Uner Tan syndrome caused by a homozygous TUBB2B mutation affecting microtubule stability

Breuss M, Nguyen T, Srivatsan A, Leca I, Tian G, Fritz T, Hansen AH, Musaev D, Mcevoy Venneri J, Kiely J, Rosti R, Scott E, Tan U, Kolodner R, Cowan N, Keays D, Gleeson J. 2017. Uner Tan syndrome caused by a homozygous TUBB2B mutation affecting microtubule stability. Human Molecular Genetics. 26(2), 258–269.

Download
No fulltext has been uploaded. References only!

Journal Article | Published | English

Scopus indexed
Author
Breuss, Martin; Nguyen, Thai; Srivatsan, Anjana; Leca, Ines; Tian, Guoling; Fritz, Tanja; Hansen, Andi HISTA; Musaev, Damir; Mcevoy Venneri, Jennifer; Kiely, James; Rosti, Rasim; Scott, Eric
All
Department
Abstract
The integrity and dynamic properties of the microtubule cytoskeleton are indispensable for the development of the mammalian brain. Consequently, mutations in the genes that encode the structural component (the α/β-tubulin heterodimer) can give rise to severe, sporadic neurodevelopmental disorders. These are commonly referred to as the tubulinopathies. Here we report the addition of recessive quadrupedalism, also known as Uner Tan syndrome (UTS), to the growing list of diseases caused by tubulin variants. Analysis of a consanguineous UTS family identified a biallelic TUBB2B mutation, resulting in a p.R390Q amino acid substitution. In addition to the identifying quadrupedal locomotion, all three patients showed severe cerebellar hypoplasia. None, however, displayed the basal ganglia malformations typically associated with TUBB2B mutations. Functional analysis of the R390Q substitution revealed that it did not affect the ability of β-tubulin to fold or become assembled into the α/β-heterodimer, nor did it influence the incorporation of mutant-containing heterodimers into microtubule polymers. The 390Q mutation in S. cerevisiae TUB2 did not affect growth under basal conditions, but did result in increased sensitivity to microtubule-depolymerizing drugs, indicative of a mild impact of this mutation on microtubule function. The TUBB2B mutation described here represents an unusual recessive mode of inheritance for missense-mediated tubulinopathies and reinforces the sensitivity of the developing cerebellum to microtubule defects.
Publishing Year
Date Published
2017-01-01
Journal Title
Human Molecular Genetics
Publisher
Oxford University Press
Volume
26
Issue
2
Page
258 - 269
ISSN
IST-REx-ID

Cite this

Breuss M, Nguyen T, Srivatsan A, et al. Uner Tan syndrome caused by a homozygous TUBB2B mutation affecting microtubule stability. Human Molecular Genetics. 2017;26(2):258-269. doi:10.1093/hmg/ddw383
Breuss, M., Nguyen, T., Srivatsan, A., Leca, I., Tian, G., Fritz, T., … Gleeson, J. (2017). Uner Tan syndrome caused by a homozygous TUBB2B mutation affecting microtubule stability. Human Molecular Genetics. Oxford University Press. https://doi.org/10.1093/hmg/ddw383
Breuss, Martin, Thai Nguyen, Anjana Srivatsan, Ines Leca, Guoling Tian, Tanja Fritz, Andi H Hansen, et al. “Uner Tan Syndrome Caused by a Homozygous TUBB2B Mutation Affecting Microtubule Stability.” Human Molecular Genetics. Oxford University Press, 2017. https://doi.org/10.1093/hmg/ddw383.
M. Breuss et al., “Uner Tan syndrome caused by a homozygous TUBB2B mutation affecting microtubule stability,” Human Molecular Genetics, vol. 26, no. 2. Oxford University Press, pp. 258–269, 2017.
Breuss M, Nguyen T, Srivatsan A, Leca I, Tian G, Fritz T, Hansen AH, Musaev D, Mcevoy Venneri J, Kiely J, Rosti R, Scott E, Tan U, Kolodner R, Cowan N, Keays D, Gleeson J. 2017. Uner Tan syndrome caused by a homozygous TUBB2B mutation affecting microtubule stability. Human Molecular Genetics. 26(2), 258–269.
Breuss, Martin, et al. “Uner Tan Syndrome Caused by a Homozygous TUBB2B Mutation Affecting Microtubule Stability.” Human Molecular Genetics, vol. 26, no. 2, Oxford University Press, 2017, pp. 258–69, doi:10.1093/hmg/ddw383.

Export

Marked Publications

Open Data ISTA Research Explorer

Web of Science

View record in Web of Science®

Search this title in

Google Scholar