Johnson GP, Fletcher PW. Guanosine diphosphate binding, metabolism and regulation of follitropin-sensitive adenylate cyclase activity in Sertoli cell membranes.
BIOCHIMICA ET BIOPHYSICA ACTA 1988;
970:343-54. [PMID:
3135837 DOI:
10.1016/0167-4889(88)90134-6]
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Abstract
Nucleotides such as GTP and GDP appear to be involved in signal transduction via G protein modulation of adenylate cyclase activity. Studies on direct binding of [3H]GDP to membranes prepared from cultured immature rat Sertoli cells indicated that this process was reversible, approached steady state within 10 min, had a Ka of 4.5.10(6) M-1 and was specific for guanine nucleotides. The non-hydrolyzable analog, guanosine 5'-O-[3-thio]triphosphate (Gppp[S]), was most effective as an inhibitor of [3H]GDP binding (ED50 = 4.8.10(-8) M), whereas guanosine 5'-O-[2-thio]diphosphate (Gpp[S]) was less potent (ED50 = 3.4.10(-7) M). Release of bound GDP was enhanced by follitropin (FSH) in the presence of Gppp[S], although not by FSH alone. Sertoli cell membranes possess guanine nucleotide hydrolase activity, where 95% of added nucleotide was rapidly degraded to guanosine. Binding kinetics were significantly influenced by nucleotide metabolism, which was prevented by controlling the Mg2+ concentration with EDTA and including App[NH]p to reduce nonspecific hydrolysis. Kinetic studies indicated that Gpp[S] inhibited (P less than 0.05) Gppp[S]-stimulated adenylate cyclase activity (Ki = 1.8.10(-7) M), whereas basal activity remained unaffected. Addition of Gpp[S] to pre-activated enzyme (FSH plus GTP) resulted in a time-dependent decay of adenylate cyclase activity with a Koff value of 6 +/- 1.min-1. Using a two-stage pre-incubation technique, adenylate cyclase activity was demonstrated to be sensitive to the nucleotide bound. When FSH was included, catalytic activity was not altered by the order of pre-incubation with the nucleotides. This suggested that the exchange of bound Gpp[S] for Gppp[S] was enhance by FSH. Activation and attenuation of FSH-sensitive adenylate cyclase activity is dependent on a nucleotide exchange mechanism which is driven by (1) the higher affinity of G for GTP than GDP, (2) enhanced release of GD when FSH is present and (3) GTP hydrolysis coupled to rapid metabolism of guanine nucleotides.
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