TY - JOUR
T1 - Inclusion bodies enriched for p62 and polyubiquitinated proteins in macrophages protect against atherosclerosis
AU - Sergin, Ismail
AU - Bhattacharya, Somashubhra
AU - Emanuel, Roy
AU - Esen, Emel
AU - Stokes, Carl J.
AU - Evans, Trent D.
AU - Arif, Batool
AU - Curci, John A.
AU - Razani, Babak
N1 - Funding Information:
We thank H. Virgin for providing the p62
Funding Information:
We thank H. Virgin for providing the p62-/- mice; K. Funai, I. Lodhi, and R. Rajagopal for providing antibody reagents to stain intracellular organelles; and J. Schilling for providing reagents to assess the macrophage inflammasome. We are grateful for the technical assistance provided by J. Avery (confocal microscopy), K. Holloway (mouse husbandry), T. Coleman (frozen tissue sectioning), and X. Wei and L. Yin (bone marrow transplantation). This work was supported by grants 5K08HL098559, 1R01HL125838, and 1R01AG037120; the Foundation for Barnes-Jewish Hospital; and the Washington University Diabetic Cardiovascular Disease Center.
PY - 2016/1/5
Y1 - 2016/1/5
N2 - Autophagy is a catabolic cellular mechanism that degrades dysfunctional proteins and organelles. Atherosclerotic plaque formation is enhanced in mice with macrophages deficient for the critical autophagy protein ATG5.We showed that exposure ofmacrophages to lipids that promote atherosclerosis increased the abundance of the autophagy chaperone p62 and that p62 colocalized with polyubiquitinated proteins in cytoplasmic inclusions, which are characterized by insoluble protein aggregates. ATG5-null macrophages developed further p62 accumulation at the sites of large cytoplasmic ubiquitin-positive inclusion bodies. Aortas from atherosclerotic mice and plaques from human endarterectomy samples showed increased abundance of p62 and polyubiquitinated proteins that colocalized with plaque macrophages, suggesting that p62-enriched protein aggregates were characteristic of atherosclerosis. The formation of the cytoplasmic inclusions depended on p62 because lipid-loaded p62-null macrophages accumulated polyubiquitinated proteins in a diffuse cytoplasmic pattern. Lipid-loaded p62-null macrophages also exhibited increased secretion of interleukin-1β (IL-1β) and had an increased tendency to undergo apoptosis, which depended on the p62 ubiquitin-binding domain and at least partly involved p62-mediated clearance ofNLRP3 inflammasomes. Consistent with our in vitro observations, p62-deficient mice formed greater numbers of more complex atherosclerotic plaques, and p62 deficiency further increased atherosclerotic plaque burden in mice with amacrophage-specific ablation of ATG5. Together, these data suggested that sequestration of cytotoxic ubiquitinated proteins by p62 protects against atherogenesis, a condition inwhich the clearance of protein aggregates is disrupted.
AB - Autophagy is a catabolic cellular mechanism that degrades dysfunctional proteins and organelles. Atherosclerotic plaque formation is enhanced in mice with macrophages deficient for the critical autophagy protein ATG5.We showed that exposure ofmacrophages to lipids that promote atherosclerosis increased the abundance of the autophagy chaperone p62 and that p62 colocalized with polyubiquitinated proteins in cytoplasmic inclusions, which are characterized by insoluble protein aggregates. ATG5-null macrophages developed further p62 accumulation at the sites of large cytoplasmic ubiquitin-positive inclusion bodies. Aortas from atherosclerotic mice and plaques from human endarterectomy samples showed increased abundance of p62 and polyubiquitinated proteins that colocalized with plaque macrophages, suggesting that p62-enriched protein aggregates were characteristic of atherosclerosis. The formation of the cytoplasmic inclusions depended on p62 because lipid-loaded p62-null macrophages accumulated polyubiquitinated proteins in a diffuse cytoplasmic pattern. Lipid-loaded p62-null macrophages also exhibited increased secretion of interleukin-1β (IL-1β) and had an increased tendency to undergo apoptosis, which depended on the p62 ubiquitin-binding domain and at least partly involved p62-mediated clearance ofNLRP3 inflammasomes. Consistent with our in vitro observations, p62-deficient mice formed greater numbers of more complex atherosclerotic plaques, and p62 deficiency further increased atherosclerotic plaque burden in mice with amacrophage-specific ablation of ATG5. Together, these data suggested that sequestration of cytotoxic ubiquitinated proteins by p62 protects against atherogenesis, a condition inwhich the clearance of protein aggregates is disrupted.
UR - http://www.scopus.com/inward/record.url?scp=84954481862&partnerID=8YFLogxK
U2 - 10.1126/scisignal.aad5614
DO - 10.1126/scisignal.aad5614
M3 - Article
C2 - 26732762
AN - SCOPUS:84954481862
SN - 1945-0877
VL - 9
JO - Science signaling
JF - Science signaling
IS - 409
M1 - ra2
ER -