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Originally published In Press as doi:10.1074/jbc.M100115200 on January 16, 2001
J. Biol. Chem., Vol. 276, Issue 15, 12410-12419, April 13, 2001
Autologous Biological Response Modification of the Gonadotropin
Receptor*
Smita D.
Mahale ,
John
Cavanagh§,
Anja
Schmidt,
Robert
MacColl, and
James A.
Dias¶
From the Wadsworth Center, David Axelrod Institute for Public
Health, New York State Department of Health,
Albany, New York 12208
It is generally held with respect to
heterotrimeric guanine nucleotide binding protein-coupled
receptors that binding of ligand stabilizes a conformation of receptor
that activates adenylyl cyclase. It is not formally appreciated if, in
the case of G-protein-coupled receptors with large extracellular
domains (ECDs), ECDs directly participate in the activation process.
The large ECD of the glycoprotein hormone receptors (GPHRs) is 350 amino acids in length, composed of seven leucine-rich repeat domains,
and necessary and sufficient for high affinity binding of the
glycoprotein hormones. Peptide challenge experiments to identify
regions in the follicle-stimulating hormone (FSH) receptor (FSHR) ECD
that could bind its cognate ligand identified only a single synthetic
peptide corresponding to residues 221-252, which replicated a
leucine-rich repeat domain of the FSHR ECD and which had intrinsic
activity. This peptide inhibited human FSH binding to the human FSHR
(hFSHR) and also inhibited human FSH-induced signal transduction in Y-1
cells expressing recombinant hFSHR. The hFSHR-(221-252) domain was not
accessible to anti-peptide antibody probes, suggesting that this domain
resides at an interface between the hFSHR ECD and transmembrane
domains. CD spectroscopy of the peptide in dodecyl phosphocholine
micelles showed an increase in the ordered structure of the peptide. CD and NMR spectroscopies of the peptide in trifluoroethanol confirmed that hFSHR-(221-252) has the propensity to form ordered secondary structure. Importantly and consistent with the foregoing results, dodecyl phosphocholine induced a significant increase in the ordered secondary structure of the purified hFSHR ECD as well. These data provide biophysical evidence of the influence of environment on GPHR
ECD subdomain secondary structure and identify a specific activation
domain that can autologously modify GPHR activity.
*
This work was supported in part by National Institutes of
Health Grant HD 18407 (to J. A. D.).The costs of publication of this
article were defrayed in part by the
payment of page charges. The article
must therefore be hereby marked
"advertisement" in accordance with 18 U.S.C. Section
1734 solely to indicate this fact.
Supported by an overseas research associateship from the
Department of Biotechnology, Government of India. Present address: Inst. for Research in Reproduction (ICMR), J. M. St. Parel,
Mumbai 400 012, India.
§
Present address: Dept. of Biochemistry, 128 Polk Hall, Campus Box
7622, North Carolina State University, Raleigh, NC 27695-7622.
¶
To whom correspondence should be addressed: Wadsworth Center,
New York State Department of Health, David Axelrod Inst. for Public
Health, 120 New Scotland Ave., Albany, NY 12208. Tel.: 518-486-2569;
Fax: 518-474-5978; E-mail: James.Dias@wadsworth.org.
Copyright © 2001 by The American Society for Biochemistry and Molecular Biology, Inc.
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Copyright © 2001 by the American Society for Biochemistry and Molecular Biology.
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