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A stromal inflammasome Ras safeguard against Myc-driven lymphomagenesis.

Version 2 2025-01-06, 11:39
Version 1 2025-01-06, 10:45
journal contribution
posted on 2025-01-06, 11:39 authored by Andrew Kent, Kristel Joy Yee Mon, Zachary Hutchins, Gregory Putzel, Dmitry Zhigarev, Alexander Grier, Baosen Jia, Roderik M Kortlever, Gaetan Barbet, Gerard I Evan, J Magarian Blander
The inflammasome plays multifaceted roles in cancer, but less is known about its function during premalignancy upon initial cell transformation. We report a homeostatic function of the inflammasome in suppressing malignant transformation through Ras inhibition. We identified increased hematopoietic stem cell (HSC) proliferation within the bone marrow of inflammasome-deficient mice. HSCs within an inflammasome-deficient stroma expressed a Ras signature associated with increased Ras pathway- and cancer-related transcripts and heightened levels of cytokine, chemokine and growth factor receptors. Stromal inflammasome deficiency established a poised Ras-dependent mitogenic state within HSCs, which fueled progeny B cell lymphomagenesis upon Myc deregulation in a spontaneous model of B cell lymphoma, and shortened its premalignant stage leading to faster onset of malignancy. Thus, the stromal inflammasome preserves tissue balance by restraining Ras to disrupt the most common oncogenic Myc-Ras cooperation and establish a natural defense against transition to malignancy. These findings should inform preventative therapies against hematological malignancies.

Funding

Crick (Grant ID: CC2229, Grant title: Evan CC2229)

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