Precision screening facilitates clinical classification of BRCA2-PALB2 binding variants with benign and pathogenic functional effects
Muthiah Bose, … , Claus S. Sørensen, Maria Rossing
Muthiah Bose, … , Claus S. Sørensen, Maria Rossing
Published April 15, 2025
Citation Information: J Clin Invest. 2025;135(12):e181879. https://doi.org/10.1172/JCI181879.
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Clinical Research and Public Health Genetics Oncology

Precision screening facilitates clinical classification of BRCA2-PALB2 binding variants with benign and pathogenic functional effects

Abstract

BACKGROUND Decoding the clinical impact of genetic variants is particularly important for precision medicine in cancer. Genetic screening of mainly patients with breast and ovarian cancer has identified numerous BRCA1/BRCA2 variants of uncertain significance (VUS) that remain unclassified owing to a lack of pedigrees and functional data.METHODS Here, we used CRISPR-Select — a technology that exploits unique inbuilt controls at the endogenous locus — to assess 54 rare ClinVar VUS located in the PALB2-binding domain of BRCA2. Variant deleteriousness was examined in the absence and presence of PARPi, cisplatin, or mitomycin C.RESULTS Marked functional deficiency was observed for variants in the exon 2 donor splice region (A22 = c.66A>C, A22 = c.66A>G, A22 = c.66A>T, and D23H) and Trp31 aa (W31G, W31L, and W31C), both critical for BRCA2 function. Moreover, T10K and G25R resulted in an intermediate phenotype, suggesting these variants are hypomorphic in nature. Combining our functional results with the latest ClinGen BRCA1/2 Variant Curation Expert Panel recommendations, we classified 49 of the 54 VUS as either likely benign (n = 45) or likely pathogenic (n = 4).CONCLUSION Therefore, CRISPR-Select is an important tool for efficient variant clinical classification. Application of this technology in the future will ultimately improve patient care.FUNDING Danish Cancer Society, Novo Nordisk Foundation, Sygeforsikring Danmark, Børnecancerfonden, Neye-Fonden, Roche, Novartis, Pfizer, AstraZeneca, MSD, and Daiichi Sankyo Europe GmbH.

Authors

Muthiah Bose, Manika Indrajit Singh, Morten Frödin, Bent Ejlertsen, Claus S. Sørensen, Maria Rossing

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Figure 4

Minigene splicing assay illustrating aberrant splicing of BRCA2 c.67G>C (D23H) variant.

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Minigene splicing assay illustrating aberrant splicing of BRCA2 c.67G&gt...
(A) WT BRCA2 exon 2 and flanking intronic sequences were PCR amplified and cloned into pSPL3 vector. pSPL3 BRCA2-Exon2-c.67G>C (D23H) plasmids were generated using site-directed mutagenesis. V1, vector exon 1; SD, splice-donor sequence; SA, splice-acceptor sequence; V2, vector exon 2; UTR, untranslated region; CDS, coding sequence. (B) pSPL3-Empty, pSPL3-WT, and pSPL3-D23H plasmids were transfected into U-2-OS cells and treated with 300 μg/mL cycloheximide to block nonsense-mediated mRNA decay before RNA purification. cDNA was sequenced and analyzed using pSPL3 specific primers targeting V1 and V2. (C) PCR fragment analysis indicating the presence of 2 independent aberrant splicing patterns of the BRCA2 c.67G>C (D23H) variant. Skipping of BRCA2 exon 2 (D23H #1 and #2, bottom band) was the predominant aberrant splicing pattern, whereas use of cryptic splice site (D23H #1 and #2, top band) that results in incorporation of truncated UTR segment was also observed. (D) Targeted NGS of BRCA2-Exon2-c.67G>C (D23H) cDNA revealed the use of a noncanonical splice site located upstream of the CDS, resulting in an aberrantly spliced product lacking part of UTR and entire CDS.