11-108235669-G-A
Position:
Variant summary
Our verdict is Pathogenic. Variant got 9 ACMG points: 9P and 0B. PM2_SupportingPM3_StrongPVS1_Strong
This summary comes from the ClinGen Evidence Repository: The ATM c.332-1G>A variant is predicted to create an NMD-escaping transcript resulting in a loss of part of the HEAT repeat domain (PVS1_strong). This variant has been observed in a compound heterozygous state (confirmed) in one individual with Ataxia-Telangiectasia (PMID:10980530, PM3_strong). This variant is a singleton in gnomAD v2.1.1 and therefore considered rare (PM2_Supporting). In summary, this variant meets criteria to be classified as pathogenic. ACMG/AMP criteria applied, as specified by the HBOP Variant Curation Expert Panel. LINK:https://erepo.genome.network/evrepo/ui/classification/CA6264590/MONDO:0016419/020
Frequency
Genomes: 𝑓 0.0000066 ( 0 hom., cov: 32)
Consequence
ATM
NM_000051.4 splice_acceptor, intron
NM_000051.4 splice_acceptor, intron
Scores
5
1
1
Splicing: ADA: 1.000
2
Clinical Significance
Conservation
PhyloP100: 9.15
Genes affected
ATM (HGNC:795): (ATM serine/threonine kinase) The protein encoded by this gene belongs to the PI3/PI4-kinase family. This protein is an important cell cycle checkpoint kinase that phosphorylates; thus, it functions as a regulator of a wide variety of downstream proteins, including tumor suppressor proteins p53 and BRCA1, checkpoint kinase CHK2, checkpoint proteins RAD17 and RAD9, and DNA repair protein NBS1. This protein and the closely related kinase ATR are thought to be master controllers of cell cycle checkpoint signaling pathways that are required for cell response to DNA damage and for genome stability. Mutations in this gene are associated with ataxia telangiectasia, an autosomal recessive disorder. [provided by RefSeq, Aug 2010]
Genome browser will be placed here
ACMG classification
Classification made for transcript
Verdict is Pathogenic. Variant got 9 ACMG points.
PVS1
For more information check the summary or visit ClinGen Evidence Repository.
PM2
For more information check the summary or visit ClinGen Evidence Repository.
PM3
For more information check the summary or visit ClinGen Evidence Repository.
Transcripts
RefSeq
| Gene | Transcript | HGVSc | HGVSp | Effect | #exon/exons | MANE | Protein | UniProt |
|---|---|---|---|---|---|---|---|---|
| ATM | NM_000051.4 | c.332-1G>A | splice_acceptor_variant, intron_variant | ENST00000675843.1 | NP_000042.3 |
Ensembl
| Gene | Transcript | HGVSc | HGVSp | Effect | #exon/exons | TSL | MANE | Protein | Appris | UniProt |
|---|---|---|---|---|---|---|---|---|---|---|
| ATM | ENST00000675843.1 | c.332-1G>A | splice_acceptor_variant, intron_variant | NM_000051.4 | ENSP00000501606.1 |
Frequencies
GnomAD3 genomes 0.00000657 AC: 1AN: 152118Hom.: 0 Cov.: 32
GnomAD3 genomes
AF:
AC:
1
AN:
152118
Hom.:
Cov.:
32
Gnomad AFR
AF:
Gnomad AMI
AF:
Gnomad AMR
AF:
Gnomad ASJ
AF:
Gnomad EAS
AF:
Gnomad SAS
AF:
Gnomad FIN
AF:
Gnomad MID
AF:
Gnomad NFE
AF:
Gnomad OTH
AF:
GnomAD3 exomes AF: 0.00000400 AC: 1AN: 249988Hom.: 0 AF XY: 0.00000739 AC XY: 1AN XY: 135310
GnomAD3 exomes
AF:
AC:
1
AN:
249988
Hom.:
AF XY:
AC XY:
1
AN XY:
135310
Gnomad AFR exome
AF:
Gnomad AMR exome
AF:
Gnomad ASJ exome
AF:
Gnomad EAS exome
AF:
Gnomad SAS exome
AF:
Gnomad FIN exome
AF:
Gnomad NFE exome
AF:
Gnomad OTH exome
AF:
GnomAD4 exome Cov.: 30
GnomAD4 exome
Cov.:
30
GnomAD4 genome 0.00000657 AC: 1AN: 152118Hom.: 0 Cov.: 32 AF XY: 0.0000135 AC XY: 1AN XY: 74302
GnomAD4 genome
AF:
AC:
1
AN:
152118
Hom.:
Cov.:
32
AF XY:
AC XY:
1
AN XY:
74302
Gnomad4 AFR
AF:
Gnomad4 AMR
AF:
Gnomad4 ASJ
AF:
Gnomad4 EAS
AF:
Gnomad4 SAS
AF:
Gnomad4 FIN
AF:
Gnomad4 NFE
AF:
Gnomad4 OTH
AF:
Bravo
AF:
ExAC
AF:
AC:
1
ClinVar
Significance: Pathogenic
Submissions summary: Pathogenic:7
Revision: reviewed by expert panel
LINK: link
Submissions by phenotype
Familial cancer of breast Pathogenic:3
| Likely pathogenic, no assertion criteria provided | clinical testing | BRCAlab, Lund University | Aug 26, 2022 | - - |
| Pathogenic, reviewed by expert panel | curation | ClinGen Hereditary Breast, Ovarian and Pancreatic Cancer Variant Curation Expert Panel, ClinGen | Nov 22, 2022 | The ATM c.332-1G>A variant is predicted to create an NMD-escaping transcript resulting in a loss of part of the HEAT repeat domain (PVS1_strong). This variant has been observed in a compound heterozygous state (confirmed) in one individual with Ataxia-Telangiectasia (PMID: 10980530, PM3_strong). This variant is a singleton in gnomAD v2.1.1 and therefore considered rare (PM2_Supporting). In summary, this variant meets criteria to be classified as pathogenic. ACMG/AMP criteria applied, as specified by the HBOP Variant Curation Expert Panel. - |
| Pathogenic, criteria provided, single submitter | clinical testing | Myriad Genetics, Inc. | Jan 09, 2024 | This variant is considered pathogenic. This variant occurs within a consensus splice junction and is predicted to result in abnormal mRNA splicing of either an out-of-frame exon or an in-frame exon necessary for protein stability and/or normal function. mRNA analysis has demonstrated abnormal mRNA splicing occurs [Myriad internal data]. - |
not provided Pathogenic:2
| Pathogenic, criteria provided, single submitter | clinical testing | Center for Genomic Medicine, Rigshospitalet, Copenhagen University Hospital | Feb 06, 2024 | - - |
| Likely pathogenic, criteria provided, single submitter | clinical testing | GeneDx | Mar 28, 2018 | This pathogenic variant is denoted ATM c.332-1G>A or IVS4-1G>A and consists of a G>A nucleotide substitution at the -1 position of intron 4 of the ATM gene. A splicing assay reportedly demonstrated that this variant, also defined as IVS6-1G>A using alternate numbering, results in the skipping of the adjacent exon (Laake 2000). This disruption would be predicted to lead to an abnormal message that is subject to nonsense-mediated mRNA decay or to an abnormal protein product. ATM c.332-1G>A was observed in trans with another ATM variant in an individual with Ataxia-Telangiectasia (Laake 2000). Based on currently available evidence, we consider this variant to be likely pathogenic. - |
Ataxia-telangiectasia syndrome Pathogenic:1
| Likely pathogenic, criteria provided, single submitter | clinical testing | Labcorp Genetics (formerly Invitae), Labcorp | Dec 24, 2022 | Disruption of this splice site has been observed in individual(s) with ataxia-telangiectasia (PMID: 10980530). In at least one individual the data is consistent with being in trans (on the opposite chromosome) from a pathogenic variant. Studies have shown that disruption of this splice site results in skipping of exon 5, but is expected to preserve the integrity of the reading-frame (PMID: 10980530; Invitae). ClinVar contains an entry for this variant (Variation ID: 231535). This variant is also known as IVS6-1 G>A. This variant is present in population databases (rs747855862, gnomAD 0.005%). This sequence change affects an acceptor splice site in intron 4 of the ATM gene. RNA analysis indicates that disruption of this splice site induces altered splicing and likely results in a shortened protein product. In summary, the currently available evidence indicates that the variant is pathogenic, but additional data are needed to prove that conclusively. Therefore, this variant has been classified as Likely Pathogenic. - |
Hereditary cancer-predisposing syndrome Pathogenic:1
| Pathogenic, criteria provided, single submitter | clinical testing | Ambry Genetics | Aug 26, 2022 | The c.332-1G>A pathogenic intronic variant results from a G to A substitution one nucleotide upstream from coding exon 4 of the ATM gene. This alteration has been detected in an individual with ataxia-telangiectasia confirmed in trans with another ATM pathogenic mutation, and RNA analysis of this alteration showed skipping of exon 5 leading to an in-frame deletion of 165 base pairs or 55 amino acids (Laake K et al. Hum. Mutat. 2000 Sep; 16(3):232-46). Another study detected this alteration in 0/3030 patients with pancreatic cancer, 1/53105 controls from the ExAC population database, and 0/123136 controls from the gnomAD population database (Hu C et al. JAMA. 2018 06;319:2401-2409). In silico splice site analysis predicts that this alteration will weaken the native splice acceptor site. In addition to the clinical data presented in the literature, alterations that disrupt the canonical splice site are expected to cause aberrant splicing, resulting in an abnormal protein or a transcript that is subject to nonsense-mediated mRNA decay. RNA studies have demonstrated that this alteration results in abnormal splicing in the set of samples tested (Ambry internal data). Based on the supporting evidence, this alteration is interpreted as a disease-causing mutation. - |
Computational scores
Source:
Name
Calibrated prediction
Score
Prediction
BayesDel_addAF
Pathogenic
D
BayesDel_noAF
Pathogenic
CADD
Pathogenic
DANN
Uncertain
Eigen
Pathogenic
Eigen_PC
Pathogenic
FATHMM_MKL
Pathogenic
D
GERP RS
Splicing
Name
Calibrated prediction
Score
Prediction
dbscSNV1_ADA
Pathogenic
dbscSNV1_RF
Pathogenic
SpliceAI score (max)
Details are displayed if max score is > 0.2
DS_AL_spliceai
Position offset: 1
Find out detailed SpliceAI scores and Pangolin per-transcript scores at