AI Article Synopsis
- Many patients referred for complex molecular profiling of tumors may have inherited genetic variants linked to hereditary cancer syndromes (HCS), but there's no standard method for analyzing or reporting these findings.
- Data from Next-Generation Sequencing (NGS) was used to identify germline variants in genes tied to HCS, with validation through bioinformatic algorithms and Sanger sequencing when possible.
- Out of 183 sampled patients, 56 variants were found in 40 individuals, with 17 of those likely originating from germline mutations, including 6 classified as pathogenic and 9 as variants of uncertain significance; the study suggests a minimal need for further tissue sequencing in a few cases to confirm these findings.
Article Abstract
Background: A fraction of patients referred for complex molecular profiling of biopsied tumors may harbor germline variants in genes associated with the development of hereditary cancer syndromes (HCS). Neither the bioinformatic analysis nor the reporting of such incidental germline findings are standardized.
Methods: Data from Next-Generation Sequencing (NGS) of biopsied tumor samples referred for complex molecular profiling were analyzed for germline variants in HCS-associated genes. Analysis of variant origin was performed employing bioinformatic algorithms followed by manual curation. When possible, the origin of the variant was validated by Sanger sequencing of the sample of normal tissue. The variants' pathogenicity was assessed according to ACMG/AMP.
Results: Tumors were sampled from 183 patients (Males: 75 [41.0%]; Females: 108 [59.0%]; mean [SD] age, 57.7 [13.3] years) and analysed by targeted NGS. The most common tumor types were colorectal (19%), pancreatic (13%), and lung cancer (10%). A total of 56 sequence variants in genes associated with HCS were detected in 40 patients. Of them, 17 variants found in 14 patients were predicted to be of germline origin, with 6 variants interpreted as pathogenic (PV) or likely pathogenic (LPV), and 9 as variants of uncertain significance (VUS). For the 41 out of 42 (97%) missense variants in HCS-associated genes, the results of computational prediction of variant origin were concordant with that of experimental examination. We estimate that Sanger sequencing of a sample of normal tissue would be required for ~ 1-7% of the total assessed cases with PV or LPV, when necessity to follow with genetic counselling referral in ~ 2-15% of total assessed cases (PV, LPV or VUS found in HCS genes).
Conclusion: Incidental findings of pathogenic germline variants are common in data from cancer patients referred for complex molecular profiling. We propose an algorithm for the management of patients with newly detected variants in genes associated with HCS.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8760669 | PMC |
| http://dx.doi.org/10.1186/s12967-022-03230-z | DOI Listing |
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