Population-based analysis of BAP1 germline variations in patients with uveal melanoma.

Pathogenic germline variants in the BRCA1-associated protein 1 (BAP1) gene cause the BAP1 tumor predisposition syndrome (BAP1-TPDS) with increased risk of several cancers, the most frequent of which is uveal melanoma (UM). Pathogenicity of loss-of-function (LOF) BAP1 variants is clear, as opposed to that of missense and regulatory region variants. We sequenced the coding, promoter, untranslated region (UTR) and intronic regions of BAP1 and analyzed copy number variations (CNVs). In this nationwide study, the cohort comprised UM patients diagnosed between 2010 and 2017. These included 432 of 520 consecutive Finnish UM patients, 16 of whom were familial, and one additional patient from a Finnish-Swedish family. Twenty-one different rare variants were found: seven exonic, seven intronic, four 3' UTR and three promoter. We considered five variants likely to be pathogenic by effect on splicing, nuclear localization or deubiquitination activity. Intron 2 (c.67+1G>T) and exon 14 (c.1780_1781insT) LOF variants were presumed founder mutations, occurring in two and four families, respectively; both abolished nuclear localization in vitro. Intron 2, exons 5 (c.281A>G) and 9 (c.680G>A) missense variants markedly reduced deubiquitinating activity. A deep intronic 25 base pair deletion in intron 1 caused aberrant splicing in vitro. On the basis of functional studies and family cancer history, we classified four exon 13 missense variants as benign. No CNVs were found. The prevalence of pathogenic variants was 9/433 (2%) and 4/16 (25%) in Finnish UM families. Family cancer history and functional assays are indispensable when establishing the pathogenicity of BAP1 variants. Deep intronic variants can cause BAP1-TPDS.

BAP1 Germline Mutations in Finnish Patients with Uveal Melanoma.

PURPOSE: Germline mutations of the BRCA1-associated protein-1 gene (BAP1) predispose carriers to uveal melanoma. We report the population-based frequency of germline pathogenic variants of BAP1 in Finnish patients with uveal melanoma who live in a high-risk region for this cancer. DESIGN: Cohort study. PARTICIPANTS: In Finland, uveal melanomas are treated centrally in the Ocular Oncology Service, Helsinki University Hospital. We collected clinical data and genomic DNA from 148 of 188 consecutive patients diagnosed from January 2010 through December 2012. Seven of these patients from 6 families had a history of uveal melanoma in 1 relative, and 2 patients from 2 additional families had such a history in 2 relatives. METHODS: Sequencing BAP1. MAIN OUTCOME MEASURES: Pathogenic variants in BAP1. RESULTS: We found 2 different pathogenic variants in BAP1 in 3 patients. Two patients had a single nucleotide insertion in exon 14 resulting in a shift of reading frame. Both had a family history of uveal melanoma in at least 1 relative. One patient without a family history of uveal melanoma had a single nucleotide substitution in the conserved splice donor site of intron 2. BAP1 cancer predisposition syndrome-related cancers were present in all 3 families. The overall frequency of BAP1 pathogenic variants was 2.0% (3/148; 95% confidence interval, 0.4-5.8), the frequency among patients 50 years of age or younger was 3.6% (1/28; 95% confidence interval, 0.1-18), and a pathogenic variant was detected in 2 of 8 families with a history of uveal melanoma. CONCLUSIONS: The frequency of BAP1 germline pathogenic variants in consecutive Finnish patients with uveal melanoma who come from a high-risk region for the development of this cancer is comparable with reports from other populations.

Donor genetic burden for cerebrovascular risk and kidney transplant outcome.

BACKGROUND AND HYPOTHESIS: Kidney grafts from donors who died of stroke and related traits have worse outcomes relative to grafts from both living donors and those who died of other causes. We hypothesise that deceased donors, particularly those who died of stroke, have elevated polygenic burden for cerebrovascular traits. We further hypothesise that this donor polygenic burden is associated with inferior graft outcomes in the recipient. METHODS: Using a dataset of 6666 deceased and living kidney donors from seven different European ancestry transplant cohorts, we investigated the role of polygenic burden for cerebrovascular traits (hypertension, stroke, and intracranial aneurysm (IA)) on donor age of death and recipient graft outcomes. RESULTS: We found that kidney donors who died of stroke had elevated intracranial aneurysm and hypertension polygenic risk scores, compared to healthy controls and living donors. This burden was associated with age of death among donors who died of stroke. Increased donor polygenic risk for hypertension was associated with reduced long term graft survival (HR: 1.44, 95% CI [1.07, 1.93]) and increased burden for hypertension, and intracranial aneurysm was associated with reduced recipient estimated glomerular filtration rate (eGFR) at 1 year. CONCLUSIONS: Collectively, the results presented here demonstrate the impact of inherited factors associated with donors' death on long-term graft function.

Mismatches in Gene Deletions and Kidney-related Proteins as Candidates for Histocompatibility Factors in Kidney Transplantation.

Introduction: The genomic mismatch level between donor and recipient may be associated with the risk of rejection and graft survival. We determined the association of genome-level matching with acute rejection in deceased-donor kidney transplantation. Methods: The study cohort consists of 1025 recipient-donor pairs transplanted in a single center from 2007 to 2017 in Helsinki. The associations between the sums of whole-genome missense variant mismatches and missense mismatches in transmembrane, secretory, and kidney-related proteins, with acute rejection were estimated using Cox model. In addition, we analyzed 40 deletion-tagging variants using Cox model. Results: The association analysis between mismatch sums of kidney-related proteins and acute rejection resulted in an unadjusted hazard ratio (HR) of 1.15 (95% confidence interval [CI], 1.01-1.30; P = 0.029) and adjusted HR of 1.13 (95% CI, 0.99-1.28; P = 0.071). In deletion analysis, a mismatch in rs7542235 genotype GG tagging a homozygous deletion at the complement factor H-related (CFHR), proteins locus, predisposed to acute rejection with an unadjusted HR of 3.10 (95% CI, 1.53-6.29; P = 0.002) and adjusted HR of 2.97 (95% CI, 1.46-6.05; P = 0.003). Conclusion: In conclusion, analyses of genome-level mismatches may be useful tools in prediction of transplantation outcome. The relative importance differs between populations, because we found evidence for CFHR deletion but could not replicate the finding of previously reported LIMS1 deletion.

A recurrent de novo mutation in KCNC1 causes progressive myoclonus epilepsy.

Progressive myoclonus epilepsies (PMEs) are a group of rare, inherited disorders manifesting with action myoclonus, tonic-clonic seizures and ataxia. We sequenced the exomes of 84 unrelated individuals with PME of unknown cause and molecularly solved 26 cases (31%). Remarkably, a recurrent de novo mutation, c.959G>A (p.Arg320His), in KCNC1 was identified as a new major cause for PME. Eleven unrelated exome-sequenced (13%) and two affected individuals in a secondary cohort (7%) had this mutation. KCNC1 encodes KV3.1, a subunit of the KV3 voltage-gated potassium ion channels, which are major determinants of high-frequency neuronal firing. Functional analysis of the Arg320His mutant channel showed a dominant-negative loss-of-function effect. Ten cases had pathogenic mutations in known PME-associated genes (NEU1, NHLRC1, AFG3L2, EPM2A, CLN6 and SERPINI1). Identification of mutations in PRNP, SACS and TBC1D24 expand their phenotypic spectra to PME. These findings provide insights into the molecular genetic basis of PME and show the role of de novo mutations in this disease entity.