Litcius/Paper detail

ALK-transformed mature T lymphocytes restore early thymus progenitor features

Annabelle Congras, Coralie Hoareau‐Aveilla, Nina Caillet, Marie Tosolini, Patrick Villarèse, Agata Cieślak, Laura Rodríguez, Vahid Asnafi, Elisabeth Macintyre, Gerda Egger, Pierre Brousset, Laurence Lamant, Fabienne Meggetto

2020Journal of Clinical Investigation18 citationsDOIOpen Access PDF

Abstract

Anaplastic large cell lymphoma (ALCL) is a mature T cell neoplasm that often expresses the CD4+ T cell surface marker. It usually harbors the t(2;5) (p23;q35) translocation, leading to the ectopic expression of NPM-ALK, a chimeric tyrosine kinase. We demonstrated that in vitro transduction of normal human CD4+ T lymphocytes with NPM-ALK results in their immortalization and malignant transformation. The tumor cells displayed morphological and immunophenotypical characteristics of primary patient-derived anaplastic large cell lymphomas. Cell growth, proliferation, and survival were strictly dependent on NPM-ALK activity and include activation of the key factors STAT3 and DNMT1 and expression of CD30 (the hallmark of anaplastic large-cell lymphoma). Implantation of NPM-ALK-transformed CD4+ T lymphocytes into immunodeficient mice resulted in the formation of tumors indistinguishable from patients' anaplastic large cell lymphomas. Integration of "Omic" data revealed that NPM-ALK-transformed CD4+ T lymphocytes and primary NPM-ALK+ ALCL biopsies share similarities with early T cell precursors. Of note, these NPM-ALK+ lymphoma cells overexpress stem cell regulators (OCT4, SOX2, and NANOG) and HIF2A, which is known to affect hematopoietic precursor differentiation and NPM-ALK+ cell growth. Altogether, for the first time our findings suggest that NPM-ALK could restore progenitor-like features in mature CD30+ peripheral CD4+ T cells, in keeping with a thymic progenitor-like pattern.

Topics & Concepts

Anaplastic large-cell lymphomaAnaplastic lymphoma kinaseCD30Cancer researchBiologyProgenitor cellSOX2T-cell lymphomaT cellHomeobox protein NANOGLymphomaStem cellCell biologyImmunologyPathologyInduced pluripotent stem cellMedicineEmbryonic stem cellLung cancerBiochemistryTumor cellsImmune systemGeneMalignant pleural effusionImmune Cell Function and InteractionCAR-T cell therapy researchLymphoma Diagnosis and Treatment