Further support for an association between a polymorphic CAG repeat in the hKCa3 gene and schizophrenia

T. Bowen; C. A. Guy; N. Craddock; A. G. Cardno; N. M. Williams; G. Spurlock; K. C. Murphy; L. A. Jones; M. Gray; R. D. Sanders; G. McCarthy; K. G. Chandy; E. Fantino; K. Kalman; G. A. Gutman; J. J. Gargus; J. Williams; P. McGuffin; M. J. Owen; M. C. O'Donovan

doi:10.1038/sj.mp.4000400

Further support for an association between a polymorphic CAG repeat in the hKCa3 gene and schizophrenia

T. Bowen
, C. A. Guy
, N. Craddock
, A. G. Cardno
, N. M. Williams
, G. Spurlock
, K. C. Murphy
, L. A. Jones
, M. Gray
, R. D. Sanders
, G. McCarthy
, K. G. Chandy
, E. Fantino
, K. Kalman
, G. A. Gutman
, J. J. Gargus
, J. Williams
, P. McGuffin
, M. J. Owen
, M. C. O'Donovan

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

60 Citations (Scopus)

Abstract

A recent study has suggested that a polymorphism in the hKCa3 potassium channel may be associated with raised susceptibility to schizophrenia. Despite its modest statistical significance, the study is intriguing for two reasons. First, hKCa3 contains a polymorphic CAG repeat in its coding sequence, with large repeats more common in schizophrenics compared with controls. This is interesting in view of several repeat expansion detection (RED) studies that have reported an excess of large CAG repeats in psychotic probands. Second, the hKCa3 gene is a functional candidate gene because studies of antipsychotic and psychotogenic compounds suggest that glutamatergic systems modulated by SKCa channels may be important in schizophrenia pathogenesis. In the light of the above, we have tested the hypothesis of an association between schizophrenia and the hKCa3 CAG repeat polymorphism using a case control study design. Under the same model of analysis as the earlier study, schizophrenic probands had a higher frequency of alleles with greater than 19 repeats than controls (χ² = 2.820, P = 0.047, 1-tail). Our data therefore provide modest support for the hypothesis that polymorphism in the hKCa3 gene may contribute to susceptibility to schizophrenia.

Original language	English
Pages (from-to)	266-269
Number of pages	4
Journal	Molecular Psychiatry
Volume	3
Issue number	3
DOIs	https://doi.org/10.1038/sj.mp.4000400
Publication status	Published - 1998
Externally published	Yes

Keywords

Association
Potassium channels
Schizophrenia
Trinucleotide repeats

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10.1038/sj.mp.4000400

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Bowen, T., Guy, C. A., Craddock, N., Cardno, A. G., Williams, N. M., Spurlock, G., Murphy, K. C., Jones, L. A., Gray, M., Sanders, R. D., McCarthy, G., Chandy, K. G., Fantino, E., Kalman, K., Gutman, G. A., Gargus, J. J., Williams, J., McGuffin, P., Owen, M. J., & O'Donovan, M. C. (1998). Further support for an association between a polymorphic CAG repeat in the hKCa3 gene and schizophrenia. Molecular Psychiatry, 3(3), 266-269. https://doi.org/10.1038/sj.mp.4000400

@article{5eec2069f81e42f39889afc6a39a8006,

title = "Further support for an association between a polymorphic CAG repeat in the hKCa3 gene and schizophrenia",

abstract = "A recent study has suggested that a polymorphism in the hKCa3 potassium channel may be associated with raised susceptibility to schizophrenia. Despite its modest statistical significance, the study is intriguing for two reasons. First, hKCa3 contains a polymorphic CAG repeat in its coding sequence, with large repeats more common in schizophrenics compared with controls. This is interesting in view of several repeat expansion detection (RED) studies that have reported an excess of large CAG repeats in psychotic probands. Second, the hKCa3 gene is a functional candidate gene because studies of antipsychotic and psychotogenic compounds suggest that glutamatergic systems modulated by SKCa channels may be important in schizophrenia pathogenesis. In the light of the above, we have tested the hypothesis of an association between schizophrenia and the hKCa3 CAG repeat polymorphism using a case control study design. Under the same model of analysis as the earlier study, schizophrenic probands had a higher frequency of alleles with greater than 19 repeats than controls (χ2 = 2.820, P = 0.047, 1-tail). Our data therefore provide modest support for the hypothesis that polymorphism in the hKCa3 gene may contribute to susceptibility to schizophrenia.",

keywords = "Association, Potassium channels, Schizophrenia, Trinucleotide repeats",

author = "T. Bowen and Guy, \{C. A.\} and N. Craddock and Cardno, \{A. G.\} and Williams, \{N. M.\} and G. Spurlock and Murphy, \{K. C.\} and Jones, \{L. A.\} and M. Gray and Sanders, \{R. D.\} and G. McCarthy and Chandy, \{K. G.\} and E. Fantino and K. Kalman and Gutman, \{G. A.\} and Gargus, \{J. J.\} and J. Williams and P. McGuffin and Owen, \{M. J.\} and O'Donovan, \{M. C.\}",

year = "1998",

doi = "10.1038/sj.mp.4000400",

language = "English",

volume = "3",

pages = "266--269",

journal = "Molecular Psychiatry",

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Bowen, T, Guy, CA, Craddock, N, Cardno, AG, Williams, NM, Spurlock, G, Murphy, KC, Jones, LA, Gray, M, Sanders, RD, McCarthy, G, Chandy, KG, Fantino, E, Kalman, K, Gutman, GA, Gargus, JJ, Williams, J, McGuffin, P, Owen, MJ & O'Donovan, MC 1998, 'Further support for an association between a polymorphic CAG repeat in the hKCa3 gene and schizophrenia', Molecular Psychiatry, vol. 3, no. 3, pp. 266-269. https://doi.org/10.1038/sj.mp.4000400

TY - JOUR

T1 - Further support for an association between a polymorphic CAG repeat in the hKCa3 gene and schizophrenia

AU - Bowen, T.

AU - Guy, C. A.

AU - Craddock, N.

AU - Cardno, A. G.

AU - Williams, N. M.

AU - Spurlock, G.

AU - Murphy, K. C.

AU - Jones, L. A.

AU - Gray, M.

AU - Sanders, R. D.

AU - McCarthy, G.

AU - Chandy, K. G.

AU - Fantino, E.

AU - Kalman, K.

AU - Gutman, G. A.

AU - Gargus, J. J.

AU - Williams, J.

AU - McGuffin, P.

AU - Owen, M. J.

AU - O'Donovan, M. C.

PY - 1998

Y1 - 1998

N2 - A recent study has suggested that a polymorphism in the hKCa3 potassium channel may be associated with raised susceptibility to schizophrenia. Despite its modest statistical significance, the study is intriguing for two reasons. First, hKCa3 contains a polymorphic CAG repeat in its coding sequence, with large repeats more common in schizophrenics compared with controls. This is interesting in view of several repeat expansion detection (RED) studies that have reported an excess of large CAG repeats in psychotic probands. Second, the hKCa3 gene is a functional candidate gene because studies of antipsychotic and psychotogenic compounds suggest that glutamatergic systems modulated by SKCa channels may be important in schizophrenia pathogenesis. In the light of the above, we have tested the hypothesis of an association between schizophrenia and the hKCa3 CAG repeat polymorphism using a case control study design. Under the same model of analysis as the earlier study, schizophrenic probands had a higher frequency of alleles with greater than 19 repeats than controls (χ2 = 2.820, P = 0.047, 1-tail). Our data therefore provide modest support for the hypothesis that polymorphism in the hKCa3 gene may contribute to susceptibility to schizophrenia.

AB - A recent study has suggested that a polymorphism in the hKCa3 potassium channel may be associated with raised susceptibility to schizophrenia. Despite its modest statistical significance, the study is intriguing for two reasons. First, hKCa3 contains a polymorphic CAG repeat in its coding sequence, with large repeats more common in schizophrenics compared with controls. This is interesting in view of several repeat expansion detection (RED) studies that have reported an excess of large CAG repeats in psychotic probands. Second, the hKCa3 gene is a functional candidate gene because studies of antipsychotic and psychotogenic compounds suggest that glutamatergic systems modulated by SKCa channels may be important in schizophrenia pathogenesis. In the light of the above, we have tested the hypothesis of an association between schizophrenia and the hKCa3 CAG repeat polymorphism using a case control study design. Under the same model of analysis as the earlier study, schizophrenic probands had a higher frequency of alleles with greater than 19 repeats than controls (χ2 = 2.820, P = 0.047, 1-tail). Our data therefore provide modest support for the hypothesis that polymorphism in the hKCa3 gene may contribute to susceptibility to schizophrenia.

KW - Association

KW - Potassium channels

KW - Schizophrenia

KW - Trinucleotide repeats

UR - https://www.scopus.com/pages/publications/7144262383

U2 - 10.1038/sj.mp.4000400

DO - 10.1038/sj.mp.4000400

M3 - Article

SN - 1359-4184

VL - 3

SP - 266

EP - 269

JO - Molecular Psychiatry

JF - Molecular Psychiatry

IS - 3

ER -

Further support for an association between a polymorphic CAG repeat in the hKCa3 gene and schizophrenia

Abstract

Keywords

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