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2. Sema7A protects against high-fat diet-induced obesity and hepatic steatosis by regulating adipo/lipogenesis

Author

Qiongyu Lu, Ziting Liu, Luyao Zhao, Linru Xu, Chu Liu, Ling Li, Yiren Cao, Fengchan Li, Lili Wu, Lei Wang, Ting Chen, Tao You, Lijie Ren, Guixue Wang, Chaojun Tang, and Li Zhu

Subjects
Sema7A, Adipogenesis, Lipogenesis, ADSCs, Obesity, Hepatic steatosis, Internal medicine, RC31-1245
Abstract

Objective: Obesity and related diseases are becoming a growing risk for public health around the world due to the westernized lifestyle. Sema7A, an axonal guidance molecule, has been known to play a role in neurite growth, bone formation, and immune regulation. Whether Sema7A participates in obesity and metabolic diseases is unknown. As several SNPs in SEMA7A and its receptors were found to correlate with BMI and metabolic parameters in the human population, we investigated the potential role of Sema7A in obesity and hepatic steatosis. Methods: GWAS and GEPIA database was used to analyze SNPs in SEMA7A and the correlation of Sema7A expression with lipid metabolism related genes. Sema7A−/− mice and recombinant Sema7A (rSema7A) were used to study the role of Sema7A in HFD-induced obesity and hepatic steatosis. Adipose tissue-derived mesenchymal stem cells (ADSCs) were used to examine the role of Sema7A in adipogenesis, lipogenesis and downstream signaling. Results: Deletion of Sema7A aggravated HFD-induced obesity. Sema7A deletion enhanced adipogenesis in both subcutaneous and visceral ADSCs, while the addition of rSema7A inhibited adipogenesis of ADSCs and lipogenesis of differentiated mature adipocytes. Sema7A inhibits adipo/lipogenesis potentially through its receptor integrin β1 and downstream FAK signaling. Importantly, administration of rSema7A had protective effects against diet-induced obesity in mice. In addition, deletion of Sema7A led to increased hepatic steatosis and insulin resistance in mice. Conclusions: Our findings reveal a novel inhibitory role of Sema7A in obesity and hepatic steatosis, providing a potential new therapeutic target for obesity and metabolic diseases.

Published
2023
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3. Genomic and epigenomic evolution of acquired resistance to combination therapy in esophageal squamous cell carcinoma

Author

Qingjie Min, Yan Wang, Qingnan Wu, Xianfeng Li, Huajing Teng, Jiawen Fan, Yiren Cao, Pingsheng Fan, and Qimin Zhan

Subjects
Oncology, Medicine
Abstract

BACKGROUND Targeted arterial infusion of verapamil combined with chemotherapy (TVCC) is an effective clinical interventional therapy for esophageal squamous cell carcinoma (ESCC), but multidrug resistance (MDR) remains the major cause of relapse or poor prognosis, and the underlying molecular mechanisms of MDR, temporal intratumoral heterogeneity, and clonal evolutionary processes of resistance have not been determined.METHODS To elucidate the roles of genetic and epigenetic alterations in the evolution of acquired resistance during therapies, we performed whole-exome sequencing on 16 serial specimens from 7 patients with ESCC at every cycle of therapeutic intervention from 3 groups, complete response, partial response, and progressive disease, and we performed whole-genome bisulfite sequencing for 3 of these 7 patients, 1 patient from each group.RESULTS Patients with progressive disease exhibited a substantially higher genomic and epigenomic temporal heterogeneity. Subclonal expansions driven by the beneficial new mutations were observed during combined therapies, which explained the emergence of MDR. Notably, SLC7A8 was identified as a potentially novel MDR gene, and functional assays demonstrated that mutant SLC7A8 promoted the resistance phenotypes of ESCC cell lines. Promoter methylation dynamics during treatments revealed 8 drug resistance protein-coding genes characterized by hypomethylation in promoter regions. Intriguingly, promoter hypomethylation of SLC8A3 and mutant SLC7A8 were enriched in an identical pathway, protein digestion and absorption, indicating a potentially novel MDR mechanism during treatments.CONCLUSION Our integrated multiomics investigations revealed the dynamics of temporal genetic and epigenetic inter- and intratumoral heterogeneity, clonal evolutionary processes, and epigenomic changes, providing potential MDR therapeutic targets in treatment-resistant patients with ESCC during combined therapies.FUNDING National Natural Science Foundation of China, Science Foundation of Peking University Cancer Hospital, CAMS Innovation Fund for Medical Sciences, Major Program of Shenzhen Bay Laboratory, Guangdong Basic and Applied Basic Research Foundation, and the third round of public welfare development and reform pilot projects of Beijing Municipal Medical Research Institutes.

Published
2021
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4. Extracellular vesicles derived from oesophageal cancer containing P4HB promote muscle wasting via regulating PHGDH/Bcl‐2/caspase‐3 pathway

Author

Xiaohan Gao, Yan Wang, Fang Lu, Xu Chen, Di Yang, Yiren Cao, Weimin Zhang, Jie Chen, Leilei Zheng, Guangchao Wang, Ming Fu, Liying Ma, Yongmei Song, and Qimin Zhan

Subjects
apoptosis, cachexia, oesophageal cancer, extracellular vesicles, inhibitor, muscle wasting, Cytology, QH573-671
Abstract

Abstract Cachexia, characterized by loss of skeletal muscle mass and function, is estimated to inflict the majority of patients with oesophageal squamous cell carcinoma (ESCC) and associated with their poor prognosis. However, its underlying mechanisms remain elusive. Here, we developed an ESCC‐induced cachexia mouse model using human xenograft ESCC cell lines and found that ESCC‐derived extracellular vesicles (EVs) containing prolyl 4‐hydroxylase subunit beta (P4HB) induced apoptosis of skeletal muscle cells. We further identified that P4HB promoted apoptotic response through activating ubiquitin‐dependent proteolytic pathway and regulated the stability of phosphoglycerate dehydrogenase (PHGDH) and subsequent antiapoptotic protein Bcl‐2. Additionally, we proved that the P4HB inhibitor, CCF642, not only rescued apoptosis of muscle cells in vitro, but also prevented body weight loss and muscle wasting in ESCC‐induced cachexia mouse model. Overall, these findings demonstrate a novel pathway for ESCC‐induced muscle wasting and advocate for the development of P4HB as a potential intervention target for cachexia in patients with ESCC.

Published
2021
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6. Split Locations and Secondary Structures of a DNAzyme Critical to Binding-Assembled Multicomponent Nucleic Acid Enzymes for Protein Detection

Author

Hongquan Zhang, Yiren Cao, and X. Chris Le

Subjects
chemistry.chemical_classification, 010405 organic chemistry, Deoxyribozyme, Proteins, DNA, DNA, Catalytic, 010402 general chemistry, Cleavage (embryo), 01 natural sciences, Combinatorial chemistry, Protein detection, 0104 chemical sciences, Analytical Chemistry, Thymine, Catalysis, chemistry.chemical_compound, Enzyme, chemistry, Catalytic Domain, Nucleic acid, RNA, Cytosine
Abstract

RNA-cleaving DNAzymes and their multicomponent nucleic acid enzymes (MNAzymes) have been successfully used to detect nucleic acids and proteins. The appropriate split of the catalytic cores of DNAzymes is critical to the formation of MNAzymes with high catalytic activities. However, for protein detection, no systematic investigation has been made on the effects of the split locations and secondary structures of MNAzymes on the catalytic activities of the cleavage reaction. We systematically studied how split locations and secondary structures affect the activity of the MNAzymes that catalyze multiple cleavage steps. We engineered the MNAzymes on the basis of the RNA-cleaving DNAzyme 10-23 as a model system. We designed 28 pairs of MNAzymes, representing 14 different split locations and two secondary structures: the three-arm and the four-arm structures. By comparing the multiple turnover numbers (kobs.m) of the 28 MNAzymes, we showed that the split location between the seventh cytosine and the eighth thymine of the catalytic core region and the four-arm structure resulted in optimum catalytic activity. Binding-induced DNA assembly of the optimized MNAzymes enabled sensitive detection of two model protein targets, demonstrating promising potential of the binding-assembled MNAzymes for protein analysis. The strategy of binding-assembled MNAzymes and systematic studies measuring multiple turnover numbers (kobs.m) provide a new approach to studying other partial (split) DNAzymes and engineering better MNAzymes for the detection of specific proteins.

Published
2021
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7. CRISPR/Cas12a-mediated gold nanoparticle aggregation for colorimetric detection of SARS-CoV-2

Author

Yiren Cao, Bo Pang, Jinjun Wu, X. Chris Le, and Hongquan Zhang

Subjects
Genes, Viral, Loop-mediated isothermal amplification, Metal Nanoparticles, Nanoparticle, 010402 general chemistry, 01 natural sciences, Catalysis, 03 medical and health sciences, Materials Chemistry, CRISPR, Colorimetry, Gene, 030304 developmental biology, 0303 health sciences, SARS-CoV-2, Chemistry, technology, industry, and agriculture, Metals and Alloys, COVID-19, RNA, General Chemistry, Nucleic acid amplification technique, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Cross-Linking Reagents, Molecular Diagnostic Techniques, Colloidal gold, Ceramics and Composites, Biophysics, Gold, CRISPR-Cas Systems, Nucleic Acid Amplification Techniques
Abstract

The trans-cleavage activity of the target-activated CRISPR/Cas12a liberated an RNA crosslinker from a molecular transducer, which facilitated the assembly of gold nanoparticles. Integration of the molecular transducer with isothermal amplification and CRISPR/Cas12a resulted in visual detection of the N gene and E gene of SARS-CoV-2 in 45 min.

Published
2021
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8. Isothermal Amplification and Ambient Visualization in a Single Tube for the Detection of SARS-CoV-2 Using Loop-Mediated Amplification and CRISPR Technology

Author

Jingyang Xu, Hanyong Peng, Wei Feng, Yiren Cao, Michael A. Joyce, Bo Pang, Hongquan Zhang, D. Lorne Tyrrell, Yanming Liu, Jinjun Wu, X. Chris Le, Graham Tipples, Kanti Pabbaraju, Holly A. Saffran, and Huyan Xiao

Subjects
Reverse Transcriptase Polymerase Chain Reaction, SARS-CoV-2, Chemistry, 010401 analytical chemistry, Loop-mediated isothermal amplification, RNA, Nucleic acid amplification technique, Amplicon, 010402 general chemistry, 01 natural sciences, Vial, Molecular biology, Article, Reverse transcriptase, 0104 chemical sciences, Analytical Chemistry, Real-time polymerase chain reaction, Humans, RNA, Viral, CRISPR, Clustered Regularly Interspaced Short Palindromic Repeats, CRISPR-Cas Systems, Nucleic Acid Amplification Techniques
Abstract

We have developed a single-tube assay for SARS-CoV-2 in patient samples. This assay combined advantages of reverse transcription (RT) loop-mediated isothermal amplification (LAMP) with clustered regularly interspaced short palindromic repeats (CRISPRs) and the CRISPR-associated (Cas) enzyme Cas12a. Our assay is able to detect SARS-CoV-2 in a single tube within 40 min, requiring only a single temperature control (62 °C). The RT-LAMP reagents were added to the sample vial, while CRISPR Cas12a reagents were deposited onto the lid of the vial. After a half-hour RT-LAMP amplification, the tube was inverted and flicked to mix the detection reagents with the amplicon. The sequence-specific recognition of the amplicon by the CRISPR guide RNA and Cas12a enzyme improved specificity. Visible green fluorescence generated by the CRISPR Cas12a system was recorded using a smartphone camera. Analysis of 100 human respiratory swab samples for the N and/or E gene of SARS-CoV-2 produced 100% clinical specificity and no false positive. Analysis of 50 samples that were detected positive using reverse transcription quantitative polymerase chain reaction (RT-qPCR) resulted in an overall clinical sensitivity of 94%. Importantly, this included 20 samples that required 30–39 threshold cycles of RT-qPCR to achieve a positive detection. Integration of the exponential amplification ability of RT-LAMP and the sequence-specific processing by the CRISPR-Cas system into a molecular assay resulted in improvements in both analytical sensitivity and specificity. The single-tube assay is beneficial for future point-of-care applications.

Published
2020
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9. Molecular Diagnosis of COVID-19: Challenges and Research Needs

Author

Ghulam Abbas, Connie Le, Xian-En Zhang, Yiren Cao, Bo Pang, Jeffrey Tao, X. Chris Le, Hongquan Zhang, Mengmeng Cui, D. Lorne Tyrrell, Jin Song, Dianbing Wang, Ashley M. Newbigging, Jinjun Wu, Wei Feng, and Hanyong Peng

Subjects
Pneumonia, Viral, RNA-dependent RNA polymerase, Computational biology, Wastewater, 010402 general chemistry, 01 natural sciences, Virus, Specimen Handling, Analytical Chemistry, Betacoronavirus, Viral Proteins, COVID-19 Testing, Humans, CRISPR, False Negative Reactions, Pandemics, Gene, Clinical Laboratory Techniques, Reverse Transcriptase Polymerase Chain Reaction, SARS-CoV-2, Chemistry, 010401 analytical chemistry, COVID-19, High-Throughput Nucleotide Sequencing, RNA, Nucleic acid amplification technique, Viral Load, 6. Clean water, 3. Good health, 0104 chemical sciences, Reverse transcription polymerase chain reaction, Molecular Diagnostic Techniques, Point-of-Care Testing, Perspective, RNA, Viral, CRISPR-Cas Systems, Coronavirus Infections, Nucleic Acid Amplification Techniques, Viral load
Abstract

Molecular diagnosis of COVID-19 primarily relies on the detection of RNA of the SARS-CoV-2 virus, the causative infectious agent of the pandemic. Reverse transcription polymerase chain reaction (RT-PCR) enables sensitive detection of specific sequences of genes that encode the RNA dependent RNA polymerase (RdRP), nucleocapsid (N), envelope (E), and spike (S) proteins of the virus. Although RT-PCR tests have been widely used and many alternative assays have been developed, the current testing capacity and availability cannot meet the unprecedented global demands for rapid, reliable, and widely accessible molecular diagnosis. Challenges remain throughout the entire analytical process, from the collection and treatment of specimens to the amplification and detection of viral RNA and the validation of clinical sensitivity and specificity. We highlight the main issues surrounding molecular diagnosis of COVID-19, including false negatives from the detection of viral RNA, temporal variations of viral loads, selection and treatment of specimens, and limiting factors in detecting viral proteins. We discuss critical research needs, such as improvements in RT-PCR, development of alternative nucleic acid amplification techniques, incorporating CRISPR technology for point-of-care (POC) applications, validation of POC tests, and sequencing of viral RNA and its mutations. Improved assays are also needed for environmental surveillance or wastewater-based epidemiology, which gauges infection on the community level through analyses of viral components in the community's wastewater. Public health surveillance benefits from large-scale analyses of antibodies in serum, although the current serological tests do not quantify neutralizing antibodies. Further advances in analytical technology and research through multidisciplinary collaboration will contribute to the development of mitigation strategies, therapeutics, and vaccines. Lessons learned from molecular diagnosis of COVID-19 are valuable for better preparedness in response to other infectious diseases.

Published
2020
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10. Glaucocalyxin A improves survival in bleomycin-induced pulmonary fibrosis in mice

Author

Jian Zhang, Tao You, Yiren Cao, Fei Yang, and Li Zhu

Subjects
Male, 0301 basic medicine, Survival, Pulmonary Fibrosis, Biophysics, Inflammation, Bleomycin, Biochemistry, Proinflammatory cytokine, Cachexia, Mice, 03 medical and health sciences, chemistry.chemical_compound, Idiopathic pulmonary fibrosis, Pulmonary fibrosis, Animals, Immunologic Factors, Medicine, Molecular Biology, Dose-Response Relationship, Drug, medicine.diagnostic_test, business.industry, NF-kappa B, Interstitial lung disease, nutritional and metabolic diseases, Cell Biology, respiratory system, medicine.disease, respiratory tract diseases, Mice, Inbred C57BL, Treatment Outcome, 030104 developmental biology, Bronchoalveolar lavage, chemistry, Immunology, Cancer research, Cytokines, lipids (amino acids, peptides, and proteins), medicine.symptom, Diterpenes, Kaurane, business, hormones, hormone substitutes, and hormone antagonists
Abstract

Idiopathic pulmonary fibrosis (IPF) is a progressive interstitial lung disease with unclear etiology and poor prognosis. Despite numerous studies on the pathogenesis of IPF, only scant treatment options are available for the management of IPF. Glaucocalyxin A (GLA), an ent-Kaurane diterpenoid, has been demonstrated to exert anti-inflammatory, anti-neoplastic and anti-platelet activities. In this study, we evaluated the role of GLA as an anti-fibrotic agent in bleomycin-induced pulmonary fibrosis in mice and investigated the underlying mechanisms by which GLA attenuates lung fibrosis. Intraperitoneal administration of GLA (10 mg/kg) significantly reduced collagen deposition and hydroxyproline content in mouse lungs treated with bleomycin. Importantly, GLA significantly improved survival in bleomycin treated mice. In addition, GLA reduced weight loss in mice that reflects cachexia due to pulmonary fibrosis. Mechanistically, GLA alleviated the infiltration of macrophages and neutrophils in lungs, attenuated the increases of proinflammatory cytokines in lung tissue and bronchoalveolar lavage fluid, and inhibited the activation of NF-κB in fibrotic lungs induced by bleomycin. These results provide evidence that GLA can effectively ameliorate pulmonary fibrosis through the antagonism of leukocyte infiltration and proinflammatory cytokine production, suggesting that it may become a potential anti-fibrotic agent in IPF management.

Published
2017
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