Expanding the phenome and variome of skeletal dysplasia

Sateesh Maddirevula; Saud Alsahli; Lamees Alhabeeb; Nisha Patel; Fatema Alzahrani; Hanan E. Shamseldin; Shams Anazi; Nour Ewida; Hessa S. Alsaif; Jawahir Y. Mohamed; Anas M. Alazami; Niema Ibrahim; Firdous Abdulwahab; Mais Hashem; Mohamed Abouelhoda; Dorota Monies; Nada Al Tassan; Muneera Alshammari; Afaf Alsagheir; Mohammed Zain Seidahmed; Samira Sogati; Mona S. Aglan; Muddathir H. Hamad; Mustafa A. Salih; Ahlam A. Hamed; Nadia Alhashmi; Amira Nabil; Fatima Alfadli; Ghada M.H. Abdel-Salam; Hisham Alkuraya; Winnie Ong Peitee; W. T. Keng; Abdullah Qasem; Aziza M. Mushiba; Maha S. Zaki; Mahmoud R. Fassad; Majid Alfadhel; Saji Alexander; Yasser Sabr; Samia Temtamy; Alka V. Ekbote; Samira Ismail; Gamal Ahmed Hosny; Ghada A. Otaify; Khalda Amr; Saeed Al Tala; Arif O. Khan; Tamer Rizk; Aida Alaqeel; Abdulmonem Alsiddiky; Ankur Singh; Seema Kapoor; Amal Alhashem; Eissa Faqeih; Ranad Shaheen; Fowzan S. Alkuraya

doi:10.1038/gim.2018.50

Expanding the phenome and variome of skeletal dysplasia

Sateesh Maddirevula, Saud Alsahli, Lamees Alhabeeb, Nisha Patel, Fatema Alzahrani, Hanan E. Shamseldin, Shams Anazi, Nour Ewida, Hessa S. Alsaif, Jawahir Y. Mohamed, Anas M. Alazami, Niema Ibrahim, Firdous Abdulwahab, Mais Hashem, Mohamed Abouelhoda, Dorota Monies, Nada Al Tassan, Muneera Alshammari, Afaf Alsagheir, Mohammed Zain SeidahmedSamira Sogati, Mona S. Aglan, Muddathir H. Hamad, Mustafa A. Salih, Ahlam A. Hamed, Nadia Alhashmi, Amira Nabil, Fatima Alfadli, Ghada M.H. Abdel-Salam, Hisham Alkuraya, Winnie Ong Peitee, W. T. Keng, Abdullah Qasem, Aziza M. Mushiba, Maha S. Zaki, Mahmoud R. Fassad, Majid Alfadhel, Saji Alexander, Yasser Sabr, Samia Temtamy, Alka V. Ekbote, Samira Ismail, Gamal Ahmed Hosny, Ghada A. Otaify, Khalda Amr, Saeed Al Tala, Arif O. Khan, Tamer Rizk, Aida Alaqeel, Abdulmonem Alsiddiky, Ankur Singh, Seema Kapoor, Amal Alhashem, Eissa Faqeih, Ranad Shaheen^*, Fowzan S. Alkuraya

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47 اقتباسات (Scopus)

ملخص

Purpose: To describe our experience with a large cohort (411 patients from 288 families) of various forms of skeletal dysplasia who were molecularly characterized. Methods: Detailed phenotyping and next-generation sequencing (panel and exome). Results: Our analysis revealed 224 pathogenic/likely pathogenic variants (54 (24%) of which are novel) in 123 genes with established or tentative links to skeletal dysplasia. In addition, we propose 5 genes as candidate disease genes with suggestive biological links (WNT3A, SUCO, RIN1, DIP2C, and PAN2). Phenotypically, we note that our cohort spans 36 established phenotypic categories by the International Skeletal Dysplasia Nosology, as well as 18 novel skeletal dysplasia phenotypes that could not be classified under these categories, e.g., the novel C3orf17-related skeletal dysplasia. We also describe novel phenotypic aspects of well-known disease genes, e.g., PGAP3-related Toriello–Carey syndrome–like phenotype. We note a strong founder effect for many genes in our cohort, which allowed us to calculate a minimum disease burden for the autosomal recessive forms of skeletal dysplasia in our population (7.16E-04), which is much higher than the global average. Conclusion: By expanding the phenotypic, allelic, and locus heterogeneity of skeletal dysplasia in humans, we hope our study will improve the diagnostic rate of patients with these conditions.

اللغة الأصلية	English
الصفحات (من إلى)	1609-1616
عدد الصفحات	8
دورية	Genetics in Medicine
مستوى الصوت	20
رقم الإصدار	12
المعرِّفات الرقمية للأشياء	https://doi.org/10.1038/gim.2018.50
حالة النشر	Published - ديسمبر 1 2018
منشور خارجيًا	نعم

ASJC Scopus subject areas

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الوصول إلى المستند

10.1038/gim.2018.50

الملفات والروابط الأخرى

قم بذكر هذا

Maddirevula, S., Alsahli, S., Alhabeeb, L., Patel, N., Alzahrani, F., Shamseldin, H. E., Anazi, S., Ewida, N., Alsaif, H. S., Mohamed, J. Y., Alazami, A. M., Ibrahim, N., Abdulwahab, F., Hashem, M., Abouelhoda, M., Monies, D., Al Tassan, N., Alshammari, M., Alsagheir, A., ... Alkuraya, F. S. (2018). Expanding the phenome and variome of skeletal dysplasia. Genetics in Medicine, 20(12), 1609-1616. https://doi.org/10.1038/gim.2018.50

Maddirevula, S, Alsahli, S, Alhabeeb, L, Patel, N, Alzahrani, F, Shamseldin, HE, Anazi, S, Ewida, N, Alsaif, HS, Mohamed, JY, Alazami, AM, Ibrahim, N, Abdulwahab, F, Hashem, M, Abouelhoda, M, Monies, D, Al Tassan, N, Alshammari, M, Alsagheir, A, Seidahmed, MZ, Sogati, S, Aglan, MS, Hamad, MH, Salih, MA, Hamed, AA, Alhashmi, N, Nabil, A, Alfadli, F, Abdel-Salam, GMH, Alkuraya, H, Peitee, WO, Keng, WT, Qasem, A, Mushiba, AM, Zaki, MS, Fassad, MR, Alfadhel, M, Alexander, S, Sabr, Y, Temtamy, S, Ekbote, AV, Ismail, S, Hosny, GA, Otaify, GA, Amr, K, Al Tala, S, Khan, AO, Rizk, T, Alaqeel, A, Alsiddiky, A, Singh, A, Kapoor, S, Alhashem, A, Faqeih, E, Shaheen, R & Alkuraya, FS 2018, 'Expanding the phenome and variome of skeletal dysplasia', Genetics in Medicine, المجلد 20, رقم 12, الصفحات 1609-1616. https://doi.org/10.1038/gim.2018.50

@article{1d652039dfd84ff894c1763681d8cf0f,

title = "Expanding the phenome and variome of skeletal dysplasia",

abstract = "Purpose: To describe our experience with a large cohort (411 patients from 288 families) of various forms of skeletal dysplasia who were molecularly characterized. Methods: Detailed phenotyping and next-generation sequencing (panel and exome). Results: Our analysis revealed 224 pathogenic/likely pathogenic variants (54 (24%) of which are novel) in 123 genes with established or tentative links to skeletal dysplasia. In addition, we propose 5 genes as candidate disease genes with suggestive biological links (WNT3A, SUCO, RIN1, DIP2C, and PAN2). Phenotypically, we note that our cohort spans 36 established phenotypic categories by the International Skeletal Dysplasia Nosology, as well as 18 novel skeletal dysplasia phenotypes that could not be classified under these categories, e.g., the novel C3orf17-related skeletal dysplasia. We also describe novel phenotypic aspects of well-known disease genes, e.g., PGAP3-related Toriello–Carey syndrome–like phenotype. We note a strong founder effect for many genes in our cohort, which allowed us to calculate a minimum disease burden for the autosomal recessive forms of skeletal dysplasia in our population (7.16E-04), which is much higher than the global average. Conclusion: By expanding the phenotypic, allelic, and locus heterogeneity of skeletal dysplasia in humans, we hope our study will improve the diagnostic rate of patients with these conditions.",

keywords = "Toriello–Carey, craniosynostosis, osteogenesis imperfecta",

author = "Sateesh Maddirevula and Saud Alsahli and Lamees Alhabeeb and Nisha Patel and Fatema Alzahrani and Shamseldin, {Hanan E.} and Shams Anazi and Nour Ewida and Alsaif, {Hessa S.} and Mohamed, {Jawahir Y.} and Alazami, {Anas M.} and Niema Ibrahim and Firdous Abdulwahab and Mais Hashem and Mohamed Abouelhoda and Dorota Monies and {Al Tassan}, Nada and Muneera Alshammari and Afaf Alsagheir and Seidahmed, {Mohammed Zain} and Samira Sogati and Aglan, {Mona S.} and Hamad, {Muddathir H.} and Salih, {Mustafa A.} and Hamed, {Ahlam A.} and Nadia Alhashmi and Amira Nabil and Fatima Alfadli and Abdel-Salam, {Ghada M.H.} and Hisham Alkuraya and Peitee, {Winnie Ong} and Keng, {W. T.} and Abdullah Qasem and Mushiba, {Aziza M.} and Zaki, {Maha S.} and Fassad, {Mahmoud R.} and Majid Alfadhel and Saji Alexander and Yasser Sabr and Samia Temtamy and Ekbote, {Alka V.} and Samira Ismail and Hosny, {Gamal Ahmed} and Otaify, {Ghada A.} and Khalda Amr and {Al Tala}, Saeed and Khan, {Arif O.} and Tamer Rizk and Aida Alaqeel and Abdulmonem Alsiddiky and Ankur Singh and Seema Kapoor and Amal Alhashem and Eissa Faqeih and Ranad Shaheen and Alkuraya, {Fowzan S.}",

note = "Publisher Copyright: {\textcopyright} 2018, American College of Medical Genetics and Genomics.",

year = "2018",

month = dec,

day = "1",

doi = "10.1038/gim.2018.50",

language = "English",

volume = "20",

pages = "1609--1616",

journal = "Genetics in Medicine",

issn = "1098-3600",

publisher = "Lippincott Williams and Wilkins",

number = "12",

}

TY - JOUR

T1 - Expanding the phenome and variome of skeletal dysplasia

AU - Maddirevula, Sateesh

AU - Alsahli, Saud

AU - Alhabeeb, Lamees

AU - Patel, Nisha

AU - Alzahrani, Fatema

AU - Shamseldin, Hanan E.

AU - Anazi, Shams

AU - Ewida, Nour

AU - Alsaif, Hessa S.

AU - Mohamed, Jawahir Y.

AU - Alazami, Anas M.

AU - Ibrahim, Niema

AU - Abdulwahab, Firdous

AU - Hashem, Mais

AU - Abouelhoda, Mohamed

AU - Monies, Dorota

AU - Al Tassan, Nada

AU - Alshammari, Muneera

AU - Alsagheir, Afaf

AU - Seidahmed, Mohammed Zain

AU - Sogati, Samira

AU - Aglan, Mona S.

AU - Hamad, Muddathir H.

AU - Salih, Mustafa A.

AU - Hamed, Ahlam A.

AU - Alhashmi, Nadia

AU - Nabil, Amira

AU - Alfadli, Fatima

AU - Abdel-Salam, Ghada M.H.

AU - Alkuraya, Hisham

AU - Peitee, Winnie Ong

AU - Keng, W. T.

AU - Qasem, Abdullah

AU - Mushiba, Aziza M.

AU - Zaki, Maha S.

AU - Fassad, Mahmoud R.

AU - Alfadhel, Majid

AU - Alexander, Saji

AU - Sabr, Yasser

AU - Temtamy, Samia

AU - Ekbote, Alka V.

AU - Ismail, Samira

AU - Hosny, Gamal Ahmed

AU - Otaify, Ghada A.

AU - Amr, Khalda

AU - Al Tala, Saeed

AU - Khan, Arif O.

AU - Rizk, Tamer

AU - Alaqeel, Aida

AU - Alsiddiky, Abdulmonem

AU - Singh, Ankur

AU - Kapoor, Seema

AU - Alhashem, Amal

AU - Faqeih, Eissa

AU - Shaheen, Ranad

AU - Alkuraya, Fowzan S.

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Purpose: To describe our experience with a large cohort (411 patients from 288 families) of various forms of skeletal dysplasia who were molecularly characterized. Methods: Detailed phenotyping and next-generation sequencing (panel and exome). Results: Our analysis revealed 224 pathogenic/likely pathogenic variants (54 (24%) of which are novel) in 123 genes with established or tentative links to skeletal dysplasia. In addition, we propose 5 genes as candidate disease genes with suggestive biological links (WNT3A, SUCO, RIN1, DIP2C, and PAN2). Phenotypically, we note that our cohort spans 36 established phenotypic categories by the International Skeletal Dysplasia Nosology, as well as 18 novel skeletal dysplasia phenotypes that could not be classified under these categories, e.g., the novel C3orf17-related skeletal dysplasia. We also describe novel phenotypic aspects of well-known disease genes, e.g., PGAP3-related Toriello–Carey syndrome–like phenotype. We note a strong founder effect for many genes in our cohort, which allowed us to calculate a minimum disease burden for the autosomal recessive forms of skeletal dysplasia in our population (7.16E-04), which is much higher than the global average. Conclusion: By expanding the phenotypic, allelic, and locus heterogeneity of skeletal dysplasia in humans, we hope our study will improve the diagnostic rate of patients with these conditions.

AB - Purpose: To describe our experience with a large cohort (411 patients from 288 families) of various forms of skeletal dysplasia who were molecularly characterized. Methods: Detailed phenotyping and next-generation sequencing (panel and exome). Results: Our analysis revealed 224 pathogenic/likely pathogenic variants (54 (24%) of which are novel) in 123 genes with established or tentative links to skeletal dysplasia. In addition, we propose 5 genes as candidate disease genes with suggestive biological links (WNT3A, SUCO, RIN1, DIP2C, and PAN2). Phenotypically, we note that our cohort spans 36 established phenotypic categories by the International Skeletal Dysplasia Nosology, as well as 18 novel skeletal dysplasia phenotypes that could not be classified under these categories, e.g., the novel C3orf17-related skeletal dysplasia. We also describe novel phenotypic aspects of well-known disease genes, e.g., PGAP3-related Toriello–Carey syndrome–like phenotype. We note a strong founder effect for many genes in our cohort, which allowed us to calculate a minimum disease burden for the autosomal recessive forms of skeletal dysplasia in our population (7.16E-04), which is much higher than the global average. Conclusion: By expanding the phenotypic, allelic, and locus heterogeneity of skeletal dysplasia in humans, we hope our study will improve the diagnostic rate of patients with these conditions.

KW - Toriello–Carey

KW - craniosynostosis

KW - osteogenesis imperfecta

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U2 - 10.1038/gim.2018.50

DO - 10.1038/gim.2018.50

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JO - Genetics in Medicine

JF - Genetics in Medicine

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