Elongin C (ELOC/TCEB1)-associated von Hippel-Lindau disease.
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Date
2022-08-23Author
Andreou, A
Yngvadottir, B
Bassaganyas, L
Clark, G
Martin, E
Whitworth, J
Cornish, AJ
Genomics England Research Consortium,
Houlston, RS
Rich, P
Egan, C
Hodgson, SV
Warren, AY
Snape, K
Maher, ER
Type
Journal Article
Metadata
Show full item recordAbstract
Around 95% of patients with clinical features that meet the diagnostic criteria for von Hippel-Lindau disease (VHL) have a detectable inactivating germline variant in VHL. The VHL protein (pVHL) functions as part of the E3 ubiquitin ligase complex comprising pVHL, elongin C, elongin B, cullin 2 and ring box 1 (VCB-CR complex), which plays a key role in oxygen sensing and degradation of hypoxia-inducible factors. To date, only variants in VHL have been shown to cause VHL disease. We undertook trio analysis by whole-exome sequencing in a proband with VHL disease but without a detectable VHL mutation. Molecular studies were also performed on paired DNA extracted from the proband's kidney tumour and blood and bioinformatics analysis of sporadic renal cell carcinoma (RCC) dataset was undertaken. A de novo pathogenic variant in ELOC NM_005648.4(ELOC):c.236A>G (p.Tyr79Cys) gene was identified in the proband. ELOC encodes elongin C, a key component [C] of the VCB-CR complex. The p.Tyr79Cys substitution is a mutational hotspot in sporadic VHL-competent RCC and has previously been shown to mimic the effects of pVHL deficiency on hypoxic signalling. Analysis of an RCC from the proband showed similar findings to that in somatically ELOC-mutated RCC (expression of hypoxia-responsive proteins, no somatic VHL variants and chromosome 8 loss). These findings are consistent with pathogenic ELOC variants being a novel cause for VHL disease and suggest that genetic testing for ELOC variants should be performed in individuals with suspected VHL disease with no detectable VHL variant.
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Subject
Genomics England Research Consortium
Research team
Cancer Genomics
Language
eng
Date accepted
2022-03-16
License start date
2022-03-21
Citation
Human molecular genetics, 2022, pp. ddac066 - ?
Publisher
OXFORD UNIV PRESS