17-61849241-G-GT
Variant summary
Our verdict is Pathogenic. Variant got 16 ACMG points: 16P and 0B. PVS1PP5_Very_Strong
The NM_032043.3(BRIP1):βc.394_395insAβ(p.Thr132AsnfsTer10) variant causes a frameshift change involving the alteration of a non-conserved nucleotide. The variant allele was found at a frequency of 0.0000124 in 1,612,630 control chromosomes in the GnomAD database, with no homozygous occurrence. Variant has been reported in ClinVar as Pathogenic (β β ). Synonymous variant affecting the same amino acid position (i.e. T132T) has been classified as Likely benign. Variant results in nonsense mediated mRNA decay.
Frequency
Consequence
NM_032043.3 frameshift
Scores
Clinical Significance
Conservation
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ACMG classification
Verdict is Pathogenic. Variant got 16 ACMG points.
Transcripts
RefSeq
Gene | Transcript | HGVSc | HGVSp | Effect | #exon/exons | MANE | UniProt |
---|---|---|---|---|---|---|---|
BRIP1 | NM_032043.3 | c.394_395insA | p.Thr132AsnfsTer10 | frameshift_variant | 5/20 | ENST00000259008.7 |
Ensembl
Gene | Transcript | HGVSc | HGVSp | Effect | #exon/exons | TSL | MANE | Appris | UniProt |
---|---|---|---|---|---|---|---|---|---|
BRIP1 | ENST00000259008.7 | c.394_395insA | p.Thr132AsnfsTer10 | frameshift_variant | 5/20 | 1 | NM_032043.3 | P2 |
Frequencies
GnomAD3 genomes AF: 0.00000658 AC: 1AN: 152008Hom.: 0 Cov.: 32
GnomAD3 exomes AF: 0.00000797 AC: 2AN: 251000Hom.: 0 AF XY: 0.00000737 AC XY: 1AN XY: 135722
GnomAD4 exome AF: 0.0000130 AC: 19AN: 1460622Hom.: 0 Cov.: 30 AF XY: 0.00000963 AC XY: 7AN XY: 726686
GnomAD4 genome AF: 0.00000658 AC: 1AN: 152008Hom.: 0 Cov.: 32 AF XY: 0.00 AC XY: 0AN XY: 74216
ClinVar
Submissions by phenotype
Familial cancer of breast Pathogenic:3
Pathogenic, criteria provided, single submitter | clinical testing | Institute of Human Genetics, University of Leipzig Medical Center | Jan 01, 2019 | This variant was identified as compound heterozygous. - |
Pathogenic, criteria provided, single submitter | clinical testing | Baylor Genetics | Dec 20, 2023 | - - |
Pathogenic, criteria provided, single submitter | clinical testing | Myriad Genetics, Inc. | May 30, 2023 | This variant is considered pathogenic. This variant creates a frameshift predicted to result in premature protein truncation. - |
not provided Pathogenic:2
Pathogenic, criteria provided, single submitter | clinical testing | GeneDx | May 19, 2023 | Frameshift variant predicted to result in protein truncation or nonsense mediated decay in a gene for which loss of function is a known mechanism of disease; Not observed at significant frequency in large population cohorts (gnomAD); Case-control data support that this variant is associated with ovarian cancer, albeit with wide confidence interval(s) (Suszynska et al., 2020); This variant is associated with the following publications: (PMID: 21964575, 16116423, 17033622, 28888541, 34680501, 26315354, 32359370, 26720728, 29922827) - |
Pathogenic, criteria provided, single submitter | clinical testing | Quest Diagnostics Nichols Institute San Juan Capistrano | Oct 26, 2020 | This frameshift variant causes the premature termination of BRIP1 protein synthesis. It has been reported in individuals with ovarian cancer in the published literature (PMID: 32359370 (2020), 26720728 (2016), 26315354 (2015)). The frequency of this variant in the general population is consistent with pathogenicity. Therefore, the variant is classified as pathogenic. - |
Hereditary cancer-predisposing syndrome Pathogenic:2
Pathogenic, criteria provided, single submitter | clinical testing | Ambry Genetics | Mar 29, 2022 | The c.394dupA pathogenic mutation, located in coding exon 4 of the BRIP1 gene, results from a duplication of A at nucleotide position 394, causing a translational frameshift with a predicted alternate stop codon (p.T132Nfs*10). This pathogenic mutation has been reported in multiple individuals with serous ovarian cancer (Ramus SJ et al. J. Natl. Cancer Inst. 2015 Nov;107:djv214; Norquist BM et al. JAMA Oncol 2016 Apr;2:482-90). Of note, this alteration is also designated as c.394insA in published literature. This variant is considered to be rare based on population cohorts in the Genome Aggregation Database (gnomAD). This alteration is expected to result in loss of function by premature protein truncation or nonsense-mediated mRNA decay. As such, this alteration is interpreted as a disease-causing mutation. - |
Pathogenic, criteria provided, single submitter | clinical testing | Color Diagnostics, LLC DBA Color Health | Oct 17, 2022 | This variant inserts 1 nucleotide in exon 5 of the BRIP1 gene, creating a frameshift and premature translation stop signal. This variant is expected to result in an absent or non-functional protein product. This variant has been observed in individuals affected with ovarian cancer (PMID: 26315354, 26720728, 32359370). This variant has been identified in 2/251000 chromosomes in the general population by the Genome Aggregation Database (gnomAD). Loss of BRIP1 function is a known mechanism of disease (clinicalgenome.org). Based on the available evidence, this variant is classified as Pathogenic. - |
Familial cancer of breast;C1836860:Fanconi anemia complementation group J Pathogenic:1
Pathogenic, criteria provided, single submitter | clinical testing | Labcorp Genetics (formerly Invitae), Labcorp | Dec 21, 2023 | This sequence change creates a premature translational stop signal (p.Thr132Asnfs*10) in the BRIP1 gene. It is expected to result in an absent or disrupted protein product. Loss-of-function variants in BRIP1 are known to be pathogenic (PMID: 16116423, 17033622, 21964575). This variant is present in population databases (rs587781416, gnomAD 0.002%). This premature translational stop signal has been observed in individual(s) with ovarian cancer (PMID: 26315354, 26720728). This variant is also known as c.394insA (p.T132fs). ClinVar contains an entry for this variant (Variation ID: 140984). For these reasons, this variant has been classified as Pathogenic. - |
Fanconi anemia complementation group J Pathogenic:1
Pathogenic, criteria provided, single submitter | clinical testing | Revvity Omics, Revvity | May 15, 2019 | - - |
Computational scores
Source:
Splicing
Find out detailed SpliceAI scores and Pangolin per-transcript scores at