Calcium dependent gene regulation

Calcium plays an essential role in lymphocyte activation and maturation but the exact effect on gene expression is not known. In April Nature Immunology Stefan Feske and colleagues from Harvard Medical School present evidence that Ca2+-dependent signalling pathways mediate both gene induction and gene repression in activated T cells.In the absence of specific inhibitors, they looked at cell lines from two severe-combined immunodeficiency (SCID) patients that are characterised by a strong defect

Tudor Toma(ttoma@mail.dntis.ro)
Apr 5, 2001

Calcium plays an essential role in lymphocyte activation and maturation but the exact effect on gene expression is not known. In April Nature Immunology Stefan Feske and colleagues from Harvard Medical School present evidence that Ca2+-dependent signalling pathways mediate both gene induction and gene repression in activated T cells.

In the absence of specific inhibitors, they looked at cell lines from two severe-combined immunodeficiency (SCID) patients that are characterised by a strong defect in transmembrane calcium influx. DNA microarray analysis of calcium entry-deficient and control T cells showed that Ca2+ signals both activate and repress gene expression and are largely transduced through the phosphatase calcineurin (Nat Immun 2001, 2:316-324).

These findings add to the complexity of the gene expression machinery during T cell activation and may lead to the discovery of new therapeutic targets for patients with immunodeficiency syndromes.

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