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COS7 cells were transiently transfected with plasmids encoding mutant forms of the V2 vasopressin receptors corresponding to mutations [Y280C, L292P, R337stop, V277A, and G12E (the latter found in the same kindred with L292P)] recently identified in subjects with X-linked nephrogenic diabetes insipidus (NDI). cAMP response to dDAVP and AVP, saturation binding experiments with [3H]-AVP, immunofluorescence, and indirect ELISA studies were performed to characterize the functional consequences of these mutations. The Y280C, L292P, and R337stop mutant V2 receptors show substantially decreased cell surface expression and are functionally inactive. The V277A mutant receptor, though well expressed at the cell surface as seen by immunofluorescence and ELISA and having a dissociation constant with AVP similar to the wild type receptor, was functionally less active as seen by a substantially decreased receptor number (Bmax) and reduced cAMP stimulation by dDAVP. The G12E mutant was functionally the same as the wild type V2 receptor in both cAMP stimulation and binding. These results provide insight into residues critical for V2 receptor expression and function and also provide direct evidence that Y280C, L292P, R337stop and V277A mutations are the cause of X-linked NDI in affected subjects.

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Three closely related, but distinct, GTP-binding proteins (G-proteins) are encoded by cDNAs arbitrarily designated Gi1, Gi2, and Gi3. The in vitro translated products of mRNAs prepared from Gi1, Gi2, and Gi3 cDNAs migrate as 41-, 40-, and 41-kDa proteins, respectively, on sodium dodecyl sulfate-polyacrylamide gels. Antisera were raised against synthetic decapeptides corresponding to a divergent sequence (residues 159-168 for Gi1 and Gi3; 160-169 for Gi2) of the three cDNAs and tested on immunoblots for reactivity with three purified G-proteins, G41 and G40 from brain and G41 from HL-60 cells. LD antisera (Gi1 peptide) react only with brain G41. LE antisera (Gi2 peptide) react only with brain G40, and SQ antisera (Gi3 peptide) react exclusively with HL-60 G41. The results indicate that the 41-kDa G-protein purified from HL-60 cells differs from the purified brain 41-kDa protein and suggest that the HL-60 cell protein corresponds to that encoded by Gi3 cDNA.

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Twenty-four of 24 rabbits immunized with the beta subunit common to guanine nucleotide binding proteins developed antibodies reactive on immunoblots with the 15-kDa (amino-terminal) tryptic fragment of beta. Only 2 of 24 developed antibodies reactive with the 26-kDa (carboxy-terminal) tryptic fragment. The 15-kDa fragment-reactive antibodies were also detected in several nonimmune sera. Antibodies reactive with the 15-kDa fragment could be affinity-purified from all beta-immune sera by adsorption to a fusion protein encoded by a cDNA clone identified by expression vector screening. The 15-kDa fragment antibodies in nonimmune sera did not bind to the fusion protein. Limited amino acid sequence homology between the 36-kDa beta subunit and the protein encoded by the cDNA clone suggested that the amino-terminal decapeptide of beta contains a major epitope. A synthetic decapeptide, corresponding to the amino terminus of the 36-kDa beta subunit, effectively and specifically blocked binding of antibodies in beta-immune sera (but not in beta-reactive nonimmune sera) to nitrocellulose-bound 15-kDa fragment. The 15-kDa fragment-reactive antibodies could be affinity-purified from beta-immune sera on a matrix containing bound decapeptide; affinity-purified antibodies reacted equally well with the 36- and 35-kDa forms of the beta subunit. Native transducin beta/gamma complexes readily blocked binding of 15-kDa fragment-reactive antibodies in immune but not nonimmune sera from binding to the nitrocellulose-bound fragment. The results show that nonimmune sera may contain antibodies directed against an epitope of the 15-kDa fragment that is buried in the native beta/gamma complex. In contrast, the amino terminal decapeptide of the beta subunit is exposed on the surface of the native protein and contains a major antigenic site in both the 35- and 36-kDa forms.

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Antisera AS/6 and 7, raised against a synthetic peptide KENLKDCGLF corresponding to the carboxyl-terminal decapeptide of transducin-alpha, react on immunoblots with purified transducin-alpha and with proteins of 40-41 kDa in all tissues tested. The latter represent one or more forms of Gi alpha but not Go alpha, since a synthetic peptide, KNNLKDCGLF, corresponding to the carboxyl-terminal decapeptide of two forms of Gi alpha blocks AS/6 and 7 reactivity with transducin-alpha and Gi alpha on immunoblots, whereas the corresponding Go-related peptide, ANNLRGCGLY, does not. Antisera LE/2 and 3, raised against the synthetic peptide LERIAQSDYI, corresponding to an internal sequence predicted by one form of Gi alpha cDNA (Gi alpha-2) and differing by 3 residues from the sequence of another form, Gi alpha-1, react strongly with a 40-kDa protein abundant in neutrophil membranes and with the major pertussis toxin substrate purified from bovine neutrophils. LE/2 and 3 reveal a relatively faint 40-kDa band on immunoblots of crude brain membranes or of purified brain Gi/Go. LE/2 and 3 do not react with transducin-alpha or Go alpha nor with the 41-kDa form of pertussis toxin substrate in brain, Gi alpha-1. These antisera distinguish between the major pertussis toxin substrates of brain and neutrophil and tentatively identify the latter as Gi alpha-2.

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Dopaminergic inhibition of prolactin release from the anterior pituitary may be mediated through both the adenylate cyclase and Ca2+ mobilization/phosphoinositide pathways. The D2-dopamine receptor of the bovine anterior pituitary has been partially purified by affinity chromatography on CMOS-Sepharose (immobilized carboxymethyleneoximinospiperone). Reinsertion of these partially purified receptor preparations into phospholipid vesicles reconstituted guanine nucleotide-sensitive high affinity agonist binding, agonist-promoted GTPase and 35S-labeled guanosine 5'-O-(thiotriphosphate) [( 35S]GTP gamma S) binding activity in these preparations. Pertussis toxin treatment of the purified receptor preparation abolished agonist-stimulated GTPase and guanine nucleotide-sensitive high affinity agonist binding. These observations suggest that the receptor copurifies with an endogenous, pertussis toxin-sensitive guanine nucleotide binding protein (N). [32P]ADP-ribosylation of affinity-purified D2 receptor preparations by pertussis toxin revealed the presence of a substrate of Mr 39,000-40,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Peptide maps generated using elastase of the [32P]ADP-ribosylated endogenous N protein, transducin, and Ni and No from brain revealed similarities but not identity between the endogenous pituitary N protein and brain Ni and No. Immunoblotting of the partially purified D2 receptor preparations showed an Mr 39,000-40,000 band with an Ni-specific antiserum raised against a synthetic peptide, and with RV3, an No-specific anti-serum, but not with CW6, an antiserum strongly reactive with brain Ni. Several lines of evidence indicate that endogenous pituitary N protein is functionally coupled to the D2 receptor. As measured by [35S]GTP gamma S binding, ratios of 0.2-0.6 mol N protein/mol receptor were observed. Association of N protein with the D2 receptor was increased by agonist pretreatment and decreased by guanine nucleotides. These results suggest that No and/or a form of Ni distinct from the Mr 41,000 pertussis toxin substrate (Ni) is the predominant N protein functionally coupled with the D2-dopamine receptor of anterior pituitary.

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