Dan Fu  Guangshun Zhang  Yuhui Wang  Zheng Zhang  Hengrui Hu  Shu Shen  Jun Wu  Bo Li  Xin Li  Yaohui Fang  Jia Liu  Qiao Wang  Yunjiao Zhou  Wei Wang  Yufeng Li  Zhonghua Lu  Xiaoxiao Wang  Cui Nie  Yujie Tian  Da Chen  Yuan Wang  Xingdong Zhou  Qisheng Wang  Feng Yu  Chen Zhang  Changjing Deng  Liang Zhou  Guangkuo Guan  Na Shao  Zhiyong Lou  Fei Deng  Hongkai Zhang  Xinwen Chen  Manli Wang  Louis Liu  Zihe Rao  Yu Guo 《PLoS biology》2021,19(5)

The ongoing Coronavirus Disease 2019 (COVID-19) pandemic caused by Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) threatens global public health and economy unprecedentedly, requiring accelerating development of prophylactic and therapeutic interventions. Molecular understanding of neutralizing antibodies (NAbs) would greatly help advance the development of monoclonal antibody (mAb) therapy, as well as the design of next generation recombinant vaccines. Here, we applied H2L2 transgenic mice encoding the human immunoglobulin variable regions, together with a state-of-the-art antibody discovery platform to immunize and isolate NAbs. From a large panel of isolated antibodies, 25 antibodies showed potent neutralizing activities at sub-nanomolar levels by engaging the spike receptor-binding domain (RBD). Importantly, one human NAb, termed PR1077, from the H2L2 platform and 2 humanized NAb, including PR953 and PR961, were further characterized and subjected for subsequent structural analysis. High-resolution X-ray crystallography structures unveiled novel epitopes on the receptor-binding motif (RBM) for PR1077 and PR953, which directly compete with human angiotensin-converting enzyme 2 (hACE2) for binding, and a novel non-blocking epitope on the neighboring site near RBM for PR961. Moreover, we further tested the antiviral efficiency of PR1077 in the Ad5-hACE2 transduction mouse model of COVID-19. A single injection provided potent protection against SARS-CoV-2 infection in either prophylactic or treatment groups. Taken together, these results shed light on the development of mAb-related therapeutic interventions for COVID-19.

This study characterizes novel neutralizing antibodies against the SARS-CoV-2 spike protein. Co-crystal structures of the spike protein receptor-binding domain and humanised mouse antibodies identify novel epitopes on the spike protein; binding to these epitopes competes with the ACE2 receptor, and one of the antibodies provides protection against SARS-CoV-2 infection in a mouse model of COVID-19.  相似文献   

    

Tuo Wang  Ping Mao  Yong Feng  Bo Cui  Bin Zhang  Chen Chen  Mingjie Xu  Ke Gao 《Cell cycle (Georgetown, Tex.)》2021,20(12):1181

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Yifeng Tao  Ashok Rajaraman  Xiaoyue Cui  Ziyi Cui  Haoran Chen  Yuanqi Zhao  Jesse Eaton  Hannah Kim  Jian Ma  Russell Schwartz 《PLoS computational biology》2021,17(3)

Cancer occurs via an accumulation of somatic genomic alterations in a process of clonal evolution. There has been intensive study of potential causal mutations driving cancer development and progression. However, much recent evidence suggests that tumor evolution is normally driven by a variety of mechanisms of somatic hypermutability, which act in different combinations or degrees in different cancers. These variations in mutability phenotypes are predictive of progression outcomes independent of the specific mutations they have produced to date. Here we explore the question of how and to what degree these differences in mutational phenotypes act in a cancer to predict its future progression. We develop a computational paradigm using evolutionary tree inference (tumor phylogeny) algorithms to derive features quantifying single-tumor mutational phenotypes, followed by a machine learning framework to identify key features predictive of progression. Analyses of breast invasive carcinoma and lung carcinoma demonstrate that a large fraction of the risk of future clinical outcomes of cancer progression—overall survival and disease-free survival—can be explained solely from mutational phenotype features derived from the phylogenetic analysis. We further show that mutational phenotypes have additional predictive power even after accounting for traditional clinical and driver gene-centric genomic predictors of progression. These results confirm the importance of mutational phenotypes in contributing to cancer progression risk and suggest strategies for enhancing the predictive power of conventional clinical data or driver-centric biomarkers.  相似文献   

    

Xiyan Wu  Chao Ning  Felix M. Key  Aida Andrades Valtuea  Aditya Kumar Lankapalli  Shizhu Gao  Xuan Yang  Fan Zhang  Linlin Liu  Zhongzhi Nie  Jian Ma  Johannes Krause  Alexander Herbig  Yinqiu Cui 《PLoS pathogens》2021,17(9)

Salmonella enterica (S. enterica) has infected humans for a long time, but its evolutionary history and geographic spread across Eurasia is still poorly understood. Here, we screened for pathogen DNA in 14 ancient individuals from the Bronze Age Quanergou cemetery (XBQ), Xinjiang, China. In 6 individuals we detected S. enterica. We reconstructed S. enterica genomes from those individuals, which form a previously undetected phylogenetic branch basal to Paratyphi C, Typhisuis and Choleraesuis–the so-called Para C lineage. Based on pseudogene frequency, our analysis suggests that the ancient S. enterica strains were not host adapted. One genome, however, harbors the Salmonella pathogenicity island 7 (SPI-7), which is thought to be involved in (para)typhoid disease in humans. This offers first evidence that SPI-7 was acquired prior to the emergence of human-adapted Paratyphi C around 1,000 years ago. Altogether, our results show that Salmonella enterica infected humans in Eastern Eurasia at least 3,000 years ago, and provide the first ancient DNA evidence for the spread of a pathogen along the Proto-Silk Road.  相似文献   

    

Junping Li  Libin Liang  Li Jiang  Qian Wang  Xia Wen  Yuhui Zhao  Pengfei Cui  Yaping Zhang  Guangwen Wang  Qibing Li  Guohua Deng  Jianzhong Shi  Guobin Tian  Xianying Zeng  Yongping Jiang  Liling Liu  Hualan Chen  Chengjun Li 《PLoS pathogens》2021,17(2)

Posttranslational modifications, such as SUMOylation, play specific roles in the life cycle of invading pathogens. However, the effect of SUMOylation on the adaptation, pathogenesis, and transmission of influenza A virus (IAV) remains largely unknown. Here, we found that a conserved lysine residue at position 612 (K612) of the polymerase basic protein 1 (PB1) of IAV is a bona fide SUMOylation site. SUMOylation of PB1 at K612 had no effect on the stability or cellular localization of PB1, but was critical for viral ribonucleoprotein (vRNP) complex activity and virus replication in vitro. When tested in vivo, we found that the virulence of SUMOylation-defective PB1/K612R mutant IAVs was highly attenuated in mice. Moreover, the airborne transmission of a 2009 pandemic H1N1 PB1/K612R mutant virus was impaired in ferrets, resulting in reversion to wild-type PB1 K612. Mechanistically, SUMOylation at K612 was essential for PB1 to act as the enzymatic core of the viral polymerase by preserving its ability to bind viral RNA. Our study reveals an essential role for PB1 K612 SUMOylation in the pathogenesis and transmission of IAVs, which can be targeted for the design of anti-influenza therapies.  相似文献   

    

Enzong Xiao  Jinli Cui  Weimin Sun  Shiming Jiang  Mengyan Huang  Deguan Kong  Qihang Wu  Tangfu Xiao  Xiaoxu Sun  Zengping Ning 《Environmental microbiology》2021,23(4):1959-1971

The assemblage of root-associated microorganisms plays important roles in improving their capability to adapt to environmental stress. Metal(loid) hyperaccumulators exhibit disparate adaptive capability compared to that of non-hyperaccumulators when faced with elevated contents of metal(loid)s. However, knowledge of the assemblage of root microbes of hyperaccumulators and their ecological roles in plant growth is still scarce. The present study used Pteris vittata as a model plant to study the microbial assemblage and its beneficial role in plant growth. We demonstrated that the assemblage of microbes from the associated bulk soil to the root compartment was based on their lifestyles. We used metagenomic analysis and identified that the assembled microbes were primarily involved in root–microbe interactions in P. vittata root. Notably, we identified that the assembled root microbiome played an important role in As requisition, which promoted the fitness and growth of P. vittata. This study provides new insights into the root microbiome and potential valuable knowledge to understand how the root microbiome contributes to the fitness of its host.  相似文献   

    

Zhengdong Xu  Yehong Gong  Jiaqian Wan  Jiaxing Tang  Qingwen Zhang 《Cell stress & chaperones》2021,26(5):799

HSPB5 (heat shock protein B5), also known as αB-crystallin, is one of the most widespread and populous of the ten human small heat shock proteins (sHsps). Over the past decades, extensive research has been conducted on HSPB5. However, few studies have statistically analyzed these publications. Herein, we conducted a bibliometric analysis to track the global research trend and current development status of HSPB5 research from the Web of Science Core Collection (WoSCC) database between 1985 and 2020. Our results demonstrate that 1220 original articles cited 54,778 times in 391 scholarly journals were published. Visualization analyses reveal that the Journal of Biological Chemistry was the most influential journal with 85 articles. The USA dominated this field with 520 publications (42.62%), followed by Japan with 149 publications (12.21%), and Kato contributed the largest number of publications. Most related publications were published in journals focusing on biochemistry molecular biology, cell biology, neurosciences neurology, and ophthalmology. In addition, keyword co-occurrence analyses identify three predominant research topics: expression of HSPB5, chaperone studies for HSPB5, and pathological studies of HSPB5. This study provides valuable guidance for researchers and leads to collaborative opportunities between diverse research interests to be integrated for HSPB5 research.Supplementary InformationThe online version contains supplementary material available at 10.1007/s12192-021-01220-6.  相似文献   

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Xi Zhang  Tianhang Qiu  Anan Wang  Huajian Zhou  Min Yuan  Li Li  Sulan Bai  Suxia Cui 《植物学报》2021,55(6):693

为探明北京地区芦苇(Phragmites australis)的资源状态和多样性, 实地考察北京主要河流、湿地和水库, 发现北京地区芦苇总生长面积已超过600 hm²。芦苇染色体倍性以八倍体为主, 四倍体次之。在面积较大的湿地内, 八倍体单一芦苇群落占据优势地位; 而在城市的浅河内有形态和遗传性多样的混合种群。研究表明, 植物性状和倍性水平之间无显著相关性。在小清河发现了6种形态各异的芦苇克隆, 均属于叶绿体DNA片段的P单倍型; 其单倍体基因组大小为(0.499±0.019) pg, 变异系数为3.8%。这表明表型与单倍型之间也不具相关性。此外, 发现1个具有变叶特性的芦苇, 将其命名为金条芦苇。北京地区芦苇形态和遗传多样性为研究芦苇基因型与环境适应性之间的关系提供了珍贵的资源。  相似文献   

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Lei Gao  Hongjie Zhang  Jingyi Cui  Lijuan Pei  Shiqi Huang  Yaning Mao  Zhongmin Liu  Ke Wei  Hongming Zhu 《蛋白质与细胞》2021,12(2):152-157

Dear Editor,Myocardial infarction is one of the leading causes of morbidity and mortality.Stem/progenitor cells therapy has emerged as a promising strategy for the cardiac repair,especially those derived from cardiac tissue,have attracted worldwide attention(Tompkins et al.,2018).However,challenges and controversies remain in characterizing functional progenitors and explaining their mechanisms of action.  相似文献   

    

Shuo Tian  Shouheng Jin  Yaoxing Wu  Tao Liu  Man Luo  Jiayu Ou  Weihong Xie  Jun Cui 《Autophagy》2021,17(6):1367

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