Protein transport into the human ER and related diseases, Sec61-channelopathies

S Haßdenteufel, MC Klein, A Melnyk… - … and Cell Biology, 2014 - cdnsciencepub.com
S Haßdenteufel, MC Klein, A Melnyk, R Zimmermann
Biochemistry and Cell Biology, 2014cdnsciencepub.com
Protein transport into the human endoplasmic reticulum (ER) is relevant to the biogenesis of
most soluble and membrane proteins of organelles, which are involved in endo-or exo-
cytsosis. It involves amino-terminal signal peptides in the precursor polypeptides and
various transport components in the cytosol plus the ER, and can occur co-or post-
translationally. The two mechanisms merge at the level of the ER membrane, specifically at
the level of the heterotrimeric Sec61 complex, which forms a dynamic polypeptide …
Protein transport into the human endoplasmic reticulum (ER) is relevant to the biogenesis of most soluble and membrane proteins of organelles, which are involved in endo- or exo-cytsosis. It involves amino-terminal signal peptides in the precursor polypeptides and various transport components in the cytosol plus the ER, and can occur co- or post-translationally. The two mechanisms merge at the level of the ER membrane, specifically at the level of the heterotrimeric Sec61 complex, which forms a dynamic polypeptide-conducting channel in the ER membrane. Since the mammalian ER is also the main intracellular calcium storage organelle, and the Sec61 complex is calcium permeable, the Sec61 complex is tightly regulated in its equilibrium between the closed and open conformations, or “gated”, by ligands, such as signal peptides of the transport substrates and the ER lumenal Hsp70-type molecular chaperone BiP. Furthermore, BiP binding to the incoming polypeptide contributes to the efficiency and unidirectionality of transport. Recent insights into the structure and dynamic equilibrium of the Sec61 complex have various mechanistic as well as medical implications.
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