AI Article Synopsis
- Targeting the DNA damage response (DDR) pathway could be a promising treatment strategy for leiomyosarcoma (LMS), with RNase H2 loss identified as a key alteration for potential therapies.
- A study found that RNase H2 loss is significantly more prevalent in LMS (11.5%) compared to other tumors (3.8%), particularly in uterine LMS (21%) and soft-tissue LMS (30%).
- Although RNase H2 loss and homozygous deletions of RNASEH2B exist in LMS, they did not correlate with significant differences in overall survival among U-LMS patients, but the accuracy of RNase H2 testing suggests its potential use in future clinical trials targeting DDR.
Article Abstract
Targeting the DNA damage response (DDR) pathway is an emerging therapeutic approach for leiomyosarcoma (LMS), and loss of RNase H2, a DDR pathway member, is a potentially actionable alteration for DDR-targeted treatments. Therefore, we designed a protein- and genomic-based RNase H2 screening assay to determine its prevalence and prognostic significance. Using a selective RNase H2 antibody on a pan-tumor microarray (TMA), RNase H2 loss was more common in LMS (11.5%, 9/78) than across all tumors (3.8%, 32/843). In a separate LMS cohort, RNase H2 deficiency was confirmed in uterine LMS (U-LMS, 21%, 23/108) and soft-tissue LMS (ST-LMS; 30%, 39/102). In the TCGA database, RNASEH2B homozygous deletions (HomDels) were found in 6% (5/80) of LMS cases, with a higher proportion in U-LMS (15%; 4/27) compared with ST-LMS (2%; 1/53). Using the SNiPDx targeted-NGS sequencing assay to detect biallelic loss of function in select DDR-related genes, we found RNASEH2B HomDels in 54% (19/35) of U-LMS cases with RNase H2 loss by IHC, and 7% (3/43) HomDels in RNase H2 intact cases. No RNASEH2B HomDels were detected in ST-LMS. In U-LMS patient cohort (n = 109), no significant overall survival difference was seen in patients with RNase H2 loss versus intact, or RNASEH2B HomDel (n = 12) versus Non-HomDel (n = 37). The overall diagnostic accuracy, sensitivity, and specificity of RNase H2 IHC for detecting RNA-SEH2B HomDels in U-LMS was 76%, 93%, and 71%, respectively, and it is being developed for future predictive biomarker driven clinical trials targeting DDR in U-LMS.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11321279 | PMC |
| http://dx.doi.org/10.1158/1535-7163.MCT-23-0761 | DOI Listing |
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