Fanconi anemia(FA),an X-linked genetic or autosomal recessive disease,exhibits complicated pathogenesis.Previously,we detected the mutated Dynein Axonemal Heavy Chain 2(DNAH2)gene in 2 FA cases.Herein,we further inves...Fanconi anemia(FA),an X-linked genetic or autosomal recessive disease,exhibits complicated pathogenesis.Previously,we detected the mutated Dynein Axonemal Heavy Chain 2(DNAH2)gene in 2 FA cases.Herein,we further investigated the potential association between DNAH2 and the homologous recombination repair pathway of FA.The assays of homologous recombination repair,mitomycin C(MMC)sensitivity,immunofluorescence,and ubiquitination modification were performed in U2OS and DR-U2OS cell lines.In MMC-treated U2OS cells,the downregulation of the DNAH2 gene increased the sensitivity of cells to DNA inter-strand crosslinks.We also observed the reduced enrichment of FANCD2 protein to DNA damage sites.Furthermore,the ubiquitination modification level of FANCD2 was influenced by the deficiency of DNAH2.Thus,our results suggest that DNAH2 may modulate the cell homologous recombination repair partially by increasing the ubiquitination and the enrichment to DNA damage sites of FANCD2.DNAH2 may act as a novel co-pathogenic gene of FA patients.展开更多
Motile cilia and flagella are microtubule-based organelles important for cell locomotion and extracellular liquid flow through beating. Although axonenal dyneins that drive ciliary beat have been extensively studied i...Motile cilia and flagella are microtubule-based organelles important for cell locomotion and extracellular liquid flow through beating. Although axonenal dyneins that drive ciliary beat have been extensively studied in unicellular Chlamydomonas, to what extent such knowledge can be applied to vertebrate is poorly known. In Chlamydomonas, Dynein-f controls flagellar waveforms but is dispensable for beating. The flagellar assembly of its heavy chains (HCs) requires its intermediate chain (IC) IC140 but not IC138. Here we show that, unlike its Chlamydomonas counte『part, vertebrate Dynein-f is essential for ciliary beat. We confirmed that Wdr78 is the vertebrate orthologue of IC3 Wdr78 associated with Dynein-f subunits such as Dnah2 (a HC) and Wdr63 (IC140 orthologue). It was expressed as a motile cilium-specific protein in mammalian cells. Depletion of Wdr78 or Dnah2 by RNAi paralyzed mouse ependymal cilia. Zebrafish Wdr78 morphants displayed ciliopathy-related phenotypes, such as curved bodies, hydrocephalus, abnormal otolith, randomized left-right asymmetry, and pronephric cysts, accompanied with paralyzed pronephric cilia. Furthermore, all the HCs and ICs of Dynein-f failed to localize in the Wdr78-depleted mouse ependymal cilia. Therefore, both the functions and subunit dependency of Dynein-fare altered in evolution, probably to comply with ciliary roles in higher organisms.展开更多
基金This work was partially supported by the National Key Research and Development Program of China(2016YFC0901503,2018YFA0107801)the Chinese Academy of Medical Sciences Innovation Fund for Medical Sciences,CIFMS(2017-I2M-3-015)+1 种基金the National Natural Science Foundation of China(81500156,81170470,81970149)and Tianjin Natural Science Foundation Project(20JCYBJC00470).
文摘Fanconi anemia(FA),an X-linked genetic or autosomal recessive disease,exhibits complicated pathogenesis.Previously,we detected the mutated Dynein Axonemal Heavy Chain 2(DNAH2)gene in 2 FA cases.Herein,we further investigated the potential association between DNAH2 and the homologous recombination repair pathway of FA.The assays of homologous recombination repair,mitomycin C(MMC)sensitivity,immunofluorescence,and ubiquitination modification were performed in U2OS and DR-U2OS cell lines.In MMC-treated U2OS cells,the downregulation of the DNAH2 gene increased the sensitivity of cells to DNA inter-strand crosslinks.We also observed the reduced enrichment of FANCD2 protein to DNA damage sites.Furthermore,the ubiquitination modification level of FANCD2 was influenced by the deficiency of DNAH2.Thus,our results suggest that DNAH2 may modulate the cell homologous recombination repair partially by increasing the ubiquitination and the enrichment to DNA damage sites of FANCD2.DNAH2 may act as a novel co-pathogenic gene of FA patients.
基金the National Natural Science Foundation of China (NSFC31330045)+2 种基金the National Key R&D Program of China (2017YFA0503500)Chinese Academy of Sciences (XDBl9020000)NSFC (31471323) to X.Y.
文摘Motile cilia and flagella are microtubule-based organelles important for cell locomotion and extracellular liquid flow through beating. Although axonenal dyneins that drive ciliary beat have been extensively studied in unicellular Chlamydomonas, to what extent such knowledge can be applied to vertebrate is poorly known. In Chlamydomonas, Dynein-f controls flagellar waveforms but is dispensable for beating. The flagellar assembly of its heavy chains (HCs) requires its intermediate chain (IC) IC140 but not IC138. Here we show that, unlike its Chlamydomonas counte『part, vertebrate Dynein-f is essential for ciliary beat. We confirmed that Wdr78 is the vertebrate orthologue of IC3 Wdr78 associated with Dynein-f subunits such as Dnah2 (a HC) and Wdr63 (IC140 orthologue). It was expressed as a motile cilium-specific protein in mammalian cells. Depletion of Wdr78 or Dnah2 by RNAi paralyzed mouse ependymal cilia. Zebrafish Wdr78 morphants displayed ciliopathy-related phenotypes, such as curved bodies, hydrocephalus, abnormal otolith, randomized left-right asymmetry, and pronephric cysts, accompanied with paralyzed pronephric cilia. Furthermore, all the HCs and ICs of Dynein-f failed to localize in the Wdr78-depleted mouse ependymal cilia. Therefore, both the functions and subunit dependency of Dynein-fare altered in evolution, probably to comply with ciliary roles in higher organisms.
