In addition, intraventricular administration of TRH, LHRH or LH caused tachycardia, hypertension and a reduction in the epinephrine-induced reflex bradycardia.
PRI-2191 alone had no effect on gene expression, but it enhanced the seizure-evoked expression of HSP-70, had an opposite effect on BDNF mRNA level and did not affect prepro-TRH mRNA level.
These data showed that pilocarpine- and kainate-induced seizures enhanced likewise preproTRH mRNA in the dentate gyrus; on the other hand, they differed with respect to time- and structure-related changes in TRH tissue levels and TRH receptors.
In addition, coadministration of JTP-4819 and substance P, arginine-vasopressin or thyrotropin-releasing hormone (at doses at which each drug alone did not prolong the retention time) improved the retention time of rats with scopolamine-induced amnesia.
Repeated administration of TRH for 7 days at doses of 0.2-5 mg/kg s.c. elicited a dose-dependent recovery from amnesia induced by scopolamine, whereas only the group treated with 5 mg/kg/day showed a significant improvement.
RGH-2202 was 2-5 times more effective than TRH in improving the deficits of active avoidance performance and retention in mice, while it was weaker than TRH in modifying the haloperidol-induced catalepsy in mice and enhancing the spinal reflexes in rats.
The effects of direct administration of TRH, TSH, LHRH, LH, ACTH, GH, FSH and prolactin into cerebral ventricle system on metabolic, respiratory, cardiovascular and behavioral responses were assessed in unanesthetized rats, Intraventricular administration of TRH, TSH, LHRH or LH caused hypothermia, decreased metabolism and/or cutaneous vasodilation at room temperature (22 degrees C).
Effects of PRI-2191--a low-calcemic analog of 1,25-dihydroxyvitamin D3 on the seizure-induced changes in brain gene expression and immune system activity in the rat.
Stimulant effect of thyrotropin-releasing hormone and its analog, RGH 2202, on the diaphragm respiratory activity, and their antagonism with morphine: possible involvement of the N-methyl-D-aspartate receptors.
In addition, intraventricular administration of TRH, LHRH or LH caused tachycardia, hypertension and a reduction in the epinephrine-induced reflex bradycardia.
20 microgram TRH injected bilaterally into the caudate-putamen, tuberculum olfactorium, nucleus accumbens, amygdala, lateral ventricles, midbrain or cerebral cortex failed to induce any increase in locomotor activity (measured using photocells), although other behavioural changes were observed after each injection, and included body shakes, limb tremor, repetitive head and limb movements, biting, scratching and an alert appearance.