NYUHSL Faculty Bibliography

Searched for:

school:SOM

Department/Unit:Neuroscience Institute

Total Results:

13474

Journal of neural transmission (1972). 1977:41(2-3):109-21.DOI: 10.1007/bf01670276

The interactions of bromocriptine and lergotrile with dopamine and alpha-adrenergic receptors

Lew, J Y; Hata, F; Ohashi, T; Goldstein, M

Bromocriptine and lergotrile, which are clinically used as antiparkinsonian (AP) agents, compete for the binding of H3-dopamine, H3-apomorphine, and H3-haloperidol to striatal membrane sites. Lergotrile has a higher affinity for the H3-dopamine binding to bovine striatal membranes than bromocriptine. Lergotrile and bromocriptine are almost equipotent in competing for the binding of H3-apomorphine to rat striatal membranes, but bromocriptine is more potent in competing for the binding of H3-haloperidol than lergotrile. These results indicate that lergotrile and bromocriptine are mixed putative agonist-antagonist with respect to the postsynaptic dopamine receptors. Lergotrile and bromocriptine at higher concentrations inhibit synaptosomal tyrosine hydroxylase activity, and reverse the apomorphine elicited enzyme inhibition. Thus, these ergot alkaloids behave as mixed agonist-antagonist also with respect to the presynaptic dopamine receptors. Bromocriptine and lergotrile, as well as other tested DH-ergot alkaloids and neuroleptics, compete for the binding of the alpha-antagonist H3-WB-4101 to rat cerebral cortical membranes. The displacing potencies of the tested DH-ergot alkaloids and of the neuroleptics indicate that they have a high affinity for the alpha-adrenoreceptors in the CNS

PMID: 21229

ISSN: n/a

CID: 147185

Advances in biochemical psychopharmacology. 1977:16:281-90.DOI:

Studies on the role of dopamine in cardiovascular and respiratory control: central versus peripheral mechanisms

Bolme, P; Fuxe, K; Hokfelt, T; Goldstein, M

PMID: 329647

ISSN: 0065-2229

CID: 158365

Advances in biochemical psychopharmacology. 1977:16:447-53.DOI:

Effect of dopaminephilic agents and cAMP on tyrosine hydroxylase activity

Goldstein, M; Bronaugh, R L; Lew, J U; Ohashi, T; Drummond, G S; Fuxe, K

PMID: 18892

ISSN: 0065-2229

CID: 158308

Acta physiologica Scandinavica. Supplementum. 1977:452:31-4.DOI:

Olfactory bulb dopamine neurons - the A15 catecholamine cell group

Ljungdahl, A; Hokfelt, T; Halasz, N; Johansson, O; Goldstein, M

PMID: 345745

ISSN: 0302-2994

CID: 158487

Advances in biochemical psychopharmacology. 1977:16:99-108.DOI:

Hypothalamic dopamine neurons and hypothalamic peptides

Hokfelt, T; Johansson, O; Fuxe, K; Elde, R; Goldstein, M; Park, D; Efendic, S; Luft, R; Fraser, H; Jeffcoate, S

PMID: 407780

ISSN: 0065-2229

CID: 158694

Neurology. 1977:27(4):390-390.DOI:

TREATMENT OF PARKINSON DISEASE WITH LERGOTRILE MESYLATE [Meeting Abstract]

LIEBERMAN, AN; ESTEY, E; KUPERSMITH, M; GOPINATHAN, G; GOLDSTEIN, M

ISI:A1977DC37200212

ISSN: 0028-3878

CID: 575372

Automatic and semi-automatic analysis of nervous system structure

Chapter by: Hillman DE; Llinas R; Chujo M

in: Computer analysis of neuronal structures by Lindsay RD [Eds]

New York : Plenum Press, 1977

pp. 73-90

ISBN: 0306309645

CID: 3281

Federation proceedings (Federation of American Societies for Experimental Biology). 1977:36(3):1192-1192.DOI:

SUPPRESSION OF GRAFT VERSUS HOST REACTIONS (GVH) IN MICE BY VESICULAR STOMATITIS-VIRUS [Meeting Abstract]

Romano, TJ; Umetsu, DT; Bloom, BB; Thorbecke, GJ; Hochwald, GM

ISI:A1977CW31804886

ISSN: 0014-9446

CID: 29636

Federation proceedings (Federation of American Societies for Experimental Biology). 1977:36(3):515-515.DOI:

INVIVO AND INVITRO MOVEMENT OF NA+ ACROSS CHOROID-PLEXUS INTO AN ELECTROLYTE-FREE SOLUTION [Meeting Abstract]

WALD, A; HOCHWALD, GM; GANDHI, M

ISI:A1977CW31801292

ISSN: 0014-9446

CID: 40004

Experimental eye research. 1977:25 Suppl:475-82.DOI: 10.1016/s0014-4835(77)80042-0

Visualization of brain interstitial fluid movement during osmotic disequilibrium

Stern, J; Hochwald, G M; Wald, A; Gandhi, M

PMID: 590402

ISSN: 0014-4835

CID: 177483