The c.1892_1911del20 variant, located in coding exon 16 of the KCNQ1 gene, results from a deletion of 20 nucleotides at nucleotide positions 1892 to 1911, causing a translational frameshift with a predicted alternate stop codon (p.P631Hfs*14). This frameshift occurs at the 3' terminus of KCNQ1, is not expected to trigger nonsense-mediated mRNA decay, and impacts only the last 46 amino acids of the protein. However, this alteration has been previously reported in long QT syndrome cohorts (Itoh H et al. Eur. J. Hum. Genet., 2016 08;24:1160-6; Samol A et al. PLoS ONE, 2016 Jul;11:e0158085). This deletion allele has also been detected in the heterozygous state in a patient with autosomal recessive Jervell and Lange-Nielsen syndrome, though a second KCNQ1 alteration was not identified (Neyroud N et al. Circ. Res., 1999 Feb;84:290-7). In addition, there is a putative endoplasmic reticulum (ER) retention signal located in the 3' terminus of this alteration that is not present in wild-type KCNQ1; the presence of similar ER retention signals in another frameshift alteration (p.R632Qfs*20) has been shown to result in a trafficking defect (Sato A et al. J. Biol. Chem., 2009 Dec;284:35122-33; Ambry Internal data). Based on the majority of available evidence to date, this variant is likely to be pathogenic.
ClinVar Genomic variation as it relates to human health
NM_000218.3(KCNQ1):c.1892_1911del (p.Pro631fs)
Germline
Classification
Help
The aggregate germline classification for this variant, typically for a monogenic or Mendelian disorder as in the ACMG/AMP guidelines, or for response to a drug. This value is calculated by NCBI based on data from submitters. Read our rules for calculating the aggregate classification.
(9)
Help
Stars represent the aggregate review status, or the level of review supporting the aggregate germline classification for this VCV record. This value is calculated by NCBI based on data from submitters. Read our rules for calculating the review status. The number of submissions which contribute to this review status is shown in parentheses.
Pathogenic/Likely pathogenic
9
criteria provided, multiple submitters, no conflicts
Somatic
No data submitted for somatic clinical impact
Somatic
No data submitted for oncogenicity
Variant Details
- Identifiers
-
NM_000218.3(KCNQ1):c.1892_1911del (p.Pro631fs)
Variation ID: 53025 Accession: VCV000053025.36
- Type and length
-
Deletion, 20 bp
- Location
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Cytogenetic: 11p15.4 11: 2847863-2847882 (GRCh38) [ NCBI UCSC ] 11: 2869093-2869112 (GRCh37) [ NCBI UCSC ]
- Timeline in ClinVar
-
First in ClinVar Help The date this variant first appeared in ClinVar with each type of classification.
Last submission Help The date of the most recent submission for each type of classification for this variant.
Last evaluated Help The most recent date that a submitter evaluated this variant for each type of classification.
Germline Jul 5, 2015 Oct 20, 2024 Nov 1, 2023 - HGVS
-
... more HGVS ... less HGVSNucleotide Protein Molecular
consequenceNM_000218.3:c.1892_1911del MANE Select Help Transcripts from the Matched Annotation from the NCBI and EMBL-EBI (MANE) collaboration.
NP_000209.2:p.Pro631fs frameshift NM_000218.2:c.1892_1911del20 NP_000209.2:p.Pro631Hisfs frameshift NM_000218.2:c.1892_1911delCCAGAGAGGGCGGGGCCCAC frameshift NM_001406836.1:c.1796_1815del20 NP_001393765.1:p.Pro599Hisfs frameshift NM_001406837.1:c.1622_1641del20 NP_001393766.1:p.Pro541Hisfs frameshift NM_001406838.1:c.1352_1371del20 NP_001393767.1:p.Pro451Hisfs frameshift NM_001406839.1:c.404_423del20 NP_001393768.1:p.Pro135Hisfs frameshift NM_181798.2:c.1511_1530del20 NP_861463.1:p.Pro504Hisfs frameshift NR_040711.2:n.1785_1804del20 NC_000011.10:g.2847864_2847883del NC_000011.9:g.2869094_2869113del NG_008935.1:g.407874_407893del LRG_287:g.407874_407893del LRG_287t1:c.1892_1911del LRG_287t2:c.1511_1530del LRG_287p2:p.Pro504fs - Protein change
- P631fs, P504fs
- Other names
- -
- Canonical SPDI
- NC_000011.10:2847862:CCCAGAGAGGGCGGGGCCCAC:C
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Functional
consequence HelpThe effect of the variant on RNA or protein function, based on experimental evidence from submitters.
- -
-
Global minor allele
frequency (GMAF) HelpThe global minor allele frequency calculated by the 1000 Genomes Project. The minor allele at this location is indicated in parentheses and may be different from the allele represented by this VCV record.
- -
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Allele frequency
Help
The frequency of the allele represented by this VCV record.
- -
- Links
Genes
| Gene | OMIM | ClinGen Gene Dosage Sensitivity Curation |
Variation Viewer
Help
Links to Variation Viewer, a genome browser to view variation data from NCBI databases. |
Related variants | ||
|---|---|---|---|---|---|---|
| HI score
Help
The haploinsufficiency score for the gene, curated by ClinGen’s Dosage Sensitivity Curation task team. |
TS score
Help
The triplosensitivity score for the gene, curated by ClinGen’s Dosage Sensitivity Curation task team. |
Within gene
Help
The number of variants in ClinVar that are contained within this gene, with a link to view the list of variants. |
All
Help
The number of variants in ClinVar for this gene, including smaller variants within the gene and larger CNVs that overlap or fully contain the gene. |
|||
| KCNQ1 | Sufficient evidence for dosage pathogenicity | No evidence available |
GRCh38 GRCh38 GRCh37 |
1721 | 2664 | |
| KCNQ1-AS1 | - | - | - |
GRCh38 GRCh38 |
- | 245 |
Conditions - Germline
| Condition
Help
The condition for this variant-condition (RCV) record in ClinVar. |
Classification
Help
The aggregate germline classification for this variant-condition (RCV) record in ClinVar. The number of submissions that contribute to this aggregate classification is shown in parentheses. (# of submissions) |
Review status
Help
The aggregate review status for this variant-condition (RCV) record in ClinVar. This value is calculated by NCBI based on data from submitters. Read our rules for calculating the review status. |
Last evaluated
Help
The most recent date that a submitter evaluated this variant for the condition. |
Variation/condition record
Help
The RCV accession number, with most recent version number, for the variant-condition record, with a link to the RCV web page. |
|---|---|---|---|---|
| Pathogenic (1) |
no assertion criteria provided
|
Feb 19, 1999 | RCV000003285.7 | |
| Likely pathogenic (1) |
criteria provided, single submitter
|
Sep 24, 2018 | RCV002408547.3 | |
| Likely pathogenic (1) |
criteria provided, single submitter
|
Jan 26, 2023 | RCV003591641.1 | |
| Pathogenic (1) |
no assertion criteria provided
|
Dec 4, 2023 | RCV004537220.2 | |
| Likely pathogenic (2) |
criteria provided, single submitter
|
Nov 1, 2023 | RCV000182287.24 | |
| Likely pathogenic (1) |
criteria provided, single submitter
|
Sep 12, 2021 | RCV002490606.2 | |
| Pathogenic/Likely pathogenic (2) |
criteria provided, multiple submitters, no conflicts
|
Sep 22, 2023 | RCV001386478.12 |
Submissions - Germline
| Classification
Help
The submitted germline classification for each SCV record. (Last evaluated) |
Review status
Help
Stars represent the review status, or the level of review supporting the submitted (SCV) record. This value is calculated by NCBI based on data from the submitter. Read our rules for calculating the review status. This column also includes a link to the submitter’s assertion criteria if provided, and the collection method. (Assertion criteria) |
Condition
Help
The condition for the classification, provided by the submitter for this submitted (SCV) record. This column also includes the affected status and allele origin of individuals observed with this variant. |
Submitter
Help
The submitting organization for this submitted (SCV) record. This column also includes the SCV accession and version number, the date this SCV first appeared in ClinVar, and the date that this SCV was last updated in ClinVar. |
More information
Help
This column includes more information supporting the classification, including citations, the comment on classification, and detailed evidence provided as observations of the variant by the submitter. |
|
|---|---|---|---|---|---|
|
Likely pathogenic
(Sep 12, 2021)
|
criteria provided, single submitter
Method: clinical testing
|
Beckwith-Wiedemann syndrome
Long QT syndrome 1 Long QT syndrome 1 Jervell and Lange-Nielsen syndrome 1 Atrial fibrillation, familial, 3 Short QT syndrome type 2
Affected status: unknown
Allele origin:
unknown
|
Fulgent Genetics, Fulgent Genetics
Accession: SCV002796588.1
First in ClinVar: Dec 31, 2022 Last updated: Dec 31, 2022 |
|
|
|
Likely pathogenic
(Sep 24, 2018)
|
criteria provided, single submitter
Method: clinical testing
|
Cardiovascular phenotype
Affected status: unknown
Allele origin:
germline
|
Ambry Genetics
Accession: SCV002719171.2
First in ClinVar: Nov 29, 2022 Last updated: May 01, 2024 |
Comment:
The c.1892_1911del20 variant, located in coding exon 16 of the KCNQ1 gene, results from a deletion of 20 nucleotides at nucleotide positions 1892 to 1911, … (more)
The c.1892_1911del20 variant, located in coding exon 16 of the KCNQ1 gene, results from a deletion of 20 nucleotides at nucleotide positions 1892 to 1911, causing a translational frameshift with a predicted alternate stop codon (p.P631Hfs*14). This frameshift occurs at the 3' terminus of KCNQ1, is not expected to trigger nonsense-mediated mRNA decay, and impacts only the last 46 amino acids of the protein. However, this alteration has been previously reported in long QT syndrome cohorts (Itoh H et al. Eur. J. Hum. Genet., 2016 08;24:1160-6; Samol A et al. PLoS ONE, 2016 Jul;11:e0158085). This deletion allele has also been detected in the heterozygous state in a patient with autosomal recessive Jervell and Lange-Nielsen syndrome, though a second KCNQ1 alteration was not identified (Neyroud N et al. Circ. Res., 1999 Feb;84:290-7). In addition, there is a putative endoplasmic reticulum (ER) retention signal located in the 3' terminus of this alteration that is not present in wild-type KCNQ1; the presence of similar ER retention signals in another frameshift alteration (p.R632Qfs*20) has been shown to result in a trafficking defect (Sato A et al. J. Biol. Chem., 2009 Dec;284:35122-33; Ambry Internal data). Based on the majority of available evidence to date, this variant is likely to be pathogenic. (less)
|
|
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Pathogenic
(Sep 22, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Long QT syndrome
Affected status: unknown
Allele origin:
germline
|
Labcorp Genetics (formerly Invitae), Labcorp
Accession: SCV001586712.4
First in ClinVar: May 10, 2021 Last updated: Feb 14, 2024 |
Comment:
This sequence change creates a premature translational stop signal (p.Pro631Hisfs*14) in the KCNQ1 gene. While this is not anticipated to result in nonsense mediated decay, … (more)
This sequence change creates a premature translational stop signal (p.Pro631Hisfs*14) in the KCNQ1 gene. While this is not anticipated to result in nonsense mediated decay, it is expected to disrupt the last 46 amino acid(s) of the KCNQ1 protein. This variant is not present in population databases (gnomAD no frequency). This premature translational stop signal has been observed in individual(s) with Jervell and Lange-Nielsen syndrome (PMID: 10024302). This variant is also known as 1892del20. ClinVar contains an entry for this variant (Variation ID: 53025). This variant disrupts a region of the KCNQ1 protein in which other variant(s) (p.Arg632Glufs*34, p.Arg632Lysfs*20) have been determined to be pathogenic (PMID: 16414944, 22739119; Invitae). This suggests that this is a clinically significant region of the protein, and that variants that disrupt it are likely to be disease-causing. For these reasons, this variant has been classified as Pathogenic. (less)
|
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Likely pathogenic
(Jan 26, 2023)
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criteria provided, single submitter
Method: clinical testing
|
Cardiac arrhythmia
Affected status: unknown
Allele origin:
germline
|
Color Diagnostics, LLC DBA Color Health
Accession: SCV004358449.1
First in ClinVar: Feb 14, 2024 Last updated: Feb 14, 2024 |
Comment:
This variant deletes 20 nucleotides in exon 16 of the KCNQ1 gene, creating a frameshift in the last exon. The mutant transcript is expected to … (more)
This variant deletes 20 nucleotides in exon 16 of the KCNQ1 gene, creating a frameshift in the last exon. The mutant transcript is expected to escape nonsense-mediated decay and be expressed as a protein product containing altered C-terminal sequence. To our knowledge, functional studies have not been reported for this variant. This variant has been reported in a few unrelated individuals affected with long QT syndrome (PMID: 26669661, 27379800, 32893267). This variant has also been observed in compound heterozygous state in two unrelated individuals, one affected with Jervell and Lange-Nielsen syndrome (PMID: 10024302) and the other affected with early-onset sudden cardiac arrest, ventricular fibrillation, congenital deafness, and with a family history of long QT syndrome (communication with an external laboratory; ClinVar SCV002719171.1). This variant has not been identified in the general population by the Genome Aggregation Database (gnomAD). Truncation variants occurring downstream of this variant are known to cause long QT syndrome (ClinVar). One of these variants, p.Arg632GlnfsTer20 (ClinVar variation ID 53027), has been shown to cause a protein trafficking defect due to endoplasmic reticulum (ER) retention signal introduced by the frameshift. A similar ER retention signal is also present in the variant p.Pro631HisfsTer14. Based on the available evidence, this variant is classified as Likely Pathogenic. (less)
|
|
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Likely Pathogenic
(Apr 10, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Long QT syndrome
(Autosomal dominant inheritance)
Affected status: unknown
Allele origin:
germline
|
All of Us Research Program, National Institutes of Health
Accession: SCV004816524.1
First in ClinVar: Apr 20, 2024 Last updated: Apr 20, 2024
Comment:
This study involves interpretation of variants in research participants for the purpose of population health screening. Participant phenotype was not available at the time of … (more)
This study involves interpretation of variants in research participants for the purpose of population health screening. Participant phenotype was not available at the time of variant classification. Additional details can be found in publication PMID: 35346344, PMCID: PMC8962531 (less)
|
Comment:
This variant deletes 20 nucleotides in exon 16 of the KCNQ1 gene, creating a frameshift in the last exon. The mutant transcript is expected to … (more)
This variant deletes 20 nucleotides in exon 16 of the KCNQ1 gene, creating a frameshift in the last exon. The mutant transcript is expected to escape nonsense-mediated decay and be expressed as a protein product containing altered C-terminal sequence. To our knowledge, functional studies have not been reported for this variant. This variant has been reported in a few unrelated individuals affected with long QT syndrome (PMID: 26669661, 27379800, 32893267). This variant has also been observed in compound heterozygous state in two unrelated individuals, one affected with Jervell and Lange-Nielsen syndrome (PMID: 10024302) and the other affected with early-onset sudden cardiac arrest, ventricular fibrillation, congenital deafness, and with a family history of long QT syndrome (communication with an external laboratory; ClinVar SCV002719171.1). This variant has not been identified in the general population by the Genome Aggregation Database (gnomAD). Truncation variants occurring downstream of this variant are known to cause long QT syndrome (ClinVar). One of these variants, p.Arg632Glnfs*20 (ClinVar variation ID 53027), has been shown to cause protein trafficking defect due to endoplasmic reticulum (ER) retention signal introduced by the frameshift. A similar ER retention signal is also present in the variant p.Pro631Hisfs*14. Based on the available evidence, this variant is classified as Likely Pathogenic. (less)
Number of individuals with the variant: 1
|
|
|
Likely pathogenic
(Nov 01, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
CeGaT Center for Human Genetics Tuebingen
Accession: SCV001961260.20
First in ClinVar: Oct 08, 2021 Last updated: Oct 20, 2024 |
Comment:
KCNQ1: PM2, PS4:Moderate, PVS1:Moderate
Number of individuals with the variant: 2
|
|
|
Pathogenic
(Feb 19, 1999)
|
no assertion criteria provided
Method: literature only
|
JERVELL AND LANGE-NIELSEN SYNDROME 1
Affected status: not provided
Allele origin:
germline
|
OMIM
Accession: SCV000023443.3
First in ClinVar: Apr 04, 2013 Last updated: Feb 09, 2017 |
Comment on evidence:
Neyroud et al. (1999) found that a male with Jervell and Lange-Nielsen syndrome (JLNS1; 220400) was compound heterozygous for a frameshift mutation in exon 15 … (more)
Neyroud et al. (1999) found that a male with Jervell and Lange-Nielsen syndrome (JLNS1; 220400) was compound heterozygous for a frameshift mutation in exon 15 of the KCNQ1 gene and another mutation that was not identified. The frameshift, caused by a 20-bp deletion at nucleotide position 1892, created a premature stop codon 13 amino acids later. (less)
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|
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Pathogenic
(Dec 04, 2023)
|
no assertion criteria provided
Method: clinical testing
|
KCNQ1-related condition
Affected status: unknown
Allele origin:
germline
|
PreventionGenetics, part of Exact Sciences
Accession: SCV004728010.2
First in ClinVar: Mar 16, 2024 Last updated: Oct 08, 2024 |
Comment:
The KCNQ1 c.1892_1911del20 variant is predicted to result in a frameshift and premature protein termination (p.Pro631Hisfs*14). This variant was reported in multiple individuals with long … (more)
The KCNQ1 c.1892_1911del20 variant is predicted to result in a frameshift and premature protein termination (p.Pro631Hisfs*14). This variant was reported in multiple individuals with long QT syndrome (Table S1, Itoh et al. 2015. PubMed ID: 26669661; Samol et al. 2016. PubMed ID: 27379800; Table S4, Walsh et al. 2021. PubMed ID: 32893267). This variant was also reported in an individual with Jervell and Lange-Nielsen syndrome; however, a second plausible causative variant was not identified (described as 1892del20, Neyroud et al. 1999. PubMed ID: 10024302). This variant has not been reported in a large population database, indicating this variant is rare. This variant is located in the terminal exon and nearby frameshift variants have been documented in individuals with long QT syndrome (Napolitano et al. 2005. PubMed ID: 16414944). Taken together, this variant is interpreted as pathogenic. (less)
|
|
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not provided
(-)
|
no classification provided
Method: clinical testing
|
Not Provided
Affected status: yes
Allele origin:
germline
|
GeneDx
Accession: SCV000234590.3
First in ClinVar: Jul 05, 2015 Last updated: Jul 05, 2015 |
Comment:
The c.1892_1911del pathogenic variant in the KCNQ1 gene has been reported in one family with Jervell Lange-Nielsen syndrome (JLNS) (Neyroud et al., 1999). Neyroud et … (more)
The c.1892_1911del pathogenic variant in the KCNQ1 gene has been reported in one family with Jervell Lange-Nielsen syndrome (JLNS) (Neyroud et al., 1999). Neyroud et al. reported c.1892_1911del (denoted 1892del20 due to alternate nomenclature) in one family where this variant was paternally inherited; no second variant was identified in the proband. This variant causes a shift in reading frame starting at codon Proline 631, changing it to a Histidine, and creating a premature stop codon at position 14 of the new reading frame, denoted p.Pro631HisfsX14. This variant is expected to result in either an abnormal, truncated protein product or loss of protein from this allele through nonsense-mediated mRNA decay. Other frameshift variants in the KCNQ1 gene have been reported in association with LQTS and JLNS. (less)
|
Comment:
Comment:
This sequence change creates a premature translational stop signal (p.Pro631Hisfs*14) in the KCNQ1 gene. While this is not anticipated to result in nonsense mediated decay, it is expected to disrupt the last 46 amino acid(s) of the KCNQ1 protein. This variant is not present in population databases (gnomAD no frequency). This premature translational stop signal has been observed in individual(s) with Jervell and Lange-Nielsen syndrome (PMID: 10024302). This variant is also known as 1892del20. ClinVar contains an entry for this variant (Variation ID: 53025). This variant disrupts a region of the KCNQ1 protein in which other variant(s) (p.Arg632Glufs*34, p.Arg632Lysfs*20) have been determined to be pathogenic (PMID: 16414944, 22739119; Invitae). This suggests that this is a clinically significant region of the protein, and that variants that disrupt it are likely to be disease-causing. For these reasons, this variant has been classified as Pathogenic.
Comment:
This variant deletes 20 nucleotides in exon 16 of the KCNQ1 gene, creating a frameshift in the last exon. The mutant transcript is expected to escape nonsense-mediated decay and be expressed as a protein product containing altered C-terminal sequence. To our knowledge, functional studies have not been reported for this variant. This variant has been reported in a few unrelated individuals affected with long QT syndrome (PMID: 26669661, 27379800, 32893267). This variant has also been observed in compound heterozygous state in two unrelated individuals, one affected with Jervell and Lange-Nielsen syndrome (PMID: 10024302) and the other affected with early-onset sudden cardiac arrest, ventricular fibrillation, congenital deafness, and with a family history of long QT syndrome (communication with an external laboratory; ClinVar SCV002719171.1). This variant has not been identified in the general population by the Genome Aggregation Database (gnomAD). Truncation variants occurring downstream of this variant are known to cause long QT syndrome (ClinVar). One of these variants, p.Arg632GlnfsTer20 (ClinVar variation ID 53027), has been shown to cause a protein trafficking defect due to endoplasmic reticulum (ER) retention signal introduced by the frameshift. A similar ER retention signal is also present in the variant p.Pro631HisfsTer14. Based on the available evidence, this variant is classified as Likely Pathogenic.
Comment:
This variant deletes 20 nucleotides in exon 16 of the KCNQ1 gene, creating a frameshift in the last exon. The mutant transcript is expected to escape nonsense-mediated decay and be expressed as a protein product containing altered C-terminal sequence. To our knowledge, functional studies have not been reported for this variant. This variant has been reported in a few unrelated individuals affected with long QT syndrome (PMID: 26669661, 27379800, 32893267). This variant has also been observed in compound heterozygous state in two unrelated individuals, one affected with Jervell and Lange-Nielsen syndrome (PMID: 10024302) and the other affected with early-onset sudden cardiac arrest, ventricular fibrillation, congenital deafness, and with a family history of long QT syndrome (communication with an external laboratory; ClinVar SCV002719171.1). This variant has not been identified in the general population by the Genome Aggregation Database (gnomAD). Truncation variants occurring downstream of this variant are known to cause long QT syndrome (ClinVar). One of these variants, p.Arg632Glnfs*20 (ClinVar variation ID 53027), has been shown to cause protein trafficking defect due to endoplasmic reticulum (ER) retention signal introduced by the frameshift. A similar ER retention signal is also present in the variant p.Pro631Hisfs*14. Based on the available evidence, this variant is classified as Likely Pathogenic.
Comment:
KCNQ1: PM2, PS4:Moderate, PVS1:Moderate
Comment:
The KCNQ1 c.1892_1911del20 variant is predicted to result in a frameshift and premature protein termination (p.Pro631Hisfs*14). This variant was reported in multiple individuals with long QT syndrome (Table S1, Itoh et al. 2015. PubMed ID: 26669661; Samol et al. 2016. PubMed ID: 27379800; Table S4, Walsh et al. 2021. PubMed ID: 32893267). This variant was also reported in an individual with Jervell and Lange-Nielsen syndrome; however, a second plausible causative variant was not identified (described as 1892del20, Neyroud et al. 1999. PubMed ID: 10024302). This variant has not been reported in a large population database, indicating this variant is rare. This variant is located in the terminal exon and nearby frameshift variants have been documented in individuals with long QT syndrome (Napolitano et al. 2005. PubMed ID: 16414944). Taken together, this variant is interpreted as pathogenic.
Comment:
The c.1892_1911del pathogenic variant in the KCNQ1 gene has been reported in one family with Jervell Lange-Nielsen syndrome (JLNS) (Neyroud et al., 1999). Neyroud et al. reported c.1892_1911del (denoted 1892del20 due to alternate nomenclature) in one family where this variant was paternally inherited; no second variant was identified in the proband. This variant causes a shift in reading frame starting at codon Proline 631, changing it to a Histidine, and creating a premature stop codon at position 14 of the new reading frame, denoted p.Pro631HisfsX14. This variant is expected to result in either an abnormal, truncated protein product or loss of protein from this allele through nonsense-mediated mRNA decay. Other frameshift variants in the KCNQ1 gene have been reported in association with LQTS and JLNS.
Germline Functional Evidence
| There is no functional evidence in ClinVar for this variation. If you have generated functional data for this variation, please consider submitting that data to ClinVar. |
Comment:
The c.1892_1911del20 variant, located in coding exon 16 of the KCNQ1 gene, results from a deletion of 20 nucleotides at nucleotide positions 1892 to 1911, causing a translational frameshift with a predicted alternate stop codon (p.P631Hfs*14). This frameshift occurs at the 3' terminus of KCNQ1, is not expected to trigger nonsense-mediated mRNA decay, and impacts only the last 46 amino acids of the protein. However, this alteration has been previously reported in long QT syndrome cohorts (Itoh H et al. Eur. J. Hum. Genet., 2016 08;24:1160-6; Samol A et al. PLoS ONE, 2016 Jul;11:e0158085). This deletion allele has also been detected in the heterozygous state in a patient with autosomal recessive Jervell and Lange-Nielsen syndrome, though a second KCNQ1 alteration was not identified (Neyroud N et al. Circ. Res., 1999 Feb;84:290-7). In addition, there is a putative endoplasmic reticulum (ER) retention signal located in the 3' terminus of this alteration that is not present in wild-type KCNQ1; the presence of similar ER retention signals in another frameshift alteration (p.R632Qfs*20) has been shown to result in a trafficking defect (Sato A et al. J. Biol. Chem., 2009 Dec;284:35122-33; Ambry Internal data). Based on the majority of available evidence to date, this variant is likely to be pathogenic.
Comment:
This sequence change creates a premature translational stop signal (p.Pro631Hisfs*14) in the KCNQ1 gene. While this is not anticipated to result in nonsense mediated decay, it is expected to disrupt the last 46 amino acid(s) of the KCNQ1 protein. This variant is not present in population databases (gnomAD no frequency). This premature translational stop signal has been observed in individual(s) with Jervell and Lange-Nielsen syndrome (PMID: 10024302). This variant is also known as 1892del20. ClinVar contains an entry for this variant (Variation ID: 53025). This variant disrupts a region of the KCNQ1 protein in which other variant(s) (p.Arg632Glufs*34, p.Arg632Lysfs*20) have been determined to be pathogenic (PMID: 16414944, 22739119; Invitae). This suggests that this is a clinically significant region of the protein, and that variants that disrupt it are likely to be disease-causing. For these reasons, this variant has been classified as Pathogenic.
Comment:
This variant deletes 20 nucleotides in exon 16 of the KCNQ1 gene, creating a frameshift in the last exon. The mutant transcript is expected to escape nonsense-mediated decay and be expressed as a protein product containing altered C-terminal sequence. To our knowledge, functional studies have not been reported for this variant. This variant has been reported in a few unrelated individuals affected with long QT syndrome (PMID: 26669661, 27379800, 32893267). This variant has also been observed in compound heterozygous state in two unrelated individuals, one affected with Jervell and Lange-Nielsen syndrome (PMID: 10024302) and the other affected with early-onset sudden cardiac arrest, ventricular fibrillation, congenital deafness, and with a family history of long QT syndrome (communication with an external laboratory; ClinVar SCV002719171.1). This variant has not been identified in the general population by the Genome Aggregation Database (gnomAD). Truncation variants occurring downstream of this variant are known to cause long QT syndrome (ClinVar). One of these variants, p.Arg632GlnfsTer20 (ClinVar variation ID 53027), has been shown to cause a protein trafficking defect due to endoplasmic reticulum (ER) retention signal introduced by the frameshift. A similar ER retention signal is also present in the variant p.Pro631HisfsTer14. Based on the available evidence, this variant is classified as Likely Pathogenic.
Comment:
This variant deletes 20 nucleotides in exon 16 of the KCNQ1 gene, creating a frameshift in the last exon. The mutant transcript is expected to escape nonsense-mediated decay and be expressed as a protein product containing altered C-terminal sequence. To our knowledge, functional studies have not been reported for this variant. This variant has been reported in a few unrelated individuals affected with long QT syndrome (PMID: 26669661, 27379800, 32893267). This variant has also been observed in compound heterozygous state in two unrelated individuals, one affected with Jervell and Lange-Nielsen syndrome (PMID: 10024302) and the other affected with early-onset sudden cardiac arrest, ventricular fibrillation, congenital deafness, and with a family history of long QT syndrome (communication with an external laboratory; ClinVar SCV002719171.1). This variant has not been identified in the general population by the Genome Aggregation Database (gnomAD). Truncation variants occurring downstream of this variant are known to cause long QT syndrome (ClinVar). One of these variants, p.Arg632Glnfs*20 (ClinVar variation ID 53027), has been shown to cause protein trafficking defect due to endoplasmic reticulum (ER) retention signal introduced by the frameshift. A similar ER retention signal is also present in the variant p.Pro631Hisfs*14. Based on the available evidence, this variant is classified as Likely Pathogenic.
Comment:
KCNQ1: PM2, PS4:Moderate, PVS1:Moderate
Comment:
The KCNQ1 c.1892_1911del20 variant is predicted to result in a frameshift and premature protein termination (p.Pro631Hisfs*14). This variant was reported in multiple individuals with long QT syndrome (Table S1, Itoh et al. 2015. PubMed ID: 26669661; Samol et al. 2016. PubMed ID: 27379800; Table S4, Walsh et al. 2021. PubMed ID: 32893267). This variant was also reported in an individual with Jervell and Lange-Nielsen syndrome; however, a second plausible causative variant was not identified (described as 1892del20, Neyroud et al. 1999. PubMed ID: 10024302). This variant has not been reported in a large population database, indicating this variant is rare. This variant is located in the terminal exon and nearby frameshift variants have been documented in individuals with long QT syndrome (Napolitano et al. 2005. PubMed ID: 16414944). Taken together, this variant is interpreted as pathogenic.
Comment:
The c.1892_1911del pathogenic variant in the KCNQ1 gene has been reported in one family with Jervell Lange-Nielsen syndrome (JLNS) (Neyroud et al., 1999). Neyroud et al. reported c.1892_1911del (denoted 1892del20 due to alternate nomenclature) in one family where this variant was paternally inherited; no second variant was identified in the proband. This variant causes a shift in reading frame starting at codon Proline 631, changing it to a Histidine, and creating a premature stop codon at position 14 of the new reading frame, denoted p.Pro631HisfsX14. This variant is expected to result in either an abnormal, truncated protein product or loss of protein from this allele through nonsense-mediated mRNA decay. Other frameshift variants in the KCNQ1 gene have been reported in association with LQTS and JLNS.
Citations for germline classification of this variant
Help| Title | Author | Journal | Year | Link |
|---|---|---|---|---|
| Enhancing rare variant interpretation in inherited arrhythmias through quantitative analysis of consortium disease cohorts and population controls. | Walsh R | Genetics in medicine : official journal of the American College of Medical Genetics | 2021 | PMID: 32893267 |
| Improved Clinical Risk Stratification in Patients with Long QT Syndrome? Novel Insights from Multi-Channel ECGs. | Samol A | PloS one | 2016 | PMID: 27379800 |
| Asymmetry of parental origin in long QT syndrome: preferential maternal transmission of KCNQ1 variants linked to channel dysfunction. | Itoh H | European journal of human genetics : EJHG | 2016 | PMID: 26669661 |
| Disease characterization using LQTS-specific induced pluripotent stem cells. | Egashira T | Cardiovascular research | 2012 | PMID: 22739119 |
| Novel mechanisms of trafficking defect caused by KCNQ1 mutations found in long QT syndrome. | Sato A | The Journal of biological chemistry | 2009 | PMID: 19825999 |
| Genetic testing in the long QT syndrome: development and validation of an efficient approach to genotyping in clinical practice. | Napolitano C | JAMA | 2005 | PMID: 16414944 |
| Genomic organization of the KCNQ1 K+ channel gene and identification of C-terminal mutations in the long-QT syndrome. | Neyroud N | Circulation research | 1999 | PMID: 10024302 |
Text-mined citations for rs397508103 ...
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Record last updated Nov 19, 2024
This date represents the last time this VCV record was updated. The update may be due to an update to one of the included submitted records (SCVs), or due to an update that ClinVar made to the variant such as adding HGVS expressions or a rs number. So this date may be different from the date of the “most recent submission” reported at the top of this page.