Abstract

Mutations in the SWI/SNF chromatin remodeling complex BAF are a recurring feature in many cancers, with a high prevalence in follicular lymphoma (FL; >19%) and diffuse large B-cell lymphoma (DLBCL; >34%). Despite this, the mechanism that links mutations in ARID1A, most frequently mutated BAF subunit, to the development of lymphoma is still not understood. To this aim, we crossed Arid1a-floxed mice with Cγ1-Cre mice to yield offspring with a conditional (cKO) Arid1a deletion in germinal center (GC) B cells, FL and DLBCL cell-of-origin. We immunized WT/WT ( Arid1a+/+; Cγ1Cre/+) and cKO/WT ( Arid1a+/-; Cγ1Cre/+) mice with sheep red blood cells and analyzed 10 days later at the peak of the GC reaction. Upon Arid1a deletion, we found a decrease in the total number of GC B cells relative to total B cells (WT/WT vs. cKO/WT; p<0.001). However, we observed skewing of GC polarity manifesting as increased proportions of proliferating centroblasts (CB) vs. centrocytes (CC) (WT/WT vs. cKO/WT; p=0.004). These observations imply a substantial dysfunction at the CC stage, which could account for the overall reduced number of GC B-cells. To investigate this, we performed a detailed molecular characterization of these cells. We performed the ATAC-seq assay on sorted CB and CC from our mouse model and observed an extensive loss of chromatin accessibility. Changes in chromatin accessibility are thought to be dependent on the recruitment of the BAF complex by specific transcription factors. We discovered strong enrichment for DNA motifs of PU.1 and NF-kB factors in closing chromatin (p-value <0.001), indicating their dependence on the BAF complex. Furthermore, we noted that this chromatin closing occurred in proximity to canonical GC exit programs, including genes induced by the CD40, NF-kB signaling, IRF4, STAT3, IL2, IL4, IL6 and Notch pathways (hypergeometric p-value <0.001), indicating GC-exit perturbation. Expanding upon our findings, we leveraged a combined single-cell RNA and ATAC assay (Multiome) to scrutinize subtle shifts within GC populations. Determining the chromatin accessibility within the pseudo-time trajectory of GC transitions, we found that PU.1 and NF-kB factors are chronologically dependent on ARID1A with PU.1 accessibility initially compromised, followed by a subsequent decrease at binding sites for NF-kB factors. This sequence reveals ARID1A's unrecognized function as a regulator of temporal dynamics of these key transcription factors. Strikingly, our Multiome data revealed expansion of the pre-memory B cells accompanied by a decrease in the proportion of pre-plasma cells upon Arid1a deletion (p-value <0.001), suggesting that Arid1a loss favors GC exit towards the memory cell fate. To validate our findings, we performed immunophenotyping and observed an increase in memory B cells in cKO/WT mice (p=0.019), and a decrease in long-lived plasma cells (p=0.012) upon NP-KLH immunization. Furthermore, we observed that the absence of ARID1A tilts GC cell-fate towards immature IgM+CD80-PDL2- memory B cells (p=0.0016), known for their potential to re-enter new GCs. Linking this critical role of ARID1A in chromatin regulation to lymphomagenesis, we observed a reduction in overall survival for mice carrying VavP-Bcl2; Arid1a+/- allele (compared to VavP-Bcl2; Arid1a+/+; p=0.0087). Remarkably, we further show that FL patients with ARID1A-inactivating mutations display an immature memory B-cell-like state with increased transformation risk to aggressive disease (p=0.0391). These observations offer mechanistic understanding into the emergence of both indolent and aggressive lymphomas in ARID1A-mutant patients through formation of immature memory-like clonal precursors.

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