Disruption of the Mouse μ-Calpain Gene Reveals an Essential Role in Platelet Function

Azam, Mohammad; Andrabi, Shaida; Sahr, Kenneth E.; Kamath, Lakshmi; Kuliopulos, Athan; Chishti, Athar H.

doi:10.1128/mcb.21.6.2213-2220.2001

Cited by 227 publications

(210 citation statements)

References 42 publications

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“…However, in most of these studies, both µ-and m-calpain activities were inhibited, using calpastatin overexpression, general pharmacological inhibitors or by targeting the gene encoding the common regulatory subunit (Huttenlocher et al, 1997;Potter et al, 1998;Croce et al, 1999;Dourdin et al, 1999). Other authors have focused only on µ-calpain particularly by means of a dominant negative µ-calpain or by using a cell type that presents a negligible level of m-calpain (Kulkarni et al, 1999;Azam et al, 2001). For the first time, we have employed a strategy that targets separately, or concomitantly, the two isoenzymes, thus shedding light on the importance of m-calpain during myoblast migration.…”

Section: Discussionmentioning

confidence: 99%

Myoblast migration is prevented by a calpain‐dependent accumulation of MARCKS

Dedieu

Mazères

Poussard

et al. 2003

Biology of the Cell

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Calpains, also called calcium activated neutral cysteine proteases are presently known to play pivotal roles in physiological and biological phenomena such as signal transduction, cell spreading and motility, apoptosis, regulation of cell cycle and regulation of muscle cell differentiation. Concerning this last point, calpains have been shown to play a crucial role during the earlier myogenesis. In this study we have analyzed the involvement of calpains during an important step of myogenesis: myoblast migration. Our findings show that myoblast migration was drastically reduced when the expression of µ-and m-calpain was decreased. We have also observed that MARCKS (myristoylated alanine rich C kinase substrate), a protein localized at focal adhesion sites, was significantly accumulated when the expression levels of calpains were decreased. Also, using phorbol myristate acetate, (an activator of PKC) and plasmids carrying the full-length cDNA of MARCKS or a cDNA fragment lacking the phosphorylation site domain, we demonstrated that normal myoblast migration is dependent on MARCKS phosphorylation and localization.

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Section: Discussionmentioning

confidence: 99%

Myoblast migration is prevented by a calpain‐dependent accumulation of MARCKS

Dedieu

Mazères

Poussard

et al. 2003

Biology of the Cell

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“…93 m-Calpain-null mice have no apparent embryological or epidermal defects, suggesting that m-calpain compensates for m-calpain during development. 94 m-Calpain-deficient mice have not been generated so far.…”

Section: Calpainsmentioning

confidence: 99%

Death penalty for keratinocytes: apoptosis versus cornification

et al. 2005

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Homeostasis implies a balance between cell growth and cell death. This balance is essential for the development and maintenance of multicellular organisms. Homeostasis is controlled by several mechanisms including apoptosis, a process by which cells condemned to death are completely eliminated. However, in some cases, total destruction and removal of dead cells is not desirable, as when they fulfil a specific function such as formation of the skin barrier provided by corneocytes, also known as terminally differentiated keratinocytes. In this case, programmed cell death results in accumulation of functional cell corpses. Previously, this process has been associated with apoptotic cell death. In this overview, we discuss differences and similarities in the molecular regulation of epidermal programmed cell death and apoptosis. We conclude that despite earlier confusion, apoptosis and cornification occur through distinct molecular pathways, and that possibly antiapoptotic mechanisms are implicated in the terminal differentiation of keratinocytes.

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“…However, this cell line cannot reveal which calpain isoform is responsible in each case, since the activities of both calpain 1 and calpain 2 are reduced in these cells. Studies of cells isolated from calpain-1-knockout mice reveal that, despite the absence of calpain 1, these cells can proteolyze many substrates normally, including FAK, paxillin, spectrin and talin 1 (Azam et al, 2001). However, other calpain isoforms could be compensating for calpain 1 deficiency in these cells.…”

Section: (Sjf and Ah Unpublished) Thementioning

confidence: 99%

Regulating cell migration: calpains make the cut

Franco

Huttenlocher

2005

Journal of Cell Science

430

397

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The calpain family of proteases has been implicated in cellular processes such as apoptosis, proliferation and cell migration. Calpains are involved in several key aspects of migration, including: adhesion and spreading; detachment of the rear; integrin- and growth-factor-mediated signaling; and membrane protrusion. Our understanding of how calpains are activated and regulated during cell migration has increased as studies have identified roles for calcium and phospholipid binding, autolysis, phosphorylation and inhibition by calpastatin in the modulation of calpain activity. Knockout and knockdown approaches have also contributed significantly to our knowledge of calpain biology, particularly with respect to the specific functions of different calpain isoforms. The mechanisms by which calpain-mediated proteolysis of individual substrates contributes to cell motility have begun to be addressed, and these efforts have revealed roles for proteolysis of specific substrates in integrin activation, adhesion complex turnover and membrane protrusion dynamics. Understanding these mechanisms should provide avenues for novel therapeutic strategies to treat pathological processes such as tumor metastasis and chronic inflammatory disease.

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Disruption of the Mouse μ-Calpain Gene Reveals an Essential Role in Platelet Function

Cited by 227 publications

References 42 publications

Myoblast migration is prevented by a calpain‐dependent accumulation of MARCKS

Myoblast migration is prevented by a calpain‐dependent accumulation of MARCKS

Death penalty for keratinocytes: apoptosis versus cornification

Regulating cell migration: calpains make the cut

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