Contribution of CYLN2 and GTF2IRD1 to neurological and cognitive symptoms in Williams Syndrome

J. M. van Hagen; J. N. van der Geest; R. S. van der Giessen; G. C. Lagers-van Haselen; H. J. F. M. M. Eussen; J. J. P. Gille; L. C. P. Govaerts; C. H. Wouters; I. F. M. de Coo; C. C. Hoogenraad; S. K. E. Koekkoek; M. A. Frens; N. van Camp; A. van der Linden; M. C. E. Jansweijer; S. S. Thorgeirsson; C. I. de Zeeuw

doi:https://doi.org/10.1016/j.nbd.2006.12.009

Contribution of CYLN2 and GTF2IRD1 to neurological and cognitive symptoms in Williams Syndrome

J. M. van Hagen, J. N. van der Geest, R. S. van der Giessen, G. C. Lagers-van Haselen, H. J. F. M. M. Eussen, J. J. P. Gille, L. C. P. Govaerts, C. H. Wouters, I. F. M. de Coo, C. C. Hoogenraad, S. K. E. Koekkoek, M. A. Frens, N. van Camp, A. van der Linden, M. C. E. Jansweijer, S. S. Thorgeirsson, C. I. de Zeeuw

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Abstract

Williams Syndrome (WS, [MIM 194050]) is a disorder caused by a hemizygous deletion of 25-30 genes on chromosome 7q11.23. Several of these genes including those encoding cytoplasmic linker protein-115 (CYLN2) and general transcription factors (GTF2I and GTF2IRD1) are expressed in the brain and may contribute to the distinct neurological and cognitive deficits in WS patients. Recent studies of patients with partial deletions indicate that hemizygosity of GTF2I probably contributes to mental retardation in WS. Here we investigate whether CYLN2 and GTF2IRD1 contribute to the motoric and cognitive deficits in WS. Behavioral assessment of a new patient in which STX1A and LIMK1, but not CYLN2 and GTF2IRD1, are deleted showed that his cognitive and motor coordination functions were significantly better than in typical WS patients. Comparative analyses of gene specific CYLN2 and GTF2IRD1 knockout mice showed that a reduced size of the corpus callosum as well as deficits in motor coordination and hippocampal memory formation may be attributed to a deletion of CYLN2, while increased ventricle volume can be attributed to both CYLN2 and GTF2IRD1. We conclude that the motor and cognitive deficits in Williams Syndrome are caused by a variety of genes and that heterozygous deletion of CYLN2 is one of the major causes responsible for such dysfunctions

Original language	English
Pages (from-to)	112-124
Number of pages	13
Journal	Neurobiology of Disease
Volume	26
Issue number	1
DOIs	https://doi.org/10.1016/j.nbd.2006.12.009
Publication status	Published - Apr 2007

Keywords

Animals
Cognition/physiology
Conditioning, Operant/physiology
DNA/genetics
Eye Movements/physiology
Fear/psychology
In Situ Hybridization, Fluorescence
Intelligence Tests
Magnetic Resonance Imaging
Mice
Mice, Knockout
Microtubule-Associated Proteins/genetics
Motor Activity/physiology
Muscle Proteins/genetics
Nerve Tissue Proteins/genetics
Neuropsychological Tests
Nuclear Proteins/genetics
Postural Balance/physiology
Psychomotor Performance/physiology
Trans-Activators/genetics
Williams Syndrome/genetics

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https://doi.org/10.1016/j.nbd.2006.12.009

Cite this

van Hagen, J. M., van der Geest, J. N., van der Giessen, R. S., Lagers-van Haselen, G. C., Eussen, H. J. F. M. M., Gille, J. J. P., Govaerts, L. C. P., Wouters, C. H., de Coo, I. F. M., Hoogenraad, C. C., Koekkoek, S. K. E., Frens, M. A., van Camp, N., van der Linden, A., Jansweijer, M. C. E., Thorgeirsson, S. S., & de Zeeuw, C. I. (2007). Contribution of CYLN2 and GTF2IRD1 to neurological and cognitive symptoms in Williams Syndrome. Neurobiology of Disease, 26(1), 112-124. https://doi.org/10.1016/j.nbd.2006.12.009

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title = "Contribution of CYLN2 and GTF2IRD1 to neurological and cognitive symptoms in Williams Syndrome",

abstract = "Williams Syndrome (WS, [MIM 194050]) is a disorder caused by a hemizygous deletion of 25-30 genes on chromosome 7q11.23. Several of these genes including those encoding cytoplasmic linker protein-115 (CYLN2) and general transcription factors (GTF2I and GTF2IRD1) are expressed in the brain and may contribute to the distinct neurological and cognitive deficits in WS patients. Recent studies of patients with partial deletions indicate that hemizygosity of GTF2I probably contributes to mental retardation in WS. Here we investigate whether CYLN2 and GTF2IRD1 contribute to the motoric and cognitive deficits in WS. Behavioral assessment of a new patient in which STX1A and LIMK1, but not CYLN2 and GTF2IRD1, are deleted showed that his cognitive and motor coordination functions were significantly better than in typical WS patients. Comparative analyses of gene specific CYLN2 and GTF2IRD1 knockout mice showed that a reduced size of the corpus callosum as well as deficits in motor coordination and hippocampal memory formation may be attributed to a deletion of CYLN2, while increased ventricle volume can be attributed to both CYLN2 and GTF2IRD1. We conclude that the motor and cognitive deficits in Williams Syndrome are caused by a variety of genes and that heterozygous deletion of CYLN2 is one of the major causes responsible for such dysfunctions",

keywords = "Animals, Cognition/physiology, Conditioning, Operant/physiology, DNA/genetics, Eye Movements/physiology, Fear/psychology, In Situ Hybridization, Fluorescence, Intelligence Tests, Magnetic Resonance Imaging, Mice, Mice, Knockout, Microtubule-Associated Proteins/genetics, Motor Activity/physiology, Muscle Proteins/genetics, Nerve Tissue Proteins/genetics, Neuropsychological Tests, Nuclear Proteins/genetics, Postural Balance/physiology, Psychomotor Performance/physiology, Trans-Activators/genetics, Williams Syndrome/genetics",

author = "{van Hagen}, {J. M.} and {van der Geest}, {J. N.} and {van der Giessen}, {R. S.} and {Lagers-van Haselen}, {G. C.} and Eussen, {H. J. F. M. M.} and Gille, {J. J. P.} and Govaerts, {L. C. P.} and Wouters, {C. H.} and {de Coo}, {I. F. M.} and Hoogenraad, {C. C.} and Koekkoek, {S. K. E.} and Frens, {M. A.} and {van Camp}, N. and {van der Linden}, A. and Jansweijer, {M. C. E.} and Thorgeirsson, {S. S.} and {de Zeeuw}, {C. I.}",

year = "2007",

month = apr,

doi = "https://doi.org/10.1016/j.nbd.2006.12.009",

language = "English",

volume = "26",

pages = "112--124",

journal = "Neurobiology of Disease",

issn = "0969-9961",

publisher = "Academic Press Inc.",

number = "1",

}

van Hagen, JM, van der Geest, JN, van der Giessen, RS, Lagers-van Haselen, GC, Eussen, HJFMM, Gille, JJP, Govaerts, LCP, Wouters, CH, de Coo, IFM, Hoogenraad, CC, Koekkoek, SKE, Frens, MA, van Camp, N, van der Linden, A, Jansweijer, MCE, Thorgeirsson, SS & de Zeeuw, CI 2007, 'Contribution of CYLN2 and GTF2IRD1 to neurological and cognitive symptoms in Williams Syndrome', Neurobiology of Disease, vol. 26, no. 1, pp. 112-124. https://doi.org/10.1016/j.nbd.2006.12.009

TY - JOUR

T1 - Contribution of CYLN2 and GTF2IRD1 to neurological and cognitive symptoms in Williams Syndrome

AU - van Hagen, J. M.

AU - van der Geest, J. N.

AU - van der Giessen, R. S.

AU - Lagers-van Haselen, G. C.

AU - Eussen, H. J. F. M. M.

AU - Gille, J. J. P.

AU - Govaerts, L. C. P.

AU - Wouters, C. H.

AU - de Coo, I. F. M.

AU - Hoogenraad, C. C.

AU - Koekkoek, S. K. E.

AU - Frens, M. A.

AU - van Camp, N.

AU - van der Linden, A.

AU - Jansweijer, M. C. E.

AU - Thorgeirsson, S. S.

AU - de Zeeuw, C. I.

PY - 2007/4

Y1 - 2007/4

N2 - Williams Syndrome (WS, [MIM 194050]) is a disorder caused by a hemizygous deletion of 25-30 genes on chromosome 7q11.23. Several of these genes including those encoding cytoplasmic linker protein-115 (CYLN2) and general transcription factors (GTF2I and GTF2IRD1) are expressed in the brain and may contribute to the distinct neurological and cognitive deficits in WS patients. Recent studies of patients with partial deletions indicate that hemizygosity of GTF2I probably contributes to mental retardation in WS. Here we investigate whether CYLN2 and GTF2IRD1 contribute to the motoric and cognitive deficits in WS. Behavioral assessment of a new patient in which STX1A and LIMK1, but not CYLN2 and GTF2IRD1, are deleted showed that his cognitive and motor coordination functions were significantly better than in typical WS patients. Comparative analyses of gene specific CYLN2 and GTF2IRD1 knockout mice showed that a reduced size of the corpus callosum as well as deficits in motor coordination and hippocampal memory formation may be attributed to a deletion of CYLN2, while increased ventricle volume can be attributed to both CYLN2 and GTF2IRD1. We conclude that the motor and cognitive deficits in Williams Syndrome are caused by a variety of genes and that heterozygous deletion of CYLN2 is one of the major causes responsible for such dysfunctions

AB - Williams Syndrome (WS, [MIM 194050]) is a disorder caused by a hemizygous deletion of 25-30 genes on chromosome 7q11.23. Several of these genes including those encoding cytoplasmic linker protein-115 (CYLN2) and general transcription factors (GTF2I and GTF2IRD1) are expressed in the brain and may contribute to the distinct neurological and cognitive deficits in WS patients. Recent studies of patients with partial deletions indicate that hemizygosity of GTF2I probably contributes to mental retardation in WS. Here we investigate whether CYLN2 and GTF2IRD1 contribute to the motoric and cognitive deficits in WS. Behavioral assessment of a new patient in which STX1A and LIMK1, but not CYLN2 and GTF2IRD1, are deleted showed that his cognitive and motor coordination functions were significantly better than in typical WS patients. Comparative analyses of gene specific CYLN2 and GTF2IRD1 knockout mice showed that a reduced size of the corpus callosum as well as deficits in motor coordination and hippocampal memory formation may be attributed to a deletion of CYLN2, while increased ventricle volume can be attributed to both CYLN2 and GTF2IRD1. We conclude that the motor and cognitive deficits in Williams Syndrome are caused by a variety of genes and that heterozygous deletion of CYLN2 is one of the major causes responsible for such dysfunctions

KW - Animals

KW - Cognition/physiology

KW - Conditioning, Operant/physiology

KW - DNA/genetics

KW - Eye Movements/physiology

KW - Fear/psychology

KW - In Situ Hybridization, Fluorescence

KW - Intelligence Tests

KW - Magnetic Resonance Imaging

KW - Mice

KW - Mice, Knockout

KW - Microtubule-Associated Proteins/genetics

KW - Motor Activity/physiology

KW - Muscle Proteins/genetics

KW - Nerve Tissue Proteins/genetics

KW - Neuropsychological Tests

KW - Nuclear Proteins/genetics

KW - Postural Balance/physiology

KW - Psychomotor Performance/physiology

KW - Trans-Activators/genetics

KW - Williams Syndrome/genetics

U2 - https://doi.org/10.1016/j.nbd.2006.12.009

DO - https://doi.org/10.1016/j.nbd.2006.12.009

M3 - Article

C2 - 17270452

SN - 0969-9961

VL - 26

SP - 112

EP - 124

JO - Neurobiology of Disease

JF - Neurobiology of Disease

IS - 1

ER -