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171.
Dongsheng Jia Qifu Liang Huan Liu Guangjun Li Xiaofeng Zhang Qian Chen Aiming Wang Taiyun Wei 《PLoS pathogens》2022,18(5)
Viruses can hijack autophagosomes as the nonlytic release vehicles in cultured host cells. However, how autophagosome-mediated viral spread occurs in infected host tissues or organs in vivo remains poorly understood. Here, we report that an important rice reovirus, rice gall dwarf virus (RGDV) hijacks autophagosomes to traverse multiple insect membrane barriers in the midgut and salivary gland of leafhopper vector to enhance viral spread. Such virus-containing double-membraned autophagosomes are prevented from degradation, resulting in increased viral propagation. Mechanistically, viral nonstructural protein Pns11 induces autophagy and embeds itself in the autophagosome membranes. The autophagy-related protein 5 (ATG5)-ATG12 conjugation is essential for initial autophagosome membrane biogenesis. RGDV Pns11 specifically interacts with ATG5, both in vitro and in vivo. Silencing of ATG5 or Pns11 expression suppresses ATG8 lipidation, autophagosome formation, and efficient viral propagation. Thus, Pns11 could directly recruit ATG5-ATG12 conjugation to induce the formation of autophagosomes, facilitating viral spread within the insect bodies. Furthermore, Pns11 potentially blocks autophagosome degradation by directly targeting and mediating the reduced expression of N-glycosylated Lamp1 on lysosomal membranes. Taken together, these results highlight how RGDV remodels autophagosomes to benefit viral propagation in its insect vector. 相似文献
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Huang Guangping Wang Xiao Hu Yibo Wu Qi Nie Yonggang Dong Jiuhong Ding Yun Yan Li Wei Fuwen 《中国科学:生命科学英文版》2021,64(1):88-95
Gut microbiota plays a critical role in host physiology and health. The coevolution between the host and its gut microbes facilitates animal adaptation to its specific ecological niche. Multiple factors such as host diet and phylogeny modulate the structure and function of gut microbiota. However, the relative contribution of each factor in shaping the structure of gut microbiota remains unclear. The giant(Ailuropoda melanoleuca) and red(Ailurus styani) pandas belong to different families of order Carnivora. They have evolved as obligate bamboo-feeders and can be used as a model system for studying the gut microbiome convergent evolution. Here, we compare the structure and function of gut microbiota of the two pandas with their carnivorous relatives using 16S rRNA and metagenome sequencing. We found that both panda species share more similarities in their gut microbiota structure with each other than each species shares with its carnivorous relatives. This indicates that the specialized herbivorous diet rather than host phylogeny is the dominant driver of gut microbiome convergence within Arctoidea.Metagenomic analysis revealed that the symbiotic gut microbiota of both pandas possesses a high level of starch and sucrose metabolism and vitamin B12 biosynthesis. These findings suggest a diet-driven convergence of gut microbiomes and provide new insight into host-microbiota coevolution of these endangered species. 相似文献
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Yanyun Liu Kenny Tsang Michelle Mays Gale Hansen Jeffrey Chiecko Maureen Crames Yangjie Wei Weijie Zhou Chase Fredrick James Hu Dongmei Liu Douglas Gebhard Zhong-Fu Huang Akshita Datar Anthony Kronkaitis Kristina Gueneva-Boucheva Daniel Seeliger Fei Han Saurabh Sen Srinath Kasturirangan Justin M. Scheer Andrew E. Nixon Tadas Panavas Michael S. Marlow Sandeep Kumar 《MABS-AUSTIN》2022,14(1)
176.
Hongchen Yan Junjie Xu Ilyas Ali Wei Zhang Ming Jiang Guiping Li Yong Teng Guangxun Zhu Yafei Cai 《Cell proliferation》2022,55(5)
Purpose and MaterialsCDK5RAP3 (CDK5 regulatory subunit associated protein 3) was originally identified as a binding protein of CDK5. It is a crucial gene controlling biological functions, such as cell proliferation, apoptosis, invasion, and metastasis. Although previous studies have also shown that CDK5RAP3 is involved in a variety of signalling pathways, however, the mechanism of CDK5RAP3 remains largely undefined. This study utilized MEFs from conditional knockout mice to inhibit CDK5RAP3 and knockdown CDK5RAP3 in MCF7 to explore the role of CDK5RAP3 in cell growth, mitosis, and cell death.ResultsCDK5RAP3 was found to be widely distributed throughout the centrosome, spindle, and endoplasmic reticulum, indicating that it is involved in regulating a variety of cellular activities. CDK5RAP3 deficiency resulted in instability of cell growth. CDK5RAP3 deficiency partly blocks the cell cycle in G2/M by downregulating CDK1 (Cyclin‐dependent kinase 1) and CCNB1 (Cyclin B1) expression levels. The cell proliferation rate was decreased, thereby slowing down the cell growth rate. Furthermore, the results showed that CDK5RAP3 interacts with RPL26 (ribosome protein L26) to regulate the mTOR pathway. CDK5RAP3 and RPL26 deficiency inhibited mTOR/p‐mTOR protein and induce autophagy, resulting in an upregulation of the percentage of apoptosis, and the upregulated percentage of apoptosis also slowed cell growth.ConclusionsOur experiments show that CDK5RAP3 interacts with RPL26 and maintains the stability of cell growth. It shows that CDK5RAP3 plays an important role in cell growth and can be used as the target of gene medicine.In normal, CDK5RAP3 is distributed in the centrosome, spindle and endoplasmic reticulum, the cells undergoes the growth and proliferation. However, when CDK5RAP3 is deficient, the cell cycle is blocked in G2/M and cell proliferation slows down, and the partial cycle block does not cause apoptosis. Additionally, CDK5RAP3 distributed in the endoplasmic reticulum combined with the deficiency of RPL26 will inhibit the mTOR pathway, aggravate autophagy and trigger apoptosis. 相似文献
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β-拘留蛋白2(β-arrestin2)是arrestins家族的一个成员,广泛表达于全身组织,其不仅可以调节大多数G蛋白偶联受体(G-protein coupled receptors, GPCRs)的脱敏、内化,还能调节多种非GPCRs的内化,或作为支架蛋白质参与MAPK、PI3K/AKT等信号通路。越来越多的研究发现,β-arrestin2在肿瘤、自身免疫性疾病、纤维化疾病、心血管疾病、代谢性疾病等多种疾病进展过程中表达异常,提示其可能在疾病的病理过程中发挥重要的调控作用。β-arrestin2功能的发挥不仅与其在细胞中的表达水平有关,更依赖于对其活性的调控。但对于β-arrestin2的活性如何被调控,以及其活性如何影响其生物学功能的关注较少。近年来,陆续有研究报道了β-arrestin2可发生磷酸化、泛素化、SUMO化、S-亚硝基化等翻译后修饰,探讨了其翻译后修饰的可能位点,并发现翻译后修饰可影响β-arrestin2的细胞定位、调节受体内吞的作用、β-arrestin2与信号分子的相互作用及下游信号通路,对了解β-arrestin2活性调控在细胞中的作用具有重要意义。本文在... 相似文献
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