Clustered mutations in the GRIK2 kainate receptor subunit gene underlie diverse neurodevelopmental disorders

Jacob R. Stolz; Kendall M. Foote; Hermine E. Veenstra-Knol; Rolph Pfundt; Sanne W. ten Broeke; Nicole de Leeuw; Laura Roht; Sander Pajusalu; Reelika Part; Ionella Rebane; Katrin Õunap; Zornitza Stark; Edwin P. Kirk; John A. Lawson; Sebastian Lunke; John Christodoulou; Raymond J. Louie; R. Curtis Rogers; Jessica M. Davis; A. Micheil Innes; Xing Chang Wei; Boris Keren; Cyril Mignot; Robert Roger Lebel; Steven M. Sperber; Ai Sakonju; Nienke Dosa; Daniela Q.C.M. Barge-Schaapveld; Cacha M.P.C.D. Peeters-Scholte; Claudia A.L. Ruivenkamp; Bregje W. van Bon; Joanna Kennedy; Karen J. Low; Sian Ellard; Lewis Pang; Joseph J. Junewick; Paul R. Mark; Gemma L. Carvill; Geoffrey T. Swanson

doi:10.1016/j.ajhg.2021.07.007

Clustered mutations in the GRIK2 kainate receptor subunit gene underlie diverse neurodevelopmental disorders

Jacob R. Stolz, Kendall M. Foote, Hermine E. Veenstra-Knol, Rolph Pfundt, Sanne W. ten Broeke, Nicole de Leeuw, Laura Roht, Sander Pajusalu, Reelika Part, Ionella Rebane, Katrin Õunap, Zornitza Stark, Edwin P. Kirk, John A. Lawson, Sebastian Lunke, John Christodoulou, Raymond J. Louie, R. Curtis Rogers, Jessica M. Davis, A. Micheil InnesXing Chang Wei, Boris Keren, Cyril Mignot, Robert Roger Lebel, Steven M. Sperber, Ai Sakonju, Nienke Dosa, Daniela Q.C.M. Barge-Schaapveld, Cacha M.P.C.D. Peeters-Scholte, Claudia A.L. Ruivenkamp, Bregje W. van Bon, Joanna Kennedy, Karen J. Low, Sian Ellard, Lewis Pang, Joseph J. Junewick, Paul R. Mark, Gemma L. Carvill, Geoffrey T. Swanson^*

^*Corresponding author for this work

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

18 Scopus citations

Abstract

Kainate receptors (KARs) are glutamate-gated cation channels with diverse roles in the central nervous system. Bi-allelic loss of function of the KAR-encoding gene GRIK2 causes a nonsyndromic neurodevelopmental disorder (NDD) with intellectual disability and developmental delay as core features. The extent to which mono-allelic variants in GRIK2 also underlie NDDs is less understood because only a single individual has been reported previously. Here, we describe an additional eleven individuals with heterozygous de novo variants in GRIK2 causative for neurodevelopmental deficits that include intellectual disability. Five children harbored recurrent de novo variants (three encoding p.Thr660Lys and two p.Thr660Arg), and four children and one adult were homozygous for a previously reported variant (c.1969G>A [p.Ala657Thr]). Individuals with shared variants had some overlapping behavioral and neurological dysfunction, suggesting that the GRIK2 variants are likely pathogenic. Analogous mutations introduced into recombinant GluK2 KAR subunits at sites within the M3 transmembrane domain (encoding p.Ala657Thr, p.Thr660Lys, and p.Thr660Arg) and the M3-S2 linker domain (encoding p.Ile668Thr) had complex effects on functional properties and membrane localization of homomeric and heteromeric KARs. Both p.Thr660Lys and p.Thr660Arg mutant KARs exhibited markedly slowed gating kinetics, similar to p.Ala657Thr-containing receptors. Moreover, we observed emerging genotype-phenotype correlations, including the presence of severe epilepsy in individuals with the p.Thr660Lys variant and hypomyelination in individuals with either the p.Thr660Lys or p.Thr660Arg variant. Collectively, these results demonstrate that human GRIK2 variants predicted to alter channel function are causative for early childhood development disorders and further emphasize the importance of clarifying the role of KARs in early nervous system development.

Original language	English (US)
Pages (from-to)	1692-1709
Number of pages	18
Journal	American journal of human genetics
Volume	108
Issue number	9
DOIs	https://doi.org/10.1016/j.ajhg.2021.07.007
State	Published - Sep 2 2021

Funding

This work was supported by grants from the National Institute for Neurological Disorders and Stroke to G.T.S. (R01NS105502) and to G.L.C. (R00NS089858). G.T.S. thanks the Murphy family for additional support for these studies. The Acute Care Flagship of the Australian Genomics Health Alliances is supported by grants from the Sydney Children's Hospital Network and the National Health and Medical Research Council (GNT1113531). K.?. and S.P. were supported by Estonian Research Council grants PRG471, MOBTP175, and PUTJD827. The research conducted at the Murdoch Children's Research Institute was supported by the Victorian Government's Operational Infrastructure Support Program. We are grateful to the families of the individuals for their willingness to participate in this effort. The authors declare no competing interests. This work was supported by grants from the National Institute for Neurological Disorders and Stroke to G.T.S. ( R01NS105502 ) and to G.L.C. ( R00NS089858 ). G.T.S. thanks the Murphy family for additional support for these studies. The Acute Care Flagship of the Australian Genomics Health Alliances is supported by grants from the Sydney Children\u2019s Hospital Network and the National Health and Medical Research Council ( GNT1113531 ). K.\u00D5. and S.P. were supported by Estonian Research Council grants PRG471 , MOBTP175 , and PUTJD827 . The research conducted at the Murdoch Children\u2019s Research Institute was supported by the Victorian Government\u2019s Operational Infrastructure Support Program . We are grateful to the families of the individuals for their willingness to participate in this effort.

Keywords

GluK2
ataxia
channel gating
electrophysiology
epilepsy
glutamate receptor
intellectual disability
white matter abnormalities
whole-exome sequencing

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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10.1016/j.ajhg.2021.07.007

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Stolz, J. R., Foote, K. M., Veenstra-Knol, H. E., Pfundt, R., ten Broeke, S. W., de Leeuw, N., Roht, L., Pajusalu, S., Part, R., Rebane, I., Õunap, K., Stark, Z., Kirk, E. P., Lawson, J. A., Lunke, S., Christodoulou, J., Louie, R. J., Rogers, R. C., Davis, J. M., ... Swanson, G. T. (2021). Clustered mutations in the GRIK2 kainate receptor subunit gene underlie diverse neurodevelopmental disorders. American journal of human genetics, 108(9), 1692-1709. https://doi.org/10.1016/j.ajhg.2021.07.007

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abstract = "Kainate receptors (KARs) are glutamate-gated cation channels with diverse roles in the central nervous system. Bi-allelic loss of function of the KAR-encoding gene GRIK2 causes a nonsyndromic neurodevelopmental disorder (NDD) with intellectual disability and developmental delay as core features. The extent to which mono-allelic variants in GRIK2 also underlie NDDs is less understood because only a single individual has been reported previously. Here, we describe an additional eleven individuals with heterozygous de novo variants in GRIK2 causative for neurodevelopmental deficits that include intellectual disability. Five children harbored recurrent de novo variants (three encoding p.Thr660Lys and two p.Thr660Arg), and four children and one adult were homozygous for a previously reported variant (c.1969G>A [p.Ala657Thr]). Individuals with shared variants had some overlapping behavioral and neurological dysfunction, suggesting that the GRIK2 variants are likely pathogenic. Analogous mutations introduced into recombinant GluK2 KAR subunits at sites within the M3 transmembrane domain (encoding p.Ala657Thr, p.Thr660Lys, and p.Thr660Arg) and the M3-S2 linker domain (encoding p.Ile668Thr) had complex effects on functional properties and membrane localization of homomeric and heteromeric KARs. Both p.Thr660Lys and p.Thr660Arg mutant KARs exhibited markedly slowed gating kinetics, similar to p.Ala657Thr-containing receptors. Moreover, we observed emerging genotype-phenotype correlations, including the presence of severe epilepsy in individuals with the p.Thr660Lys variant and hypomyelination in individuals with either the p.Thr660Lys or p.Thr660Arg variant. Collectively, these results demonstrate that human GRIK2 variants predicted to alter channel function are causative for early childhood development disorders and further emphasize the importance of clarifying the role of KARs in early nervous system development.",

keywords = "GluK2, ataxia, channel gating, electrophysiology, epilepsy, glutamate receptor, intellectual disability, white matter abnormalities, whole-exome sequencing",

author = "Stolz, {Jacob R.} and Foote, {Kendall M.} and Veenstra-Knol, {Hermine E.} and Rolph Pfundt and {ten Broeke}, {Sanne W.} and {de Leeuw}, Nicole and Laura Roht and Sander Pajusalu and Reelika Part and Ionella Rebane and Katrin {\~O}unap and Zornitza Stark and Kirk, {Edwin P.} and Lawson, {John A.} and Sebastian Lunke and John Christodoulou and Louie, {Raymond J.} and Rogers, {R. Curtis} and Davis, {Jessica M.} and Innes, {A. Micheil} and Wei, {Xing Chang} and Boris Keren and Cyril Mignot and Lebel, {Robert Roger} and Sperber, {Steven M.} and Ai Sakonju and Nienke Dosa and Barge-Schaapveld, {Daniela Q.C.M.} and Peeters-Scholte, {Cacha M.P.C.D.} and Ruivenkamp, {Claudia A.L.} and {van Bon}, {Bregje W.} and Joanna Kennedy and Low, {Karen J.} and Sian Ellard and Lewis Pang and Junewick, {Joseph J.} and Mark, {Paul R.} and Carvill, {Gemma L.} and Swanson, {Geoffrey T.}",

note = "Publisher Copyright: {\textcopyright} 2021 American Society of Human Genetics",

year = "2021",

month = sep,

day = "2",

doi = "10.1016/j.ajhg.2021.07.007",

language = "English (US)",

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pages = "1692--1709",

journal = "American journal of human genetics",

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Stolz, JR, Foote, KM, Veenstra-Knol, HE, Pfundt, R, ten Broeke, SW, de Leeuw, N, Roht, L, Pajusalu, S, Part, R, Rebane, I, Õunap, K, Stark, Z, Kirk, EP, Lawson, JA, Lunke, S, Christodoulou, J, Louie, RJ, Rogers, RC, Davis, JM, Innes, AM, Wei, XC, Keren, B, Mignot, C, Lebel, RR, Sperber, SM, Sakonju, A, Dosa, N, Barge-Schaapveld, DQCM, Peeters-Scholte, CMPCD, Ruivenkamp, CAL, van Bon, BW, Kennedy, J, Low, KJ, Ellard, S, Pang, L, Junewick, JJ, Mark, PR, Carvill, GL & Swanson, GT 2021, 'Clustered mutations in the GRIK2 kainate receptor subunit gene underlie diverse neurodevelopmental disorders', American journal of human genetics, vol. 108, no. 9, pp. 1692-1709. https://doi.org/10.1016/j.ajhg.2021.07.007

TY - JOUR

T1 - Clustered mutations in the GRIK2 kainate receptor subunit gene underlie diverse neurodevelopmental disorders

AU - Stolz, Jacob R.

AU - Foote, Kendall M.

AU - Veenstra-Knol, Hermine E.

AU - Pfundt, Rolph

AU - ten Broeke, Sanne W.

AU - de Leeuw, Nicole

AU - Roht, Laura

AU - Pajusalu, Sander

AU - Part, Reelika

AU - Rebane, Ionella

AU - Õunap, Katrin

AU - Stark, Zornitza

AU - Kirk, Edwin P.

AU - Lawson, John A.

AU - Lunke, Sebastian

AU - Christodoulou, John

AU - Louie, Raymond J.

AU - Rogers, R. Curtis

AU - Davis, Jessica M.

AU - Innes, A. Micheil

AU - Wei, Xing Chang

AU - Keren, Boris

AU - Mignot, Cyril

AU - Lebel, Robert Roger

AU - Sperber, Steven M.

AU - Sakonju, Ai

AU - Dosa, Nienke

AU - Barge-Schaapveld, Daniela Q.C.M.

AU - Peeters-Scholte, Cacha M.P.C.D.

AU - Ruivenkamp, Claudia A.L.

AU - van Bon, Bregje W.

AU - Kennedy, Joanna

AU - Low, Karen J.

AU - Ellard, Sian

AU - Pang, Lewis

AU - Junewick, Joseph J.

AU - Mark, Paul R.

AU - Carvill, Gemma L.

AU - Swanson, Geoffrey T.

PY - 2021/9/2

Y1 - 2021/9/2

N2 - Kainate receptors (KARs) are glutamate-gated cation channels with diverse roles in the central nervous system. Bi-allelic loss of function of the KAR-encoding gene GRIK2 causes a nonsyndromic neurodevelopmental disorder (NDD) with intellectual disability and developmental delay as core features. The extent to which mono-allelic variants in GRIK2 also underlie NDDs is less understood because only a single individual has been reported previously. Here, we describe an additional eleven individuals with heterozygous de novo variants in GRIK2 causative for neurodevelopmental deficits that include intellectual disability. Five children harbored recurrent de novo variants (three encoding p.Thr660Lys and two p.Thr660Arg), and four children and one adult were homozygous for a previously reported variant (c.1969G>A [p.Ala657Thr]). Individuals with shared variants had some overlapping behavioral and neurological dysfunction, suggesting that the GRIK2 variants are likely pathogenic. Analogous mutations introduced into recombinant GluK2 KAR subunits at sites within the M3 transmembrane domain (encoding p.Ala657Thr, p.Thr660Lys, and p.Thr660Arg) and the M3-S2 linker domain (encoding p.Ile668Thr) had complex effects on functional properties and membrane localization of homomeric and heteromeric KARs. Both p.Thr660Lys and p.Thr660Arg mutant KARs exhibited markedly slowed gating kinetics, similar to p.Ala657Thr-containing receptors. Moreover, we observed emerging genotype-phenotype correlations, including the presence of severe epilepsy in individuals with the p.Thr660Lys variant and hypomyelination in individuals with either the p.Thr660Lys or p.Thr660Arg variant. Collectively, these results demonstrate that human GRIK2 variants predicted to alter channel function are causative for early childhood development disorders and further emphasize the importance of clarifying the role of KARs in early nervous system development.

AB - Kainate receptors (KARs) are glutamate-gated cation channels with diverse roles in the central nervous system. Bi-allelic loss of function of the KAR-encoding gene GRIK2 causes a nonsyndromic neurodevelopmental disorder (NDD) with intellectual disability and developmental delay as core features. The extent to which mono-allelic variants in GRIK2 also underlie NDDs is less understood because only a single individual has been reported previously. Here, we describe an additional eleven individuals with heterozygous de novo variants in GRIK2 causative for neurodevelopmental deficits that include intellectual disability. Five children harbored recurrent de novo variants (three encoding p.Thr660Lys and two p.Thr660Arg), and four children and one adult were homozygous for a previously reported variant (c.1969G>A [p.Ala657Thr]). Individuals with shared variants had some overlapping behavioral and neurological dysfunction, suggesting that the GRIK2 variants are likely pathogenic. Analogous mutations introduced into recombinant GluK2 KAR subunits at sites within the M3 transmembrane domain (encoding p.Ala657Thr, p.Thr660Lys, and p.Thr660Arg) and the M3-S2 linker domain (encoding p.Ile668Thr) had complex effects on functional properties and membrane localization of homomeric and heteromeric KARs. Both p.Thr660Lys and p.Thr660Arg mutant KARs exhibited markedly slowed gating kinetics, similar to p.Ala657Thr-containing receptors. Moreover, we observed emerging genotype-phenotype correlations, including the presence of severe epilepsy in individuals with the p.Thr660Lys variant and hypomyelination in individuals with either the p.Thr660Lys or p.Thr660Arg variant. Collectively, these results demonstrate that human GRIK2 variants predicted to alter channel function are causative for early childhood development disorders and further emphasize the importance of clarifying the role of KARs in early nervous system development.

KW - GluK2

KW - ataxia

KW - channel gating

KW - electrophysiology

KW - epilepsy

KW - glutamate receptor

KW - intellectual disability

KW - white matter abnormalities

KW - whole-exome sequencing

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U2 - 10.1016/j.ajhg.2021.07.007

DO - 10.1016/j.ajhg.2021.07.007

M3 - Article

C2 - 34375587

AN - SCOPUS:85114039040

SN - 0002-9297

VL - 108

SP - 1692

EP - 1709

JO - American journal of human genetics

JF - American journal of human genetics

IS - 9

ER -

Clustered mutations in the GRIK2 kainate receptor subunit gene underlie diverse neurodevelopmental disorders

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