Functional Contributions of Noncysteine Residues within the Cystine Knots of Human Chorionic Gonadotropin Subunits

Human chorionic gonadotropin (hCG) is a heterodimeric member of a family of cystine knot-containing proteins that contain the consensus sequences Cys-X1-Gly-X2-Cys and Cys-X3-Cys. Previously, we characterized the contributions that cystine residues of the hCG subunit cystine knots make in folding, a...

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Veröffentlicht in:	The Journal of biological chemistry 2001-04, Vol.276 (14), p.10692-10699
Hauptverfasser:	Darling, Ryan J., Wilken, Jason A., Miller-Lindholm, Amanda K., Urlacher, Teresa M., Ruddon, Raymond W., Sherman, Simon A., Bedows, Elliott
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Sprache:	eng
Schlagworte:	Chorionic Gonadotropin - chemistry Chorionic Gonadotropin - metabolism Cystine Humans Structure-Activity Relationship
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container_end_page	10699
container_issue	14
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container_title	The Journal of biological chemistry
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creator	Darling, Ryan J. Wilken, Jason A. Miller-Lindholm, Amanda K. Urlacher, Teresa M. Ruddon, Raymond W. Sherman, Simon A. Bedows, Elliott
description	Human chorionic gonadotropin (hCG) is a heterodimeric member of a family of cystine knot-containing proteins that contain the consensus sequences Cys-X1-Gly-X2-Cys and Cys-X3-Cys. Previously, we characterized the contributions that cystine residues of the hCG subunit cystine knots make in folding, assembly, and bioactivity. Here, we determined the contributions that noncysteine residues make in hCG folding, secretion, and assembly. When the X1,X2, and X3 residues of hCG-α and -β were substituted by swapping their respective cystine knot motifs, the resulting chimeras appeared to fold correctly and were efficiently secreted. However, assembly of the chimeras with their wild type partner was almost completely abrogated. No single amino acid substitution completely accounted for the assembly inhibition, although the X2 residue made the greatest individual contribution. Analysis by tryptic mapping, high performance liquid chromatography, and SDS-polyacrylamide gel electrophoresis revealed that substitution of the central Gly in the Cys-X1-Gly-X2-Cys sequence of either the α- or β-subunit cystine knot resulted in non-native disulfide bond formation and subunit misfolding. This occurred even when the most conservative change possible (Gly → Ala) was made. From these studies we conclude that all three “X” residues within the hCG cystine knots are collectively, but not individually, required for the formation of assembly-competent hCG subunits and that the invariant Gly residue is required for efficient cystine knot formation and subunit folding.
doi_str_mv	10.1074/jbc.M010168200
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Previously, we characterized the contributions that cystine residues of the hCG subunit cystine knots make in folding, assembly, and bioactivity. Here, we determined the contributions that noncysteine residues make in hCG folding, secretion, and assembly. When the X1,X2, and X3 residues of hCG-α and -β were substituted by swapping their respective cystine knot motifs, the resulting chimeras appeared to fold correctly and were efficiently secreted. However, assembly of the chimeras with their wild type partner was almost completely abrogated. No single amino acid substitution completely accounted for the assembly inhibition, although the X2 residue made the greatest individual contribution. Analysis by tryptic mapping, high performance liquid chromatography, and SDS-polyacrylamide gel electrophoresis revealed that substitution of the central Gly in the Cys-X1-Gly-X2-Cys sequence of either the α- or β-subunit cystine knot resulted in non-native disulfide bond formation and subunit misfolding. This occurred even when the most conservative change possible (Gly → Ala) was made. From these studies we conclude that all three “X” residues within the hCG cystine knots are collectively, but not individually, required for the formation of assembly-competent hCG subunits and that the invariant Gly residue is required for efficient cystine knot formation and subunit folding.</description><identifier>ISSN: 0021-9258</identifier><identifier>EISSN: 1083-351X</identifier><identifier>DOI: 10.1074/jbc.M010168200</identifier><identifier>PMID: 11134053</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Chorionic Gonadotropin - chemistry ; Chorionic Gonadotropin - metabolism ; Cystine ; Humans ; Structure-Activity Relationship</subject><ispartof>The Journal of biological chemistry, 2001-04, Vol.276 (14), p.10692-10699</ispartof><rights>2001 © 2001 ASBMB. 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Previously, we characterized the contributions that cystine residues of the hCG subunit cystine knots make in folding, assembly, and bioactivity. Here, we determined the contributions that noncysteine residues make in hCG folding, secretion, and assembly. When the X1,X2, and X3 residues of hCG-α and -β were substituted by swapping their respective cystine knot motifs, the resulting chimeras appeared to fold correctly and were efficiently secreted. However, assembly of the chimeras with their wild type partner was almost completely abrogated. No single amino acid substitution completely accounted for the assembly inhibition, although the X2 residue made the greatest individual contribution. Analysis by tryptic mapping, high performance liquid chromatography, and SDS-polyacrylamide gel electrophoresis revealed that substitution of the central Gly in the Cys-X1-Gly-X2-Cys sequence of either the α- or β-subunit cystine knot resulted in non-native disulfide bond formation and subunit misfolding. This occurred even when the most conservative change possible (Gly → Ala) was made. 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subjects	Chorionic Gonadotropin - chemistry Chorionic Gonadotropin - metabolism Cystine Humans Structure-Activity Relationship
title	Functional Contributions of Noncysteine Residues within the Cystine Knots of Human Chorionic Gonadotropin Subunits
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