ST3GAL3 mutations impair the development of higher cognitive functions

Hao Hu; Katinka Eggers; Wei Chen; Masoud Garshasbi; M. Mahdi Motazacker; Klaus Wrogemann; Kimia Kahrizi; Andreas Tzschach; Masoumeh Hosseini; Ideh Bahman; Tim Hucho; Martina Mühlenhoff; Rita Gerardy-Schahn; Hossein Najmabadi; H. Hilger Ropers; Andreas W. Kuss

doi:https://doi.org/10.1016/j.ajhg.2011.08.008

ST3GAL3 mutations impair the development of higher cognitive functions

Hao Hu, Katinka Eggers, Wei Chen, Masoud Garshasbi, M. Mahdi Motazacker, Klaus Wrogemann, Kimia Kahrizi, Andreas Tzschach, Masoumeh Hosseini, Ideh Bahman, Tim Hucho, Martina Mühlenhoff, Rita Gerardy-Schahn, Hossein Najmabadi, H. Hilger Ropers, Andreas W. Kuss

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

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Abstract

The genetic variants leading to impairment of intellectual performance are highly diverse and are still poorly understood. ST3GAL3 encodes the Golgi enzyme β-galactoside-α2,3-sialyltransferase-III that in humans predominantly forms the sialyl Lewis a epitope on proteins. ST3GAL3 resides on chromosome 1 within the MRT4 locus previously identified to associate with nonsyndromic autosomal recessive intellectual disability. We searched for the disease-causing mutations in the MRT4 family and a second independent consanguineous Iranian family by using a combination of chromosome sorting and next-generation sequencing. Two different missense changes in ST3GAL3 cosegregate with the disease but were absent in more than 1000 control chromosomes. In cellular and biochemical test systems, these mutations were shown to cause ER retention of the Golgi enzyme and drastically impair ST3Gal-III functionality. Our data provide conclusive evidence that glycotopes formed by ST3Gal-III are prerequisite for attaining and/or maintaining higher cognitive functions

Original language	English
Pages (from-to)	407-414
Journal	American journal of human genetics
Volume	89
Issue number	3
DOIs	https://doi.org/10.1016/j.ajhg.2011.08.008
Publication status	Published - 2011

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https://doi.org/10.1016/j.ajhg.2011.08.008

Cite this

Hu, H., Eggers, K., Chen, W., Garshasbi, M., Motazacker, M. M., Wrogemann, K., Kahrizi, K., Tzschach, A., Hosseini, M., Bahman, I., Hucho, T., Mühlenhoff, M., Gerardy-Schahn, R., Najmabadi, H., Ropers, H. H., & Kuss, A. W. (2011). ST3GAL3 mutations impair the development of higher cognitive functions. American journal of human genetics, 89(3), 407-414. https://doi.org/10.1016/j.ajhg.2011.08.008

@article{3962508e5d5f448c889dcb089cf66a04,

title = "ST3GAL3 mutations impair the development of higher cognitive functions",

abstract = "The genetic variants leading to impairment of intellectual performance are highly diverse and are still poorly understood. ST3GAL3 encodes the Golgi enzyme β-galactoside-α2,3-sialyltransferase-III that in humans predominantly forms the sialyl Lewis a epitope on proteins. ST3GAL3 resides on chromosome 1 within the MRT4 locus previously identified to associate with nonsyndromic autosomal recessive intellectual disability. We searched for the disease-causing mutations in the MRT4 family and a second independent consanguineous Iranian family by using a combination of chromosome sorting and next-generation sequencing. Two different missense changes in ST3GAL3 cosegregate with the disease but were absent in more than 1000 control chromosomes. In cellular and biochemical test systems, these mutations were shown to cause ER retention of the Golgi enzyme and drastically impair ST3Gal-III functionality. Our data provide conclusive evidence that glycotopes formed by ST3Gal-III are prerequisite for attaining and/or maintaining higher cognitive functions",

author = "Hao Hu and Katinka Eggers and Wei Chen and Masoud Garshasbi and Motazacker, {M. Mahdi} and Klaus Wrogemann and Kimia Kahrizi and Andreas Tzschach and Masoumeh Hosseini and Ideh Bahman and Tim Hucho and Martina M{\"u}hlenhoff and Rita Gerardy-Schahn and Hossein Najmabadi and Ropers, {H. Hilger} and Kuss, {Andreas W.}",

year = "2011",

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language = "English",

volume = "89",

pages = "407--414",

journal = "American journal of human genetics",

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Hu, H, Eggers, K, Chen, W, Garshasbi, M, Motazacker, MM, Wrogemann, K, Kahrizi, K, Tzschach, A, Hosseini, M, Bahman, I, Hucho, T, Mühlenhoff, M, Gerardy-Schahn, R, Najmabadi, H, Ropers, HH & Kuss, AW 2011, 'ST3GAL3 mutations impair the development of higher cognitive functions', American journal of human genetics, vol. 89, no. 3, pp. 407-414. https://doi.org/10.1016/j.ajhg.2011.08.008

TY - JOUR

T1 - ST3GAL3 mutations impair the development of higher cognitive functions

AU - Hu, Hao

AU - Eggers, Katinka

AU - Chen, Wei

AU - Garshasbi, Masoud

AU - Motazacker, M. Mahdi

AU - Wrogemann, Klaus

AU - Kahrizi, Kimia

AU - Tzschach, Andreas

AU - Hosseini, Masoumeh

AU - Bahman, Ideh

AU - Hucho, Tim

AU - Mühlenhoff, Martina

AU - Gerardy-Schahn, Rita

AU - Najmabadi, Hossein

AU - Ropers, H. Hilger

AU - Kuss, Andreas W.

PY - 2011

Y1 - 2011

N2 - The genetic variants leading to impairment of intellectual performance are highly diverse and are still poorly understood. ST3GAL3 encodes the Golgi enzyme β-galactoside-α2,3-sialyltransferase-III that in humans predominantly forms the sialyl Lewis a epitope on proteins. ST3GAL3 resides on chromosome 1 within the MRT4 locus previously identified to associate with nonsyndromic autosomal recessive intellectual disability. We searched for the disease-causing mutations in the MRT4 family and a second independent consanguineous Iranian family by using a combination of chromosome sorting and next-generation sequencing. Two different missense changes in ST3GAL3 cosegregate with the disease but were absent in more than 1000 control chromosomes. In cellular and biochemical test systems, these mutations were shown to cause ER retention of the Golgi enzyme and drastically impair ST3Gal-III functionality. Our data provide conclusive evidence that glycotopes formed by ST3Gal-III are prerequisite for attaining and/or maintaining higher cognitive functions

AB - The genetic variants leading to impairment of intellectual performance are highly diverse and are still poorly understood. ST3GAL3 encodes the Golgi enzyme β-galactoside-α2,3-sialyltransferase-III that in humans predominantly forms the sialyl Lewis a epitope on proteins. ST3GAL3 resides on chromosome 1 within the MRT4 locus previously identified to associate with nonsyndromic autosomal recessive intellectual disability. We searched for the disease-causing mutations in the MRT4 family and a second independent consanguineous Iranian family by using a combination of chromosome sorting and next-generation sequencing. Two different missense changes in ST3GAL3 cosegregate with the disease but were absent in more than 1000 control chromosomes. In cellular and biochemical test systems, these mutations were shown to cause ER retention of the Golgi enzyme and drastically impair ST3Gal-III functionality. Our data provide conclusive evidence that glycotopes formed by ST3Gal-III are prerequisite for attaining and/or maintaining higher cognitive functions

U2 - https://doi.org/10.1016/j.ajhg.2011.08.008

DO - https://doi.org/10.1016/j.ajhg.2011.08.008

M3 - Article

C2 - 21907012

SN - 0002-9297

VL - 89

SP - 407

EP - 414

JO - American journal of human genetics

JF - American journal of human genetics

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ER -