AI Article Synopsis

  • Pathogenic variants in the POLE and POLD1 genes are linked to an inherited condition, polymerase proofreading-associated polyposis, which increases the risk of colorectal cancer and other tumors, including gliomas.
  • Whole-exome sequencing of glioma patients revealed that 16% carried rare deleterious POLE/POLD1 variants, with significant features indicating defective DNA proofreading and a correlation with tumor characteristics.
  • Glioblastoma patients with these variants had a notably shorter average overall survival of 21 months, and these genetic variants might also make glioma patients more responsive to immunotherapy and warrant ongoing surveillance for other cancer risks.

Article Abstract

Pathogenic germline variants in the DNA polymerase genes POLE and POLD1 cause polymerase proofreading-associated polyposis, a dominantly inherited disorder with increased risk of colorectal carcinomas and other tumors. POLE/POLD1 variants may result in high somatic mutation and neoantigen loads that confer susceptibility to immune checkpoint inhibitors (ICIs). To explore the role of POLE/POLD1 germline variants in glioma predisposition, whole-exome sequencing was applied to leukocyte DNA of glioma patients from 61 tumor families with at least one glioma case each. Rare heterozygous POLE/POLD1 missense variants predicted to be deleterious were identified in glioma patients from 10 (16%) families, co-segregating with the tumor phenotype in families with available DNA from several tumor patients. Glioblastoma patients carrying rare POLE variants had a mean overall survival of 21 months. Additionally, germline variants in POLD1, located at 19q13.33, were detected in 2/34 (6%) patients with 1p/19q-codeleted oligodendrogliomas, while POLE variants were identified in 2/4 (50%) glioblastoma patients with a spinal metastasis. In 13/15 (87%) gliomas from patients carrying POLE/POLD1 variants, features of defective polymerase proofreading, e.g. hypermutation, POLE/POLD1-associated mutational signatures, multinucleated cells, and increased intratumoral T cell response, were observed. In a CRISPR/Cas9-derived POLE-deficient LN-229 glioblastoma cell clone, a mutator phenotype and delayed S phase progression were detected compared to wildtype POLE cells. Our data provide evidence that rare POLE/POLD1 germline variants predispose to gliomas that may be susceptible to ICIs. Data compiled here suggest that glioma patients carrying POLE/POLD1 variants may be recognized by cutaneous manifestations, e.g. café-au-lait macules, and benefit from surveillance colonoscopy.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10664377PMC
http://dx.doi.org/10.1186/s40478-023-01689-5DOI Listing

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