Emi Takaya scite author profile

Calpain 7 (also known as PalBH) is a mammalian homologue of the Aspergillus, atypical calpain PalB. Knowledge of the biochemical properties of calpain 7 is limited and its function is not yet known. In this study, we investigated the interactions of calpain 7 with all 11 ESCRT-III-related proteins, named charged multivesicular body proteins (CHMPs), and the subcellular localization of calpain 7. Pulldown assays using stable HEK293T transfectants of Strep-tagged calpain 7 revealed interactions of calpain 7 with a subset of FLAG-tagged CHMPs, among which CHMP1B was selected for further analyses. The N-terminal region containing a tandem repeat of MIT domains of calpain 7 was found to be necessary and sufficient for interaction with CHMP1B. Direct interaction was confirmed by a pulldown assay using recombinant proteins. Fluorescence microscopic analysis using HeLa cells revealed that overexpression of GFP-fused CHMPs or a dominant-negative construct of SKD1/Vps4B caused accumulation of epitope-tagged calpain 7 in a punctate pattern in the perinuclear area. Subcellular fractionation revealed that the most of endogenous calpain 7 is present in the cytosol but a small portion is present in particulate fractions. Punctate fluorescence signals of monomeric GFP-fused calpain 7 partly merged with those of endocytosed tetramethylrhodamine-labelled EGF. These results suggest that calpain 7 plays roles in the endosomal pathway by interacting with a subset of ESCRT-III-related proteins.

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Skeletal Muscle-specific Calpain Is an Intracellular Na+-dependent Protease

Ono

Ojima

Torii

et al. 2010

Journal of Biological Chemistry

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Because intracellular [Na+] is kept low by Na+/K+-ATPase, Na+ dependence is generally considered a property of extracellular enzymes. However, we found that p94/calpain 3, a skeletal-muscle-specific member of the Ca2+-activated intracellular “modulator proteases” that is responsible for a limb-girdle muscular dystrophy (“calpainopathy”), underwent Na+-dependent, but not Cs+-dependent, autolysis in the absence of Ca2+. Furthermore, Na+ and Ca2+ complementarily activated autolysis of p94 at physiological concentrations. By blocking Na+/K+-ATPase, we confirmed intracellular autolysis of p94 in cultured cells. This was further confirmed using inactive p94:C129S knock-in (p94CS-KI) mice as negative controls. Mutagenesis studies showed that much of the p94 molecule contributed to its Na+/Ca2+-dependent autolysis, which is consistent with the scattered location of calpainopathy-associated mutations, and that a conserved Ca2+-binding sequence in the protease acted as a Na+ sensor. Proteomic analyses using Cs+/Mg2+ and p94CS-KI mice as negative controls revealed that Na+ and Ca2+ direct p94 to proteolyze different substrates. We propose three roles for Na+ dependence of p94; 1) to increase sensitivity of p94 to changes in physiological [Ca2+], 2) to regulate substrate specificity of p94, and 3) to regulate contribution of p94 as a structural component in muscle cells. Finally, this is the first example of an intracellular Na+-dependent enzyme.

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Maintenance of meiotic crossover against reduced double-strand break formation in fission yeast lacking histone H2A.Z

Yamada

Ding

et al. 2020

Gene

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Emi Takaya

HD-PTP and Alix share some membrane-traffic related proteins that interact with their Bro1 domains or proline-rich regions

Human Calpain 7/PalBH Associates with a Subset of ESCRT-III-related Proteins in its N-terminal Region and Partly Localizes to Endocytic Membrane Compartments

Skeletal Muscle-specific Calpain Is an Intracellular Na+-dependent Protease

Maintenance of meiotic crossover against reduced double-strand break formation in fission yeast lacking histone H2A.Z

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