Sarcolipin and phospholamban inhibit the calcium pump by populating a similar metal ion-free intermediate state.
نویسندگان
چکیده
We have performed microsecond molecular dynamics (MD) simulations and protein pKa calculations of the muscle calcium pump (sarcoplasmic reticulum Ca(2+)-ATPase, SERCA) in complex with sarcolipin (SLN) to determine the mechanism by which SLN inhibits SERCA. SLN and its close analog phospholamban (PLN) are membrane proteins that regulate SERCA by inhibiting Ca(2+) transport in skeletal and cardiac muscle. Although SLN and PLB binding to SERCA have different functional outcomes on the coupling efficiency of SERCA, both proteins decrease the apparent Ca(2+) affinity of the pump, suggesting that SLN and PLB inhibit SERCA by using a similar mechanism. Recently, MD simulations showed that PLB inhibits SERCA by populating a metal ion-free, partially-protonated E1 state of the pump, E1· [Formula: see text] . X-ray crystallography studies at 40-80 mM Mg(2+) have proposed that SLN-bound SERCA populates E1·Mg(2+), an intermediate with Mg(2+) bound near transport site I. To test this proposed mode of SLN regulation, we performed a 0.5-μs MD simulation of E1·Mg(2+)-SLN in a solution containing 100 mM K(+) and 3 mM Mg(2+), with calculation of domain dynamics in the cytosolic headpiece and side-chain ionization and occupancy in the transport sites. We found that SLN increases the distance between residues E771 and D800, thereby rendering E1·Mg(2+) incapable of producing a competent Ca(2+) transport site I. Following removal of Mg(2+,) a 2-μs MD simulation of Mg(2+)-free SERCA-SLN showed that Mg(2+) does not re-bind to the transport sites, indicating that SERCA-SLN does not populate E1·Mg(2+) at physiological conditions. Instead, protein pKa calculations indicate that SLN stabilizes a metal ion-free SERCA state (E1· [Formula: see text] ) protonated at residue E771, but ionized at E309 and D800. We conclude that both SLN and PLB inhibit SERCA by populating a similar metal ion-free intermediate state. We propose that (i) this partially-protonated intermediate serves as the consensus mechanism for SERCA inhibition by other members of the SERCA regulatory subunit family including myoregulin and sarcolamban, and (ii) this consensus mechanism is utilized to regulate Ca(2+) transport in skeletal and cardiac muscle, with important implications for therapeutic approaches to muscle dystrophy and heart failure.
منابع مشابه
Sarcolipin interaction with SERCA is distinct from Phospholamban; only Sarcolipin can promote uncoupling of the SERCA pump
SERCA pump activity is modulated by Phospholamban (PLB) and Sarcolipin (SLN) in cardiac and skeletal muscle. Recent data suggest that SLN could play a role in muscle thermogenesis by promoting uncoupling of the SERCA pump (Lee, A.G. (2002) Current opinion in structural biology 12(4):547-554 and Bal et al (2012) Nature Medicine 18(10):1575-1579) but the mechanistic details are unknown. To better...
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We performed protein pKa calculations and molecular dynamics (MD) simulations of the calcium pump (sarcoplasmic reticulum Ca(2+)-ATPase (SERCA)) in complex with phospholamban (PLB). X-ray crystallography studies have suggested that PLB locks SERCA in a low-Ca(2+)-affinity E2 state that is incompatible with metal-ion binding, thereby blocking the conversion toward a high-Ca(2+)-affinity E1 state...
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ورودعنوان ژورنال:
- Biochemical and biophysical research communications
دوره 463 1-2 شماره
صفحات -
تاریخ انتشار 2015