TY - JOUR
T1 - PKG1a Cysteine-42 Redox State Controls mTORC1 Activation in Pathological Cardiac Hypertrophy
AU - Oeing, Christian U.
AU - Nakamura, Taishi
AU - Pan, Shi
AU - Mishra, Sumita
AU - Dunkerly-Eyring, Brittany L.
AU - Kokkonen-Simon, Kristen M.
AU - Lin, Brian L.
AU - Chen, Anna
AU - Zhu, Guangshuo
AU - Bedja, Djahida
AU - Lee, Dong Ik
AU - Kass, David A.
AU - Ranek, Mark J.
N1 - Publisher Copyright:
© 2020 Lippincott Williams and Wilkins. All rights reserved.
PY - 2020/7/31
Y1 - 2020/7/31
N2 - Rationale: Stimulated PKG1a (protein kinase G-1a) phosphorylates TSC2 (tuberous sclerosis complex 2) at serine 1365, potently suppressing mTORC1 (mechanistic [mammalian] target of rapamycin complex 1) activation by neurohormonal and hemodynamic stress. This reduces pathological hypertrophy and dysfunction and increases autophagy. PKG1a oxidation at cysteine-42 is also induced by these stressors, which blunts its cardioprotective effects. Objective: We tested the dependence of mTORC1 activation on PKG1a C42 oxidation and its capacity to suppress such activation by soluble GC-1 (guanylyl cyclase 1) activation. Methods and Results: Cardiomyocytes expressing wild-type (WT) PKG1a (PKG1aWT) or cysteine-42 to serine mutation redox-dead (PKG1aCS/CS) were exposed to ET-1 (endothelin 1). Cells expressing PKG1aWTexhibited substantial mTORC1 activation (p70 S6K [p70 S6 kinase], 4EBP1 [elF4E binding protein-1], and Ulk1 [Unc-51-like kinase 1] phosphorylation), reduced autophagy/autophagic flux, and abnormal protein aggregation; all were markedly reversed by PKG1aCS/CSexpression. Mice with global knock-in of PKG1aCS/CSsubjected to pressure overload (PO) also displayed markedly reduced mTORC1 activation, protein aggregation, hypertrophy, and ventricular dysfunction versus PO in PKG1aWTmice. Cardioprotection against PO was equalized between groups by co-treatment with the mTORC1 inhibitor everolimus. TSC2-S1365 phosphorylation increased in PKG1aCS/CSmore than PKG1aWTmyocardium following PO. TSC2S1365A/S1365A(TSC2 S1365 phospho-null, created by a serine to alanine mutation) knock-in mice lack TSC2 phosphorylation by PKG1a, and when genetically crossed with PKG1aCS/CSmice, protection against PO-induced mTORC1 activation, cardiodepression, and mortality in PKG1aCS/CSmice was lost. Direct stimulation of GC-1 (BAY-602770) offset disparate mTORC1 activation between PKG1aWTand PKG1aCS/CSafter PO and blocked ET-1 stimulated mTORC1 in TSC2S1365A-expressing myocytes. Conclusions: Oxidation of PKG1a at C42 reduces its phosphorylation of TSC2, resulting in amplified PO-stimulated mTORC1 activity and associated hypertrophy, dysfunction, and depressed autophagy. This is ameliorated by direct GC-1 stimulation.
AB - Rationale: Stimulated PKG1a (protein kinase G-1a) phosphorylates TSC2 (tuberous sclerosis complex 2) at serine 1365, potently suppressing mTORC1 (mechanistic [mammalian] target of rapamycin complex 1) activation by neurohormonal and hemodynamic stress. This reduces pathological hypertrophy and dysfunction and increases autophagy. PKG1a oxidation at cysteine-42 is also induced by these stressors, which blunts its cardioprotective effects. Objective: We tested the dependence of mTORC1 activation on PKG1a C42 oxidation and its capacity to suppress such activation by soluble GC-1 (guanylyl cyclase 1) activation. Methods and Results: Cardiomyocytes expressing wild-type (WT) PKG1a (PKG1aWT) or cysteine-42 to serine mutation redox-dead (PKG1aCS/CS) were exposed to ET-1 (endothelin 1). Cells expressing PKG1aWTexhibited substantial mTORC1 activation (p70 S6K [p70 S6 kinase], 4EBP1 [elF4E binding protein-1], and Ulk1 [Unc-51-like kinase 1] phosphorylation), reduced autophagy/autophagic flux, and abnormal protein aggregation; all were markedly reversed by PKG1aCS/CSexpression. Mice with global knock-in of PKG1aCS/CSsubjected to pressure overload (PO) also displayed markedly reduced mTORC1 activation, protein aggregation, hypertrophy, and ventricular dysfunction versus PO in PKG1aWTmice. Cardioprotection against PO was equalized between groups by co-treatment with the mTORC1 inhibitor everolimus. TSC2-S1365 phosphorylation increased in PKG1aCS/CSmore than PKG1aWTmyocardium following PO. TSC2S1365A/S1365A(TSC2 S1365 phospho-null, created by a serine to alanine mutation) knock-in mice lack TSC2 phosphorylation by PKG1a, and when genetically crossed with PKG1aCS/CSmice, protection against PO-induced mTORC1 activation, cardiodepression, and mortality in PKG1aCS/CSmice was lost. Direct stimulation of GC-1 (BAY-602770) offset disparate mTORC1 activation between PKG1aWTand PKG1aCS/CSafter PO and blocked ET-1 stimulated mTORC1 in TSC2S1365A-expressing myocytes. Conclusions: Oxidation of PKG1a at C42 reduces its phosphorylation of TSC2, resulting in amplified PO-stimulated mTORC1 activity and associated hypertrophy, dysfunction, and depressed autophagy. This is ameliorated by direct GC-1 stimulation.
KW - autophagy
KW - heart failure
KW - hypertrophy
KW - mice
KW - phosphorylation
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U2 - 10.1161/CIRCRESAHA.119.315714
DO - 10.1161/CIRCRESAHA.119.315714
M3 - Article
C2 - 32393148
AN - SCOPUS:85089301556
SN - 0009-7330
VL - 127
SP - 522
EP - 533
JO - Circulation research
JF - Circulation research
IS - 4
ER -