Your search keyword '"Lingdi Zhang"' showing total 29 results

1. Integrated study of systemic and local airway transcriptomes in asthma reveals causal mediation of systemic effects by airway key drivers

Author

Lingdi Zhang, Yoojin Chun, Haritz Irizar, Zoe Arditi, Galina Grishina, Alexander Grishin, Alfin Vicencio, and Supinda Bunyavanich

Subjects

Asthma, Transcriptome, Blood, Airway, Nasal, Peripheral blood mononuclear cell, Medicine, Genetics, QH426-470

Abstract

Abstract Background Systemic and local profiles have each been associated with asthma, but parsing causal relationships between system-wide and airway-specific processes can be challenging. We sought to investigate systemic and airway processes in asthma and their causal relationships. Methods Three hundred forty-one participants with persistent asthma and non-asthmatic controls were recruited and underwent peripheral blood mononuclear cell (PBMC) collection and nasal brushing. Transcriptome-wide RNA sequencing of the PBMC and nasal samples and a series of analyses were then performed using a discovery and independent test set approach at each step to ensure rigor. Analytic steps included differential expression analyses, coexpression and probabilistic causal (Bayesian) network constructions, key driver analyses, and causal mediation models. Results Among the 341 participants, the median age was 13 years (IQR = 10–16), 164 (48%) were female, and 200 (58.7%) had persistent asthma with mean Asthma Control Test (ACT) score 16.6 (SD = 4.2). PBMC genes associated with asthma were enriched in co-expression modules for NK cell-mediated cytotoxicity (fold enrichment = 4.5, FDR = 6.47 × 10−32) and interleukin production (fold enrichment = 2.0, FDR = 1.01 × 10−15). Probabilistic causal network and key driver analyses identified NK cell granule protein (NKG7, fold change = 22.7, FDR = 1.02 × 10−31) and perforin (PRF1, fold change = 14.9, FDR = 1.31 × 10−22) as key drivers predicted to causally regulate PBMC asthma modules. Nasal genes associated with asthma were enriched in the tricarboxylic acid (TCA) cycle module (fold enrichment = 7.5 FDR = 5.09 × 10−107), with network analyses identifying G3BP stress granule assembly factor 1 (G3BP1, fold change = 9.1 FDR = 2.77 × 10−5) and InaD-like protein (INADL, fold change = 5.3 FDR = 2.98 × 10−9) as nasal key drivers. Causal mediation analyses revealed that associations between PBMC key drivers and asthma are causally mediated by nasal key drivers (FDR = 0.0076 to 0.015). Conclusions Integrated study of the systemic and airway transcriptomes in a well-phenotyped asthma cohort identified causal key drivers of asthma among PBMC and nasal transcripts. Associations between PBMC key drivers and asthma are causally mediated by nasal key drivers.

Published

2023

2. CRISPR arrays as high-resolution markers to track microbial transmission during influenza infection

Author

Lingdi Zhang, Jahan Rahman, Matthew Chung, Lauren Lashua, Aubree Gordon, Angel Balmaseda, Guillermina Kuan, Richard Bonneau, and Elodie Ghedin

Subjects

Metagenomics, Influenza virus, Microbiome, Microbial ecology, QR100-130

Abstract

Abstract Background Disruption of the microbial community in the respiratory tract due to infections, like influenza, could impact transmission of bacterial pathogens. Using samples from a household study, we determined whether metagenomic-type analyses of the microbiome provide the resolution necessary to track transmission of airway bacteria. Microbiome studies have shown that the microbial community across various body sites tends to be more similar between individuals who cohabit in the same household than between individuals from different households. We tested whether there was increased sharing of bacteria from the airways within households with influenza infections as compared to control households with no influenza. Results We obtained 221 respiratory samples that were collected from 54 individuals at 4 to 5 time points across 10 households, with and without influenza infection, in Managua, Nicaragua. From these samples, we generated metagenomic (whole genome shotgun sequencing) datasets to profile microbial taxonomy. Overall, specific bacteria and phages were differentially abundant between influenza positive households and control (no influenza infection) households, with bacteria like Rothia, and phages like Staphylococcus P68virus that were significantly enriched in the influenza-positive households. We identified CRISPR spacers detected in the metagenomic sequence reads and used these to track bacteria transmission within and across households. We observed a clear sharing of bacterial commensals and pathobionts, such as Rothia, Neisseria, and Prevotella, within and between households. However, due to the relatively small number of households in our study, we could not determine if there was a correlation between increased bacterial transmission and influenza infection. Conclusion We observed that airway microbial composition differences across households were associated with what appeared to be different susceptibility to influenza infection. We also demonstrate that CRISPR spacers from the whole microbial community can be used as markers to study bacterial transmission between individuals. Although additional evidence is needed to study transmission of specific bacterial strains, we observed sharing of respiratory commensals and pathobionts within and across households. Video Abstract

Published

2023

3. Pulmonary infection is associated with an increased IL-6 in acute exacerbation chronic obstructive pulmonary disease

Author

Leilei Tang, Lingdi Zhang, Xuan Mei, Jiawen Yu, and Guojun Jiang

Subjects

Medicine

Abstract

Objective Acute Exacerbation Chronic Obstructive Pulmonary Disease (AECOPD) is associated with an acute worsening of respiratory symptoms that have effects on lung function, quality of life and health economic burden. In addition, the development of pulmonary infections is a common complication of Chronic Obstructive Pulmonary Disease (COPD). In the pathophysiology of AECOPD, interleukin (IL)-6 is a pleiotropic cytokine that can be produced by inflammatory and primary lung epithelial cells in response to a variety of different stimuli. We aim to investigate the correlation between serum cytokine levels and AECOPD with pulmonary infection. Methods 37 AECOPD patients diagnosed with pulmonary infection and 33 patients diagnosed with AECOPD only were selected. All COPD patients were diagnosed according to the Global Initiative for Chronic Obstructive Lung Disease (GOLD) criteria. Serum samples for C-reactive protein (CRP) and cytokines were obtained from the patients immediately after admission. Serum concentrations of cytokines were measured using a fluorescent bead immunoassay on a flow cytometer. Logistic regression was used to identify risk factors for AECOPD co-infection of the lungs. Results Serum characterization of our cohort showed patients with AECOPD and pulmonary infection had higher levels of IL-6 and IL-10 compared with the AECOPD group, and IL-6 was independently associated with AECOPD with pulmonary infection. ROC curve analysis showed that IL-6 was a useful predictor of the incidence of pulmonary infection in AECOPD patients. Conclusions Our findings highlight the role of IL-6 in the pathogenesis of AECOPD with pulmonary infection.

Published

2023

4. Identification of immune-related and autophagy-related genes for the prediction of survival in bladder cancer

Author

Quanfeng Zhu, Lingdi Zhang, Yaping Deng, and Leilei Tang

Subjects

Bladder cancer, Immune, Autophagy, Risk model, Prognosis, Genetics, QH426-470

Abstract

Abstract Background Bladder cancer has the characteristics of high morbidity and mortality, and the prevalence of bladder cancer has been increasing in recent years. Immune and autophagy related genes play important roles in cancer, but there are few studies on their effects on the prognosis of bladder cancer patients. Methods Using gene expression data from the TCGA-BLCA database, we clustered bladder cancer samples into 6 immune-related and autophagy-related molecular subtypes with different prognostic outcomes based on 2208 immune-related and autophagy-related genes. Six subtypes were divided into two groups which had significantly different prognosis. Differential expression analysis was used to explore genes closely related to the progression of bladder cancer. Then we used Cox stepwise regression to define a combination of gene expression levels and immune infiltration indexes to construct the risk model. Finally, we built a Nomogram which consist of risk score and several other prognosis-related clinical indicators. Results The risk model suggested that high expression of C5AR2, CSF3R, FBXW10, FCAR, GHR, OLR1, PGLYRP3, RASGRP4, S100A12 was associated with poor prognosis, while high expression level of CD96, IL10, MEFV pointed to a better prognosis. Validation by internal and external dataset suggested that our risk model had a high ability to discriminate between the outcomes of patients with bladder cancer. The immunohistochemical results basically confirmed our results. The C-Index value and Calibration curves verified the robustness of Nomogram. Conclusions Our study constructed a model that included a risk score for patients with bladder cancer, which provided a lot of helps to predict the prognosis of patients with bladder cancer.

Published

2022

5. RNA modifications can affect RNase H1-mediated PS-ASO activity

Author

Katelyn A. Doxtader Lacy, Xue-hai Liang, Lingdi Zhang, and Stanley T. Crooke

Subjects

MT: Oligonucleotides: Therapies and Applications, RNase H1, RNA modification, antisense oligonucleotide, cleavage, structure, Therapeutics. Pharmacology, RM1-950

Abstract

Phosphorothioate modified antisense oligonucleotides (PS-ASOs) can reduce gene expression through hybridization to target RNAs and subsequent cleavage by RNase H1. Target reduction through this mechanism is influenced by numerous features of the RNA, which modulate PS-ASO binding affinities to the RNA target, and how the PS-ASO-RNA hybrid is recognized by RNase H1 for RNA cleavage. Endogenous RNAs are frequently chemically modified, which can regulate intra- and intermolecular interactions of the RNA. The effects of PS-ASO modifications on antisense activity have been well studied; however, much less is known regarding the effects of RNA modifications on PS-ASO hybridization and RNase H1 cleavage activity. Here, we determine the effects of three different RNA modifications on PS-ASO binding and antisense activity in recombinant and cell-based systems. Some RNA modifications can reduce PS-ASO hybridization, the cleavage activity of RNase H1, or both, while other modifications had minimal effects on PS-ASO function. In addition to these direct effects, RNA modifications can also change the RNA structure, which may affect PS-ASO accessibility in a cellular context. Our results elucidate the effects of three prevalent RNA modifications on PS-ASO-mediated RNase H1 cleavage activity, and such findings will help improve PS-ASO target site selection.

Published

2022

6. Characterization of antibiotic resistance and host-microbiome interactions in the human upper respiratory tract during influenza infection

Author

Lingdi Zhang, Christian V. Forst, Aubree Gordon, Gabrielle Gussin, Adam B. Geber, Porfirio J. Fernandez, Tao Ding, Lauren Lashua, Minghui Wang, Angel Balmaseda, Richard Bonneau, Bin Zhang, and Elodie Ghedin

Subjects

Antibiotic resistance, Upper respiratory tract infection, Microbiome, Influenza infection, Metatranscriptome, Microbial ecology, QR100-130

Abstract

Abstract Background The abundance and diversity of antibiotic resistance genes (ARGs) in the human respiratory microbiome remain poorly characterized. In the context of influenza virus infection, interactions between the virus, the host, and resident bacteria with pathogenic potential are known to complicate and worsen disease, resulting in coinfection and increased morbidity and mortality of infected individuals. When pathogenic bacteria acquire antibiotic resistance, they are more difficult to treat and of global health concern. Characterization of ARG expression in the upper respiratory tract could help better understand the role antibiotic resistance plays in the pathogenesis of influenza-associated bacterial secondary infection. Results Thirty-seven individuals participating in the Household Influenza Transmission Study (HITS) in Managua, Nicaragua, were selected for this study. We performed metatranscriptomics and 16S rRNA gene sequencing analyses on nasal and throat swab samples, and host transcriptome profiling on blood samples. Individuals clustered into two groups based on their microbial gene expression profiles, with several microbial pathways enriched with genes differentially expressed between groups. We also analyzed antibiotic resistance gene expression and determined that approximately 25% of the sequence reads that corresponded to antibiotic resistance genes mapped to Streptococcus pneumoniae and Staphylococcus aureus. Following construction of an integrated network of ARG expression with host gene co-expression, we identified several host key regulators involved in the host response to influenza virus and bacterial infections, and host gene pathways associated with specific antibiotic resistance genes. Conclusions This study indicates the host response to influenza infection could indirectly affect antibiotic resistance gene expression in the respiratory tract by impacting the microbial community structure and overall microbial gene expression. Interactions between the host systemic responses to influenza infection and antibiotic resistance gene expression highlight the importance of viral-bacterial co-infection in acute respiratory infections like influenza. Video abstract

Published

2020

7. CPP‐E1A fusion peptides inhibit CtBP‐mediated transcriptional repression

Author

Melanie A. Blevins, Caiguo Zhang, Lingdi Zhang, Hong Li, Xueni Li, David A. Norris, Mingxia Huang, and Rui Zhao

Subjects

cell‐penetrating peptides, CtBP, CtBP inhibitors, transcriptional corepressors, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The carboxyl‐terminal binding proteins (CtBP) are transcriptional corepressors that regulate the expression of multiple epithelial‐specific and pro‐apoptotic genes. Overexpression of CtBP occurs in many human cancers where they promote the epithelial‐to‐mesenchymal transition, stem cell‐like features, and cell survival, while knockdown of CtBP in tumor cells results in p53‐independent apoptosis. CtBPs are recruited to their target genes by binding to a conserved PXDLS peptide motif present in multiple DNA‐binding transcription factors. Disrupting the interaction between CtBP and its transcription factor partners may be a means of altering CtBP‐mediated transcriptional repression and a potential approach for cancer therapies. However, small molecules targeting protein–protein interactions have traditionally been difficult to identify. In this study, we took advantage of the fact that CtBP binds to a conserved peptide motif to explore the feasibility of using peptides containing the PXDLS motif fused to cell‐penetrating peptides (CPP) to inhibit CtBP function. We demonstrate that these peptides disrupt the ability of CtBP to interact with its protein partner, E1A, in an AlphaScreen assay. Moreover, these peptides can enter both lung carcinoma and melanoma cells, disrupt the interaction between CtBP and a transcription factor partner, and inhibit CtBP‐mediated transcriptional repression. Finally, the constitutive expression of one such peptide, Pep1‐E1A‐WT, in a melanoma cell line reverses CtBP‐mediated oncogenic phenotypes including proliferation, migration, and sphere formation and limits tumor growth in vivo. Together, our results suggest that CPP‐fused PXDLS‐containing peptides can potentially be developed into a research tool or therapeutic agent targeting CtBP‐mediated transcriptional events in various biological pathways.

Published

2018

8. Eya3 partners with PP2A to induce c-Myc stabilization and tumor progression

Author

Lingdi Zhang, Hengbo Zhou, Xueni Li, Rebecca L Vartuli, Michael Rowse, Yongna Xing, Pratyaydipta Rudra, Debashis Ghosh, Rui Zhao, and Heide L Ford

Subjects

Science

Abstract

Eya proteins are characterised by phosphatase activity associated with both the evolutionary conserved region and the less conserved N-terminal domain (NTD). Here the authors show that NTD mediates the interaction with PP2A and regulates c-Myc phosphorylation and stability, potentially switching PP2A from a tumour suppressor to an oncogene.

Published

2018

9. CryoEM structure of Saccharomyces cerevisiae U1 snRNP offers insight into alternative splicing

Author

Xueni Li, Shiheng Liu, Jiansen Jiang, Lingdi Zhang, Sara Espinosa, Ryan C. Hill, Kirk C. Hansen, Z. Hong Zhou, and Rui Zhao

Subjects

Science

Abstract

U1 snRNP is critical for 5′ splicing site recognition in pre-mRNA splicing. Here the authors describe the cryo-EM structure of the yeast U1 snRNP and suggest that PrpF39 is an alternative splicing factor essential for the successful recruitment of U1 snRNP by other alternative splicing factors.

Published

2017

10. Improved thermostability of an acidic xylanase from Aspergillus sulphureus by combined disulphide bridge introduction and proline residue substitution

Author

Wenhan Yang, Yongzhi Yang, Lingdi Zhang, Hang Xu, Xiaojing Guo, Xu Yang, Bing Dong, and Yunhe Cao

Subjects

Medicine, Science

Abstract

Abstract As a feed additive, xylanase has been widely applied in the feed of monogastric animals, which contains multiple plant polysaccharides. However, during feed manufacture, the high pelleting temperatures challenge wild-type xylanases. The aim of this study was to improve the thermostability of Aspergillus sulphureus acidic xylanase. According to the predicted protein structure, a series of disulphide bridges and proline substitutions were created in the xylanase by PCR, and the mutants were expressed in Pichia pastoris. Enzyme properties were evaluated following chromatographic purification. All the recombinant enzymes showed optima at pH 3.0 and 50 °C or 55 °C and better resistance to some chemicals except for CuSO4. The specific activity of the xylanase was decreased by introduction of the mutations. Compared to the wild-type enzyme, a combined mutant, T53C-T142C/T46P, with a disulphide bond at 53–142 and a proline substitution at 46, showed a 22-fold increase of half-life at 60 °C. In a 10-L fermentor, the maximal xylanase activity of T53C-T142C/T46P reached 1,684 U/mL. It was suggested that the T53C-T142C/T46P mutant xylanase had excellent thermostability characteristics and could be a prospective additive in feed manufacture.

Published

2017

11. Microbial Composition of the Human Nasopharynx Varies According to Influenza Virus Type and Vaccination Status

Author

Tao Ding, Timothy Song, Bin Zhou, Adam Geber, Yixuan Ma, Lingdi Zhang, Michelle Volk, Shashi N. Kapadia, Stephen G. Jenkins, Mirella Salvatore, and Elodie Ghedin

Subjects

16S RNA sequencing, influenza virus, microbiome, vaccination, Microbiology, QR1-502

Abstract

ABSTRACT Factors that contribute to enhanced susceptibility to severe bacterial disease after influenza virus infection are not well defined but likely include the microbiome of the respiratory tract. Vaccination against influenza, while having variable effectiveness, could also play a role in microbial community stability. We collected nasopharyngeal samples from 215 individuals infected with influenza A/H3N2 or influenza B virus and profiled the microbiota by target sequencing of the 16S rRNA gene. We identified signature taxonomic groups by performing linear discriminant analysis and effective size comparisons (LEfSe) and defined bacterial community types using Dirichlet multinomial mixture (DMM) models. Influenza infection was shown to be significantly associated with microbial composition of the nasopharynx according to the virus type and the vaccination status of the patient. We identified four microbial community types across the combined cohort of influenza patients and healthy individuals with one community type most representative of the influenza virus-infected group. We also identified microbial taxa for which relative abundance was significantly higher in the unvaccinated elderly group; these taxa include species known to be associated with pneumonia. IMPORTANCE Our results suggest that there is a significant association between the composition of the microbiota in the nasopharynx and the influenza virus type causing the infection. We observe that vaccination status, especially in more senior individuals, also has an association with the microbial community profile. This indicates that vaccination against influenza, even when ineffective to prevent disease, could play a role in controlling secondary bacterial complications.

Published

2019

12. Author Correction: Eya3 partners with PP2A to induce c-Myc stabilization and tumor progression

Author

Lingdi Zhang, Hengbo Zhou, Xueni Li, Rebecca L. Vartuli, Michael Rowse, Yongna Xing, Pratyaydipta Rudra, Debashis Ghosh, Rui Zhao, and Heide L. Ford

Subjects

Science

Abstract

In the original version of this Article, the title of the legend to Fig. 7 incorrectly read ‘Knockdown of B55α increases breast cancer metastasis’ instead of ‘Knockdown of B55α decreases breast cancer metastasis’. This has now been corrected in both the PDF and HTML versions of the Article.

Published

2018

13. Author Correction: CryoEM structure of Saccharomyces cerevisiae U1 snRNP offers insight into alternative splicing

Author

Xueni Li, Shiheng Liu, Jiansen Jiang, Lingdi Zhang, Sara Espinosa, Ryan C. Hill, Kirk C. Hansen, Z. Hong Zhou, and Rui Zhao

Subjects

Science

Abstract

The originally published version of this Article contained several errors in Figure 2, panel a: the basepair register in SL3-4 of yeast U1 snRNA was depicted incorrectly; the basepair for A287-U295 in yeast U1 snRNA was erroneously present; basepairs for U84-G119, G309-U532, A288-U295 and U289-A294 in yeast U1 snRNA were missing; the bulging nucleotide in SL3 of human U1 snRNA was depicted as G instead of C; and the dashed boxes defining the 5′ ss binding site and Sm site in both human and yeast snRNAs were not drawn accurately. These have now been corrected in both the PDF and HTML versions of the Article.

Published

2018

14. Research on the cost effectiveness of carbon emission reduction in the full life cycle of electric vehicles based on grey prediction

Author

Lizhuo Zang, Baihui Xiao, Jiayi Ma, Yufan Liu, Peiyu Tian, and Lingdi Zhang

Subjects

carbon emission reduction, cost effectiveness, full life cycle, grey prediction, electric vehicle, TA1-2040, Engineering (General). Civil engineering (General)

Abstract

In order to research the carbon emission reduction potential of electric vehicles, a cost effectiveness model is used to calculate and compare the economic costs and carbon emissions of fuel vehicles and electric vehicles throughout the life cycle, and an improved grey prediction model is utilized to analyze the future trends of electric vehicle emission reduction benefits. The results show that electric vehicles play a positive role in carbon emission reduction, and the unit cost of carbon emission reduction is decreasing by years. Therefore, China should vigorously develop the electric vehicle industry and technology, and achieve the strategic goal of carbon emission reduction by promoting the electrification of vehicles.

Published

2022

15. Sclareol ameliorates liver injury by inhibiting nuclear factor-kappa B/NOD-like receptor protein 3-mediated inflammation and lipid metabolism disorder in diabetic mice.

Author

Leilei Tang, Xuan Mei, Mengling Ye, Yang Liu, Yujie Huang, Jiawen Yu, Lingdi Zhang, Sheng Zhuge, Guojun Jiang, and Jianjun Zhu

Published

2023

16. Targeting EYA2 tyrosine phosphatase activity in glioblastoma stem cells induces mitotic catastrophe

Author

Thomas H. Keller, Heide L. Ford, Guoxin Zhang, Lingdi Zhang, Leo J.Y. Kim, Lisa M Wood, Ryan L Anderson, Jia Z. Shen, Grace Lin, Li Jiang, Zhen Dong, Qiulian Wu, Xiuxing Wang, Petra Hamerlik, Arthur Wolin, Ryan C. Gimple, Zhixin Qiu, CongBao Kang, Shideng Bao, Jeremy N. Rich, Deguan Lv, Linjie Zhao, Jeffrey K. Moore, Rui Zhao, and Briana C. Prager

Subjects

Male, endocrine system, Cell cycle checkpoint, Immunology, Phosphatase, Protein tyrosine phosphatase, Biology, Mice, Neural Stem Cells, Cell Line, Tumor, Immunology and Allergy, Animals, Humans, Tyrosine, Mitotic catastrophe, Cell Death, Brain Neoplasms, fungi, Intracellular Signaling Peptides and Proteins, Brain, Nuclear Proteins, Cell Differentiation, Neural stem cell, Gene Expression Regulation, Neoplastic, Apoptosis, Cancer research, Neoplastic Stem Cells, Female, Stem cell, Protein Tyrosine Phosphatases, Glioblastoma

Abstract

Glioblastoma ranks among the most lethal of primary brain malignancies, with glioblastoma stem cells (GSCs) at the apex of tumor cellular hierarchies. Here, to discover novel therapeutic GSC targets, we interrogated gene expression profiles from GSCs, differentiated glioblastoma cells (DGCs), and neural stem cells (NSCs), revealing EYA2 as preferentially expressed by GSCs. Targeting EYA2 impaired GSC maintenance and induced cell cycle arrest, apoptosis, and loss of self-renewal. EYA2 displayed novel localization to centrosomes in GSCs, and EYA2 tyrosine (Tyr) phosphatase activity was essential for proper mitotic spindle assembly and survival of GSCs. Inhibition of the EYA2 Tyr phosphatase activity, via genetic or pharmacological means, mimicked EYA2 loss in GSCs in vitro and extended the survival of tumor-bearing mice. Supporting the clinical relevance of these findings, EYA2 portends poor patient prognosis in glioblastoma. Collectively, our data indicate that EYA2 phosphatase function plays selective critical roles in the growth and survival of GSCs, potentially offering a high therapeutic index for EYA2 inhibitors.

Published

2021

17. Eya3 partners with PP2A to induce c-Myc stabilization and tumor progression

Author

Pratyaydipta Rudra, Xueni Li, Yongna Xing, Debashis Ghosh, Lingdi Zhang, Rebecca L. Vartuli, Rui Zhao, Hengbo Zhou, Michael Rowse, and Heide L. Ford

Subjects

0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, Science, Phosphatase, General Physics and Astronomy, Protein tyrosine phosphatase, macromolecular substances, DNA-binding protein, environment and public health, General Biochemistry, Genetics and Molecular Biology, Mass Spectrometry, Dephosphorylation, Proto-Oncogene Proteins c-myc, 03 medical and health sciences, Mice, 0302 clinical medicine, Cell Line, Tumor, Animals, Humans, Protein Phosphatase 2, Phosphorylation, lcsh:Science, Multidisciplinary, Chemistry, Protein Stability, General Chemistry, Protein phosphatase 2, Immunohistochemistry, 3. Good health, Cell biology, nervous system diseases, DNA-Binding Proteins, enzymes and coenzymes (carbohydrates), 030104 developmental biology, HEK293 Cells, Tumor progression, 030220 oncology & carcinogenesis, lcsh:Q, Protein Tyrosine Phosphatases, Protein Binding

Abstract

Eya genes encode a unique family of multifunctional proteins that serve as transcriptional co-activators and as haloacid dehalogenase-family Tyr phosphatases. Intriguingly, the N-terminal domain of Eyas, which does not share sequence similarity to any known phosphatases, contains a separable Ser/Thr phosphatase activity. Here, we demonstrate that the Ser/Thr phosphatase activity of Eya is not intrinsic, but arises from its direct interaction with the protein phosphatase 2A (PP2A)-B55α holoenzyme. Importantly, Eya3 alters the regulation of c-Myc by PP2A, increasing c-Myc stability by enabling PP2A-B55α to dephosphorylate pT58, in direct contrast to the previously described PP2A-B56α-mediated dephosphorylation of pS62 and c-Myc destabilization. Furthermore, Eya3 and PP2A-B55α promote metastasis in a xenograft model of breast cancer, opposing the canonical tumor suppressive function of PP2A-B56α. Our study identifies Eya3 as a regulator of PP2A, a major cellular Ser/Thr phosphatase, and uncovers a mechanism of controlling the stability of a critical oncogene, c-Myc.

Published

2018

18. Structural and functional analyses of an allosteric Eya2 phosphatase inhibitor that has on target effects in human lung cancer cells

Author

Anna Elisabet Jansson, Lingdi Zhang, Grace Lin, Melanie Y. Vincent, Joma Joy, Juan J. Marugan, Alvin W. Hung, Thomas H. Keller, Nithya Baburajendran, Taylor J. Hotz, Jeffrey Hill, Hengbo Zhou, John Wee Liang Kuan, Rui Zhao, Melanie A. Blevins, Jothi Anantharajan, CongBao Kang, Heide L. Ford, Yee Khoon Yeo, Elizabeth Yihui Ng, Debashis Ghosh, Samarjit Patnaik, and Pratyaydipta Rudra

Subjects

0301 basic medicine, Models, Molecular, Cancer Research, Lung Neoplasms, DNA damage, Allosteric regulation, Mutant, Phosphatase, Plasma protein binding, Crystallography, X-Ray, Article, Small Molecule Libraries, 03 medical and health sciences, 0302 clinical medicine, Allosteric Regulation, Protein Domains, Cell Movement, Cell Line, Tumor, Humans, Enzyme Inhibitors, Cell Proliferation, Chemistry, Cell growth, Intracellular Signaling Peptides and Proteins, Nuclear Proteins, Cell biology, 030104 developmental biology, Oncology, Cell culture, 030220 oncology & carcinogenesis, Invadopodia, Protein Tyrosine Phosphatases, Protein Binding

Abstract

EYA proteins (EYA1-4) are critical developmental transcriptional cofactors that contain an EYA domain (ED) harboring Tyr phosphatase activity. EYA proteins are largely downregulated after embryogenesis but are reexpressed in cancers, and their Tyr phosphatase activity plays an important role in the DNA damage response and tumor progression. We previously identified a class of small-molecule allosteric inhibitors that specifically inhibit the Tyr phosphatase activity of EYA2. Herein, we determined the crystal structure of the EYA2 ED in complex with NCGC00249987 (a representative compound in this class), revealing that it binds to an induced pocket distant from the active site. NCGC00249987 binding leads to a conformational change of the active site that is unfavorable for Mg2+ binding, thereby inhibiting EYA2′s Tyr phosphatase activity. We demonstrate, using genetic mutations, that migration, invadopodia formation, and invasion of lung adenocarcinoma cells are dependent on EYA2 Tyr phosphatase activity, whereas growth and survival are not. Further, we demonstrate that NCGC00249987 specifically targets migration, invadopodia formation, and invasion of lung cancer cells, but that it does not inhibit cell growth or survival. The compound has no effect on lung cancer cells carrying an EYA2 F290Y mutant that abolishes compound binding, indicating that NCGC00249987 is on target in lung cancer cells. These data suggest that the NCGC00249987 allosteric inhibitor can be used as a chemical probe to study the function of the EYA2 Tyr phosphatase activity in cells and may have the potential to be developed into an antimetastatic agent for cancers reliant on EYA2′s Tyr phosphatase activity.

Published

2019

19. Microbial Composition of the Human Nasopharynx Varies According to Influenza Virus Type and Vaccination Status

Author

Stephen G. Jenkins, Elodie Ghedin, Yixuan Ma, Shashi N Kapadia, Michelle Volk, Adam Geber, Timothy Song, Mirella Salvatore, Tao Ding, Lingdi Zhang, and Bin Zhou

Subjects

Male, microbiome, Disease, 16s rna sequencing, influenza virus, Vaccination status, Nasopharynx, RNA, Ribosomal, 16S, Cluster Analysis, Young adult, Child, Phylogeny, Aged, 80 and over, 0303 health sciences, Microbiota, Middle Aged, QR1-502, 3. Good health, Vaccination, Community-Acquired Infections, Influenza A virus, Influenza Vaccines, Child, Preschool, Cohort, Female, Research Article, Adult, Adolescent, Biology, DNA, Ribosomal, Microbiology, Virus, Host-Microbe Biology, 03 medical and health sciences, Young Adult, Virology, Influenza, Human, medicine, Humans, Microbiome, 030304 developmental biology, Aged, Bacterial disease, Bacteria, 030306 microbiology, Infant, Microbial composition, Sequence Analysis, DNA, medicine.disease, vaccination, Pneumonia, Influenza B virus, Immunology

Abstract

Our results suggest that there is a significant association between the composition of the microbiota in the nasopharynx and the influenza virus type causing the infection. We observe that vaccination status, especially in more senior individuals, also has an association with the microbial community profile. This indicates that vaccination against influenza, even when ineffective to prevent disease, could play a role in controlling secondary bacterial complications., Factors that contribute to enhanced susceptibility to severe bacterial disease after influenza virus infection are not well defined but likely include the microbiome of the respiratory tract. Vaccination against influenza, while having variable effectiveness, could also play a role in microbial community stability. We collected nasopharyngeal samples from 215 individuals infected with influenza A/H3N2 or influenza B virus and profiled the microbiota by target sequencing of the 16S rRNA gene. We identified signature taxonomic groups by performing linear discriminant analysis and effective size comparisons (LEfSe) and defined bacterial community types using Dirichlet multinomial mixture (DMM) models. Influenza infection was shown to be significantly associated with microbial composition of the nasopharynx according to the virus type and the vaccination status of the patient. We identified four microbial community types across the combined cohort of influenza patients and healthy individuals with one community type most representative of the influenza virus-infected group. We also identified microbial taxa for which relative abundance was significantly higher in the unvaccinated elderly group; these taxa include species known to be associated with pneumonia.

Published

2019

20. Understanding pre-mRNA splicing through crystallography

Author

Lingdi Zhang, Rui Zhao, Xueni Li, and Sara Espinosa

Subjects

0301 basic medicine, Electron crystallography, Critical event, RNA Splicing, Biology, Crystallography, X-Ray, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Crystallography, 030104 developmental biology, Microscopy, Electron, Transmission, RNA splicing, Molecular mechanism, Pre-mRNA splicing, RNA Precursors, Nanoparticles, Nucleic Acid Conformation, Molecular Biology

Abstract

Crystallography is a powerful tool to determine the atomic structures of proteins and RNAs. X-ray crystallography has been used to determine the structure of many splicing related proteins and RNAs, making major contributions to our understanding of the molecular mechanism and regulation of pre-mRNA splicing. Compared to other structural methods, crystallography has its own advantage in the high-resolution structural information it can provide and the unique biological questions it can answer. In addition, two new crystallographic methods – the serial femtosecond crystallography and 3D electron crystallography – were developed to overcome some of the limitations of traditional X-ray crystallography and broaden the range of biological problems that crystallography can solve. This review discusses the theoretical basis, instrument requirements, troubleshooting, and exciting potential of these crystallographic methods to further our understanding of pre-mRNA splicing, a critical event in gene expression of all eukaryotes.

Published

2017

21. Improved thermostability of an acidic xylanase from Aspergillus sulphureus by combined disulphide bridge introduction and proline residue substitution

Author

Xu Yang, Guo Xiaojing, Lingdi Zhang, Bing Dong, Yunhe Cao, Wenhan Yang, Yongzhi Yang, and Hang Xu

Subjects

0301 basic medicine, Models, Molecular, Proline, Protein Conformation, Feed additive, Science, Gene Expression, Polysaccharide, Protein Engineering, Article, Pichia pastoris, 03 medical and health sciences, Disulfides, Thermostability, chemistry.chemical_classification, Multidisciplinary, biology, Hydrogen-Ion Concentration, biology.organism_classification, 030104 developmental biology, Enzyme, Aspergillus, Xylosidases, chemistry, Biochemistry, Amino Acid Substitution, Fermentation, Mutation, Xylanase, Medicine, Thermodynamics

Abstract

As a feed additive, xylanase has been widely applied in the feed of monogastric animals, which contains multiple plant polysaccharides. However, during feed manufacture, the high pelleting temperatures challenge wild-type xylanases. The aim of this study was to improve the thermostability of Aspergillus sulphureus acidic xylanase. According to the predicted protein structure, a series of disulphide bridges and proline substitutions were created in the xylanase by PCR, and the mutants were expressed in Pichia pastoris. Enzyme properties were evaluated following chromatographic purification. All the recombinant enzymes showed optima at pH 3.0 and 50 °C or 55 °C and better resistance to some chemicals except for CuSO4. The specific activity of the xylanase was decreased by introduction of the mutations. Compared to the wild-type enzyme, a combined mutant, T53C-T142C/T46P, with a disulphide bond at 53–142 and a proline substitution at 46, showed a 22-fold increase of half-life at 60 °C. In a 10-L fermentor, the maximal xylanase activity of T53C-T142C/T46P reached 1,684 U/mL. It was suggested that the T53C-T142C/T46P mutant xylanase had excellent thermostability characteristics and could be a prospective additive in feed manufacture.

Published

2017

22. Distinct activities of the DExD/H-box splicing factor hUAP56 facilitate stepwise assembly of the spliceosome

Author

Haihong Shen, Xuexiu Zheng, Jingping Shen, Lingdi Zhang, Rui Zhao, and Green, Michael R.

Subjects

RNA splicing -- Research, Adenosine triphosphatase -- Research, Adenosine triphosphatase genes -- Research, Biological sciences

Abstract

Study conducted show that hUAP56 has multiple and diverse roles in splicing complex assembly. It is confirmed that hUAP56 is required for prespliceosome assembly at it is also required for the conversion of the prespliceosome to the mature spliceosome.

Published

2008

23. Author Correction: Eya3 partners with PP2A to induce c-Myc stabilization and tumor progression

Author

Heide L. Ford, Lingdi Zhang, Michael Rowse, Hengbo Zhou, Rui Zhao, Pratyaydipta Rudra, Yongna Xing, Rebecca L. Vartuli, Debashis Ghosh, and Xueni Li

Subjects

0301 basic medicine, Gene knockdown, Multidisciplinary, business.industry, Science, General Physics and Astronomy, Breast cancer metastasis, General Chemistry, Protein phosphatase 2, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, 030104 developmental biology, Text mining, Tumor progression, Cancer research, Medicine, lcsh:Q, business, lcsh:Science, skin and connective tissue diseases

Abstract

Eya genes encode a unique family of multifunctional proteins that serve as transcriptional co-activators and as haloacid dehalogenase-family Tyr phosphatases. Intriguingly, the N-terminal domain of Eyas, which does not share sequence similarity to any known phosphatases, contains a separable Ser/Thr phosphatase activity. Here, we demonstrate that the Ser/Thr phosphatase activity of Eya is not intrinsic, but arises from its direct interaction with the protein phosphatase 2A (PP2A)-B55α holoenzyme. Importantly, Eya3 alters the regulation of c-Myc by PP2A, increasing c-Myc stability by enabling PP2A-B55α to dephosphorylate pT58, in direct contrast to the previously described PP2A-B56α-mediated dephosphorylation of pS62 and c-Myc destabilization. Furthermore, Eya3 and PP2A-B55α promote metastasis in a xenograft model of breast cancer, opposing the canonical tumor suppressive function of PP2A-B56α. Our study identifies Eya3 as a regulator of PP2A, a major cellular Ser/Thr phosphatase, and uncovers a mechanism of controlling the stability of a critical oncogene, c-Myc., Eya proteins are characterised by phosphatase activity associated with both the evolutionary conserved region and the less conserved N-terminal domain (NTD). Here the authors show that NTD mediates the interaction with PP2A and regulates c-Myc phosphorylation and stability, potentially switching PP2A from a tumour suppressor to an oncogene.

Published

2018

24. Structure of the yeast spliceosomal postcatalytic P complex.

Author

Shiheng Liu, Xueni Li, Lingdi Zhang, Jiansen Jiang, Hill, Ryan C., Yanxiang Cui, Hansen, Kirk C., Z. Hong Zhou, and Rui Zhao

Published

2017

25. Brr2 plays a role in spliceosomal activation in addition to U4/U6 unwinding.

Author

Lingdi Zhang, Xueni Li, Hill, Ryan C., Yan Qiu, Wenzheng Zhang, Hansen, Kirk C., and Rui Zhao

Published

2015

26. Structural evidence for consecutive Hel308-like modules in the spliceosomal ATPase Brr2.

Author

Lingdi Zhang, Tao Xu, Maeder, Corina, Bud, Laura-Oana, Shanks, James, Nix, Jay, Guthrie, Christine, Pleiss, Jeffrey A, and Rui Zhao

Subjects

*RNA splicing, *GENETIC regulation, *MUTAGENESIS, *GENETIC mutation, *PROTEINS, *MOLECULAR biology

Abstract

Brr2 is a DExD/H-box helicase responsible for U4/U6 unwinding during spliceosomal activation. Brr2 contains two helicase-like domains, each of which is followed by a Sec63 domain with unknown function. We determined the crystal structure of the second Sec63 domain, which unexpectedly resembles domains 4 and 5 of DNA helicase Hel308. This, together with sequence similarities between Brr2's helicase-like domains and domains 1–3 of Hel308, led us to hypothesize that Brr2 contains two consecutive Hel308-like modules (Hel308-I and Hel308-II). Our structural model and mutagenesis data suggest that Brr2 shares a similar helicase mechanism with Hel308. We demonstrate that Hel308-II interacts with Prp8 and Snu114 in vitro and in vivo. We further find that the C-terminal region of Prp8 (Prp8-CTR) facilitates the binding of the Brr2–Prp8-CTR complex to U4/U6. Our results have important implications for the mechanism and regulation of Brr2's activity in splicing. [ABSTRACT FROM AUTHOR]

Published

2009

27. Crystal structure of the β-finger domain of Prp8 reveals analogyto ribosomal proteins.

Author

Kui Yang, Lingdi Zhang, Tao Xu, Annie Heroux, and Rui Zhao

Subjects

*PROTEINS, *RIBOSOMES, *GENETIC mutation, *CATALYSIS, *RNA

Abstract

Prp8 stands out among hundreds of splicing factors as a key regulator of spliceosome activation and a potential cofactor of the splicing reaction. We present here the crystal structure of a 274-residue domain (residues 1,822-2,095) near the C terminus of Saccharomyces cerevisiae Prp8. The most striking feature of this domain is a β-hairpin finger protruding out of the protein (hence, this domain will be referred to as the β-finger domain); resembling many globular ribosomal proteins with protruding extensions. Mutations throughout the β-finger change the conformational equilibrium between the first and the second catalytic step. Mutations at the base of the β-finger affect U4/U6 unwinding-mediated spliceosome activation. Prp8 may insert its β-finger into the first-step complex (U2/U5/U6/pre-mRNA) or U4/U6.U5 tri-snRNP and stabilize these complexes. Mutations on the β-finger likely alter these interactions, leading to the observed mutant phenotypes. Our results suggest a possible mechanism of how Prp8 regulates spliceosome activation. These results also demonstrate an analogy between a spliceosomal protein and ribosomal proteins that insert extensions into folded rRNAs and stabilize the ribosome. [ABSTRACT FROM AUTHOR]

Published

2008

28. Biochemical Characterization of the ATPase and Helicase Activity of UAP56, an Essential Pre-mRNA Splicing and mRNA Export Factor.

Author

Jingping Shen, Lingdi Zhang, and Rui Zhao

Subjects

*MESSENGER RNA, *ADENOSINE triphosphatase, *NUCLEIC acids, *CYTOPLASM, *DNA helicases, *BIOMOLECULES

Abstract

DEXD/H-box protein UAP56 is an essential pre-mRNA splicing factor required for the first ATP-dependent spliceosome assembly step. UAP56 is also essential for the export of the majority of mRNAs from the nucleus to the cytoplasm. We performed biochemical characterization of UAP56's ATPase and helicase activity, which is important for further understanding the role of these activities in UAP56's function. We showed that UAP56 is an RNA-stimulated ATPase that can only hydrolyze ATP. We demonstrated that UAP56 is an ATP-dependent RNA helicase that can unwind substrates with 5′ or 3′ overhangs or blunt ends in vitro. We showed that U2AF65 and Aly, two proteins known to interact with UAP56, do not influence UAP56's ATPase or helicase activity. We also demonstrated that several mutants in the conserved helicase motifs I, II, and III abolish UAP56's ATPase and/or helicase activity, providing tools for future investigation of the role of UAP56's ATPase and helicase activity in spliceosome assembly and mRNA export. [ABSTRACT FROM AUTHOR]

Published

2007

29. Eya3 promotes breast tumor-associated immune suppression via threonine phosphatase-mediated PD-L1 upregulation.

Author

Vartuli, Rebecca L., Hengbo Zhou, Lingdi Zhang, Powers, Rani K., Klarquist, Jared, Rudra, Pratyaydipta, Vincent, Melanie Y., Ghosh, Debashis, Costello, James C., Kedl, Ross M., Slansky, Jill E., Rui Zhao, Ford, Heide L., Zhou, Hengbo, Zhang, Lingdi, and Zhao, Rui

Subjects

*BREAST cancer immunology, *THREONINE, *PHOSPHATASES, *GENETIC regulation, *PROMOTERS (Genetics), *EMBRYOLOGY

Abstract

Eya proteins are critical developmental regulators that are highly expressed in embryogenesis but downregulated after development. Amplification and/or re-expression of Eyas occurs in many tumor types. In breast cancer, Eyas regulate tumor progression by acting as transcriptional cofactors and tyrosine phosphatases. Intriguingly, Eyas harbor a separate threonine (Thr) phosphatase activity, which was previously implicated in innate immunity. Here we describe what we believe to be a novel role for Eya3 in mediating triple-negative breast cancer-associated immune suppression. Eya3 loss decreases tumor growth in immune-competent mice and is associated with increased numbers of infiltrated CD8+ T cells, which, when depleted, reverse the effects of Eya3 knockdown. Mechanistically, Eya3 utilizes its Thr phosphatase activity to dephosphorylate Myc at pT58, resulting in a stabilized form. We show that Myc is required for Eya3-mediated increases in PD-L1, and that rescue of PD-L1 in Eya3-knockdown cells restores tumor progression. Finally, we demonstrate that Eya3 significantly correlates with PD-L1 in human breast tumors, and that tumors expressing high levels of Eya3 have a decreased CD8+ T cell signature. Our data uncover a role for Eya3 in mediating tumor-associated immune suppression, and suggest that its inhibition may enhance checkpoint therapies. [ABSTRACT FROM AUTHOR]

Published

2018