Colleen L. Chute scite author profile

Translesion DNA synthesis (TLS) is a process whereby specialized DNA polymerases are recruited to bypass DNA lesions that would otherwise stall high-fidelity polymerases. We provide evidence that TLS across cisplatin intrastrand cross-links is performed by multiple translesion DNA polymerases. First, we determined that PCNA monoubiquitination by RAD18 is necessary for efficient bypass of cisplatin adducts by the TLS polymerases eta (Pol), REV1, and zeta (Pol) based on the observations that depletion of these proteins individually leads to decreased cell survival, cell cycle arrest in S phase, and activation of the DNA damage response. Second, we showed that in addition to PCNA monoubiquitination by RAD18, the Fanconi anemia core complex is also important for recruitment of REV1 to stalled replication forks in cisplatin treated cells. Third, we present evidence that REV1 and Pol are uniquely associated with protection against cisplatin and mitomycin C-induced chromosomal aberrations, and both are necessary for the timely resolution of DNA double-strand breaks associated with repair of DNA interstrand cross-links. Together, our findings indicate that REV1 and Pol facilitate repair of interstrand cross-links independently of PCNA monoubiquitination and Pol, whereas RAD18 plus Pol, REV1, and Pol are all necessary for replicative bypass of cisplatin intrastrand DNA cross-links.Maintenance of genomic integrity involves the activation of cell cycle checkpoints coupled with DNA repair. Despite these sophisticated mechanisms to remove DNA lesions prior to DNA replication, replication forks may inevitably encounter nonrepaired lesions that block high fidelity polymerases, potentially leading to replication fork instability, gaps in replicated DNA, and the generation of DNA double-strand breaks (DSBs). In order to preserve replication fork stability by allowing replication through polymerase blocking lesions, template DNA containing a damaged base or abasic site can be replicated through the actions of specialized translesion DNA synthesis (TLS) polymerases (61). A key event in the regulation of TLS is the monoubiquitination of PCNA, a homotrimeric protein that functions as an auxiliary factor for DNA polymerases (28,31,57,60). The RAD6 (E2)-RAD18 (E3) complex specifically monoubiquitinates PCNA on Lys-164 in response to replication fork stalling. This event is thought to operate as a molecular switch from normal DNA replication to the TLS pathway based on the observations that association of Y-family TLS polymerases with monoubiquitinated PCNA is strengthened through the cooperative binding of one or more ubiquitin-binding domains (UBM or UBZ) plus a PCNA-interacting domain (6,25).Extensive biochemical evidence suggests that replication through a large variety of lesions requires the sequential action of two TLS polymerases (44). The Y-family polymerase eta (Pol) plays a key role in the efficient and error-free bypass of cyclobutane pyrimidine (TT) dimers, one of the major lesions resulting from exposure to UV radiation (...

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REV1 and polymerase ζ facilitate homologous recombination repair

Sharma

et al. 2011

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REV1 and DNA Polymerase ζ (REV3 and REV7) play important roles in translesion DNA synthesis (TLS) in which DNA replication bypasses blocking lesions. REV1 and Polζ have also been implicated in promoting repair of DNA double-stranded breaks (DSBs). However, the mechanism by which these two TLS polymerases increase tolerance to DSBs is poorly understood. Here we demonstrate that full-length human REV1, REV3 and REV7 interact in vivo (as determined by co-immunoprecipitation studies) and together, promote homologous recombination repair. Cells lacking REV3 were hypersensitive to agents that cause DSBs including the PARP inhibitor, olaparib. REV1, REV3 or REV7-depleted cells displayed increased chromosomal aberrations, residual DSBs and sites of HR repair following exposure to ionizing radiation. Notably, cells depleted of DNA polymerase η (Polη) or the E3 ubiquitin ligase RAD18 were proficient in DSB repair following exposure to IR indicating that Polη-dependent lesion bypass or RAD18-dependent monoubiquitination of PCNA are not necessary to promote REV1 and Polζ-dependent DNA repair. Thus, the REV1/Polζ complex maintains genomic stability by directly participating in DSB repair in addition to the canonical TLS pathway.

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3D collagen architecture induces a conserved migratory and transcriptional response linked to vasculogenic mimicry

et al. 2017

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The topographical organization of collagen within the tumor microenvironment has been implicated in modulating cancer cell migration and independently predicts progression to metastasis. Here, we show that collagen matrices with small pores and short fibers, but not Matrigel, trigger a conserved transcriptional response and subsequent motility switch in cancer cells resulting in the formation of multicellular network structures. The response is not mediated by hypoxia, matrix stiffness, or bulk matrix density, but rather by matrix architecture-induced β1-integrin upregulation. The transcriptional module associated with network formation is enriched for migration and vasculogenesis-associated genes that predict survival in patient data across nine distinct tumor types. Evidence of this gene module at the protein level is found in patient tumor slices displaying a vasculogenic mimicry (VM) phenotype. Our findings link a collagen-induced migration program to VM and suggest that this process may be broadly relevant to metastatic progression in solid human cancers.

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A small ubiquitin binding domain inhibits ubiquitin-dependent protein recruitment to DNA repair foci

et al. 2013

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Colleen L. Chute

Differential Roles for DNA Polymerases Eta, Zeta, and REV1 in Lesion Bypass of Intrastrand versus Interstrand DNA Cross-Links

REV1 and polymerase ζ facilitate homologous recombination repair

3D collagen architecture induces a conserved migratory and transcriptional response linked to vasculogenic mimicry

A small ubiquitin binding domain inhibits ubiquitin-dependent protein recruitment to DNA repair foci

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