Clinical and functional characterization of the recurrent TUBA1A p.(ARG2HIS) mutation

Jennifer F. Gardner; Thomas D. Cushion; Georgios Niotakis; Heather E. Olson; P. Ellen Grant; Richard H. Scott; Neil Stoodley; Julie S. Cohen; Sakkubai Naidu; Tania Attie-Bitach; Maryse Bonnières; Lucile Boutaud; Férechté Encha-Razavi; Sheila M. Palmer-Smith; Hood Mugalaasi; Jonathan G.L. Mullins; Daniela T. Pilz; Andrew E. Fry

doi:10.3390/brainsci8080145

Clinical and functional characterization of the recurrent TUBA1A p.(ARG2HIS) mutation

Jennifer F. Gardner, Thomas D. Cushion, Georgios Niotakis, Heather E. Olson, P. Ellen Grant, Richard H. Scott, Neil Stoodley, Julie S. Cohen, Sakkubai Naidu, Tania Attie-Bitach, Maryse Bonnières, Lucile Boutaud, Férechté Encha-Razavi, Sheila M. Palmer-Smith, Hood Mugalaasi, Jonathan G.L. Mullins, Daniela T. Pilz, Andrew E. Fry

School of Medicine

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

6 Scopus citations

Abstract

The TUBA1A gene encodes tubulin alpha-1A, a protein that is highly expressed in the fetal brain. Alpha- and beta-tubulin subunits form dimers, which then co-assemble into microtubule polymers: dynamic, scaffold-like structures that perform key functions during neurogenesis, neuronal migration, and cortical organisation. Mutations in TUBA1A have been reported to cause a range of brain malformations. We describe four unrelated patients with the same de novo missense mutation in TUBA1A, c.5G>A, p.(Arg2His), as found by next generation sequencing. Detailed comparison revealed similar brain phenotypes with mild variability. Shared features included developmental delay, microcephaly, hypoplasia of the cerebellar vermis, dysplasia or thinning of the corpus callosum, small pons, and dysmorphic basal ganglia. Two of the patients had bilateral perisylvian polymicrogyria. We examined the effects of the p.(Arg2His) mutation by computer-based protein structure modelling and heterologous expression in HEK-293 cells. The results suggest the mutation subtly impairs microtubule function, potentially by affecting inter-dimer interaction. Based on its sequence context, c.5G>A is likely to be a common recurrent mutation. We propose that the subtle functional effects of p.(Arg2His) may allow for other factors (such as genetic background or environmental conditions) to influence phenotypic outcome, thus explaining the mild variability in clinical manifestations.

Original language	English (US)
Article number	145
Journal	Brain Sciences
Volume	8
Issue number	8
DOIs	https://doi.org/10.3390/brainsci8080145
State	Published - Aug 7 2018

Keywords

Cerebellar hypoplasia
P.(Arg2His)
Polymicrogyria
R2H
TUBA1A
Tubulin
Tubulinopathy

ASJC Scopus subject areas

Neuroscience(all)

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Gardner, J. F., Cushion, T. D., Niotakis, G., Olson, H. E., Grant, P. E., Scott, R. H., Stoodley, N., Cohen, J. S., Naidu, S., Attie-Bitach, T., Bonnières, M., Boutaud, L., Encha-Razavi, F., Palmer-Smith, S. M., Mugalaasi, H., Mullins, J. G. L., Pilz, D. T., & Fry, A. E. (2018). Clinical and functional characterization of the recurrent TUBA1A p.(ARG2HIS) mutation. Brain Sciences, 8(8), Article 145. https://doi.org/10.3390/brainsci8080145

Gardner, JF, Cushion, TD, Niotakis, G, Olson, HE, Grant, PE, Scott, RH, Stoodley, N, Cohen, JS , Naidu, S, Attie-Bitach, T, Bonnières, M, Boutaud, L, Encha-Razavi, F, Palmer-Smith, SM, Mugalaasi, H, Mullins, JGL, Pilz, DT & Fry, AE 2018, 'Clinical and functional characterization of the recurrent TUBA1A p.(ARG2HIS) mutation', Brain Sciences, vol. 8, no. 8, 145. https://doi.org/10.3390/brainsci8080145

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title = "Clinical and functional characterization of the recurrent TUBA1A p.(ARG2HIS) mutation",

abstract = "The TUBA1A gene encodes tubulin alpha-1A, a protein that is highly expressed in the fetal brain. Alpha- and beta-tubulin subunits form dimers, which then co-assemble into microtubule polymers: dynamic, scaffold-like structures that perform key functions during neurogenesis, neuronal migration, and cortical organisation. Mutations in TUBA1A have been reported to cause a range of brain malformations. We describe four unrelated patients with the same de novo missense mutation in TUBA1A, c.5G>A, p.(Arg2His), as found by next generation sequencing. Detailed comparison revealed similar brain phenotypes with mild variability. Shared features included developmental delay, microcephaly, hypoplasia of the cerebellar vermis, dysplasia or thinning of the corpus callosum, small pons, and dysmorphic basal ganglia. Two of the patients had bilateral perisylvian polymicrogyria. We examined the effects of the p.(Arg2His) mutation by computer-based protein structure modelling and heterologous expression in HEK-293 cells. The results suggest the mutation subtly impairs microtubule function, potentially by affecting inter-dimer interaction. Based on its sequence context, c.5G>A is likely to be a common recurrent mutation. We propose that the subtle functional effects of p.(Arg2His) may allow for other factors (such as genetic background or environmental conditions) to influence phenotypic outcome, thus explaining the mild variability in clinical manifestations.",

keywords = "Cerebellar hypoplasia, P.(Arg2His), Polymicrogyria, R2H, TUBA1A, Tubulin, Tubulinopathy",

author = "Gardner, {Jennifer F.} and Cushion, {Thomas D.} and Georgios Niotakis and Olson, {Heather E.} and Grant, {P. Ellen} and Scott, {Richard H.} and Neil Stoodley and Cohen, {Julie S.} and Sakkubai Naidu and Tania Attie-Bitach and Maryse Bonni{\`e}res and Lucile Boutaud and F{\'e}recht{\'e} Encha-Razavi and Palmer-Smith, {Sheila M.} and Hood Mugalaasi and Mullins, {Jonathan G.L.} and Pilz, {Daniela T.} and Fry, {Andrew E.}",

note = "Funding Information: Funding: The project was supported by the Wales Gene Park and the Wales Epilepsy Research Network. Publisher Copyright: {\textcopyright} 2018 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2018",

month = aug,

day = "7",

doi = "10.3390/brainsci8080145",

language = "English (US)",

volume = "8",

journal = "Brain Sciences",

issn = "2076-3425",

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T1 - Clinical and functional characterization of the recurrent TUBA1A p.(ARG2HIS) mutation

AU - Gardner, Jennifer F.

AU - Cushion, Thomas D.

AU - Niotakis, Georgios

AU - Olson, Heather E.

AU - Grant, P. Ellen

AU - Scott, Richard H.

AU - Stoodley, Neil

AU - Cohen, Julie S.

AU - Naidu, Sakkubai

AU - Attie-Bitach, Tania

AU - Bonnières, Maryse

AU - Boutaud, Lucile

AU - Encha-Razavi, Férechté

AU - Palmer-Smith, Sheila M.

AU - Mugalaasi, Hood

AU - Mullins, Jonathan G.L.

AU - Pilz, Daniela T.

AU - Fry, Andrew E.

N1 - Funding Information: Funding: The project was supported by the Wales Gene Park and the Wales Epilepsy Research Network. Publisher Copyright: © 2018 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2018/8/7

Y1 - 2018/8/7

N2 - The TUBA1A gene encodes tubulin alpha-1A, a protein that is highly expressed in the fetal brain. Alpha- and beta-tubulin subunits form dimers, which then co-assemble into microtubule polymers: dynamic, scaffold-like structures that perform key functions during neurogenesis, neuronal migration, and cortical organisation. Mutations in TUBA1A have been reported to cause a range of brain malformations. We describe four unrelated patients with the same de novo missense mutation in TUBA1A, c.5G>A, p.(Arg2His), as found by next generation sequencing. Detailed comparison revealed similar brain phenotypes with mild variability. Shared features included developmental delay, microcephaly, hypoplasia of the cerebellar vermis, dysplasia or thinning of the corpus callosum, small pons, and dysmorphic basal ganglia. Two of the patients had bilateral perisylvian polymicrogyria. We examined the effects of the p.(Arg2His) mutation by computer-based protein structure modelling and heterologous expression in HEK-293 cells. The results suggest the mutation subtly impairs microtubule function, potentially by affecting inter-dimer interaction. Based on its sequence context, c.5G>A is likely to be a common recurrent mutation. We propose that the subtle functional effects of p.(Arg2His) may allow for other factors (such as genetic background or environmental conditions) to influence phenotypic outcome, thus explaining the mild variability in clinical manifestations.

AB - The TUBA1A gene encodes tubulin alpha-1A, a protein that is highly expressed in the fetal brain. Alpha- and beta-tubulin subunits form dimers, which then co-assemble into microtubule polymers: dynamic, scaffold-like structures that perform key functions during neurogenesis, neuronal migration, and cortical organisation. Mutations in TUBA1A have been reported to cause a range of brain malformations. We describe four unrelated patients with the same de novo missense mutation in TUBA1A, c.5G>A, p.(Arg2His), as found by next generation sequencing. Detailed comparison revealed similar brain phenotypes with mild variability. Shared features included developmental delay, microcephaly, hypoplasia of the cerebellar vermis, dysplasia or thinning of the corpus callosum, small pons, and dysmorphic basal ganglia. Two of the patients had bilateral perisylvian polymicrogyria. We examined the effects of the p.(Arg2His) mutation by computer-based protein structure modelling and heterologous expression in HEK-293 cells. The results suggest the mutation subtly impairs microtubule function, potentially by affecting inter-dimer interaction. Based on its sequence context, c.5G>A is likely to be a common recurrent mutation. We propose that the subtle functional effects of p.(Arg2His) may allow for other factors (such as genetic background or environmental conditions) to influence phenotypic outcome, thus explaining the mild variability in clinical manifestations.

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KW - R2H

KW - TUBA1A

KW - Tubulin

KW - Tubulinopathy

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Clinical and functional characterization of the recurrent TUBA1A p.(ARG2HIS) mutation

Abstract

Keywords

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