Loss of CREBBP and KMT2D cooperate to accelerate lymphomagenesis and shape the lymphoma immune microenvironment.
Jie LiChristopher R ChinHsia-Yuan YingCem MeydanMatthew R TeaterMin XiaPedro FarinhaKatsuyoshi TakataChi-Shuen ChuYiyue JiangJenna EaglesVerena PasseriniZhanyun TangMartín A RivasOliver WeigertTrevor J PughAmy ChadburnChristian SteidlDavid W ScottRobert G RoederChristopher E MasonRoberta ZappasodiWendy BéguelinAri M MelnickPublished in: Nature communications (2024)
Despite regulating overlapping gene enhancers and pathways, CREBBP and KMT2D mutations recurrently co-occur in germinal center (GC) B cell-derived lymphomas, suggesting potential oncogenic cooperation. Herein, we report that combined haploinsufficiency of Crebbp and Kmt2d induces a more severe mouse lymphoma phenotype (vs either allele alone) and unexpectedly confers an immune evasive microenvironment manifesting as CD8 + T-cell exhaustion and reduced infiltration. This is linked to profound repression of immune synapse genes that mediate crosstalk with T-cells, resulting in aberrant GC B cell fate decisions. From the epigenetic perspective, we observe interaction and mutually dependent binding and function of CREBBP and KMT2D on chromatin. Their combined deficiency preferentially impairs activation of immune synapse-responsive super-enhancers, pointing to a particular dependency for both co-activators at these specialized regulatory elements. Together, our data provide an example where chromatin modifier mutations cooperatively shape and induce an immune-evasive microenvironment to facilitate lymphomagenesis.