Geneviève Dupéré-Minier scite author profile

Mitochondrial-perturbating agents such as toxic coumponds induce apoptosis. We note that the loss of CD45 expression in the lymphoblastic leukemia cell line HPB-ALL (HPB45.0) leads to an inhibition of nuclear apoptosis. Our hypothesis is that the absence of CD45 disturbs protein function regulated by a proto-oncogene of the Src family playing a significant role in nuclear apoptosis. In this work we explore the importance of a chloride efflux on DNA fragmentation. The role of tyrosine kinase in the function and regulation of the chloride channels was determined. Our results showed a disturbance of ionic homeostasis in CD45 deficient lymphocytes (CD45-) in contrast to normal lymphocytes (CD45+). The phosphorylation levels of the chloride channels are considerably inhibited in CD45-, while the expression levels of these channels are similar in the two types of cells. A hypertonic medium inhibits DNA fragmentation in CD45+ while a hypotonic medium increases DNA fragmentation in CD45-. Thus CD45 plays a significant role in nuclear apoptosis by the regulation of the chloride channels responsible for ionic homeostasis of the cell essential for the DFF40 activation.

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Involvement of tyrosine phosphatase CD45 in apoptosis

Dupéré-Minier

Desharnais

Bernier

2009

Apoptosis

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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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Involvement of CD45 in DNA fragmentation in apoptosis induced by mitochondrial perturbing agents

et al. 2007

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CD45 is a type I transmembrane molecule with phosphatase activity which comprises up to 10% of the cell surface area in nucleated haematopoietic cells. We have previously demonstrated the absence of nuclear apoptosis in CD45-negative T cells after chemical-induced apoptosis. The aim of this study was to characterize the role of CD45 in nuclear apoptosis. In contrast to wild type CD45-positive T cells, the CD45-deficient T cell lines are resistant to the induction of DNA fragmentation and chromatin condensation following tributyltin (TBT) or H2O2 exposure, but not to cycloheximide-induced apoptosis. CD45 transfection in deficient cell lines led to the restoration of chromatin condensation and DNA fragmentation following TBT exposure. In both CD45-positive and negative T cell lines, TBT exposure mediates intracellular calcium mobilization, caspase-3 activation and DFF45 cleavage. Moreover, DNA fragmentation was also induced by TBT in cells deficient in expression of p56lck, ZAP-70 and SHP-1. Subcellular partitioning showed a decrease in nuclear localisation of caspase-3 and DFF40. Together, these results demonstrate for the first time, that CD45 expression plays a key role in internucleosomal DNA fragmentation and chromatin condensation processes during apoptosis. CD45 activity or its substrates' activity, appears to be located downstream of caspase-3 activation and plays a role in retention of DFF40 in the nucleus.

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