TY - JOUR
T1 - Complex Inhibitory Effects of Nitric Oxide on Autophagy
AU - Sarkar, Sovan
AU - Korolchuk, Viktor I.
AU - Renna, Maurizio
AU - Imarisio, Sara
AU - Fleming, Angeleen
AU - Williams, Andrea
AU - Garcia-Arencibia, Moises
AU - Rose, Claudia
AU - Luo, Shouqing
AU - Underwood, Benjamin R.
AU - Kroemer, Guido
AU - O'Kane, Cahir J.
AU - Rubinsztein, David C.
N1 - Funding Information:
We thank T. Yoshimori, N. Mizushima, B. Levine, R.J. Davis, D.J. Kwiatkowski, A.R. Tee, M. Karin, S.H. Snyder, K. Schmidt, W.C. Sessa, N.T. Eissa, Y. Rojanasakul, R. Tsien, G.R. Jackson, G. Enikolopov, W. Greene, the laboratory of the late S.J. Korsmeyer, Developmental Studies Hybridoma Bank, and Addgene for valuable reagents and P. Tyers, A. Casez, M. Quick, A. McNabb, T. Dyl, R. Antrobus, T. DiCesare, S. Gupta, and G. Sahay for technical support. We are grateful for Hughes Hall Research Fellowship (support to S.S. and V.I.K.), NIHR Biomedical Research Centre at Addenbrooke's Hospital and MRC Skills Gap Award (support to A.F.), Action Medical Research Training Fellowship (support to B.R.U.), Ligue Nationale contre le Cancer, Agence Nationale pour la Recherche, AXA Chair for Longevity Research (support to G.K.), Wellcome Trust Senior Fellowship in Clinical Science (support to D.C.R.), Medical Research Council, Sackler Trust, and National Institute for Health Research Biomedical Research Centre at Addenbrooke's Hospital for funding.
PY - 2011/7/8
Y1 - 2011/7/8
N2 - Autophagy, a major degradation process for long-lived and aggregate-prone proteins, affects various human processes, such as development, immunity, cancer, and neurodegeneration. Several autophagy regulators have been identified in recent years. Here we show that nitric oxide (NO), a potent cellular messenger, inhibits autophagosome synthesis via a number of mechanisms. NO impairs autophagy by inhibiting the activity of S-nitrosylation substrates, JNK1 and IKKβ. Inhibition of JNK1 by NO reduces Bcl-2 phosphorylation and increases the Bcl-2-Beclin 1 interaction, thereby disrupting hVps34/Beclin 1 complex formation. Additionally, NO inhibits IKKβ and reduces AMPK phosphorylation, leading to mTORC1 activation via TSC2. Overexpression of nNOS, iNOS, or eNOS impairs autophagosome formation primarily via the JNK1-Bcl-2 pathway. Conversely, NOS inhibition enhances the clearance of autophagic substrates and reduces neurodegeneration in models of Huntington's disease. Our data suggest that nitrosative stress-mediated protein aggregation in neurodegenerative diseases may be, in part, due to autophagy inhibition.
AB - Autophagy, a major degradation process for long-lived and aggregate-prone proteins, affects various human processes, such as development, immunity, cancer, and neurodegeneration. Several autophagy regulators have been identified in recent years. Here we show that nitric oxide (NO), a potent cellular messenger, inhibits autophagosome synthesis via a number of mechanisms. NO impairs autophagy by inhibiting the activity of S-nitrosylation substrates, JNK1 and IKKβ. Inhibition of JNK1 by NO reduces Bcl-2 phosphorylation and increases the Bcl-2-Beclin 1 interaction, thereby disrupting hVps34/Beclin 1 complex formation. Additionally, NO inhibits IKKβ and reduces AMPK phosphorylation, leading to mTORC1 activation via TSC2. Overexpression of nNOS, iNOS, or eNOS impairs autophagosome formation primarily via the JNK1-Bcl-2 pathway. Conversely, NOS inhibition enhances the clearance of autophagic substrates and reduces neurodegeneration in models of Huntington's disease. Our data suggest that nitrosative stress-mediated protein aggregation in neurodegenerative diseases may be, in part, due to autophagy inhibition.
UR - http://www.scopus.com/inward/record.url?scp=79959886743&partnerID=8YFLogxK
U2 - 10.1016/j.molcel.2011.04.029
DO - 10.1016/j.molcel.2011.04.029
M3 - Article
C2 - 21726807
AN - SCOPUS:79959886743
SN - 1097-2765
VL - 43
SP - 19
EP - 32
JO - Molecular Cell
JF - Molecular Cell
IS - 1
ER -