeys by immunization with type II collagen.

Yoo

Kim

Stuart

et al. 1988

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Immunization of two cynomolugus and three rhesus monkeys with purified type II collagen resulted in the development of polyarthritis. Arthritis first became clinically apparent 7 wk after primary immunization and persisted for 16 mo. Radiologic examination of the limbs demonstrated soft tissue swelling with severe joint destruction including loss of cartilage and bone. Involved joints eventually became ankylosed with permanent loss of some motion. All of the monkeys developed a response to the immunizing collagen as determined by ELISA of serum for antibodies. Arthritis was associated with weight loss and constitutional symptoms, including lethargy and refusal to eat. One monkey became so debilitated that it was necessary to euthanize it. Histologic examination of the joints showed synovial hypertrophy with pannus formation. A control monkey immunized with type I collagen suffered no apparent ill effects.

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Type II Collagen-Induced Autoimmune Endolymphatic Hydrops in Guinea Pig

Yoo

Yazawa

Tomoda

et al. 1983

Science

120

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Endolymphatic hydrops was induced in guinea pigs by immunizing them with native bovine type II collagen. Histopathologic changes consisted of moderate extension of the Reissner's membrane, spiral ganglion degeneration, atrophied organ of Corti, and mild atrophy of the surface epithelium in the endolymphatic duct. These findings suggest that an immune response directed against type II collagen--a type of collagen found in the membranous labyrinth, subepithelial layer of the endolymphatic duct, spiral ligament, and enchondral layer of the otic capsule--may induce endolymphatic hydrops.

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R. A. Floyd

Impairment of cell-mediated immunity functions by dietary zinc deficiency in mice

Diurnal variation of TNFα in the rat brain

Effects of systemic GHRH on sleep in intact and hypophysectomized rats

Induction of arthritis in monkeys by immunization with type II collagen.

Type II Collagen-Induced Autoimmune Endolymphatic Hydrops in Guinea Pig

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