Expanding the genetic heterogeneity of intellectual disability

Shams Anazi; Sateesh Maddirevula; Vincenzo Salpietro; Yasmine T. Asi; Saud Alsahli; Amal Alhashem; Hanan E. Shamseldin; Fatema AlZahrani; Nisha Patel; Niema Ibrahim; Firdous M. Abdulwahab; Mais Hashem; Nadia Alhashmi; Fathiya Al Murshedi; Adila Al Kindy; Ahmad Alshaer; Ahmed Rumayyan; Saeed Al Tala; Wesam Kurdi; Abdulaziz Alsaman; Ali Alasmari; Selina Banu; Tipu Sultan; Mohammed M. Saleh; Hisham Alkuraya; Mustafa A. Salih; Hesham Aldhalaan; Tawfeg Ben-Omran; Fatima Al Musafri; Rehab Ali; Jehan Suleiman; Brahim Tabarki; Ayman W. El-Hattab; Caleb Bupp; Majid Alfadhel; Nada Al Tassan; Dorota Monies; Stefan T. Arold; Mohamed Abouelhoda; Tammaryn Lashley; Henry Houlden; Eissa Faqeih; Fowzan S. Alkuraya

doi:10.1007/s00439-017-1843-2

Expanding the genetic heterogeneity of intellectual disability

Shams Anazi, Sateesh Maddirevula, Vincenzo Salpietro, Yasmine T. Asi, Saud Alsahli, Amal Alhashem, Hanan E. Shamseldin, Fatema AlZahrani, Nisha Patel, Niema Ibrahim, Firdous M. Abdulwahab, Mais Hashem, Nadia Alhashmi, Fathiya Al Murshedi, Adila Al Kindy, Ahmad Alshaer, Ahmed Rumayyan, Saeed Al Tala, Wesam Kurdi, Abdulaziz AlsamanAli Alasmari, Selina Banu, Tipu Sultan, Mohammed M. Saleh, Hisham Alkuraya, Mustafa A. Salih, Hesham Aldhalaan, Tawfeg Ben-Omran, Fatima Al Musafri, Rehab Ali, Jehan Suleiman, Brahim Tabarki, Ayman W. El-Hattab, Caleb Bupp, Majid Alfadhel, Nada Al Tassan, Dorota Monies, Stefan T. Arold, Mohamed Abouelhoda, Tammaryn Lashley, Henry Houlden, Eissa Faqeih, Fowzan S. Alkuraya^*

^*Corresponding author for this work

Genetics

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

107 Citations (Scopus)

Abstract

Intellectual disability (ID) is a common morbid condition with a wide range of etiologies. The list of monogenic forms of ID has increased rapidly in recent years thanks to the implementation of genomic sequencing techniques. In this study, we describe the phenotypic and genetic findings of 68 families (105 patients) all with novel ID-related variants. In addition to established ID genes, including ones for which we describe unusual mutational mechanism, some of these variants represent the first confirmatory disease–gene links following previous reports (TRAK1, GTF3C3, SPTBN4 and NKX6-2), some of which were based on single families. Furthermore, we describe novel variants in 14 genes that we propose as novel candidates (ANKHD1, ASTN2, ATP13A1, FMO4, MADD, MFSD11, NCKAP1, NFASC, PCDHGA10, PPP1R21, SLC12A2, SLK, STK32C and ZFAT). We highlight MADD and PCDHGA10 as particularly compelling candidates in which we identified biallelic likely deleterious variants in two independent ID families each. We also highlight NCKAP1 as another compelling candidate in a large family with autosomal dominant mild intellectual disability that fully segregates with a heterozygous truncating variant. The candidacy of NCKAP1 is further supported by its biological function, and our demonstration of relevant expression in human brain. Our study expands the locus and allelic heterogeneity of ID and demonstrates the power of positional mapping to reveal unusual mutational mechanisms.

Original language	English
Pages (from-to)	1419-1429
Number of pages	11
Journal	Human Genetics
Volume	136
Issue number	11-12
DOIs	https://doi.org/10.1007/s00439-017-1843-2
Publication status	Published - Nov 1 2017

ASJC Scopus subject areas

Genetics
Genetics(clinical)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/s00439-017-1843-2

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Anazi, S., Maddirevula, S., Salpietro, V., Asi, Y. T., Alsahli, S., Alhashem, A., Shamseldin, H. E., AlZahrani, F., Patel, N., Ibrahim, N., Abdulwahab, F. M., Hashem, M., Alhashmi, N., Al Murshedi, F., Al Kindy, A., Alshaer, A., Rumayyan, A., Al Tala, S., Kurdi, W., ... Alkuraya, F. S. (2017). Expanding the genetic heterogeneity of intellectual disability. Human Genetics, 136(11-12), 1419-1429. https://doi.org/10.1007/s00439-017-1843-2

Anazi, S, Maddirevula, S, Salpietro, V, Asi, YT, Alsahli, S, Alhashem, A, Shamseldin, HE, AlZahrani, F, Patel, N, Ibrahim, N, Abdulwahab, FM, Hashem, M, Alhashmi, N, Al Murshedi, F, Al Kindy, A, Alshaer, A, Rumayyan, A, Al Tala, S, Kurdi, W, Alsaman, A, Alasmari, A, Banu, S, Sultan, T, Saleh, MM, Alkuraya, H, Salih, MA, Aldhalaan, H, Ben-Omran, T, Al Musafri, F, Ali, R, Suleiman, J, Tabarki, B, El-Hattab, AW, Bupp, C, Alfadhel, M, Al Tassan, N, Monies, D, Arold, ST, Abouelhoda, M, Lashley, T, Houlden, H, Faqeih, E & Alkuraya, FS 2017, 'Expanding the genetic heterogeneity of intellectual disability', Human Genetics, vol. 136, no. 11-12, pp. 1419-1429. https://doi.org/10.1007/s00439-017-1843-2

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title = "Expanding the genetic heterogeneity of intellectual disability",

abstract = "Intellectual disability (ID) is a common morbid condition with a wide range of etiologies. The list of monogenic forms of ID has increased rapidly in recent years thanks to the implementation of genomic sequencing techniques. In this study, we describe the phenotypic and genetic findings of 68 families (105 patients) all with novel ID-related variants. In addition to established ID genes, including ones for which we describe unusual mutational mechanism, some of these variants represent the first confirmatory disease–gene links following previous reports (TRAK1, GTF3C3, SPTBN4 and NKX6-2), some of which were based on single families. Furthermore, we describe novel variants in 14 genes that we propose as novel candidates (ANKHD1, ASTN2, ATP13A1, FMO4, MADD, MFSD11, NCKAP1, NFASC, PCDHGA10, PPP1R21, SLC12A2, SLK, STK32C and ZFAT). We highlight MADD and PCDHGA10 as particularly compelling candidates in which we identified biallelic likely deleterious variants in two independent ID families each. We also highlight NCKAP1 as another compelling candidate in a large family with autosomal dominant mild intellectual disability that fully segregates with a heterozygous truncating variant. The candidacy of NCKAP1 is further supported by its biological function, and our demonstration of relevant expression in human brain. Our study expands the locus and allelic heterogeneity of ID and demonstrates the power of positional mapping to reveal unusual mutational mechanisms.",

author = "Shams Anazi and Sateesh Maddirevula and Vincenzo Salpietro and Asi, {Yasmine T.} and Saud Alsahli and Amal Alhashem and Shamseldin, {Hanan E.} and Fatema AlZahrani and Nisha Patel and Niema Ibrahim and Abdulwahab, {Firdous M.} and Mais Hashem and Nadia Alhashmi and {Al Murshedi}, Fathiya and {Al Kindy}, Adila and Ahmad Alshaer and Ahmed Rumayyan and {Al Tala}, Saeed and Wesam Kurdi and Abdulaziz Alsaman and Ali Alasmari and Selina Banu and Tipu Sultan and Saleh, {Mohammed M.} and Hisham Alkuraya and Salih, {Mustafa A.} and Hesham Aldhalaan and Tawfeg Ben-Omran and {Al Musafri}, Fatima and Rehab Ali and Jehan Suleiman and Brahim Tabarki and El-Hattab, {Ayman W.} and Caleb Bupp and Majid Alfadhel and {Al Tassan}, Nada and Dorota Monies and Arold, {Stefan T.} and Mohamed Abouelhoda and Tammaryn Lashley and Henry Houlden and Eissa Faqeih and Alkuraya, {Fowzan S.}",

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doi = "10.1007/s00439-017-1843-2",

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T1 - Expanding the genetic heterogeneity of intellectual disability

AU - Anazi, Shams

AU - Maddirevula, Sateesh

AU - Salpietro, Vincenzo

AU - Asi, Yasmine T.

AU - Alsahli, Saud

AU - Alhashem, Amal

AU - Shamseldin, Hanan E.

AU - AlZahrani, Fatema

AU - Patel, Nisha

AU - Ibrahim, Niema

AU - Abdulwahab, Firdous M.

AU - Hashem, Mais

AU - Alhashmi, Nadia

AU - Al Murshedi, Fathiya

AU - Al Kindy, Adila

AU - Alshaer, Ahmad

AU - Rumayyan, Ahmed

AU - Al Tala, Saeed

AU - Kurdi, Wesam

AU - Alsaman, Abdulaziz

AU - Alasmari, Ali

AU - Banu, Selina

AU - Sultan, Tipu

AU - Saleh, Mohammed M.

AU - Alkuraya, Hisham

AU - Salih, Mustafa A.

AU - Aldhalaan, Hesham

AU - Ben-Omran, Tawfeg

AU - Al Musafri, Fatima

AU - Ali, Rehab

AU - Suleiman, Jehan

AU - Tabarki, Brahim

AU - El-Hattab, Ayman W.

AU - Bupp, Caleb

AU - Alfadhel, Majid

AU - Al Tassan, Nada

AU - Monies, Dorota

AU - Arold, Stefan T.

AU - Abouelhoda, Mohamed

AU - Lashley, Tammaryn

AU - Houlden, Henry

AU - Faqeih, Eissa

AU - Alkuraya, Fowzan S.

PY - 2017/11/1

Y1 - 2017/11/1

N2 - Intellectual disability (ID) is a common morbid condition with a wide range of etiologies. The list of monogenic forms of ID has increased rapidly in recent years thanks to the implementation of genomic sequencing techniques. In this study, we describe the phenotypic and genetic findings of 68 families (105 patients) all with novel ID-related variants. In addition to established ID genes, including ones for which we describe unusual mutational mechanism, some of these variants represent the first confirmatory disease–gene links following previous reports (TRAK1, GTF3C3, SPTBN4 and NKX6-2), some of which were based on single families. Furthermore, we describe novel variants in 14 genes that we propose as novel candidates (ANKHD1, ASTN2, ATP13A1, FMO4, MADD, MFSD11, NCKAP1, NFASC, PCDHGA10, PPP1R21, SLC12A2, SLK, STK32C and ZFAT). We highlight MADD and PCDHGA10 as particularly compelling candidates in which we identified biallelic likely deleterious variants in two independent ID families each. We also highlight NCKAP1 as another compelling candidate in a large family with autosomal dominant mild intellectual disability that fully segregates with a heterozygous truncating variant. The candidacy of NCKAP1 is further supported by its biological function, and our demonstration of relevant expression in human brain. Our study expands the locus and allelic heterogeneity of ID and demonstrates the power of positional mapping to reveal unusual mutational mechanisms.

AB - Intellectual disability (ID) is a common morbid condition with a wide range of etiologies. The list of monogenic forms of ID has increased rapidly in recent years thanks to the implementation of genomic sequencing techniques. In this study, we describe the phenotypic and genetic findings of 68 families (105 patients) all with novel ID-related variants. In addition to established ID genes, including ones for which we describe unusual mutational mechanism, some of these variants represent the first confirmatory disease–gene links following previous reports (TRAK1, GTF3C3, SPTBN4 and NKX6-2), some of which were based on single families. Furthermore, we describe novel variants in 14 genes that we propose as novel candidates (ANKHD1, ASTN2, ATP13A1, FMO4, MADD, MFSD11, NCKAP1, NFASC, PCDHGA10, PPP1R21, SLC12A2, SLK, STK32C and ZFAT). We highlight MADD and PCDHGA10 as particularly compelling candidates in which we identified biallelic likely deleterious variants in two independent ID families each. We also highlight NCKAP1 as another compelling candidate in a large family with autosomal dominant mild intellectual disability that fully segregates with a heterozygous truncating variant. The candidacy of NCKAP1 is further supported by its biological function, and our demonstration of relevant expression in human brain. Our study expands the locus and allelic heterogeneity of ID and demonstrates the power of positional mapping to reveal unusual mutational mechanisms.

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U2 - 10.1007/s00439-017-1843-2

DO - 10.1007/s00439-017-1843-2

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JO - Human Genetics

JF - Human Genetics

IS - 11-12

ER -

Expanding the genetic heterogeneity of intellectual disability

Abstract

ASJC Scopus subject areas

UN SDGs

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