PPP2R2B hypermethylation causes acquired apoptosis deficiency in systemic autoimmune diseases
Iris K. Madera-Salcedo, Beatriz E. Sánchez-Hernández, Yevgeniya Svyryd, Marcela Esquivel-Velázquez, Noé Rodríguez-Rodríguez, María Isabel Trejo-Zambrano, H. Benjamín García-González, Gabriela Hernández-Molina, Osvaldo M. Mutchinick, Jorge Alcocer-Varela, Florencia Rosetti, José C. Crispín
Iris K. Madera-Salcedo, Beatriz E. Sánchez-Hernández, Yevgeniya Svyryd, Marcela Esquivel-Velázquez, Noé Rodríguez-Rodríguez, María Isabel Trejo-Zambrano, H. Benjamín García-González, Gabriela Hernández-Molina, Osvaldo M. Mutchinick, Jorge Alcocer-Varela, Florencia Rosetti, José C. Crispín
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Research Article Immunology

PPP2R2B hypermethylation causes acquired apoptosis deficiency in systemic autoimmune diseases

Abstract

Chronic inflammation causes target organ damage in patients with systemic autoimmune diseases. The factors that allow this protracted response are poorly understood. We analyzed the transcriptional regulation of PPP2R2B (B55β), a molecule necessary for the termination of the immune response, in patients with autoimmune diseases. Altered expression of B55β conditioned resistance to cytokine withdrawal–induced death (CWID) in patients with autoimmune diseases. The impaired upregulation of B55β was caused by inflammation-driven hypermethylation of specific cytosines located within a regulatory element of PPP2R2B preventing CCCTC-binding factor binding. This phenotype could be induced in healthy T cells by exposure to TNF-α. Our results reveal a gene whose expression is affected by an acquired defect, through an epigenetic mechanism, in the setting of systemic autoimmunity. Because failure to remove activated T cells through CWID could contribute to autoimmune pathology, this mechanism illustrates a vicious cycle through which autoimmune inflammation contributes to its own perpetuation.

Authors

Iris K. Madera-Salcedo, Beatriz E. Sánchez-Hernández, Yevgeniya Svyryd, Marcela Esquivel-Velázquez, Noé Rodríguez-Rodríguez, María Isabel Trejo-Zambrano, H. Benjamín García-González, Gabriela Hernández-Molina, Osvaldo M. Mutchinick, Jorge Alcocer-Varela, Florencia Rosetti, José C. Crispín

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Figure 9

Mechanism through which PPP2R2B modulates the perpetuation of T cells in patients with AID.

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Mechanism through which PPP2R2B modulates the perpetuation of T cells in...
(A) After activation and expansion of healthy T cells, levels of IL-2 decrease, promoting clonal contraction by apoptosis. Low IL-2 concentration induces the expression of B55β through the binding of CTCF to a motif located within the CpG island of the PPP2R2B promoter. This mechanism promotes the termination of the immune response. (B) In the context of autoimmunity, where T cells are exposed to a proinflammatory environment, PPP2R2B becomes hypermethylated, preventing the binding of CTCF. This impairs the induction of B55β and apoptosis of T cells when IL-2 levels are low. In consequence, survival of self-reactive activated T cells is facilitated and the autoimmune response is perpetuated.