Structural Domains in Phospholemman : A Possible Role for the Carboxyl Terminus in Channel Inactivation

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Circulation Research. 1998;82:367-374

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(Circulation Research. 1998;82:367-374.)
© 1998 American Heart Association, Inc.

Original Contributions

Structural Domains in Phospholemman

A Possible Role for the Carboxyl Terminus in Channel Inactivation

Zhenhui Chen, Larry R. Jones, Jeffrey J. O'Brian, J. Randall Moorman, , Steven E. Cala

From the Department of Medicine and the Krannert Institute of Cardiology (Z.C., L.R.J.), Indiana University School of Medicine, Indianapolis, Ind; the Dupont Merck Pharmaceutical Co Applied Biotechnology (J.J.O.), Wilmington, Del; the Departments of Medicine and Molecular Physiology and Biological Physics (J.R.M.), University of Virginia Health Sciences Center, Charlottesville, Va; and the Program in Molecular and Cellular Cardiology (S.E.C.), Department of Medicine, Wayne State University School of Medicine, Detroit, Mich.

Correspondence and reprint requests to Steven E. Cala, PhD, Cardiology Research Division, 421 East Canfield, Room 1107, Detroit, MI 48201. E-mail jones{at}kimail.dmed.iupui.edu

Abstract—Phospholemman (PLM) is a small (72–aminoacid) transmembrane protein found in cardiac sarcolemma thatis a major substrate for several protein kinases in vivo. Detailedstructural data for PLM is lacking, but several studies havedescribed an ion conductance that results from PLM expressionin oocytes. Moreover, addition of purified PLM to lipid bilayersgenerates similar ion currents, suggesting that the PLM moleculeitself might be sufficient for channel formation. To providea framework for understanding the function of PLM, we investigatedPLM topology and structure in sarcolemmal membrane vesiclesand analyzed purified recombinant PLM. Immunoblot analyses with site-specificantibodies revealed that the extracellular segment (residues1 to 17) exists in a protected configuration highly resistantto proteases, even in detergent solutions. The intracellularportion of the molecule (residues 38 to 72), in contrast, washighly susceptible to proteases. Trypsin treatment produceda limit peptide (residues 1 to 43), which showed little changein electrophoretic mobility in SDS gels and retained the ion-channel activityin lipid bilayers that is characteristic of the full-length protein.In addition, we found that conductance through PLM channels exhibitedrapid inactivation during depolarizing ramps at voltages greaterthan ±50 mV, Channels formed by trypsinized PLM or recombinant PLM1–43 exhibited dramatic reductions in voltage-dependent inactivations.Our data point to distinct domains within the PLM molecule thatmay correlate with functional properties of channel activityobserved in oocytes and lipid bilayers.

Key Words: phospholemman • sarcolemma • ion channel • topology

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				J. R. Hume, D. Duan, M. L. Collier, J. Yamazaki, and B. Horowitz Anion Transport in Heart Physiol Rev, January 1, 2000; 80(1): 31 - 81. [Abstract] [Full Text] [PDF]

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				J. P. Mounsey, J. E. John III, S. M. Helmke, E. W. Bush, J. Gilbert, A. D. Roses, M. B. Perryman, L. R. Jones, and J. R. Moorman Phospholemman Is a Substrate for Myotonic Dystrophy Protein Kinase J. Biol. Chem., July 21, 2000; 275(30): 23362 - 23367. [Abstract] [Full Text] [PDF]

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