Literature DB >> 24101520

Allosteric regulation of SERCA by phosphorylation-mediated conformational shift of phospholamban.

Martin Gustavsson1, Raffaello Verardi, Daniel G Mullen, Kaustubh R Mote, Nathaniel J Traaseth, T Gopinath, Gianluigi Veglia.   

Abstract

The membrane protein complex between the sarcoplasmic reticulum Ca(2+)-ATPase (SERCA) and phospholamban (PLN) controls Ca(2+) transport in cardiomyocytes, thereby modulating cardiac contractility. β-Adrenergic-stimulated phosphorylation of PLN at Ser-16 enhances SERCA activity via an unknown mechanism. Using solid-state nuclear magnetic resonance spectroscopy, we mapped the physical interactions between SERCA and both unphosphorylated and phosphorylated PLN in membrane bilayers. We found that the allosteric regulation of SERCA depends on the conformational equilibrium of PLN, whose cytoplasmic regulatory domain interconverts between three different states: a ground T state (helical and membrane associated), an excited R state (unfolded and membrane detached), and a B state (extended and enzyme-bound), which is noninhibitory. Phosphorylation at Ser-16 of PLN shifts the populations toward the B state, increasing SERCA activity. We conclude that PLN's conformational equilibrium is central to maintain SERCA's apparent Ca(2+) affinity within a physiological window. This model represents a paradigm shift in our understanding of SERCA regulation by posttranslational phosphorylation and suggests strategies for designing innovative therapeutic approaches to enhance cardiac muscle contractility.

Entities:  

Keywords:  magic angle spinning; paramagnetic relaxation enhancement; protein-protein interactions; solid-state NMR

Mesh:

Substances:

Year:  2013        PMID: 24101520      PMCID: PMC3808617          DOI: 10.1073/pnas.1303006110

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  44 in total

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Journal:  Nature       Date:  2002-01-10       Impact factor: 49.962

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3.  Serine 16 phosphorylation induces an order-to-disorder transition in monomeric phospholamban.

Authors:  Emily E Metcalfe; Nathaniel J Traaseth; Gianluigi Veglia
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Journal:  Nature       Date:  1989-11-02       Impact factor: 49.962

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Journal:  Proc Natl Acad Sci U S A       Date:  2005-03-21       Impact factor: 11.205

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Journal:  Nat Rev Mol Cell Biol       Date:  2003-07       Impact factor: 94.444

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Authors:  Masahiko Hoshijima; Yasuhiro Ikeda; Yoshitaka Iwanaga; Susumu Minamisawa; Moto-o Date; Yusu Gu; Mitsuo Iwatate; Manxiang Li; Lili Wang; James M Wilson; Yibin Wang; John Ross; Kenneth R Chien
Journal:  Nat Med       Date:  2002-07-22       Impact factor: 53.440

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Journal:  J Membr Biol       Date:  1998-07-15       Impact factor: 1.843
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  61 in total

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2.  NMR as a tool to investigate the structure, dynamics and function of membrane proteins.

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Journal:  Nat Struct Mol Biol       Date:  2016-06-07       Impact factor: 15.369

3.  Atomic-level mechanisms for phospholamban regulation of the calcium pump.

Authors:  L Michel Espinoza-Fonseca; Joseph M Autry; G Lizbeth Ramírez-Salinas; David D Thomas
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4.  Acute inotropic and lusitropic effects of cardiomyopathic R9C mutation of phospholamban.

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5.  Intrinsically disordered HAX-1 regulates Ca2+ cycling by interacting with lipid membranes and the phospholamban cytoplasmic region.

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6.  Improving the quality of oriented membrane protein spectra using heat-compensated separated local field experiments.

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7.  Phospholamban phosphorylation, mutation, and structural dynamics: a biophysical approach to understanding and treating cardiomyopathy.

Authors:  Naa-Adjeley D Ablorh; David D Thomas
Journal:  Biophys Rev       Date:  2015-01-21

8.  Effects of naturally occurring arginine 14 deletion on phospholamban conformational dynamics and membrane interactions.

Authors:  Vitaly V Vostrikov; Kailey J Soller; Kim N Ha; T Gopinath; Gianluigi Veglia
Journal:  Biochim Biophys Acta       Date:  2014-09-22

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Journal:  Biochem Biophys Res Commun       Date:  2014-05-09       Impact factor: 3.575

10.  Ca(2+) ATPase Conformational Transitions in Lipid Bilayers Mapped by Site-directed Ethylation and Solid-State NMR.

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