Calpain-7 binds to CHMP1B at its second α-helical region and forms a ternary complex with IST1

Maemoto, Yuki; Osako, Yohei; Goto, Emi; Nozawa, Eri; Shibata, Hideki; Maki, Masatoshi

doi:10.1093/jb/mvr071

Cited by 12 publications

(15 citation statements)

References 38 publications

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“…For example, the ESCRT-III protein CHMP1B binds the MIT domains of the AAA ATPase spastin (Figure 4e), which severs microtubules immediately prior to abscission (77). Additional MIT domain-containing proteins recruited by ESCRT-III subunits to function in abscission include the phospholipase D–like protein, MITD1 (CHMP1A, CHMP1B, CHMP2A, and IST1) (177, 178), spartin (SPG20) (IST1) (179), and the protease calpain 7 (IST1:CHMP1B complexes) (180). …”

Section: Biological Functionsmentioning

confidence: 99%

Membrane Fission Reactions of the Mammalian ESCRT Pathway

McCullough

Colf

Sundquist³

2013

Annu. Rev. Biochem.

220

288

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The endosomal sorting complexes required for transport (ESCRT) pathway was initially defined in yeast genetic screens that identified the factors necessary to sort membrane proteins into intraluminal endosomal vesicles. Subsequent studies have revealed that the mammalian ESCRT pathway also functions in a series of other key cellular processes, including formation of extracellular microvesicles, enveloped virus budding, and the abscission stage of cytokinesis. The core ESCRT machinery comprises Bro1 family proteins and ESCRT-I, ESCRT-II, ESCRT-III, and VPS4. Site-specific adaptors recruit these soluble factors to assemble on different cellular membranes, where they carry out membrane fission reactions. ESCRT-III proteins form filaments that draw membranes together from the cytoplasmic face, and mechanistic models have been advanced to explain how ESCRT-III filaments and the VPS4 ATPase can work together to catalyze membrane fission.

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Section: Biological Functionsmentioning

confidence: 99%

Membrane Fission Reactions of the Mammalian ESCRT Pathway

McCullough

Colf

Sundquist³

2013

Annu. Rev. Biochem.

220

288

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“…Another MIT domain protein is calpain‐7, one of the cysteine proteases of the calpain superfamily. The MIT domain of calpain‐7 associates with CHMP1 and IST1 [63]. However, the role of calpain‐7 in cytokinesis is not fully understood.…”

Section: Other Mit Domain Proteinsmentioning

confidence: 99%

Differential requirements of mammalian ESCRTs in multivesicular body formation, virus budding and cell division

Morita

2012

The FEBS Journal

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The endosomal sorting complexes required for transport (ESCRTs) mediate membrane fission from the cytoplasmic face of the bud neck. ESCRTs were originally identified as factors involved in multivesicular body vesicle biogenesis in yeast but have since been shown to function in other membrane fission events in mammalian cells, including enveloped virus budding and the abscission step of cytokinesis. Several recent studies have revealed that not all ESCRT factors are required for each of these biological processes, and this review summarizes our current understanding of the different requirements for ESCRT factors in these three different ESCRTmediated mammalian membrane fission processes.

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“…However, binding of the MIT domains to CHMP1B exhibits a different mode of interaction. Calpain‐7 binds to the predicted second α‐helical region of CHMP1B as indicated by in vitro binding assays using purified recombinant proteins [30]. Calpain‐7, IST1 and CHMP1B form a ternary complex.…”

Section: Interaction Of Calpain‐7 Mit Domains With Escrt‐iii Proteinsmentioning

confidence: 99%

Evolutionary and physical linkage between calpains and penta‐EF‐hand Ca²⁺‐binding proteins

et al. 2012

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The name calpain was historically given to a protease that is activated by Ca2+ and whose primary structure contains a Ca2+‐binding penta‐EF‐hand (PEF) as well as a calpain cysteine protease (CysPc) domain and a C2‐domain‐like (C2L) domain. In the human genome, CysPc domains are found in 15 genes, but only nine of them encode PEF domains. Fungi and budding yeasts have calpain‐like sequences that lack the PEF domain, and each protein (designated PalB and Rim13, respectively) is orthologous to human calpain‐7, indicating that the calpain‐7 orthologs are evolutionarily more conserved than classical calpains possessing PEF domains. An N‐terminal region of calpain‐7 has a tandem repeat of microtubule‐interacting and transport domains that interact with a subset of endosomal sorting complex required for transport (ESCRT) III proteins. In addition to calpains, PEF domains are found in other Ca2+‐binding proteins including ALG‐2 that associates with ALIX (an ESCRT‐III accessory protein) and TSG101 (an ESCRT‐I subunit). Phylogenetic comparison of dissected domain structures of calpains and experimentally confirmed protein–protein interaction networks imply that there is an evolutionary and physical linkage between mammalian calpains and PEF proteins involving the ESCRT system.

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Calpain-7 binds to CHMP1B at its second α-helical region and forms a ternary complex with IST1

Cited by 12 publications

References 38 publications

Membrane Fission Reactions of the Mammalian ESCRT Pathway

Membrane Fission Reactions of the Mammalian ESCRT Pathway

Differential requirements of mammalian ESCRTs in multivesicular body formation, virus budding and cell division

Evolutionary and physical linkage between calpains and penta‐EF‐hand Ca²⁺‐binding proteins

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Calpain-7 binds to CHMP1B at its second α-helical region and forms a ternary complex with IST1

Cited by 12 publications

References 38 publications

Membrane Fission Reactions of the Mammalian ESCRT Pathway

Membrane Fission Reactions of the Mammalian ESCRT Pathway

Differential requirements of mammalian ESCRTs in multivesicular body formation, virus budding and cell division

Evolutionary and physical linkage between calpains and penta‐EF‐hand Ca2+‐binding proteins

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Evolutionary and physical linkage between calpains and penta‐EF‐hand Ca²⁺‐binding proteins