PT  - JOURNAL ARTICLE
AU  - Elizabeth Bittermann
AU  - Ryan P. Liegel
AU  - Chelsea Menke
AU  - Andrew Timms
AU  - David R. Beier
AU  - Beth Kline-Fath
AU  - Howard M. Saal
AU  - Rolf W. Stottmann
TI  - Differential requirements of tubulin genes in mammalian forebrain development
AID  - 10.1101/304196
DP  - 2018 Jan 01
TA  - bioRxiv
PG  - 304196
4099  - http://biorxiv.org/content/early/2018/04/18/304196.short
4100  - http://biorxiv.org/content/early/2018/04/18/304196.full
AB  - Tubulin genes encode a series of homologous proteins used to construct microtubules which are essential for multiple cellular processes. Neural development is particularly reliant on functional microtubule structures. Tubulin genes comprise a large family of genes with very high sequence similarity between multiple family members. Human genetics has demonstrated that a large spectrum of cortical malformations results from de novo heterozygous mutations in tubulin genes. However, the absolute requirement for most of these genes in development and disease has not been previously tested in genetic, loss of function models. Here we present two novel pathogenic tubulin alleles: a human TUBA1A missense variant with a phenotype more severe than most tubulinopathies and a mouse ENU allele of Tuba1a. Furthermore, we directly test the requirement for Tuba1a, Tuba8, Tubb2a and Tubb2b in the mouse by deleting each gene individually using CRISPR-Cas9 genome editing. We show that loss of Tuba8, Tubb2a or Tubb2b does not lead to cortical malformation phenotypes or impair survival. In contrast, loss of Tuba1a is perinatal lethal and leads to significant forebrain dysmorphology. Thus, despite their functional similarity, the requirements for each of the tubulin genes and levels of functional redundancy are quite different throughout the gene family. The ability of the mouse to survive in the absence of some tubulin genes known to cause disease in humans suggests future intervention strategies for these devastating tubulinopathy diseases.