A rigorous in silico genomic interrogation at 1p13.3 reveals 16 autosomal dominant candidate genes in syndromic neurodevelopmental disorders

Afif Ben-Mahmoud; Kyung Ran Jun; Vijay Gupta; Pinang Shastri; Alberto de la Fuente; Yongsoo Park; Kyung Chul Shin; Chong Ae Kim; Aparecido Divino da Cruz; Irene Plaza Pinto; Lysa Bernardes Minasi; Alex Silva da Cruz; Laurence Faivre; Patrick Callier; Caroline Racine; Lawrence C. Layman; Il Keun Kong; Cheol Hee Kim; Woo Yang Kim; Hyung Goo Kim

doi:10.3389/fnmol.2022.979061

A rigorous in silico genomic interrogation at 1p13.3 reveals 16 autosomal dominant candidate genes in syndromic neurodevelopmental disorders

Afif Ben-Mahmoud, Kyung Ran Jun, Vijay Gupta, Pinang Shastri, Alberto de la Fuente, Yongsoo Park, Kyung Chul Shin, Chong Ae Kim, Aparecido Divino da Cruz, Irene Plaza Pinto, Lysa Bernardes Minasi, Alex Silva da Cruz, Laurence Faivre, Patrick Callier, Caroline Racine, Lawrence C. Layman, Il Keun Kong, Cheol Hee Kim, Woo Yang Kim, Hyung Goo Kim

Reproductive Endocrinology, Infertility and Genetics

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

3 Scopus citations

Abstract

Genome-wide chromosomal microarray is extensively used to detect copy number variations (CNVs), which can diagnose microdeletion and microduplication syndromes. These small unbalanced chromosomal structural rearrangements ranging from 1 kb to 10 Mb comprise up to 15% of human mutations leading to monogenic or contiguous genomic disorders. Albeit rare, CNVs at 1p13.3 cause a variety of neurodevelopmental disorders (NDDs) including development delay (DD), intellectual disability (ID), autism, epilepsy, and craniofacial anomalies (CFA). Most of the 1p13.3 CNV cases reported in the pre-microarray era encompassed a large number of genes and lacked the demarcating genomic coordinates, hampering the discovery of positional candidate genes within the boundaries. In this study, we present four subjects with 1p13.3 microdeletions displaying DD, ID, autism, epilepsy, and CFA. In silico comparative genomic mapping with three previously reported subjects with CNVs and 22 unreported DECIPHER CNV cases has resulted in the identification of four different sub-genomic loci harboring five positional candidate genes for DD, ID, and CFA at 1p13.3. Most of these genes have pathogenic variants reported, and their interacting genes are involved in NDDs. RT-qPCR in various human tissues revealed a high expression pattern in the brain and fetal brain, supporting their functional roles in NDDs. Interrogation of variant databases and interacting protein partners led to the identification of another set of 11 potential candidate genes, which might have been dysregulated by the position effect of these CNVs at 1p13.3. Our studies define 1p13.3 as a genomic region harboring 16 NDD candidate genes and underscore the critical roles of small CNVs in in silico comparative genomic mapping for disease gene discovery. Our candidate genes will help accelerate the isolation of pathogenic heterozygous variants from exome/genome sequencing (ES/GS) databases.

Original language	English (US)
Article number	979061
Journal	Frontiers in Molecular Neuroscience
Volume	15
DOIs	https://doi.org/10.3389/fnmol.2022.979061
State	Published - Oct 6 2022

Keywords

1p13.3 deletion
ELAPOR1
GSTM5
LRIF1
VAV3
WDR47
autism
intellectual disability

ASJC Scopus subject areas

Molecular Biology
Cellular and Molecular Neuroscience

UN SDGs

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

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10.3389/fnmol.2022.979061

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Ben-Mahmoud, A., Jun, K. R., Gupta, V., Shastri, P., de la Fuente, A., Park, Y., Shin, K. C., Kim, C. A., da Cruz, A. D., Pinto, I. P., Minasi, L. B., Silva da Cruz, A., Faivre, L., Callier, P., Racine, C., Layman, L. C., Kong, I. K., Kim, C. H., Kim, W. Y., & Kim, H. G. (2022). A rigorous in silico genomic interrogation at 1p13.3 reveals 16 autosomal dominant candidate genes in syndromic neurodevelopmental disorders. Frontiers in Molecular Neuroscience, 15, Article 979061. https://doi.org/10.3389/fnmol.2022.979061

Ben-Mahmoud, A, Jun, KR, Gupta, V, Shastri, P, de la Fuente, A, Park, Y, Shin, KC, Kim, CA, da Cruz, AD, Pinto, IP, Minasi, LB, Silva da Cruz, A, Faivre, L, Callier, P, Racine, C, Layman, LC, Kong, IK, Kim, CH, Kim, WY & Kim, HG 2022, 'A rigorous in silico genomic interrogation at 1p13.3 reveals 16 autosomal dominant candidate genes in syndromic neurodevelopmental disorders', Frontiers in Molecular Neuroscience, vol. 15, 979061. https://doi.org/10.3389/fnmol.2022.979061

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title = "A rigorous in silico genomic interrogation at 1p13.3 reveals 16 autosomal dominant candidate genes in syndromic neurodevelopmental disorders",

abstract = "Genome-wide chromosomal microarray is extensively used to detect copy number variations (CNVs), which can diagnose microdeletion and microduplication syndromes. These small unbalanced chromosomal structural rearrangements ranging from 1 kb to 10 Mb comprise up to 15% of human mutations leading to monogenic or contiguous genomic disorders. Albeit rare, CNVs at 1p13.3 cause a variety of neurodevelopmental disorders (NDDs) including development delay (DD), intellectual disability (ID), autism, epilepsy, and craniofacial anomalies (CFA). Most of the 1p13.3 CNV cases reported in the pre-microarray era encompassed a large number of genes and lacked the demarcating genomic coordinates, hampering the discovery of positional candidate genes within the boundaries. In this study, we present four subjects with 1p13.3 microdeletions displaying DD, ID, autism, epilepsy, and CFA. In silico comparative genomic mapping with three previously reported subjects with CNVs and 22 unreported DECIPHER CNV cases has resulted in the identification of four different sub-genomic loci harboring five positional candidate genes for DD, ID, and CFA at 1p13.3. Most of these genes have pathogenic variants reported, and their interacting genes are involved in NDDs. RT-qPCR in various human tissues revealed a high expression pattern in the brain and fetal brain, supporting their functional roles in NDDs. Interrogation of variant databases and interacting protein partners led to the identification of another set of 11 potential candidate genes, which might have been dysregulated by the position effect of these CNVs at 1p13.3. Our studies define 1p13.3 as a genomic region harboring 16 NDD candidate genes and underscore the critical roles of small CNVs in in silico comparative genomic mapping for disease gene discovery. Our candidate genes will help accelerate the isolation of pathogenic heterozygous variants from exome/genome sequencing (ES/GS) databases.",

keywords = "1p13.3 deletion, ELAPOR1, GSTM5, LRIF1, VAV3, WDR47, autism, intellectual disability",

author = "Afif Ben-Mahmoud and Jun, {Kyung Ran} and Vijay Gupta and Pinang Shastri and {de la Fuente}, Alberto and Yongsoo Park and Shin, {Kyung Chul} and Kim, {Chong Ae} and {da Cruz}, {Aparecido Divino} and Pinto, {Irene Plaza} and Minasi, {Lysa Bernardes} and {Silva da Cruz}, Alex and Laurence Faivre and Patrick Callier and Caroline Racine and Layman, {Lawrence C.} and Kong, {Il Keun} and Kim, {Cheol Hee} and Kim, {Woo Yang} and Kim, {Hyung Goo}",

note = "Publisher Copyright: Copyright {\textcopyright} 2022 Ben-Mahmoud, Jun, Gupta, Shastri, de la Fuente, Park, Shin, Kim, da Cruz, Pinto, Minasi, Silva da Cruz, Faivre, Callier, Racine, Layman, Kong, Kim, Kim and Kim.",

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doi = "10.3389/fnmol.2022.979061",

language = "English (US)",

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T1 - A rigorous in silico genomic interrogation at 1p13.3 reveals 16 autosomal dominant candidate genes in syndromic neurodevelopmental disorders

AU - Ben-Mahmoud, Afif

AU - Jun, Kyung Ran

AU - Gupta, Vijay

AU - Shastri, Pinang

AU - de la Fuente, Alberto

AU - Park, Yongsoo

AU - Shin, Kyung Chul

AU - Kim, Chong Ae

AU - da Cruz, Aparecido Divino

AU - Pinto, Irene Plaza

AU - Minasi, Lysa Bernardes

AU - Silva da Cruz, Alex

AU - Faivre, Laurence

AU - Callier, Patrick

AU - Racine, Caroline

AU - Layman, Lawrence C.

AU - Kong, Il Keun

AU - Kim, Cheol Hee

AU - Kim, Woo Yang

AU - Kim, Hyung Goo

N1 - Publisher Copyright: Copyright © 2022 Ben-Mahmoud, Jun, Gupta, Shastri, de la Fuente, Park, Shin, Kim, da Cruz, Pinto, Minasi, Silva da Cruz, Faivre, Callier, Racine, Layman, Kong, Kim, Kim and Kim.

PY - 2022/10/6

Y1 - 2022/10/6

N2 - Genome-wide chromosomal microarray is extensively used to detect copy number variations (CNVs), which can diagnose microdeletion and microduplication syndromes. These small unbalanced chromosomal structural rearrangements ranging from 1 kb to 10 Mb comprise up to 15% of human mutations leading to monogenic or contiguous genomic disorders. Albeit rare, CNVs at 1p13.3 cause a variety of neurodevelopmental disorders (NDDs) including development delay (DD), intellectual disability (ID), autism, epilepsy, and craniofacial anomalies (CFA). Most of the 1p13.3 CNV cases reported in the pre-microarray era encompassed a large number of genes and lacked the demarcating genomic coordinates, hampering the discovery of positional candidate genes within the boundaries. In this study, we present four subjects with 1p13.3 microdeletions displaying DD, ID, autism, epilepsy, and CFA. In silico comparative genomic mapping with three previously reported subjects with CNVs and 22 unreported DECIPHER CNV cases has resulted in the identification of four different sub-genomic loci harboring five positional candidate genes for DD, ID, and CFA at 1p13.3. Most of these genes have pathogenic variants reported, and their interacting genes are involved in NDDs. RT-qPCR in various human tissues revealed a high expression pattern in the brain and fetal brain, supporting their functional roles in NDDs. Interrogation of variant databases and interacting protein partners led to the identification of another set of 11 potential candidate genes, which might have been dysregulated by the position effect of these CNVs at 1p13.3. Our studies define 1p13.3 as a genomic region harboring 16 NDD candidate genes and underscore the critical roles of small CNVs in in silico comparative genomic mapping for disease gene discovery. Our candidate genes will help accelerate the isolation of pathogenic heterozygous variants from exome/genome sequencing (ES/GS) databases.

AB - Genome-wide chromosomal microarray is extensively used to detect copy number variations (CNVs), which can diagnose microdeletion and microduplication syndromes. These small unbalanced chromosomal structural rearrangements ranging from 1 kb to 10 Mb comprise up to 15% of human mutations leading to monogenic or contiguous genomic disorders. Albeit rare, CNVs at 1p13.3 cause a variety of neurodevelopmental disorders (NDDs) including development delay (DD), intellectual disability (ID), autism, epilepsy, and craniofacial anomalies (CFA). Most of the 1p13.3 CNV cases reported in the pre-microarray era encompassed a large number of genes and lacked the demarcating genomic coordinates, hampering the discovery of positional candidate genes within the boundaries. In this study, we present four subjects with 1p13.3 microdeletions displaying DD, ID, autism, epilepsy, and CFA. In silico comparative genomic mapping with three previously reported subjects with CNVs and 22 unreported DECIPHER CNV cases has resulted in the identification of four different sub-genomic loci harboring five positional candidate genes for DD, ID, and CFA at 1p13.3. Most of these genes have pathogenic variants reported, and their interacting genes are involved in NDDs. RT-qPCR in various human tissues revealed a high expression pattern in the brain and fetal brain, supporting their functional roles in NDDs. Interrogation of variant databases and interacting protein partners led to the identification of another set of 11 potential candidate genes, which might have been dysregulated by the position effect of these CNVs at 1p13.3. Our studies define 1p13.3 as a genomic region harboring 16 NDD candidate genes and underscore the critical roles of small CNVs in in silico comparative genomic mapping for disease gene discovery. Our candidate genes will help accelerate the isolation of pathogenic heterozygous variants from exome/genome sequencing (ES/GS) databases.

KW - 1p13.3 deletion

KW - ELAPOR1

KW - GSTM5

KW - LRIF1

KW - VAV3

KW - WDR47

KW - autism

KW - intellectual disability

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JO - Frontiers in Molecular Neuroscience

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ER -

A rigorous in silico genomic interrogation at 1p13.3 reveals 16 autosomal dominant candidate genes in syndromic neurodevelopmental disorders

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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