A DNA repair pathway score predicts survival in human multiple myeloma: the potential for therapeutic strategy

Kassambara, Alboukadel; Gourzones-Dmitriev, Claire; Sahota, Surinder S.; Rème, Thierry; Moreaux, Jérôme; Goldschmidt, Hartmut; Constantinou, Angelos; Pasero, P.; Hose, Dirk; Klein, Bernard

doi:10.18632/oncotarget.1740

Cited by 44 publications

(42 citation statements)

References 38 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…ISS was the most important model feature in GIS's top-performing model as measured by the mean decrease in Gini coefficient (see Methods). A DNA repair signature previously associated with poor prognosis [16] was the second most important feature, while age ranked third (Supplemental Fig. 1).…”

Section: Combining Clinical Features and Gene Expression Features Impmentioning

confidence: 88%

Multiple Myeloma DREAM Challenge reveals epigenetic regulator PHF19 as marker of aggressive disease

et al. 2020

Self Cite

View full text Add to dashboard Cite

While the past decade has seen meaningful improvements in clinical outcomes for multiple myeloma patients, a subset of patients does not benefit from current therapeutics for unclear reasons. Many gene expression-based models of risk have been developed, but each model uses a different combination of genes and often involves assaying many genes making them difficult to implement. We organized the Multiple Myeloma DREAM Challenge, a crowdsourced effort to develop models of rapid progression in newly diagnosed myeloma patients and to benchmark these against previously published models. This effort lead to more robust predictors and found that incorporating specific demographic and clinical features improved gene expression-based models of high risk. Furthermore, post-challenge analysis identified a novel expression-based risk marker, PHF19, which has recently been found to have an important biological role in multiple myeloma. Lastly, we show that a simple four feature predictor composed of age, ISS, and expression of PHF19 and MMSET performs similarly to more complex models with many more gene expression features included.

show abstract

Section: Combining Clinical Features and Gene Expression Features Impmentioning

confidence: 88%

Multiple Myeloma DREAM Challenge reveals epigenetic regulator PHF19 as marker of aggressive disease

et al. 2020

Self Cite

View full text Add to dashboard Cite

show abstract

“…The authors claim this DNA Repair (DR) score has the potential to identify patients whose tumor cells are dependent on specific DNA repair pathways. Recognition of such patients, might inform the design of treatments able to induce synthetic lethality through addiction to dysregulated DNA repair (Kassambara et al, 2015). Drugs with such potential include DNA-PKs inhibitors (NHEJ), RAD51 (HR), PARP1/2 (HR, alt NHEJ, BER), CHK2 (HR, alt NHEJ), and CHK1 (HR, NER) (Shaheen et al, 2011).…”

Section: Prognostic Role Of Dna Repair Defects and Genomic Instabilitymentioning

confidence: 99%

Drug Targeting of Genomic Instability in Multiple Myeloma

Beksaç

Balli²,

Yildiz

2020

Front. Genet.

View full text Add to dashboard Cite

“…A growing body of evidence suggests that high expression of RAD51 correlates with an enhanced propensity of tumor cells for invasiveness ( 10 ), aggressiveness ( 11 ), poor prognosis ( 12 – 17 ), and resistance to DNA damage induced by chemotherapeutic drugs ( 17 – 21 ) or radiotherapy ( 22 ). Recently, high RAD51 expression was reported to have a negative prognostic value for both event-free and overall survival of MM patients ( 23 ). Targeting RAD51 has thus been proposed as a potential anti-cancer treatment, and downregulation of RAD51 by siRNA has been shown to selectively increase the chemotherapeutic sensitivity of human cancer cells relative to normal cells ( 24 ).…”

Section: Introductionmentioning

confidence: 99%

A Small-Molecule Inhibitor of RAD51 Reduces Homologous Recombination and Sensitizes Multiple Myeloma Cells to Doxorubicin

2014

View full text Add to dashboard Cite

We previously reported high expression of RAD51 and increased homologous recombination (HR) rates in multiple myeloma (MM) cells, and showed that genomic instability and disease progression are commensurate with HR levels. Moreover, high RAD51 expression in vivo is associated with chemoresistance and poor patient survival. Doxorubicin (DOX) is one of the most widely used drug treatments in MM chemotherapy. DOX is cytotoxic because it induces DNA double-strand breaks, which can be repaired by RAD51-mediated HR; activation of this pathway thus contributes to resistance. To investigate the role of RAD51 in MM drug resistance, we assessed the ability of B02, a small-molecule inhibitor of RAD51, to enhance DOX sensitivity of MM cells. Combining low-toxicity doses of DOX and B02 resulted in significant synthetic lethality, observed as increased apoptosis and reduced viability compared to either agent alone, or to the product of their individual effects. In contrast, the combination did not produce significant synergy against normal human CD19+ B cells from peripheral blood. DOX induced RAD51 at both mRNA and protein levels, while arresting cells in S and G2. DOX treatment also increased the number of RAD51 foci, a marker of HR repair, so that the fraction of cells with ≥5 foci rose fourfold, whereas γH2AX foci rose far less, implying that most new breaks are repaired. When B02 treatment preceded DOX exposure, the induction of RAD51 foci was severely blunted, whereas, γH2AX foci rose significantly relative to basal levels or either agent alone. In MM cells carrying a chromosomally integrated reporter of HR repair, DOX increased HR events while B02 inhibition of RAD51 blocked the HR response. These studies demonstrate the crucial role of RAD51 in protecting MM cells from genotoxic agents such as DOX, and suggest that specific inhibition of RAD51 may be an effective means to block DNA repair in MM cells and thus to enhance the efficacy of chemotherapy.

show abstract

A DNA repair pathway score predicts survival in human multiple myeloma: the potential for therapeutic strategy

Cited by 44 publications

References 38 publications

Multiple Myeloma DREAM Challenge reveals epigenetic regulator PHF19 as marker of aggressive disease

Multiple Myeloma DREAM Challenge reveals epigenetic regulator PHF19 as marker of aggressive disease

Drug Targeting of Genomic Instability in Multiple Myeloma

A Small-Molecule Inhibitor of RAD51 Reduces Homologous Recombination and Sensitizes Multiple Myeloma Cells to Doxorubicin

Contact Info

Product

Resources

About