Xuguang Jiang scite author profile

Xuguang Jiang

2Publications

16Citation Statements Received

112Citation Statements Given

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102

Affiliations

Center for Life Sciences, Tsinghua University

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DYF-5/MAK–dependent phosphorylation promotes ciliary tubulin unloading

Jiang

Shao

Chai

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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Cilia are microtubule-based organelles that power cell motility and regulate sensation and signaling, and abnormal ciliary structure and function cause various ciliopathies. Cilium formation and maintenance requires intraflagellar transport (IFT), during which the kinesin-2 family motor proteins ferry IFT particles carrying axonemal precursors such as tubulins into cilia. Tubulin dimers are loaded to IFT machinery through an interaction between tubulin and the IFT-74/81 module; however, little is known of how tubulins are unloaded when arriving at the ciliary tip. Here, we show that the ciliary kinase DYF-5/MAK phosphorylates multiple sites within the tubulin-binding module of IFT-74, reducing the tubulin-binding affinity of IFT-74/81 approximately sixfold. Ablation or constitutive activation of IFT-74 phosphorylation abnormally elongates or shortens sensory cilia in Caenorhabditis elegans neurons. We propose that DYF-5/MAK–dependent phosphorylation plays a fundamental role in ciliogenesis by regulating tubulin unloading.

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Inhibition of histone H3-H4 chaperone pathways rescues C. elegans sterility by H2B loss

et al. 2022

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Oncohistone mutations are crucial drivers for tumorigenesis, but how a living organism governs the loss-of-function oncohistone remains unclear. We generated a histone H2B triple knockout (3KO) strain in Caenorhabditis elegans, which decreased the embryonic H2B, disrupted cell divisions, and caused animal sterility. By performing genetic suppressor screens, we uncovered that mutations defective in the histone H3-H4 chaperone UNC-85 restored H2B 3KO fertility by decreasing chromatin H3-H4 levels. RNA interference of other H3-H4 chaperones or H3 or H4 histones also rescued H2B 3KO sterility. We showed that blocking H3-H4 chaperones recovered cell division in C. elegans carrying the oncohistone H2BE74K mutation that distorts the H2B-H4 interface and induces nucleosome instability. Our results indicate that reducing chromatin H3-H4 rescues the dysfunctional H2B in vivo and suggest that inhibiting H3-H4 chaperones may provide an effective therapeutic strategy for treating cancers resulting from loss-of-function H2B oncohistone.

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Xuguang Jiang

DYF-5/MAK–dependent phosphorylation promotes ciliary tubulin unloading

Inhibition of histone H3-H4 chaperone pathways rescues C. elegans sterility by H2B loss

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