| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| T A Voronina, F Z Meerson, A L Mdzinarishvili, N A Abdikaliev, M G Pshennikov. [Comparative evaluation of anticonvulsant and anti-arrhythmic effects of phenazepam, a benzodiazepine receptor agonist]. Biulleten' eksperimental'noi biologii i meditsiny. vol 109. issue 2. 1990-06-20. PMID:1970937. |
it seems to be due to the potentiating effect of phenazepam on the realization of gaba inhibitory control of centers of the heart regulation. |
1990-06-20 |
2023-08-11 |
mouse |
| C Delbende, S Jégou, D Tranchand-Bunel, C Blasquez, H Vaudr. gamma-Aminobutyric acid inhibits the release of alpha-melanocyte-stimulating hormone from rat hypothalamic slices. Brain research. vol 497. issue 1. 1989-11-14. PMID:2551453. |
taken together, these data suggest that exogenous gaba exerts an inhibitory control on alpha-msh neurons. |
1989-11-14 |
2023-08-11 |
rat |
| J Segovia, R Meloni, K Gal. Effect of dopaminergic denervation and transplant-derived reinnervation on a marker of striatal GABAergic function. Brain research. vol 493. issue 1. 1989-10-25. PMID:2505886. |
these results suggest that the grafted neurons can partly restore inhibitory control over striatal gaba neurons. |
1989-10-25 |
2023-08-11 |
rat |
| D Becquet, M Faudon, F Her. In vivo evidence for acetylcholine control of serotonin release in the cat caudate nucleus: influence of halothane anaesthesia. Neuroscience. vol 27. issue 3. 1989-08-01. PMID:3252174. |
these data strongly suggest that the inhibitory control exerted by acetylcholine on serotonergic transmission could involve gamma-aminobutyric acid interneurons. |
1989-08-01 |
2023-08-11 |
cat |
| R Gabor, S Regunathan, T L Sourke. Central regulation of adrenal tyrosine hydroxylase: interaction between dopamine and GABA systems. Neuropharmacology. vol 28. issue 5. 1989-07-11. PMID:2566951. |
as a central gaba (gamma-aminobutyric acid) system is believed to exert inhibitory control over the release of dopamine, gaba agonists were also tested for their effects. |
1989-07-11 |
2023-08-11 |
Not clear |
| H E Scharfman, J M Sarve. Physiological correlates of responses to gamma-aminobutyric acid (GABA) recorded from rat visual cortical neurons in vitro. Synapse (New York, N.Y.). vol 2. issue 6. 1989-02-13. PMID:3212675. |
our results suggest that despite differences in the circuitry of the visual cortex as opposed to other neocortical and allocortical (hippocampal) areas (mountcastle and poggio, 1968; colonnier and rossignol, 1969; creutzfeldt, 1978; kuhlenbeck, 1978), the inhibitory control of cortical pyramidal and nonpyramidal neurons by gaba is quite similar. |
1989-02-13 |
2023-08-11 |
rat |
| M Baes, W W Val. Growth hormone-releasing factor secretion from fetal hypothalamic cell cultures is modulated by forskolin, phorbol esters, and muscimol. Endocrinology. vol 124. issue 1. 1989-02-07. PMID:2535800. |
they also support a role for gaba in the inhibitory control of grf secretion. |
1989-02-07 |
2023-08-11 |
rat |
| B Cohen, D Helwig, T Rapha. Baclofen and velocity storage: a model of the effects of the drug on the vestibulo-ocular reflex in the rhesus monkey. The Journal of physiology. vol 393. 1988-05-13. PMID:3446808. |
since baclofen is a gaba agonist, systems utilizing gaba and acting on gabab receptors appear to produce inhibitory control of velocity storage. |
1988-05-13 |
2023-08-11 |
monkey |
| B Hamon, U Heineman. Effects of GABA and bicuculline on N-methyl-D-aspartate- and quisqualate-induced reductions in extracellular free calcium in area CA1 of the hippocampal slice. Experimental brain research. vol 64. issue 1. 1986-12-16. PMID:3533598. |
we propose that, under normal conditions, an inhibitory control mediated by gaba limits the reductions of [ca2+]o particularly in sr. |
1986-12-16 |
2023-08-11 |
Not clear |
| T Nishikawa, B Scatto. Inhibitory influence of GABA on central serotonergic transmission. Involvement of the habenulo-raphé pathways in the GABAergic inhibition of ascending cerebral serotonergic neurons. Brain research. vol 331. issue 1. 1985-06-14. PMID:2985200. |
it is concluded that the gabaergic inhibition of ascending serotonergic neurons exerted in the raphé dorsalis and medianus depends upon an ongoing neuronal activity in the habenulo-raphé pathways; gaba may exert its inhibitory control over serotonergic neurons by tuning down a facilitatory influence on these cells exerted by the habenula. |
1985-06-14 |
2023-08-11 |
rat |
| S M McCann, M D Lumpkin, H Mizunuma, O Khorram, W K Samso. Recent studies on the role of brain peptides in control of anterior pituitary hormone secretion. Peptides. vol 5 Suppl 1. 1984-11-09. PMID:6148738. |
thus, inhibitory control is probably mediated by a combination of factors which would include dopamine, possibly gaba and a peptidic pif. |
1984-11-09 |
2023-08-12 |
rat |
| J A Apud, C Masotto, D Cocchi, V Locatelli, E E Muller, G Racagn. Prolactin control by the tubero-infundibular GABAergic system: role of anterior pituitary GABA receptors. Psychoneuroendocrinology. vol 9. issue 2. 1984-10-24. PMID:6089241. |
anterior pituitary (ap) gaba receptors have been shown to play a functional role in the inhibitory control of prolactin (prl) secretion by this amino acid. |
1984-10-24 |
2023-08-12 |
rat |
| G B Melis, A M Paoletti, V Mais, N M Mastrapasqua, F Strigini, F Fruzzetti, G Guarnieri, M Gambacciani, P Fiorett. The effects of the gabaergic drug, sodium valproate, on prolactin secretion in normal and hyperprolactinemic subjects. The Journal of clinical endocrinology and metabolism. vol 54. issue 3. 1982-04-12. PMID:6799535. |
they also suggest that gaba may exert an inhibitory control on prl release in humans. |
1982-04-12 |
2023-08-12 |
human |
| C M Forchetti, J L Mee. Evidence for a tonic GABAergic control of serotonin neurons in the median raphe nucleus. Brain research. vol 206. issue 1. 1981-05-13. PMID:7470888. |
we examined whether serotonin (5-ht)-containing neurons of the midbrain raphe nuclei are subject to an inhibitory control by gaba. |
1981-05-13 |
2023-08-12 |
human |