BLOOD LEVEL AND BRAIN DISTRIBUTION OF THYROTROPIN-RELEASING HORMONE (TRH) DETERMINED BY RADIOIMMUNOASSAY AFTER INTRAVENOUS ADMINISTRATION IN RATS
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概要
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The blood level and brain distribution of immunoreactive TRH after intravenous administration of TRH tartrate monohydrate (TRH-T) were investigated by radioimmunoassay in rats. Optimal condition for complete inactivation of TRH-degradative enzymes in brain by a microwave irradiation was found to be a 5kW power for 1.5 seconds. The endogenous TRH was present at the highest concentration in the hypothalamus, followed by the brain stem and thalamus, and was the lowest in the cerebral cortex including hippocampus and cerebellum. The time-course of TRH blood levels following administration of TRH-T at 0.5,5 and 25 mg/kg fitted to a two compartment open model, and the half-lives in β-phase increased dose-dependently. The administered TRH was incorporated rapidly from blood into whole brain, and the peak brain level corresponding to 0.108-0.166% of the total dose administered was attained 1 min after the administration. The brain TRH was eliminated with a half-life of about 3 min. The administered TRH was distributed throughout the brain, at the highest concentration in the hypothalamus, followed by the brain stem, cerebellum, thalamus and cerebral cortex. TRH tended to be eliminated most rapidly from the cerebellum.
- 公益社団法人日本薬学会の論文
著者
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YOKOHAMA SHIGEHARU
Central Research Division, Takeda Chemical Industries, Ltd.
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Yokohama Shigeharu
Central Research Division Takeda Chemical Industries Ltd.
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NIHEI NORIYUKI
Third Department of Internal Medicine Hamamatsu Medical School
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Nihei Noriyuki
Third Department Of Internal Medicine Hamamatsu University School Of Medicine
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NAGAWA YUJI
Central Research Division, Takeda Chemical Industries, Ltd.
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NAGAI YASUO
Central Research Division, Takeda Chemical Industries, Ltd.
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Nagawa Yuji
Central Research Division Takeda Chemical Industries Ltd.
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HIROOKA YOSHIBUMI
Third Department of Internal Medicine, Hamamatsu University School of Medicine
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Hirooka Yoshibumi
Third Department Of Internal Medicine Hamamatsu University School Of Medicine
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Nagai Yasuo
Central Research Division Takeda Chemical Industries Ltd.
関連論文
- ABSORPTION OF THYROTROPIN-RELEASING HORMONE AFTER ORAL ADMINISTRATION OF TRH TARTRATE MONOHYDRATE IN THE RAT, DOG AND HUMAN
- RADIOIMMUNOASSAY OF THYROTROPIN-RELEASING HORMONE (TRH) IN RAT, DOG, AND HUMAN BLOOD
- INTESTINAL ABSORPTION MECHANISMS OF γ-BUTYROLACTONE-γ-CARBONYL-L-HISTIDYL-L-PROLINAMIDE CITRATE (DN-1417) AND THYROTROPIN-RELEASING HORMONE (TRH)
- ABSORPTION OF γ-BUTYROLACTONE-γ-CARBONYL-L-HISTIDYL-L-PROLINAMIDE CITRATE (DN-1417), AN ANALOG OF THY-ROTROPIN-RELEASING HORMONE, IN RATS AND DOGS
- The Effect of L-DOPA Administration on Thyrotropin (TSH) and Thyrotropin Releasing Hormone (TRH) Levels in Serum in Primary or Pituitary Hypothyroidism
- MECHANISM OF ANTIPENTOBARBITAL ACTION OF THYROTROPIN-RELEASING HORMONE (TRH)
- BLOOD LEVEL AND BRAIN DISTRIBUTION OF THYROTROPIN-RELEASING HORMONE (TRH) DETERMINED BY RADIOIMMUNOASSAY AFTER INTRAVENOUS ADMINISTRATION IN RATS
- A TRH analog (DN-1417): Effects on local cerebral glucose utilization in conscious and pentobarbitalized rats determined by the autoradiographic 2-deoxy-(14C)glucose method.
- Increase in rat regional brain cyclic nucleotides by thyrotropin-releasing hormone (TRH) and its analog DN-1417.
- Effects of idebenone (CV-2619) on metabolism of monoamines, especially serotonin, in the brain of normal rats and rats with cerebral ischemia.
- Effects of TRH and an Analog, DN-1417 on the Activities of Single Neurons in the Nucleus Accumbens, Cerebral Cortex and Caudate-putamen of Rats
- Effects of idebenone (CV-2619) on endogenous monoamine release and cyclic AMP formation in diencephalon slices from rats.
- Beneficial effect of idebenone (CV-2619) on cerebral ischemia-induced amnesia in rats.
- A possible mechanism of action of thyrotropin-releasing hormone (TRH) and its analog DN-1417 on the release of dopamine from the nucleus accumbens and striatum in rats.
- In vivo electrochemical detection of 5-hydroxyindoles in the dorsal hippocampus of anesthetized rats treated with idebenone (CV-2619).