Colette B. Rogers scite author profile

Minichromosome maintenance protein 10 (MCM10) is essential for eukaryotic DNA replication. Here, we describe compound heterozygous MCM10 variants in patients with distinctive, but overlapping, clinical phenotypes: natural killer (NK) cell deficiency (NKD) and restrictive cardiomyopathy (RCM) with hypoplasia of the spleen and thymus. To understand the mechanism of MCM10-associated disease, we modeled these variants in human cell lines. MCM10 deficiency causes chronic replication stress that reduces cell viability due to increased genomic instability and telomere erosion. Our data suggest that loss of MCM10 function constrains telomerase activity by accumulating abnormal replication fork structures enriched with single-stranded DNA. Terminally-arrested replication forks in MCM10-deficient cells require endonucleolytic processing by MUS81, as MCM10:MUS81 double mutants display decreased viability and accelerated telomere shortening. We propose that these bi-allelic variants in MCM10 predispose specific cardiac and immune cell lineages to prematurely arrest during differentiation, causing the clinical phenotypes observed in both NKD and RCM patients.

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SLFN11 promotes stalled fork degradation that underlies the phenotype in Fanconi anemia cells

Okamoto

Abe²,

Mu³

et al. 2021

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Fanconi anemia (FA) is a hereditary disorder caused by mutations in any one of 22 FA genes. The disease is characterized by hypersensitivity to interstrand crosslink (ICL) inducers such as mitomycin C (MMC). In addition to promoting ICL repair, FA proteins such as RAD51, BRCA2, or FANCD2 protect stalled replication forks from nucleolytic degradation during replication stress, which may have a profound impact on FA pathophysiology. Recent studies showed that expression of the putative DNA/RNA helicase SLFN11 in cancer cells correlates with cell death upon chemotherapeutic treatment. However, the underlying mechanisms of SLFN11-mediated DNA damage sensitivity remain unclear. Since SLFN11 expression is high in hematopoietic stem cells, we hypothesized that SLFN11 depletion might ameliorate the phenotypes of FA cells. Here we report that SLFN11 knockdown in the FA patient-derived FANCD2-deficient PD20 cell line improved cell survival upon treatment with ICL inducers. FANCD2-/-SLFN11-/- HAP1 cells also displayed phenotypic rescue, including reduced levels of MMC-induced chromosome breakage compared to FANCD2-/- cells. Importantly, we found that SLFN11 promotes extensive fork degradation in FANCD2-/- cells. The degradation process is mediated by the nucleases MRE11 or DNA2 and depends on the SLFN11 ATPase activity. This observation was accompanied by an increased RAD51 binding at stalled forks, consistent with the role of RAD51 antagonizing nuclease recruitment and subsequent fork degradation. Suppression of SLFN11 protects nascent DNA tracts even in wild type cells. We conclude that SLFN11 destabilizes stalled replication forks, and this function may contribute to the attrition of hematopoietic stem cells in FA.

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The Impact of the Australian Government Job Network Contracting on Not‐for‐Profit Service Providers

Rogers

2007

Aust J Public Adm

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Transcriptional Bypass of DNA–Protein and DNA–Peptide Conjugates by T7 RNA Polymerase

Thomforde

Rogers

et al. 2019

ACS Chem. Biol.

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DNA−protein cross-links (DPCs) are unusually bulky DNA adducts that block the access of proteins to DNA and interfere with gene expression, replication, and repair. We previously described DPC formation at the N7guanine position of DNA in human cells treated with antitumor nitrogen mustards and platinum compounds and have shown that DPCs can form endogenously at DNA epigenetic mark 5-formyl-dC. However, insufficient information is available about the effects of these structurally distinct DPCs on transcription. In the present work, we employ a combination of in vitro assays, mass spectrometry, and molecular dynamics simulations to examine the ability of phage T7 RNA polymerase to bypass DPCs conjugated to the C7 position of 7-deaza-dG and the C5 position of dC. These model adducts represent endogenous DPCs induced by exposure to antitumor drugs and formed at epigenetics DNA marks, respectively. Our results reveal that DPCs containing full-length proteins significantly inhibit in vitro transcription by T7 RNA polymerase, while short DNA−peptide cross-links (DpCs) are bypassed. DpCs conjugated to the C7 position of 7-deaza-dG are transcribed with high fidelity, while the same polypeptides attached to the C5 position of dC induce transcription errors. Molecular dynamics simulations of DpCs conjugated either to the C5 atom of dC or the C7 position of 7-deaza-dG on the template strand in T7 RNA polymerase explain how the conjugated peptide can be accommodated in the narrow major groove of the DNA−RNA hybrid and how the modified dC can form a stable mismatch with the incoming ATP in the polymerase active site, allowing for transcriptional mutagenesis.

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Colette B. Rogers

Bi-allelic MCM10 variants associated with immune dysfunction and cardiomyopathy cause telomere shortening

SLFN11 promotes stalled fork degradation that underlies the phenotype in Fanconi anemia cells

The Impact of the Australian Government Job Network Contracting on Not‐for‐Profit Service Providers

Transcriptional Bypass of DNA–Protein and DNA–Peptide Conjugates by T7 RNA Polymerase

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