Deletion of 9p drives B-ALL through heterozygous inactivation of Pax5 and Cd72 in preleukemic cells

9p缺失通过白血病前期细胞中Pax5和Cd72的杂合失活驱动B细胞急性淋巴细胞白血病(B-ALL)的发生。

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作者:Ruiz-Corzo,Belén,Casado-García,Ana,Oak,Ninad,Somoza-Cotillas,Paula,López-Álvarez de Neyra,Andrea,Martínez-Cano,Jorge,Pérez-Pons,Alba,Sánchez,Elena G,Blanco,Oscar,Alonso-López,Diego,De Las Rivas,Javier,Riesco,Susana,Prieto-Matos,Pablo,García Criado,Francisco Javier,García Cenador,María Begoña,Orfao,Alberto,Ramírez-Orellana,Manuel,Cobaleda,César,Vicente-Dueñas,Carolina,Nichols,Kim E,Sánchez-García,Isidro
期刊:JCI Insight影响因子:6.100
时间:2026起止号:2026 Apr 8;11(7)
doi:10.1172/jci.insight.199464

Abstract

The contribution of 9p deletion to B cell acute lymphoblastic leukemia (B-ALL) has remained elusive since its discovery more than 40 years ago. Here we show that loss of CD72 is recurrent in B-ALL cases containing PAX5 deletions, and that Cd72 haploinsufficiency drives B-ALL development in Pax5+/- mice. Mechanistically, Cd72+/-;Pax5+/- precursor B cells exhibited an inflammatory transcriptional profile characterized by a decrease in Myd88 expression, a finding that aligns with our previous studies of B-ALL development in Pax5+/- mice following exposure to immune stressors. These combined genomic analyses and functional models provide compelling evidence that co-deletion of 2 contiguous genes, Pax5 and Cd72, drives B cell leukemogenesis.

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