Phenotypic expansion illuminates multilocus pathogenic variation

Ender Karaca; Jennifer E. Posey; Zeynep Coban Akdemir; Davut Pehlivan; Tamar Harel; Shalini N. Jhangiani; Yavuz Bayram; Xiaofei Song; Vahid Bahrambeigi; Ozge Ozalp Yuregir; Sevcan Bozdogan; Gozde Yesil; Sedat Isikay; Donna Muzny; Richard A. Gibbs; James R. Lupski

doi:10.1038/gim.2018.33

Phenotypic expansion illuminates multilocus pathogenic variation

Ender Karaca, Jennifer E. Posey, Zeynep Coban Akdemir, Davut Pehlivan, Tamar Harel, Shalini N. Jhangiani, Yavuz Bayram, Xiaofei Song, Vahid Bahrambeigi, Ozge Ozalp Yuregir, Sevcan Bozdogan, Gozde Yesil, Sedat Isikay, Donna Muzny, Richard A. Gibbs, James R. Lupski

Research output: Contribution to journal › Article › peer-review

107 Scopus citations

Abstract

Purpose: Multilocus variation—pathogenic variants in two or more disease genes—can potentially explain the underlying genetic basis for apparent phenotypic expansion in cases for which the observed clinical features extend beyond those reported in association with a “known” disease gene. Methods: Analyses focused on 106 patients, 19 for whom apparent phenotypic expansion was previously attributed to variation at known disease genes. We performed a retrospective computational reanalysis of whole-exome sequencing data using stringent Variant Call File filtering criteria to determine whether molecular diagnoses involving additional disease loci might explain the observed expanded phenotypes. Results: Multilocus variation was identified in 31.6% (6/19) of families with phenotypic expansion and 2.3% (2/87) without phenotypic expansion. Intrafamilial clinical variability within two families was explained by multilocus variation identified in the more severely affected sibling. Conclusion: Our findings underscore the role of multiple rare variants at different loci in the etiology of genetically and clinically heterogeneous cohorts. Intrafamilial phenotypic and genotypic variability allowed a dissection of genotype–phenotype relationships in two families. Our data emphasize the critical role of the clinician in diagnostic genomic analyses and demonstrate that apparent phenotypic expansion may represent blended phenotypes resulting from pathogenic variation at more than one locus.

Original language	English
Pages (from-to)	1528-1537
Number of pages	10
Journal	Genetics in Medicine
Volume	20
Issue number	12
DOIs	https://doi.org/10.1038/gim.2018.33
State	Published - 1 Dec 2018
Externally published	Yes

Keywords

distinct/overlapping blended phenotypes
multilocus variation
neurodevelopmental disorder
personal genomes
phenotypic expansion of Mendelizing disease traits

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10.1038/gim.2018.33

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Karaca, E., Posey, J. E., Coban Akdemir, Z., Pehlivan, D., Harel, T., Jhangiani, S. N., Bayram, Y., Song, X., Bahrambeigi, V., Yuregir, O. O., Bozdogan, S., Yesil, G., Isikay, S., Muzny, D., Gibbs, R. A., & Lupski, J. R. (2018). Phenotypic expansion illuminates multilocus pathogenic variation. Genetics in Medicine, 20(12), 1528-1537. https://doi.org/10.1038/gim.2018.33

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title = "Phenotypic expansion illuminates multilocus pathogenic variation",

abstract = "Purpose: Multilocus variation—pathogenic variants in two or more disease genes—can potentially explain the underlying genetic basis for apparent phenotypic expansion in cases for which the observed clinical features extend beyond those reported in association with a “known” disease gene. Methods: Analyses focused on 106 patients, 19 for whom apparent phenotypic expansion was previously attributed to variation at known disease genes. We performed a retrospective computational reanalysis of whole-exome sequencing data using stringent Variant Call File filtering criteria to determine whether molecular diagnoses involving additional disease loci might explain the observed expanded phenotypes. Results: Multilocus variation was identified in 31.6% (6/19) of families with phenotypic expansion and 2.3% (2/87) without phenotypic expansion. Intrafamilial clinical variability within two families was explained by multilocus variation identified in the more severely affected sibling. Conclusion: Our findings underscore the role of multiple rare variants at different loci in the etiology of genetically and clinically heterogeneous cohorts. Intrafamilial phenotypic and genotypic variability allowed a dissection of genotype–phenotype relationships in two families. Our data emphasize the critical role of the clinician in diagnostic genomic analyses and demonstrate that apparent phenotypic expansion may represent blended phenotypes resulting from pathogenic variation at more than one locus.",

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author = "Ender Karaca and Posey, {Jennifer E.} and {Coban Akdemir}, Zeynep and Davut Pehlivan and Tamar Harel and Jhangiani, {Shalini N.} and Yavuz Bayram and Xiaofei Song and Vahid Bahrambeigi and Yuregir, {Ozge Ozalp} and Sevcan Bozdogan and Gozde Yesil and Sedat Isikay and Donna Muzny and Gibbs, {Richard A.} and Lupski, {James R.}",

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doi = "10.1038/gim.2018.33",

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AU - Karaca, Ender

AU - Posey, Jennifer E.

AU - Coban Akdemir, Zeynep

AU - Pehlivan, Davut

AU - Harel, Tamar

AU - Jhangiani, Shalini N.

AU - Bayram, Yavuz

AU - Song, Xiaofei

AU - Bahrambeigi, Vahid

AU - Yuregir, Ozge Ozalp

AU - Bozdogan, Sevcan

AU - Yesil, Gozde

AU - Isikay, Sedat

AU - Muzny, Donna

AU - Gibbs, Richard A.

AU - Lupski, James R.

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N2 - Purpose: Multilocus variation—pathogenic variants in two or more disease genes—can potentially explain the underlying genetic basis for apparent phenotypic expansion in cases for which the observed clinical features extend beyond those reported in association with a “known” disease gene. Methods: Analyses focused on 106 patients, 19 for whom apparent phenotypic expansion was previously attributed to variation at known disease genes. We performed a retrospective computational reanalysis of whole-exome sequencing data using stringent Variant Call File filtering criteria to determine whether molecular diagnoses involving additional disease loci might explain the observed expanded phenotypes. Results: Multilocus variation was identified in 31.6% (6/19) of families with phenotypic expansion and 2.3% (2/87) without phenotypic expansion. Intrafamilial clinical variability within two families was explained by multilocus variation identified in the more severely affected sibling. Conclusion: Our findings underscore the role of multiple rare variants at different loci in the etiology of genetically and clinically heterogeneous cohorts. Intrafamilial phenotypic and genotypic variability allowed a dissection of genotype–phenotype relationships in two families. Our data emphasize the critical role of the clinician in diagnostic genomic analyses and demonstrate that apparent phenotypic expansion may represent blended phenotypes resulting from pathogenic variation at more than one locus.

AB - Purpose: Multilocus variation—pathogenic variants in two or more disease genes—can potentially explain the underlying genetic basis for apparent phenotypic expansion in cases for which the observed clinical features extend beyond those reported in association with a “known” disease gene. Methods: Analyses focused on 106 patients, 19 for whom apparent phenotypic expansion was previously attributed to variation at known disease genes. We performed a retrospective computational reanalysis of whole-exome sequencing data using stringent Variant Call File filtering criteria to determine whether molecular diagnoses involving additional disease loci might explain the observed expanded phenotypes. Results: Multilocus variation was identified in 31.6% (6/19) of families with phenotypic expansion and 2.3% (2/87) without phenotypic expansion. Intrafamilial clinical variability within two families was explained by multilocus variation identified in the more severely affected sibling. Conclusion: Our findings underscore the role of multiple rare variants at different loci in the etiology of genetically and clinically heterogeneous cohorts. Intrafamilial phenotypic and genotypic variability allowed a dissection of genotype–phenotype relationships in two families. Our data emphasize the critical role of the clinician in diagnostic genomic analyses and demonstrate that apparent phenotypic expansion may represent blended phenotypes resulting from pathogenic variation at more than one locus.

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Phenotypic expansion illuminates multilocus pathogenic variation

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Keywords

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