1. Mutation of Growth Arrest Specific 8 Reveals a Role in Motile Cilia Function and Human Disease
- Author
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Robert A. Kesterson, Raqual Bower, Margaret W. Leigh, Steven M. Rowe, Maimoona A. Zariwala, Erik B. Malarkey, Anil K. Challa, Wesley R. Lewis, Michael R. Knowles, Susan E. Birket, Bradley K. Yoder, Douglas Tritschler, Nicolas F. Berbari, Corinne Antignac, Sophie Saunier, Jonathan D. Porath, John M. Parant, Raymond C. Pasek, Friedhelm Hildebrandt, Mary E. Porter, and Iain A. Drummond
- Subjects
0301 basic medicine ,Axoneme ,Cancer Research ,Respiratory System ,Pathology and Laboratory Medicine ,Microtubules ,Mice ,Cell Signaling ,Cell Movement ,Medicine and Health Sciences ,Genetics (clinical) ,Cytoskeleton ,Primary ciliary dyskinesia ,Genetics ,Cilium ,Animal Models ,Hedgehog signaling pathway ,3. Good health ,Cell biology ,Trachea ,Neurology ,Motile cilium ,Cellular Structures and Organelles ,Pathogens ,Anatomy ,Research Article ,Signal Transduction ,Hydrocephalus ,Pathogen Motility ,Neural Tube ,lcsh:QH426-470 ,Virulence Factors ,Mouse Models ,Biology ,Flagellum ,Research and Analysis Methods ,03 medical and health sciences ,Model Organisms ,Microtubule ,Intraflagellar transport ,medicine ,Animals ,Humans ,Genetic Predisposition to Disease ,Cilia ,Molecular Biology ,Ecology, Evolution, Behavior and Systematics ,Alleles ,Body Patterning ,Kartagener Syndrome ,Chlamydomonas ,Biology and Life Sciences ,Proteins ,Extremities ,Cell Biology ,medicine.disease ,lcsh:Genetics ,Cytoskeletal Proteins ,Disease Models, Animal ,030104 developmental biology ,Genetic Loci ,Mutation ,Hedgehog Signaling - Abstract
Ciliopathies are genetic disorders arising from dysfunction of microtubule-based cellular appendages called cilia. Different cilia types possess distinct stereotypic microtubule doublet arrangements with non-motile or ‘primary’ cilia having a 9+0 and motile cilia have a 9+2 array of microtubule doublets. Primary cilia are critical sensory and signaling centers needed for normal mammalian development. Defects in their structure/function result in a spectrum of clinical and developmental pathologies including abnormal neural tube and limb patterning. Altered patterning phenotypes in the limb and neural tube are due to perturbations in the hedgehog (Hh) signaling pathway. Motile cilia are important in fluid movement and defects in motility result in chronic respiratory infections, altered left-right asymmetry, and infertility. These features are the hallmarks of Primary Ciliary Dyskinesia (PCD, OMIM 244400). While mutations in several genes are associated with PCD in patients and animal models, the genetic lesion in many cases is unknown. We assessed the in vivo functions of Growth Arrest Specific 8 (GAS8). GAS8 shares strong sequence similarity with the Chlamydomonas Nexin-Dynein Regulatory Complex (NDRC) protein 4 (DRC4) where it is needed for proper flagella motility. In mammalian cells, the GAS8 protein localizes not only to the microtubule axoneme of motile cilia, but also to the base of non-motile cilia. Gas8 was recently implicated in the Hh signaling pathway as a regulator of Smoothened trafficking into the cilium. Here, we generate the first mouse with a Gas8 mutation and show that it causes severe PCD phenotypes; however, there were no overt Hh pathway phenotypes. In addition, we identified two human patients with missense variants in Gas8. Rescue experiments in Chlamydomonas revealed a subtle defect in swim velocity compared to controls. Further experiments using CRISPR/Cas9 homology driven repair (HDR) to generate one of these human missense variants in mice demonstrated that this allele is likely pathogenic., Author Summary Growth-Arrest Specific 8 (Gas8) is implicated in dual roles at both the primary cilium to regulate hedgehog signaling and in motile cilia to coordinate cilia movement. To investigate these roles in vivo, we created a Gas8 genetrap mutant mouse. Though no overt primary cilia phenotypes were evident in the Gas8 genetrap mutant mice, there were severe motility defects and the mice presented with Primary Ciliary Dyskinesia (PCD) like symptoms including situs inversus and hydrocephalus. We also identified two potential disease causing GAS8 missense variants (A391V and E199K) in humans. Utilizing CRISPR/Cas9 we generated a mouse to mimic the A391V allele. When we crossed the Gas8AV mutants with the Gas8GT mutant, the compound Gas8GT/AV heterozygous animals developed mild hydrocephalus. Rescue experiments using Chlamydomonas with mutations in the Gas8 homolog revealed only a modest decrease in swim velocity raising the possibility that the E199K allele is not pathogenic.
- Published
- 2016