Immune stress suppresses innate immune signaling in preleukemic precursor B-cells to provoke leukemia in predisposed mice

Author:

Isidro-Hernández MartaORCID,Casado-García Ana,Oak NinadORCID,Alemán-Arteaga SilviaORCID,Ruiz-Corzo Belén,Martínez-Cano JorgeORCID,Mayado Andrea,Sánchez Elena G.,Blanco Oscar,Gaspar Ma LuisaORCID,Orfao AlbertoORCID,Alonso-López DiegoORCID,De Las Rivas JavierORCID,Riesco SusanaORCID,Prieto-Matos PabloORCID,González-Murillo ÁfricaORCID,Criado Francisco Javier García,Cenador María Begoña García,Ramírez-Orellana ManuelORCID,de Andrés BelénORCID,Vicente-Dueñas CarolinaORCID,Cobaleda CésarORCID,Nichols Kim E.ORCID,Sánchez-García IsidroORCID

Abstract

AbstractThe initial steps of B-cell acute lymphoblastic leukemia (B-ALL) development usually pass unnoticed in children. Several preclinical studies have shown that exposure to immune stressors triggers the transformation of preleukemic B cells to full-blown B-ALL, but how this takes place is still a longstanding and unsolved challenge. Here we show that dysregulation of innate immunity plays a driving role in the clonal evolution of pre-malignant Pax5+/− B-cell precursors toward leukemia. Transcriptional profiling reveals that Myd88 is downregulated in immune-stressed pre-malignant B-cell precursors and in leukemic cells. Genetic reduction of Myd88 expression leads to a significant increase in leukemia incidence in Pax5+/−Myd88+/− mice through an inflammation-dependent mechanism. Early induction of Myd88-independent Toll-like receptor 3 signaling results in a significant delay of leukemia development in Pax5+/− mice. Altogether, these findings identify a role for innate immunity dysregulation in leukemia, with important implications for understanding and therapeutic targeting of the preleukemic state in children.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary

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