The ARF GAPs ELMOD1 and ELMOD3 act at the Golgi and Cilia to Regulate Ciliogenesis and Ciliary Protein Traffic

Turn, Rachel E; Hu, Yingtian; Dewees, Skylar I; Devi, Narra S.; East, Michael P.; Hardin, Katherine R; Khatib, Tala O.; Linnert, Joshua; Wolfrum, Uwe; Lim, Jormay; Casanova, James E.; Caspary, Tamara; Kahn, Richard

doi:10.1101/2021.09.15.460558

Cited by 3 publications

(6 citation statements)

References 158 publications

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“…In contrast, ELMOD family members are thought to act as ARF/ARL GAPs, with broad cellular effects, including on the actin cytoskeleton (Li et al, 2019b). All three vertebrate ELMOD proteins have recently been localized to basal bodies and linked to ciliogenesis, albeit with seemingly opposing effects: While loss of ELMOD1 and 3 reduced ciliation in mouse embryonic fibroblasts, loss of ELMOD2 actually resulted in an increase, with those cilia displaying abnormal morphology, including apparent splaying of axonemes and ciliary rootlet defects (Turn et al, 2021(Turn et al, , 2022; ultrastructural analysis has so far not been performed). Common to all three perturbations is a mislocalization of ciliary proteins, suggesting ciliary trafficking is at least partly responsible for the observed defects (Turn et al, 2021(Turn et al, , 2022.…”

Section: Mapk15 and Elmod As Highly Conserved Regulators Of Ciliogenesismentioning

confidence: 99%

A phylogenetic profiling approach identifies novel ciliogenesis genes in Drosophila and C. elegans

Dobbelaere

Érdi

et al. 2023

The EMBO Journal

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Cilia are cellular projections that perform sensory and motile functions in eukaryotic cells. A defining feature of cilia is that they are evolutionarily ancient, yet not universally conserved. In this study, we have used the resulting presence and absence pattern in the genomes of diverse eukaryotes to identify a set of 386 human genes associated with cilium assembly or motility. Comprehensive tissue‐specific RNAi in Drosophila and mutant analysis in C. elegans revealed signature ciliary defects for 70–80% of novel genes, a percentage similar to that for known genes within the cluster. Further characterization identified different phenotypic classes, including a set of genes related to the cartwheel component Bld10/CEP135 and two highly conserved regulators of cilium biogenesis. We propose this dataset defines the core set of genes required for cilium assembly and motility across eukaryotes and presents a valuable resource for future studies of cilium biology and associated disorders.

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Section: Mapk15 and Elmod As Highly Conserved Regulators Of Ciliogenesismentioning

confidence: 99%

A phylogenetic profiling approach identifies novel ciliogenesis genes in Drosophila and C. elegans

Dobbelaere

Érdi

et al. 2023

The EMBO Journal

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“…Amongst those, we observed downregulation of Dcdc2 , encoding for a protein containing 2 doublecortin peptide domains, localizing to primary cilia and playing a role for tubulin binding, microtubule polymerization and Wnt signaling regulation (Schueler et al, 2015). We further found that several differentially downregulated genes encode for Golgi-associated proteins and proteins involved in vesicle trafficking, including Rab6b (Wanschers et al, 2007), the ARF GAP Elmod1 (Turn et al, 2021) which has very recently also linked to protein transport from the Golgi to the cilium (Turn et al, 2021), Myo5c (Sladewski et al, 2016) and Zdhhc14 (Sanders et al, 2020) ( Figure 5; G and H ). While GO term analysis did not reveal enrichment of G-protein-coupled receptor signaling, we detected upregulation of two G-protein signaling pathway associated genes Rgs2 and Snca .…”

Section: Resultsmentioning

confidence: 85%

“…In line with impaired Golgi protein transport functions under stress, we observed reduced expression of several other Golgi-associated proteins including Elmod1 in all dynein-2 mutants (both ciliated and non-ciliated cells) compared to controls. The GTPase activating protein ELMOD1 is a GTPAse activating protein which acts mainly on ADP-ribosylation factor (ARF) family GTPases and knock out affects primary cilia formation, reducing ciliary ARL13B expression and resulting in accumulation of INPP5E and IFT140 at the Golgi (Turn et al, 2021). Knockout mice present with fused and elongated stereocilia in the inner ear and disturbed intracellular vesicle trafficking in knockout cells has been described (Krey et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

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

Antony

Guelec

Bakey

et al. 2022

Preprint

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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 therefore not suitable to study the effect of these human missense disease alleles. Using CRISPR single base editors, we recreated three different patient missense alleles in cilia-APEX-IMCD3 cells. Consistent with previous findings in dynein-2 full loss of function models and patient fibroblasts, mutant cell lines showed hedgehog signaling defects as well as disturbed retrograde IFT. Transcriptomics analysis revealed differentially regulated expression of genes associated with various biological processes, including G-protein-coupled receptor signaling as well extracellular matrix composition, endochondral bone growth and chondrocyte development. Further, we also observed differential regulation of genes associated with Golgi intracellular transport, including downregulation of Rab6b, a GTPase involved in Golgi-ER retrograde protein trafficking and interacting with components of cytoplasmic dynein-1, in mutant ciliated and non-ciliated clones compared to controls. In addition to providing cellular model systems enabling investigations of the effect of human SRTD disease alleles, our findings indicate non-ciliary functions for WDR34 and WDR60 in addition to the established roles as components of the retrograde IFT motor complex in cilia.

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“…Amongst those, we observed downregulation of Dcdc2, encoding for a protein containing 2 doublecortin peptide domains, localizing to primary 13 cilia and playing a role in tubulin binding, microtubule polymerization and Wnt signaling regulation (Schueler et al, 2015). We further found that several differentially downregulated genes encode for Golgi-associated proteins and proteins involved in vesicle trafficking, including Rab6b (Wanschers et al, 2007), the ARF GAP Elmod1 (Turn et al, 2021) which has very recently also linked to protein transport from the Golgi to the cilium (Turn et al, 2021), Myo5c (Sladewski et al, 2016) and Zdhhc14 (Sanders et al, 2020) (Figure 5G and H). While GO term analyses did not reveal enrichment of G-protein-coupled receptor signaling, we detected upregulation of two Gprotein signaling pathway associated genes Rgs2 and Snca.…”

Section: Wdr34 and Wdr60 Human Disease Alleles Influence Gene Transcr...mentioning

confidence: 78%

“…In line with impaired Golgi protein transport functions under stress, we observed reduced expression of several other Golgi-associated proteins including ELMOD1 in all dynein-2 mutants (both ciliated and non-ciliated cells) compared to controls. The GTPase activating protein ELMOD1 is a GTPase activating protein that acts mainly on ADP-ribosylation factor (ARF) family GTPases and knockout affects primary cilia formation, reducing ciliary ARL13B expression and resulting in accumulation of INPP5E and IFT140 at the Golgi (Turn et al, 2021). Knockout mice present with fused and elongated stereocilia in the inner ear and disturbed intracellular vesicle trafficking in knockout cells has been described (Krey et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

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

Antony

Güleç²,

Bakey³

et al. 2022

Preprint

View full text Add to dashboard Cite

Cytoplasmic Dynein-2 / IFT-dynein is the only known retrograde motor for intraflagellar transport. 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 therefore not suitable to study the effect of these human missense disease alleles. Using CRISPR single base editors, we recreated three different patient missense alleles.Consistent with previous findings in the dynein-2 full loss of function models and patient fibroblasts, mutant cell lines showed hedgehog signaling defects as well as disturbed retrograde IFT. Transcriptomics analyses revealed differentially regulated expression of genes associated with various biological processes, including regulation of the actin cytoskeleton. Further, we observed differential regulation of genes associated with Golgi intracellular transport. In addition to providing cellular model systems enabling investigations of the effect of human SRTD disease alleles, our findings indicate non-ciliary functions for WDR34 and WDR60 in addition to the established roles as components of the retrograde IFT motor complex in cilia.

show abstract

The ARF GAPs ELMOD1 and ELMOD3 act at the Golgi and Cilia to Regulate Ciliogenesis and Ciliary Protein Traffic

Cited by 3 publications

References 158 publications

A phylogenetic profiling approach identifies novel ciliogenesis genes in Drosophila and C. elegans

A phylogenetic profiling approach identifies novel ciliogenesis genes in Drosophila and C. elegans

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

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

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