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Key Proteostasis References
Proteostasis Research Cloud Tags:
Aggregation
Autophagy
Ca(2+)
Cancer
Cellular stress
c-Fos
Chaperones
c-myc
Degradation
E3 ligases
Heat shock
Hsp40
Hsp70
Hsp90
Hypoxia
IFN
IGF
Inflammation
LC3
mTor
Neurodegeneration
NFkappaB
Oxidative stress
Parkinson's
Proteases
Proteasome
Protein folding
Protein misfolding
ROS
Tau
Ubiquitin
UPR
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Physiology and pathology of proteostasis in the early secretory compartment
Semin. Cell Dev. Biol. 2010, view full abstract in PubMed
The endoplasmic reticulum (ER), the port of entry for proteins into the secretory pathway, is a multifunctional organelle emerging as a central integrator of numerous signalling pathways. The mechanisms that control proteostasis are integral part of this signalling network, providing cues for morphological and functional cell remodelling, proliferation, inflammation and cell death. The complexity of ER responses is exploited during physiological and pathological tissue development, cell differentiation and lifespan control. This essay outlines some of the mechanisms that link proteostasis within the early secretory compartment to signalling in development and disease.
