Abstract
Ikaros encodes a transcription factor that functions as a tumor suppressor in T-cell acute lymphoblastic leukemia (T-ALL). The mechanisms through which Ikaros regulates gene expression and cellular proliferation in T-ALL are unknown. Re-introduction of Ikaros into Ikaros-null T-ALL cells resulted in cessation of cellular proliferation and induction of T-cell differentiation. We performed dynamic, global, epigenomic, and gene expression analyses to determine the mechanisms of Ikaros tumor suppressor activity. Our results identified novel Ikaros functions in the epigenetic regulation of gene expression: Ikaros directly regulates de novo formation and depletion of enhancers, de novo formation of active enhancers and activation of poised enhancers; Ikaros directly induces the formation of super-enhancers; and Ikaros demonstrates pioneering activity by directly regulating chromatin accessibility. Dynamic analyses demonstrate the long-lasting effects of Ikaros DNA binding on enhancer activation, de novo formation of enhancers and super-enhancers, and chromatin accessibility. Our results establish that Ikaros’ tumor suppressor function occurs via global regulation of the enhancer and super-enhancer landscape and through pioneering activity. Expression analysis identified a large number of novel signaling pathways that are directly regulated by Ikaros and Ikaros-induced enhancers, and that are responsible for the cessation of proliferation and induction of T-cell differentiation in T-ALL cells.
Highlights
The IKZF1 gene encodes the Ikaros protein, which acts as a tumor suppressor and master regulator of hematopoiesisThese authors contributed : Yali Ding, Bo Zhang, Feng Yue, Sinisa Dovat
double-negative 3 (DN3) cells were transduced with retrovirus that contains HA-tagged wildtype murine Ikaros or empty vector
The level of Ikaros protein in DN3 cells following retroviral transduction was similar to its physiological levels in wild-type thymocytes (Fig. S4)
Summary
The IKZF1 gene encodes the Ikaros protein, which acts as a tumor suppressor and master regulator of hematopoiesis. Reintroduction of Ikaros into Ikaros-null T-ALL cells from these mice results in the cessation of cellular proliferation, and induction of T-cell differentiation [28] These data demonstrate that Ikaros is a critical tumor suppressor in TALL. Re-introduction of Ikaros into Ikaros-null T-ALL captures the role of Ikaros in transition from the malignant state (Ikaros-null T-ALL) to the non-malignant state (following Ikaros re-introduction) This is an optimal system for studying Ikaros tumor suppressor function and its role in the cessation of cell growth and the induction of differentiation. Results revealed previously unknown Ikaros roles in regulating chromatin accessibility, as well as enhancer and super-enhancer activation These data led to a new model of Ikaros function as a regulator of gene expression and the epigenetic landscape in leukemia
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