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Genomic characterization of lymphomas in patients with inborn errors of immunity.

Xiaofei YePaul J MaglioneClaudia WehrXiaobo LiYating WangHassan AbolhassaniElena DeripapaDong-Bing LiuStephan BorteLikun DuHui WanAndreas PlötnerYvonne GiannoulaHuaibin Mabel KoYong HouShida ZhuJennifer K GrossmanBirgitta SanderBodo GrimbacherLennart HammarströmAlina FedorovaSergio D RosenzweigAnna ShcherbinaKui WuKlaus WarnatzCharlotte Cunningham-RundlesQiang Pan-Hammarström
Published in: Blood advances (2022)
Patients with inborn errors of immunity (IEI) have a higher risk of developing cancer, especially lymphoma. However, the molecular basis for IEI-related lymphoma is complex and remains elusive. Here, we perform an in-depth analysis of lymphoma genomes derived from 23 IEI patients. We identified and validated disease-causing or -associated germline mutations in 14 of 23 patients involving ATM, BACH2, BLM, CD70, G6PD, NBN, PIK3CD, PTEN, and TNFRSF13B. Furthermore, we profiled somatic mutations in the lymphoma genome and identified 8 genes that were mutated at a significantly higher level in IEI-associated diffuse large B-cell lymphomas (DLBCLs) than in non-IEI DLBCLs, such as BRCA2, NCOR1, KLF2, FAS, CCND3, and BRWD3. The latter, BRWD3, is furthermore preferentially mutated in tumors of a subgroup of activated phosphoinositide 3-kinase δ syndrome patients. We also identified 5 genomic mutational signatures, including 2 DNA repair deficiency-related signatures, in IEI-associated lymphomas and a strikingly high number of inter- and intrachromosomal structural variants in the tumor genome of a Bloom syndrome patient. In summary, our comprehensive genomic characterization of lymphomas derived from patients with rare genetic disorders expands our understanding of lymphomagenesis and provides new insights for targeted therapy.
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