TY - JOUR
T1 - Expanding the Organismal Proteostasis Network
T2 - Linking Systemic Stress Signaling with the Innate Immune Response
AU - Miles, Jay
AU - Scherz-Shouval, Ruth
AU - van Oosten-Hawle, Patricija
N1 - The authors acknowledge funding from the NC3Rs (NC/P001203/1) to P.v.O-H., a Medical Research Council (MRC) DiMeN doctoral studentship to J.M. and the Israel Science Foundation (401/17; 1384/1), the European Research Council (ERC grant 754320), and the Israel cancer research foundation Gesher award to R.S.S. R.S.S. is also supported by the Laura Gurwin Flug Family Fund. R.S.S. is the incumbent of the Ernst and Kaethe Ascher Career Development Chair in Life Sciences.
PY - 2019/11
Y1 - 2019/11
N2 - Stress response pathways regulate proteostasis and mitigate macromolecular damage to promote long-term cellular health. Intercellular signaling is an essential layer of systemic proteostasis in an organism and is facilitated via transcellular signaling molecules that orchestrate the activation of stress responses across tissues and organs. Accumulating evidence indicates that components of the immune response act as signaling factors that regulate the cell-non-autonomous proteostasis network. Here, we review emergent advances in our understanding of cell-non-autonomous regulators of proteostasis networks in multicellular settings, from the model organism, Caenorhabditis elegans, to humans. We further discuss how innate immune responses can be players of the organismal proteostasis network and discuss how both are linked in cancer.
AB - Stress response pathways regulate proteostasis and mitigate macromolecular damage to promote long-term cellular health. Intercellular signaling is an essential layer of systemic proteostasis in an organism and is facilitated via transcellular signaling molecules that orchestrate the activation of stress responses across tissues and organs. Accumulating evidence indicates that components of the immune response act as signaling factors that regulate the cell-non-autonomous proteostasis network. Here, we review emergent advances in our understanding of cell-non-autonomous regulators of proteostasis networks in multicellular settings, from the model organism, Caenorhabditis elegans, to humans. We further discuss how innate immune responses can be players of the organismal proteostasis network and discuss how both are linked in cancer.
U2 - 10.1016/j.tibs.2019.06.009
DO - 10.1016/j.tibs.2019.06.009
M3 - مقالة مرجعية
SN - 0968-0004
VL - 44
SP - 927
EP - 942
JO - Trends in Biochemical Sciences
JF - Trends in Biochemical Sciences
IS - 11
ER -