Your search keyword '"Henninger, Erin E"' showing total 2 results

1. Combined hereditary and somatic mutations of replication error repair genes result in rapid onset of ultra-hypermutated cancers.

Author

Shlien, Adam, Meier, Bettina, Hong, Ye, Gartner, Anton, Remke, Marc, Thakkar, Neha P, Pearson, Christopher E, Hodel, Karl P, Henninger, Erin E, Göksenin, A Yasemin, Pursell, Zachary F, Bakry, Doua, Grant, Ronald, Nathan, Paul C, Alexander, Sarah, Charames, George S, Druker, Harriet, Lerner-Ellis, Jordan, Dvir, Rina, and Elhasid, Ronit

Subjects

SOMATIC mutation, DNA replication, POLYMERASES, GENOMES, BRAIN tumors, CANCER

Abstract

DNA replication−associated mutations are repaired by two components: polymerase proofreading and mismatch repair. The mutation consequences of disruption to both repair components in humans are not well studied. We sequenced cancer genomes from children with inherited biallelic mismatch repair deficiency (bMMRD). High-grade bMMRD brain tumors exhibited massive numbers of substitution mutations (>250/Mb), which was greater than all childhood and most cancers (>7,000 analyzed). All ultra-hypermutated bMMRD cancers acquired early somatic driver mutations in DNA polymerase ɛ or δ. The ensuing mutation signatures and numbers are unique and diagnostic of childhood germ-line bMMRD (P < 10−13). Sequential tumor biopsy analysis revealed that bMMRD/polymerase-mutant cancers rapidly amass an excess of simultaneous mutations (∼600 mutations/cell division), reaching but not exceeding ∼20,000 exonic mutations in <6 months. This implies a threshold compatible with cancer-cell survival. We suggest a new mechanism of cancer progression in which mutations develop in a rapid burst after ablation of replication repair. [ABSTRACT FROM AUTHOR]

Published

2015

2. DNA polymerase ε and its roles in genome stability.

Author

Henninger, Erin E. and Pursell, Zachary F.

Subjects

*DNA polymerases, *GENOMES, *DNA replication, *EUKARYOTES, *DNA synthesis, *NEOPLASTIC cell transformation

Abstract

DNA Polymerase Epsilon (Pol ε) is one of three DNA Polymerases (along with Pol δ and Pol α) required for nuclear DNA replication in eukaryotes. Pol ε is comprised of four subunits, the largest of which is encoded by the POLE gene and contains the catalytic polymerase and exonuclease activities. The 3′-5′ exonuclease proofreading activity is able to correct DNA synthesis errors and helps protect against genome instability. Recent cancer genome sequencing efforts have shown that 3% of colorectal and 7% of endometrial cancers contain mutations within the exonuclease domain of POLE and are associated with significantly elevated levels of single nucleotide substitutions (15-500 per Mb) and microsatellite stability. POLE mutations have also been found in other tumor types, though at lower frequency, suggesting roles in tumorigenesis more broadly in different tissue types. In addition to its proofreading activity, Pol ε contributes to genome stability through multiple mechanisms that are discussed in this review. © 2014 IUBMB Life, 66(5):339-351, 2014 [ABSTRACT FROM AUTHOR]

Published

2014