Apoptotic volume decrease, pH acidification and chloride channel activation during apoptosis requires CD45 expression in HPB-ALL T cells

Dupéré-Minier, Geneviève; Hamelin, Claudine; Desharnais, Philippe; Bernier, Jacques

doi:10.1023/b:appt.0000038031.84705.84

Cited by 20 publications

(19 citation statements)

References 43 publications

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“…The authors suggested that CD45 might inhibit phosphatidylserine redistribution in response to various non-apoptotic signals [107] confirming a possible role for CD45 in the flip-flop process. We also showed that the phosphorylation levels of the chloride channels are considerably inhibited in CD45-cells [97], suggesting the loss of their activation, which is in agreement with the loss of volume and intracellular acidification that are controlled by chloride channels [109]. It is known that the inhibition of Cl-efflux inhibits DNA fragmentation [110].…”

Section: Involvement Of Cd45 In the Regulation Of The Intrinsic Mitocsupporting

confidence: 81%

“…Deregulation of ion transport in apoptotic cells leads to changes in intracellular ion levels and disrupts enzyme activity. Our results showed a disturbance of ionic homeostasis in CD45-deficient lymphocytes compared to normal lymphocytes [97]. CD45-deficient cells were shown to lose capacity to reduce their cellular volume and intracellular pH acidification after TBT exposure two processes required for DNA fragmentation [104,105].…”

Section: Involvement Of Cd45 In the Regulation Of The Intrinsic Mitocmentioning

confidence: 64%

“…In another study, we demonstrated that CD45 plays a significant role in nuclear apoptosis through the regulation of ionic homeostasis [97]. Deregulation of ion transport in apoptotic cells leads to changes in intracellular ion levels and disrupts enzyme activity.…”

Section: Involvement Of Cd45 In the Regulation Of The Intrinsic Mitocmentioning

confidence: 90%

“…We previously demonstrated that CD45 could regulate the apoptosis induced by mitochondrial perturbators such as tributyltin (TBT) and hydrogen peroxide (H 2 O 2 ) [97,98]. TBT is a biocide agent used in antifouling paints that provokes potent immunotoxic effects in mammals, characterized in vivo by thymic atrophy and reduction of peripheral lymphocytes, by an antiproliferative and apoptotic mechanism [99,100].…”

Section: Involvement Of Cd45 In the Regulation Of The Intrinsic Mitocmentioning

confidence: 99%

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Involvement of tyrosine phosphatase CD45 in apoptosis

2009

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CD45 is a transmembrane molecule with phosphatase activity expressed in all nucleated haematopoietic cells and plays a major role in immune cells. It is a protein tyrosine phosphatase that is essential for antigenreceptor-mediated signal transduction by regulating Src family members that initiate TCR signaling. CD45 is being attributed a new emerging role as an apoptosis regulator. Cross-linking of the extracellular portion of the CD45 by monoclonal antibodies and by galectin-1, can induce apoptosis in T and B cells. Interestingly, this phosphatase has also been involved in nuclear apoptosis induced by mitochondrial perturbing agents. Furthermore, it is involved in apoptosis induced by HIV-1. CD45 defect is implicated in various diseases such as severe-combined immunodeficiency disease (SCID), acquired immunodeficiency syndrome (AIDS), lymphoma and multiple myelomas. The understanding of the mechanisms by which CD45 regulates apoptosis would be very useful in disease treatment.

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Section: Involvement Of Cd45 In the Regulation Of The Intrinsic Mitocsupporting

confidence: 81%

Section: Involvement Of Cd45 In the Regulation Of The Intrinsic Mitocmentioning

confidence: 64%

Section: Involvement Of Cd45 In the Regulation Of The Intrinsic Mitocmentioning

confidence: 90%

Section: Involvement Of Cd45 In the Regulation Of The Intrinsic Mitocmentioning

confidence: 99%

See 2 more Smart Citations

Involvement of tyrosine phosphatase CD45 in apoptosis

2009

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“…Condensation of ribosomes has been found in apoptotic cells (32) and may explain the altered fluorescence intensity; however, such details could not be resolved in vivo. An altered pH has been described in cells undergoing apoptosis (6), and fluorescent agents such as fluorescein are known to show a pH-dependent fluorescence intensity (27). However, variation of pH from seven to eight in intact liver slices did not result in altered fluorescence, and not all cells becoming dark underwent apoptosis, although apoptosis was always preceded by darkening.…”

Section: Discussionmentioning

confidence: 99%

In vivo real-time imaging of the liver with confocal endomicroscopy permits visualization of the temporospatial patterns of hepatocyte apoptosis

Goetz¹,

Ansems²,

Galle³

et al. 2011

American Journal of Physiology-Gastrointestinal and Liver Physi

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Role of Ion Transport in Control of Apoptotic Cell Death

Läng

Hoffmann

2012

Comprehensive Physiology

131

132

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Cell shrinkage is a hallmark and contributes to signaling of apoptosis. Apoptotic cell shrinkage requires ion transport across the cell membrane involving K + channels, Cl − or anion channels, Na + /H + exchange, Na + ,K + ,Cl − cotransport, and Na + /K + ATPase. Activation of K + channels fosters K + exit with decrease of cytosolic K + concentration, activation of anion channels triggers exit of Cl − , organic osmolytes, and HCO 3 − . Cellular loss of K + and organic osmolytes as well as cytosolic acidification favor apoptosis. Ca 2+ entry through Ca 2+ ‐permeable cation channels may result in apoptosis by affecting mitochondrial integrity, stimulating proteinases, inducing cell shrinkage due to activation of Ca 2+ ‐sensitive K + channels, and triggering cell‐membrane scrambling. Signaling involved in the modification of cell‐volume regulatory ion transport during apoptosis include mitogen‐activated kinases p38, JNK, ERK1/2, MEKK1, MKK4, the small G proteins Cdc42, and/or Rac and the transcription factor p53. Osmosensing involves integrin receptors, focal adhesion kinases, and tyrosine kinase receptors. Hyperosmotic shock leads to vesicular acidification followed by activation of acid sphingomyelinase, ceramide formation, release of reactive oxygen species, activation of the tyrosine kinase Yes with subsequent stimulation of CD95 trafficking to the cell membrane. Apoptosis is counteracted by mechanisms involved in regulatory volume increase (RVI), by organic osmolytes, by focal adhesion kinase, and by heat‐shock proteins. Clearly, our knowledge on the interplay between cell‐volume regulatory mechanisms and suicidal cell death is still far from complete and substantial additional experimental effort is needed to elucidate the role of cell‐volume regulatory mechanisms in suicidal cell death. © 2012 American Physiological Society. Compr Physiol 2:2037‐2061, 2012.

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Apoptotic volume decrease, pH acidification and chloride channel activation during apoptosis requires CD45 expression in HPB-ALL T cells

Cited by 20 publications

References 43 publications

Involvement of tyrosine phosphatase CD45 in apoptosis

Involvement of tyrosine phosphatase CD45 in apoptosis

In vivo real-time imaging of the liver with confocal endomicroscopy permits visualization of the temporospatial patterns of hepatocyte apoptosis

Role of Ion Transport in Control of Apoptotic Cell Death

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