Base editing derived models of human WDR34 and WDR60 disease alleles replicate retrograde IFT and hedgehog signaling defects and suggest disturbed Golgi protein transport

Abstract: Cytoplasmic Dynein-2 or IFT-dynein is the only known retrograde motor for intraflagellar transport, enabling protein trafficking from the ciliary tip to the base. Dysfunction of WDR34 and WDR60, the two intermediate chains of this complex, causes Short Rib Thoracic Dystrophy (SRTD), human skeletal chondrodysplasias with high lethality. Complete loss of function of WDR34 or WDR60 is lethal in vertebrates and individuals with SRTD carry at least one putative hypomorphic missense allele. Gene knockout is therefor… Show more

“…Their work defines more subtle, and sometimes contrasting phenotypes to ours. For both mutants, no significant changes to the ability of cells to form cilia, or in cilia length (Antony et al, 2022). Both mutants showed an increase in IFT88 at the ciliary tip, consistent with a defect in retrograde IFT.…”

“…As we were preparing this work for publication, Antony and colleagues (Antony et al, 2022) released a preprint that included analysis of two of the WDR34 mutants, R182W and G393S, included here using base editing of IMCD3 cells. This more precise approach to engineering mutants clearly has advantages in terms of engineering mutations into the endogenous locus and therefore avoiding limitations of overexpression.…”

Disease-associated mutations in WDR34 lead to diverse impacts on the assembly and function of dynein-2

“…Their work defines more subtle, and sometimes contrasting phenotypes to ours. For both mutants, no significant changes to the ability of cells to form cilia, or in cilia length (Antony et al, 2022). Both mutants showed an increase in IFT88 at the ciliary tip, consistent with a defect in retrograde IFT.…”

“…As we were preparing this work for publication, Antony and colleagues (Antony et al, 2022) released a preprint that included analysis of two of the WDR34 mutants, R182W and G393S, included here using base editing of IMCD3 cells. This more precise approach to engineering mutants clearly has advantages in terms of engineering mutations into the endogenous locus and therefore avoiding limitations of overexpression.…”

Disease-associated mutations in WDR34 lead to diverse impacts on the assembly and function of dynein-2