Abstract
e20001 Background: B cell somatic hypermutation (SHM) and class switch recombination (CSR) are mechanistically related but distinct processes requiring precisely targeted generation and repair of single and double strand DNA breaks. Within the context of chronic lymphocytic leukemia (CLL), the presence of ongoing SHM or CSR may reveal the functionality of DNA damage repair pathways, with potential relevance to therapeutic strategies involving the generation of DNA breaks or inhibition of DNA repair machinery. Here we apply clonal lineage analysis of IGH chain sequencing data to evaluate CSR and SHM in a cohort of CLL and splenic marginal zone lymphoma (SMZL) research samples. We present evidence of ongoing CSR and SHM in a significant subset of samples. Methods: Multiplex primers targeting the IGH framework 1 region and isotype region (Oncomine IGH-LR assay; detection of all nine isotypes) were used for IGH repertoire sequencing via the Ion Gene Studio S5 from 25ng peripheral blood total RNA derived from 63 individuals with CLL and 4 individuals with SMZL. Clonotyping and clonal lineage analysis was performed by Ion Reporter, whereby clonal lineages are defined as sets of unique rearrangements having a shared variable and joining gene, the same CDR3 length, and a minimum CDR3 nucleotide similarity of 85%. Ongoing CSR was defined as the presence of IgM/IgD and at least one switched isotype (IgG, IgA, or IgE), or a combination of switched isotypes, within the same lineage. Ongoing SHM was defined as the presence of subclones that differ within the VDJ region sequence compared to other clonal lineage members. Results: 11/68 cases showed evidence of ongoing CSR or SHM. Of the 57 cases showing no evidence of ongoing CSR or SHM, variable gene mutation analysis revealed the presence of three distinct subgroups having either no SHM, intermediate SHM (average 98% sequence identity) or high SHM < 94% identity). 3 of 4 SMZL cases showed evidence of ongoing CSR or SHM. Conclusions: These results reveal previously underappreciated heterogeneity within CLL and suggest the subdivision of CLL based on a combination of IGHV mutation level and presence of ongoing SHM or CSR. The described heterogeneity may serve as a valuable criterion for stratifying CLL patients in the future.
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