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. 2023 Feb 2;15(3):944.
doi: 10.3390/cancers15030944.

Novel Candidate loci and Pathogenic Germline Variants Involved in Familial Hematological Malignancies Revealed by Whole-Exome Sequencing

Cristina Andrés-Zayas  1   2 Julia Suárez-González  1   2 María Chicano-Lavilla  2   3 Mariana Bastos Oreiro  2   3 Gabriela Rodríguez-Macías  3 Patricia Font López  3 Santiago Osorio Prendes  3 Gillen Oarbeascoa Royuela  2   3 Patricia García Ramírez  4 Rocío Nieves Salgado  5 Ignacio Gómez-Centurión  2   3 Diego Carbonell Muñoz  2   3 Paula Muñiz  2   3 Mi Kwon  2   3 José Luis Díez-Martín  2   3   6 Ismael Buño  1   2   3   7 Carolina Martínez-Laperche  2   3
Affiliations

Novel Candidate loci and Pathogenic Germline Variants Involved in Familial Hematological Malignancies Revealed by Whole-Exome Sequencing

Cristina Andrés-Zayas et al. Cancers (Basel). .

Abstract

The familial occurrence of hematological malignancies has been underappreciated. Recent studies suggest that up to 15% of adults with myeloid neoplasms carry germline pathogenic variants in cancer-predisposing genes. This study aimed to identify the underlying germline predisposition variant in patients with a strong family or personal onco-hematological history using whole exome sequencing on sixteen uncharacterized individuals. It was carried out in two groups of patients, one with samples available from two affected relatives (Cohort A) and one with available samples from the index case (Cohort B). In Cohort A, six families were characterized. Two families shared variants in genes associated with DNA damage response and involved in cancer development (CHEK2 and RAD54L). Pathogenic or likely pathogenic germline variants were also found in novel candidate genes (NFATC2 and TC2N). In two families, any relevant pathogenic or likely pathogenic genomic variants were identified. In Cohort B, four additional index cases were analyzed. Three of them harbor clinically relevant variants in genes with a probable role in the development of inherited forms of hematological malignancies (GATA1, MSH4 and PRF1). Overall, whole exome sequencing is a useful approach to achieve a further characterization of these patients and their mutational spectra. Moreover, further investigations may help improve optimization for disease management of affected patients and their families.

Keywords: cancer susceptibility; germline mutation; hematological malignancies; predisposition syndromes; whole-exome sequencing.

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Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Figures

Figure 1
Figure 1
Algorithm for the detection of germline variants predisposing to inherited forms of hematological malignancies. Abbreviations: PV: pathogenic variant, LPV: likely pathogenic variant, WGS: whole genome sequencing.
See this image and copyright information in PMC

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