De Heng Sun scite author profile

The effect of peripheral administration of eledoisin on thyrotrophin-releasing hormone (TRH) and thyrotrophin (TSH) secretion in rats were studied. Eledoisin (500 \g=m\g/kg) was injected iv, and the rats were serially decapitated. TRH, TSH and thyroid hormone were measured by radioimmunoassay. The hypothalamic immunoreactive TRH (ir-TRH) content increased significantly after eledoisin injection, whereas its plasma concentration tended to decrease, but not significantly. Plasma TSH levels decreased significantly in a dose-related manner with a nadir at 40 min after the injection. Plasma thyroid hormone levels did not change significantly. Plasma ir-TRH and TSH responses to cold were inhibited by eledoisin, but the plasma TSH response to TRH was not affected. In the pimozide-or para-chlorophenylalanine-pretreated group, the inhibitory effect of eledoisin on TSH levels was prevented, but not in the l-dopa-or 5-hydroxytryptophan-pretreated group. These drugs alone did not affect plasma TSH levels at the dose used. The inactivation of TRH immunoreactivity by plasma or hypothalamus in vitro after eledoisin injection did not differ from that of controls. These findings suggest that eledoisin acts on the hypothalamus to inhibit TRH release, and its effects are modified by amines of the central nervous system. Eledoisin was isolated from the posterior salivary glands of the Mediterranean octopod Eledone moschata (Erspamer & Anastasi 1962) and is one of tachykinin (Erspamer 1981). Eledoisin potently stimulates intestinal and gastro-urinary smooth muscle and, when injected intraventricularly, in¬ duces elevation of vasopressin levels (Erspamer

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Effects of Histamine and Related Compounds on Thyrotropin Secretion in Rats

Mitsuma¹,

Nogimori²,

Sun³

et al. 1986

Horm Res

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The effects of histamine (HA) and related compounds on thyrotropin-releasing hormone (TRH) and thyrotropin (TSH) secretion in rats were studied. Histidine (1.0 g/kg), HA (5.0 mg/kg) or histamine antagonists mepyramine (MP) (100 mg/kg) or famotidine (FA) (5.0 mg/kg) were injected intraperitoneally, and the rats were decapitated at various intervals after the injection. The hypothalamic immunoreactive TRH (ir-TRH) content increased significantly after histidine or HA injection, decreased significantly after FA injection, but was not changed by MP. The plasma ir-TRH concentration did not change significantly after injection of these drugs. The plasma TSH levels decreased significantly in a dose-related manner after histidine or HA injection and increased significantly in a dose-related manner after FA injection. The plasma thyroid hormone levels showed no changes. In the FA-pretreated group, the inhibitory effect of histidine or HA on TSH levels was prevented, but not in the MP-pretreated group. The plasma ir-TRH and TSH responses to cold were inhibited by histidine or HA and enhanced by FA. The plasma TSH response to TRH was inhibited by histidine or HA and enhanced by FA. The inactivation of TRH immunoreactivitiy by hypothalamus or plasma in vitro after histidine, HA, MP or FA was not different from that of the control. These findings suggest that histamine may act both on the hypothalamus and the pituitary to inhibit TRH and TSH release, and that its effects may be mediated via H₂-receptor.

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Dopamine Inhibits Thyrotropin-Releasing Hormone Release from Rat Adrenal Gland in vitro

et al. 1987

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The effects of dopamine on the release of thyrotropin-releasing hormone (TRH) from the rat adrenal gland were studied in vitro. The rat adrenal glands were incubated in medium 199 with 1.0 mg/ml of bacitracin and 100 µg/ml of ascorbic acid (pH 7.4) (medium) for 20 min. The amount of TRH release into the medium was measured by radioimmunoassay. The immunoreactive TRH (ir-TRH) release from the rat adrenal gland was inhibited significantly in a dose-related manner with the addition of dopamine and enhanced with the addition of pimozide or domperidone to the medium. Dopamine’s effects on ir-TRH release from the adrenal gland were blocked with the addition of pimozide or domperidone. The elution profile of methanol-extracted rat adrenal gland was identical to that of synthetic TRH. The findings suggest that the dopaminergic system inhibits TRH release from the rat adrenal gland.

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Endorphins: Assay and Physiological Significance

Müller¹,

Stalla²,

Werder³

et al. 1987

Horm Res

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De Heng Sun

Effects of histamine and related compounds on the release of immunoreactive thyrotropin-releasing hormone from the rat stomach in vitro

Effects of eledoisin on thyrotrophin secretion in rats

Effects of Histamine and Related Compounds on Thyrotropin Secretion in Rats

Dopamine Inhibits Thyrotropin-Releasing Hormone Release from Rat Adrenal Gland in vitro

Endorphins: Assay and Physiological Significance

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