Sivia Barnoy scite author profile

A crude fraction that contains ubiquitin-protein ligases contains also a proteolytic activity of ~100 kDa that cleaves p53 to several fragments. The protease does not require ATP and is inhibited in the crude extract by an endogenous ~250 kDa inhibitor. The proteinase can be inhibited by chelating the Ca 2+ ions, by specific cysteine proteinase inhibitors and by peptide aldehyde derivatives that inhibit calpains. Purified calpain demonstrates an identical activity that can be inhibited by calpastatin, the specific protein inhibitor of the enzyme. Thus, it appears that the activity we have identified in the extract is catalyzed by calpain. The calpain in the extract degrades also Nmyc, c-Fos and c-Jun, but not lysozyme. In crude extract, the calpain activity can be demonstrated only when the molar ratio of the calpain exceeds that of its native inhibitor. Recent experimental evidence implicates both the ubiquitin proteasome pathway and calpain in the degradation of the tumor suppressor, and it was proposed that the two pathways may play a role in targeting the protein under various conditions. The potential role of the two systems in this important metabolic process is discussed.

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The Role of Calpastatin (the Specific Calpain Inhibitor) in Myoblast Differentiation and Fusion

Barnoy

Glaser

Kosower

1996

Biochemical and Biophysical Research Communications

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Calpain and calpastatin in myoblast differentiation and fusion: Effects of inhibitors

Barnoy¹,

Glaser²,

Kosower³

1997

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Myoblast differentiation and fusion to multinucleated muscle cells can be studied in myoblasts grown in culture. Calpain (Ca(2+)-activated thiol protease) induced proteolysis has been suggested to play a role in myoblast fusion. We previously showed that calpastatin (the endogenous inhibitor of calpain) plays a role in cell membrane fusion. Using the red cell as a model, we found that red cell fusion required calpain activation and that fusibility depended on the ratio of cell calpain to calpastatin. We found recently that calpastatin diminishes markedly in myoblasts during myoblast differentiation just prior to the start of fusion, allowing calpain activation at that stage; calpastatin reappears at a later stage (myotube formation). In the present study, the myoblast fusion inhibitors TGF-beta, EGTA and calpeptin (an inhibitor of cysteine proteases) were used to probe the relation of calpastatin to myoblast fusion. Rat L8 myoblasts were induced to differentiate and fuse in serum-poor medium containing insulin. TGF-beta and EGTA prevented the diminution of calpastatin. Calpeptin inhibited fusion without preventing diminution of calpastatin, by inhibiting calpain activity directly. Protein levels of mu-calpain and m-calpain did not change significantly in fusing myoblasts, nor in the inhibited, non-fusing myoblasts. The results indicate that calpastatin level is modulated by certain growth and differentiation factors and that its continuous presence results in the inhibition of myoblast fusion.

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Organizational Safety Culture and Medical Error Reporting by Israeli Nurses

Kagan

Barnoy

2013

J of Nursing Scholarship

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The calpain–calpastatin system and protein degradation in fusing myoblasts

Barnoy

Glaser

Kosower

1998

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Calpain (Ca(2+)-activated cysteine protease) induced proteolysis has been suggested to play a role in myoblast fusion. We previously found that calpastatin (the endogenous inhibitor of calpain) diminishes markedly in myoblasts during myoblast differentiation just prior to the start of fusion, allowing Ca(2+)-induced calpain activation at that stage. Here, we show that a limited degradation of some proteins occurs within the myoblasts undergoing fusion, but not in proliferating myoblasts. The protein degradation is observed at the stage when calpastatin is low. Protein degradation within the myoblasts and myoblast fusion are inhibited by EGTA, by the cysteine protease inhibitors calpeptin and E-64d and by calpastatin. The degradation appears to be selective for certain myoblast proteins. Integrin beta 1 subunit, talin and beta-tropomyosin are degraded in the fusing myoblasts, whereas alpha-actinin, beta-tubulin and alpha-tropomyosin are not. A similar pattern of degradation is observed in lysates of proliferating myoblasts when Ca2+ and excess calpain are added, a degradation that is inhibited by calpastatin. The results support the notion that degradation of certain proteins is required for myoblast fusion and that calpain participates in the fusion-associated protein degradation. Participation of calpain is made possible by a change in calpain/calpastatin ratio, i.e., by a diminution in calpastatin level from a high level in the proliferating myoblasts to a low level in the differentiating myoblasts. Degradation of certain proteins, known to be responsible for the stability of the membrane-skeleton organization and for the interaction of the cell with the extracellular matrix, would allow destabilization of the membrane and the creation of membrane fusion-potent regions.

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Sivia Barnoy

On the involvement of calpains in the degradation of the tumor suppressor protein p53

The Role of Calpastatin (the Specific Calpain Inhibitor) in Myoblast Differentiation and Fusion

Calpain and calpastatin in myoblast differentiation and fusion: Effects of inhibitors

Organizational Safety Culture and Medical Error Reporting by Israeli Nurses

The calpain–calpastatin system and protein degradation in fusing myoblasts

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