Effect of guanine nucleotides on [3H] glutamate binding and on adenylate cyclase activity in rat brain membranes

Maribel A. Rubin; Alan C. Medeiros; Paula C.B. Rocha; Carolina B. Livi; Galo Ramirez; Diogo O. Souza

doi:10.1023/a:1027367624250

Effect of guanine nucleotides on [³H] glutamate binding and on adenylate cyclase activity in rat brain membranes

Maribel A. Rubin, Alan C. Medeiros, Paula C.B. Rocha, Carolina B. Livi, Galo Ramirez, Diogo O. Souza

Resultado de la investigación: Article › revisión exhaustiva

25 Citas (Scopus)

Resumen

GMP-PNP, a non-hydrolyzable analog of GTP binds tightly to G-protein in the presence of Mg²⁺, so that the binding is stable even after exhaustive washings. This property was exploited to prepare membrane samples of rat brain where G-protein GTP-binding sites were saturated with GMP-PNP. Experiments carried out with these membranes showed that GTP, GMP-PNP, GDP-S and GMP (1 mM) inhibit the sodium-independent [³H]glutamate binding by 30-40% [F(4,40) = 5.9; p < .001], whereas only GMP-PNP activates adenylate cyclase activity [F(6,42) = 3.56; p < .01]. The inhibition of sodium-independent [³H]glutamate binding occurred in the absence of Mg²⁺. These findings suggest that guanine nucleotides may inhibit glutamate binding and activate adenylate cyclase through distinct mechanisms by acting on different sites.

Idioma original	English (US)
Páginas (desde-hasta)	181-187
Número de páginas	7
Publicación	Neurochemical Research
Volumen	22
N.º	2
DOI	https://doi.org/10.1023/a:1027367624250
Estado	Published - 1997
Publicado de forma externa	Sí

ASJC Scopus subject areas

Biochemistry
Cellular and Molecular Neuroscience

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title = "Effect of guanine nucleotides on [3H] glutamate binding and on adenylate cyclase activity in rat brain membranes",

abstract = "GMP-PNP, a non-hydrolyzable analog of GTP binds tightly to G-protein in the presence of Mg2+, so that the binding is stable even after exhaustive washings. This property was exploited to prepare membrane samples of rat brain where G-protein GTP-binding sites were saturated with GMP-PNP. Experiments carried out with these membranes showed that GTP, GMP-PNP, GDP-S and GMP (1 mM) inhibit the sodium-independent [3H]glutamate binding by 30-40% [F(4,40) = 5.9; p < .001], whereas only GMP-PNP activates adenylate cyclase activity [F(6,42) = 3.56; p < .01]. The inhibition of sodium-independent [3H]glutamate binding occurred in the absence of Mg2+. These findings suggest that guanine nucleotides may inhibit glutamate binding and activate adenylate cyclase through distinct mechanisms by acting on different sites.",

keywords = "Adenylate cyclase, G-proteins, Glutamate, [H]glutamate-binding; guanine nucleotides",

author = "Rubin, {Maribel A.} and Medeiros, {Alan C.} and Rocha, {Paula C.B.} and Livi, {Carolina B.} and Galo Ramirez and Souza, {Diogo O.}",

note = "Funding Information: CNPq grant, FINER, KAPKROS, CAPES, PRO- by Contract N° Cl 1*-CT94-OI16 of the European Funding Information: was supported by PESP/UFRGS and Commission.",

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doi = "10.1023/a:1027367624250",

language = "English (US)",

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T1 - Effect of guanine nucleotides on [3H] glutamate binding and on adenylate cyclase activity in rat brain membranes

AU - Rubin, Maribel A.

AU - Medeiros, Alan C.

AU - Rocha, Paula C.B.

AU - Livi, Carolina B.

AU - Ramirez, Galo

AU - Souza, Diogo O.

N1 - Funding Information: CNPq grant, FINER, KAPKROS, CAPES, PRO- by Contract N° Cl 1*-CT94-OI16 of the European Funding Information: was supported by PESP/UFRGS and Commission.

PY - 1997

Y1 - 1997

N2 - GMP-PNP, a non-hydrolyzable analog of GTP binds tightly to G-protein in the presence of Mg2+, so that the binding is stable even after exhaustive washings. This property was exploited to prepare membrane samples of rat brain where G-protein GTP-binding sites were saturated with GMP-PNP. Experiments carried out with these membranes showed that GTP, GMP-PNP, GDP-S and GMP (1 mM) inhibit the sodium-independent [3H]glutamate binding by 30-40% [F(4,40) = 5.9; p < .001], whereas only GMP-PNP activates adenylate cyclase activity [F(6,42) = 3.56; p < .01]. The inhibition of sodium-independent [3H]glutamate binding occurred in the absence of Mg2+. These findings suggest that guanine nucleotides may inhibit glutamate binding and activate adenylate cyclase through distinct mechanisms by acting on different sites.

AB - GMP-PNP, a non-hydrolyzable analog of GTP binds tightly to G-protein in the presence of Mg2+, so that the binding is stable even after exhaustive washings. This property was exploited to prepare membrane samples of rat brain where G-protein GTP-binding sites were saturated with GMP-PNP. Experiments carried out with these membranes showed that GTP, GMP-PNP, GDP-S and GMP (1 mM) inhibit the sodium-independent [3H]glutamate binding by 30-40% [F(4,40) = 5.9; p < .001], whereas only GMP-PNP activates adenylate cyclase activity [F(6,42) = 3.56; p < .01]. The inhibition of sodium-independent [3H]glutamate binding occurred in the absence of Mg2+. These findings suggest that guanine nucleotides may inhibit glutamate binding and activate adenylate cyclase through distinct mechanisms by acting on different sites.

KW - Adenylate cyclase

KW - G-proteins

KW - Glutamate

KW - [H]glutamate-binding; guanine nucleotides

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