Diagnostic implications of pitfalls in causal variant identification based on 4577 molecularly characterized families

Lama AlAbdi; Sateesh Maddirevula; Hanan E. Shamseldin; Ebtissal Khouj; Rana Helaby; Halima Hamid; Aisha Almulhim; Mais O. Hashem; Firdous Abdulwahab; Omar Abouyousef; Mashael Alqahtani; Norah Altuwaijri; Amal Jaafar; Tarfa Alshidi; Fatema Alzahrani; Afaf I. Al-Sagheir; Ahmad M. Mansour; Ali Alawaji; Amal Aldhilan; Amal Alhashem; Amal Alhemidan; Amira Nabil; Arif O. Khan; Aziza Aljohar; Badr Alsaleem; Brahim Tabarki; Charles Marques Lourenco; Eissa Faqeih; Essam AlShail; Fatima Almesaifri; Fuad Al Mutairi; Hamad Alzaidan; Heba Morsy; Hind Alshihry; Hisham Alkuraya; Katta Mohan Girisha; Khawla Al-Fayez; Khalid Al-Rubeaan; Lilia kraoua; Maha Alnemer; Maha Tulbah; Maha S. Zaki; Majid Alfadhel; Mohammed Abouelhoda; Marjan M. Nezarati; Mohammad Al-Qattan; Mohammad Shboul; Mohammed Abanemai; Mohammad A. Al-Muhaizea; Mohammed Al-owain; Mohammed Sameer Bafaqeeh; Muneera Alshammari; Musaad Abukhalid; Nada Alsahan; Nada Derar; Neama Meriki; Saeed A. Bohlega; Saeed Al Tala; Saad Alhassan; Sami Wali; Sarar Mohamed; Serdar Coskun; Sermin Saadeh; Tinatin Tkemaladze; Wesam Kurdi; Zainab Ahmed Alhumaidi; Zuhair Rahbeeni; Fowzan S. Alkuraya

doi:10.1038/s41467-023-40909-3

Diagnostic implications of pitfalls in causal variant identification based on 4577 molecularly characterized families

Lama AlAbdi, Sateesh Maddirevula, Hanan E. Shamseldin, Ebtissal Khouj, Rana Helaby, Halima Hamid, Aisha Almulhim, Mais O. Hashem, Firdous Abdulwahab, Omar Abouyousef, Mashael Alqahtani, Norah Altuwaijri, Amal Jaafar, Tarfa Alshidi, Fatema Alzahrani, Afaf I. Al-Sagheir, Ahmad M. Mansour, Ali Alawaji, Amal Aldhilan, Amal AlhashemAmal Alhemidan, Amira Nabil, Arif O. Khan, Aziza Aljohar, Badr Alsaleem, Brahim Tabarki, Charles Marques Lourenco, Eissa Faqeih, Essam AlShail, Fatima Almesaifri, Fuad Al Mutairi, Hamad Alzaidan, Heba Morsy, Hind Alshihry, Hisham Alkuraya, Katta Mohan Girisha, Khawla Al-Fayez, Khalid Al-Rubeaan, Lilia kraoua, Maha Alnemer, Maha Tulbah, Maha S. Zaki, Majid Alfadhel, Mohammed Abouelhoda, Marjan M. Nezarati, Mohammad Al-Qattan, Mohammad Shboul, Mohammed Abanemai, Mohammad A. Al-Muhaizea, Mohammed Al-owain, Mohammed Sameer Bafaqeeh, Muneera Alshammari, Musaad Abukhalid, Nada Alsahan, Nada Derar, Neama Meriki, Saeed A. Bohlega, Saeed Al Tala, Saad Alhassan, Sami Wali, Sarar Mohamed, Serdar Coskun, Sermin Saadeh, Tinatin Tkemaladze, Wesam Kurdi, Zainab Ahmed Alhumaidi, Zuhair Rahbeeni, Fowzan S. Alkuraya^*

^*Corresponding author for this work

Genetics

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

4 Citations (Scopus)

Abstract

Despite large sequencing and data sharing efforts, previously characterized pathogenic variants only account for a fraction of Mendelian disease patients, which highlights the need for accurate identification and interpretation of novel variants. In a large Mendelian cohort of 4577 molecularly characterized families, numerous scenarios in which variant identification and interpretation can be challenging are encountered. We describe categories of challenges that cover the phenotype (e.g. novel allelic disorders), pedigree structure (e.g. imprinting disorders masquerading as autosomal recessive phenotypes), positional mapping (e.g. double recombination events abrogating candidate autozygous intervals), gene (e.g. novel gene-disease assertion) and variant (e.g. complex compound inheritance). Overall, we estimate a probability of 34.3% for encountering at least one of these challenges. Importantly, our data show that by only addressing non-sequencing-based challenges, around 71% increase in the diagnostic yield can be expected. Indeed, by applying these lessons to a cohort of 314 cases with negative clinical exome or genome reports, we could identify the likely causal variant in 54.5%. Our work highlights the need to have a thorough approach to undiagnosed diseases by considering a wide range of challenges rather than a narrow focus on sequencing technologies. It is hoped that by sharing this experience, the yield of undiagnosed disease programs globally can be improved.

Original language	English
Article number	5269
Pages (from-to)	5269
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-40909-3
Publication status	Published - Aug 29 2023

Keywords

Alleles
Causality
Exome
Hope
Information Dissemination

ASJC Scopus subject areas

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-023-40909-3

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AlAbdi, L., Maddirevula, S., Shamseldin, H. E., Khouj, E., Helaby, R., Hamid, H., Almulhim, A., Hashem, M. O., Abdulwahab, F., Abouyousef, O., Alqahtani, M., Altuwaijri, N., Jaafar, A., Alshidi, T., Alzahrani, F., Al-Sagheir, A. I., Mansour, A. M., Alawaji, A., Aldhilan, A., ... Alkuraya, F. S. (2023). Diagnostic implications of pitfalls in causal variant identification based on 4577 molecularly characterized families. Nature Communications, 14(1), 5269. Article 5269. https://doi.org/10.1038/s41467-023-40909-3

AlAbdi, L, Maddirevula, S, Shamseldin, HE, Khouj, E, Helaby, R, Hamid, H, Almulhim, A, Hashem, MO, Abdulwahab, F, Abouyousef, O, Alqahtani, M, Altuwaijri, N, Jaafar, A, Alshidi, T, Alzahrani, F, Al-Sagheir, AI, Mansour, AM, Alawaji, A, Aldhilan, A, Alhashem, A, Alhemidan, A, Nabil, A, Khan, AO, Aljohar, A, Alsaleem, B, Tabarki, B, Lourenco, CM, Faqeih, E, AlShail, E, Almesaifri, F, Mutairi, FA, Alzaidan, H, Morsy, H, Alshihry, H, Alkuraya, H, Girisha, KM, Al-Fayez, K, Al-Rubeaan, K, kraoua, L, Alnemer, M, Tulbah, M, Zaki, MS, Alfadhel, M, Abouelhoda, M, Nezarati, MM, Al-Qattan, M, Shboul, M, Abanemai, M, Al-Muhaizea, MA, Al-owain, M, Bafaqeeh, MS, Alshammari, M, Abukhalid, M, Alsahan, N, Derar, N, Meriki, N, Bohlega, SA, Tala, SA, Alhassan, S, Wali, S, Mohamed, S, Coskun, S, Saadeh, S, Tkemaladze, T, Kurdi, W, Alhumaidi, ZA, Rahbeeni, Z & Alkuraya, FS 2023, 'Diagnostic implications of pitfalls in causal variant identification based on 4577 molecularly characterized families', Nature Communications, vol. 14, no. 1, 5269, pp. 5269. https://doi.org/10.1038/s41467-023-40909-3

@article{b0412ba9930e41b8a51cf803bc04c172,

title = "Diagnostic implications of pitfalls in causal variant identification based on 4577 molecularly characterized families",

abstract = "Despite large sequencing and data sharing efforts, previously characterized pathogenic variants only account for a fraction of Mendelian disease patients, which highlights the need for accurate identification and interpretation of novel variants. In a large Mendelian cohort of 4577 molecularly characterized families, numerous scenarios in which variant identification and interpretation can be challenging are encountered. We describe categories of challenges that cover the phenotype (e.g. novel allelic disorders), pedigree structure (e.g. imprinting disorders masquerading as autosomal recessive phenotypes), positional mapping (e.g. double recombination events abrogating candidate autozygous intervals), gene (e.g. novel gene-disease assertion) and variant (e.g. complex compound inheritance). Overall, we estimate a probability of 34.3% for encountering at least one of these challenges. Importantly, our data show that by only addressing non-sequencing-based challenges, around 71% increase in the diagnostic yield can be expected. Indeed, by applying these lessons to a cohort of 314 cases with negative clinical exome or genome reports, we could identify the likely causal variant in 54.5%. Our work highlights the need to have a thorough approach to undiagnosed diseases by considering a wide range of challenges rather than a narrow focus on sequencing technologies. It is hoped that by sharing this experience, the yield of undiagnosed disease programs globally can be improved.",

keywords = "Alleles, Causality, Exome, Hope, Information Dissemination",

author = "Lama AlAbdi and Sateesh Maddirevula and Shamseldin, {Hanan E.} and Ebtissal Khouj and Rana Helaby and Halima Hamid and Aisha Almulhim and Hashem, {Mais O.} and Firdous Abdulwahab and Omar Abouyousef and Mashael Alqahtani and Norah Altuwaijri and Amal Jaafar and Tarfa Alshidi and Fatema Alzahrani and Al-Sagheir, {Afaf I.} and Mansour, {Ahmad M.} and Ali Alawaji and Amal Aldhilan and Amal Alhashem and Amal Alhemidan and Amira Nabil and Khan, {Arif O.} and Aziza Aljohar and Badr Alsaleem and Brahim Tabarki and Lourenco, {Charles Marques} and Eissa Faqeih and Essam AlShail and Fatima Almesaifri and Mutairi, {Fuad Al} and Hamad Alzaidan and Heba Morsy and Hind Alshihry and Hisham Alkuraya and Girisha, {Katta Mohan} and Khawla Al-Fayez and Khalid Al-Rubeaan and Lilia kraoua and Maha Alnemer and Maha Tulbah and Zaki, {Maha S.} and Majid Alfadhel and Mohammed Abouelhoda and Nezarati, {Marjan M.} and Mohammad Al-Qattan and Mohammad Shboul and Mohammed Abanemai and Al-Muhaizea, {Mohammad A.} and Mohammed Al-owain and Bafaqeeh, {Mohammed Sameer} and Muneera Alshammari and Musaad Abukhalid and Nada Alsahan and Nada Derar and Neama Meriki and Bohlega, {Saeed A.} and Tala, {Saeed Al} and Saad Alhassan and Sami Wali and Sarar Mohamed and Serdar Coskun and Sermin Saadeh and Tinatin Tkemaladze and Wesam Kurdi and Alhumaidi, {Zainab Ahmed} and Zuhair Rahbeeni and Alkuraya, {Fowzan S.}",

note = "Funding Information: We thank the families for their enthusiastic participation. We acknowledge the genotyping and sequencing support from the Center for Genomic Medicine. We thank Drs. Ahmed A Alhumidi and Asim Alrumaih for their help with Supplemental Fig. . This study was partially supported by The Bill-Melinda Gates Foundation (237835), National Institute of Health (239085), and the Intramural Research Fund for an extended project to study the common genetic diseases in Saudi Arabia [Demography of Recessive Diseases in KSA; Grant #019-052]. Publisher Copyright: {\textcopyright} 2023, Springer Nature Limited. {\textcopyright} 2023. Springer Nature Limited.",

year = "2023",

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day = "29",

doi = "10.1038/s41467-023-40909-3",

language = "English",

volume = "14",

pages = "5269",

journal = "Nature Communications",

issn = "2041-1723",

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number = "1",

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T1 - Diagnostic implications of pitfalls in causal variant identification based on 4577 molecularly characterized families

AU - AlAbdi, Lama

AU - Maddirevula, Sateesh

AU - Shamseldin, Hanan E.

AU - Khouj, Ebtissal

AU - Helaby, Rana

AU - Hamid, Halima

AU - Almulhim, Aisha

AU - Hashem, Mais O.

AU - Abdulwahab, Firdous

AU - Abouyousef, Omar

AU - Alqahtani, Mashael

AU - Altuwaijri, Norah

AU - Jaafar, Amal

AU - Alshidi, Tarfa

AU - Alzahrani, Fatema

AU - Al-Sagheir, Afaf I.

AU - Mansour, Ahmad M.

AU - Alawaji, Ali

AU - Aldhilan, Amal

AU - Alhashem, Amal

AU - Alhemidan, Amal

AU - Nabil, Amira

AU - Khan, Arif O.

AU - Aljohar, Aziza

AU - Alsaleem, Badr

AU - Tabarki, Brahim

AU - Lourenco, Charles Marques

AU - Faqeih, Eissa

AU - AlShail, Essam

AU - Almesaifri, Fatima

AU - Mutairi, Fuad Al

AU - Alzaidan, Hamad

AU - Morsy, Heba

AU - Alshihry, Hind

AU - Alkuraya, Hisham

AU - Girisha, Katta Mohan

AU - Al-Fayez, Khawla

AU - Al-Rubeaan, Khalid

AU - kraoua, Lilia

AU - Alnemer, Maha

AU - Tulbah, Maha

AU - Zaki, Maha S.

AU - Alfadhel, Majid

AU - Abouelhoda, Mohammed

AU - Nezarati, Marjan M.

AU - Al-Qattan, Mohammad

AU - Shboul, Mohammad

AU - Abanemai, Mohammed

AU - Al-Muhaizea, Mohammad A.

AU - Al-owain, Mohammed

AU - Bafaqeeh, Mohammed Sameer

AU - Alshammari, Muneera

AU - Abukhalid, Musaad

AU - Alsahan, Nada

AU - Derar, Nada

AU - Meriki, Neama

AU - Bohlega, Saeed A.

AU - Tala, Saeed Al

AU - Alhassan, Saad

AU - Wali, Sami

AU - Mohamed, Sarar

AU - Coskun, Serdar

AU - Saadeh, Sermin

AU - Tkemaladze, Tinatin

AU - Kurdi, Wesam

AU - Alhumaidi, Zainab Ahmed

AU - Rahbeeni, Zuhair

AU - Alkuraya, Fowzan S.

N1 - Funding Information: We thank the families for their enthusiastic participation. We acknowledge the genotyping and sequencing support from the Center for Genomic Medicine. We thank Drs. Ahmed A Alhumidi and Asim Alrumaih for their help with Supplemental Fig. . This study was partially supported by The Bill-Melinda Gates Foundation (237835), National Institute of Health (239085), and the Intramural Research Fund for an extended project to study the common genetic diseases in Saudi Arabia [Demography of Recessive Diseases in KSA; Grant #019-052]. Publisher Copyright: © 2023, Springer Nature Limited. © 2023. Springer Nature Limited.

PY - 2023/8/29

Y1 - 2023/8/29

N2 - Despite large sequencing and data sharing efforts, previously characterized pathogenic variants only account for a fraction of Mendelian disease patients, which highlights the need for accurate identification and interpretation of novel variants. In a large Mendelian cohort of 4577 molecularly characterized families, numerous scenarios in which variant identification and interpretation can be challenging are encountered. We describe categories of challenges that cover the phenotype (e.g. novel allelic disorders), pedigree structure (e.g. imprinting disorders masquerading as autosomal recessive phenotypes), positional mapping (e.g. double recombination events abrogating candidate autozygous intervals), gene (e.g. novel gene-disease assertion) and variant (e.g. complex compound inheritance). Overall, we estimate a probability of 34.3% for encountering at least one of these challenges. Importantly, our data show that by only addressing non-sequencing-based challenges, around 71% increase in the diagnostic yield can be expected. Indeed, by applying these lessons to a cohort of 314 cases with negative clinical exome or genome reports, we could identify the likely causal variant in 54.5%. Our work highlights the need to have a thorough approach to undiagnosed diseases by considering a wide range of challenges rather than a narrow focus on sequencing technologies. It is hoped that by sharing this experience, the yield of undiagnosed disease programs globally can be improved.

AB - Despite large sequencing and data sharing efforts, previously characterized pathogenic variants only account for a fraction of Mendelian disease patients, which highlights the need for accurate identification and interpretation of novel variants. In a large Mendelian cohort of 4577 molecularly characterized families, numerous scenarios in which variant identification and interpretation can be challenging are encountered. We describe categories of challenges that cover the phenotype (e.g. novel allelic disorders), pedigree structure (e.g. imprinting disorders masquerading as autosomal recessive phenotypes), positional mapping (e.g. double recombination events abrogating candidate autozygous intervals), gene (e.g. novel gene-disease assertion) and variant (e.g. complex compound inheritance). Overall, we estimate a probability of 34.3% for encountering at least one of these challenges. Importantly, our data show that by only addressing non-sequencing-based challenges, around 71% increase in the diagnostic yield can be expected. Indeed, by applying these lessons to a cohort of 314 cases with negative clinical exome or genome reports, we could identify the likely causal variant in 54.5%. Our work highlights the need to have a thorough approach to undiagnosed diseases by considering a wide range of challenges rather than a narrow focus on sequencing technologies. It is hoped that by sharing this experience, the yield of undiagnosed disease programs globally can be improved.

KW - Alleles

KW - Causality

KW - Exome

KW - Hope

KW - Information Dissemination

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Diagnostic implications of pitfalls in causal variant identification based on 4577 molecularly characterized families

Abstract

Keywords

ASJC Scopus subject areas

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