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1. Corrigendum: Extracellular HSP90α interacts with ER stress to promote fibroblasts activation through PI3K/AKT pathway in pulmonary fibrosis

Author

Jinming Zhang, Wenshan Zhong, Yuanyuan Liu, Weimou Chen, Ye Lu, Zhaojin Zeng, Yujie Qiao, Haohua Huang, Xuan Wan, Wei Li, Xiaojing Meng, Fei Zou, Shaoxi Cai, and Hangming Dong

Subjects
extracellular Hsp90α, er stress, fibroblasts activation, PI3K/AKT, pulmonary fibrosis, Therapeutics. Pharmacology, RM1-950
Published
2024
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2. α1-adrenoceptor stimulation ameliorates lipopolysaccharide-induced lung injury by inhibiting alveolar macrophage inflammatory responses through NF-κB and ERK1/2 pathway in ARDS

Author

Zhukai Cong, Cui Yang, Zhaojin Zeng, Changyi Wu, Feng Zhao, Ziyuan Shen, Han Xiao, and Xi Zhu

Subjects
acute respiratory distress syndrome, α1 adrenergic receptor, alveolar macrophage, inflammation, NF-κb, Immunologic diseases. Allergy, RC581-607
Abstract

IntroductionCatecholamines such as norepinephrine or epinephrine have been reported to participate in the development of acute respiratory distress syndrome (ARDS) by activating adrenergic receptors (ARs). But the role of α1-AR in this process has yet to be elucidated.MethodsIn this study, ARDS mouse model was induced by intratracheal instillation of lipopolysaccharide. After treatment with α1-AR agonist phenylephrine or antagonist prazosin, lung pathological injury, alveolar barrier disruption and inflammation, and haemodynamic changes were evaluated. Cytokine levels and cell viability of alveolar macrophages were measured in vitro. Nuclear factor κB (NF-κB), mitogen-activated protein kinase, and Akt signalling pathways were analysed by western blot.ResultsIt showed that α1-AR activation alleviated lung injuries, including reduced histopathological damage, cytokine expression, and inflammatory cell infiltration, and improved alveolar capillary barrier integrity of ARDS mice without influencing cardiovascular haemodynamics. In vitro experiments suggested that α1-AR stimulation inhibited secretion of TNF-α, IL-6, CXCL2/MIP-2, and promoted IL-10 secretion, but did not affect cell viability. Moreover, α1-AR stimulation inhibited NF-κB and enhanced ERK1/2 activation without significantly influencing p38, JNK, or Akt activation.DiscussionOur studies reveal that α1-AR stimulation could ameliorate lipopolysaccharide-induced lung injury by inhibiting NF-κB and promoting ERK1/2 to suppress excessive inflammatory responses of alveolar macrophages.

Published
2023
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3. Tetrandrine Modulates Rheb-mTOR Signaling-Mediated Selective Autophagy and Protects Pulmonary Fibrosis

Author

Yuanyuan Liu, Wenshan Zhong, Jinming Zhang, Weimou Chen, Ye lu, Yujie Qiao, Zhaojin Zeng, Haohua Huang, Shaoxi Cai, and Hangming Dong

Subjects
lung fibrosis, tetrandrine, autophagy, mTOR, COL-I, Therapeutics. Pharmacology, RM1-950
Abstract

Idiopathic pulmonary fibrosis is a progressive fatal disease characterized by interstitial remodeling, with high lethality and a lack of effective medical therapies. Tetrandrine has been proposed to present anti-fibrotic effects, but the efficacy and mechanisms have not been systematically evaluated. We sought to study the potential therapeutic effects and mechanisms of tetrandrine against lung fibrosis. The anti-fibrotic effects of tetrandrine were evaluated in bleomycin-induced mouse models and TGF-β1-stimulated murine lung fibroblasts. We performed Chromatin Immunoprecipitation (ChIP), Immunoprecipitation (IP), and mRFP-GFP-MAP1LC3B adenovirus construct to investigate the novel mechanisms of tetrandrine-induced autophagy. Tetrandrine decreased TGF-β1-induced expression of α-smooth muscle actin, fibronectin, vimentin, and type 1 collagen and proliferation in fibroblasts. Tetrandrine restored TGF-β1-induced impaired autophagy flux, accompanied by enhanced interaction of SQSTM1 and MAP1LC3-Ⅱ. ChIP studies revealed that tetrandrine induced autophagy via increasing binding of NRF2 and SQSTM1 promoter. Furthermore, tetrandrine inhibited TGF-β1-induced phosphorylation of mTOR by reducing activation of Rheb. In vivo tetrandrine suppressed the bleomycin-induced expression of fibrotic markers and improved pulmonary function. Our data suggest that protective effect of tetrandrine against lung fibrosis might be through promoting Rheb-mTOR and NRF2-SQSTM1 mediated autophagy. Tetrandrine may thus be potentially employed as a novel therapeutic medicine against IPF.

Published
2021
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4. Anlotinib Inhibits PFKFB3-Driven Glycolysis in Myofibroblasts to Reverse Pulmonary Fibrosis

Author

Weimou Chen, Jinming Zhang, Wenshan Zhong, Yuanyuan Liu, Ye Lu, Zhaojin Zeng, Haohua Huang, Xuan Wan, Xiaojing Meng, Fei Zou, Shaoxi Cai, and Hangming Dong

Subjects
pulmonary fibrosis, anlotinib, glycolysis, PFKFB3, PCBP3, Therapeutics. Pharmacology, RM1-950
Abstract

Idiopathic pulmonary fibrosis (IPF) is a fatal disease in which the normal alveolar network is gradually replaced by fibrotic scars. Current evidence suggests that metabolic alterations correlate with myofibroblast activation in IPF. Anlotinib has been proposed to have antifibrotic effects, but the efficacy and mechanisms of anlotinib against lung fibrosis have not been systematically evaluated. The antifibrotic effects of anlotinib were evaluated in bleomycin-induced mouse models and transforming growth factor-beta 1 (TGF-β1)-stimulated lung fibroblasts. We measured lactate levels, 2-NBDG glucose uptake and the extracellular acidification rate (ECAR) to assess glycolysis in fibroblasts. RNA-protein coimmunoprecipitation (RIP) and polysome analyses were performed to investigate novel mechanisms of glycolytic reprogramming in pulmonary fibrosis. We found that anlotinib diminished myofibroblast activation and inhibited the augmentation of glycolysis. Moreover, we show that PCBP3 posttranscriptionally increases PFKFB3 expression by promoting its translation during myofibroblast activation, thus promoting glycolysis in myofibroblasts. Regarding mechanism, anlotinib exerts potent antifibrotic effects by downregulating PCBP3, reducing PFKFB3 translation and inhibiting glycolysis in myofibroblasts. Furthermore, we observed that anlotinib had preventative and therapeutic antifibrotic effects on bleomycin-induced pulmonary fibrosis. Therefore, we identify PCBP3 as a protein involved in the regulation of glycolysis reprogramming and lung fibrogenesis and propose it as a therapeutic target for pulmonary fibrosis. Our data suggest that anlotinib has antifibrotic effects on the lungs, and we provide a novel mechanism for this effect. Anlotinib may constitute a novel and potent candidate for the treatment of pulmonary fibrosis.

Published
2021
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5. Extracellular HSP90α Interacts With ER Stress to Promote Fibroblasts Activation Through PI3K/AKT Pathway in Pulmonary Fibrosis

Author

Jinming Zhang, Wenshan Zhong, Yuanyuan Liu, Weimou Chen, Ye Lu, Zhaojin Zeng, Yujie Qiao, Haohua Huang, Xuan Wan, Wei Li, Xiaojing Meng, Fei Zou, Shaoxi Cai, and Hangming Dong

Subjects
extracellular Hsp90α, er stress, fibroblasts activation, PI3K/AKT, pulmonary fibrosis, Therapeutics. Pharmacology, RM1-950
Abstract

Pulmonary fibrosis is characterized by alveolar epithelial cell injury, lung fibroblast proliferation, differentiation, and extracellular matrix (ECM) deposition. Our previous study indicated that extracellular HSP90α (eHSP90α) promotes pulmonary fibrosis by activating the MAPK signaling pathway. Thus, treatment with 1G6-D7 (a selective HSP90α monoclonal antibody) to antagonize eHSP90α could effectively ameliorate fibrosis. This study aimed to elucidate the mechanism underlying the effects of eHSP90α in pulmonary fibrosis by focusing on its link with endoplasmic reticulum (ER) stress. Our results showed that eHSP90α promoted lung fibroblast differentiation by activating ER stress. Treatment with the ER stress inhibitor tauroursodeoxycholate (TUDCA) or glucose-regulated protein 78 kDa (GRP78) depletion significantly abrogated the effect of eHSP90α on ER stress and fibroblast activation. In addition, eHSP90α induced ER stress in fibroblasts via the phosphoinositide-4,5-bisphosphate 3-kinase (PI3K)-protein kinase B (AKT) signaling pathway, which could be blocked by the PI3K/AKT inhibitor LY294002, and blockade of eHSP90α by 1G6-D7 markedly inhibited ER stress in the model, indicating preventive and therapeutic applications. Intriguingly, we observed that TUDCA effectively reduced the secretion of eHSP90α in vitro and in vivo. In conclusion, this study shows that the interaction between eHSP90α and ER stress plays a crucial role in pulmonary fibrosis, indicating a positive feedback in lung fibroblasts. Targeting eHSP90α and alleviating fibroblast ER stress may be promising therapeutic approaches for pulmonary fibrosis.

Published
2021
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6. Extracellular HSP90α Interacts With ER Stress to Promote Fibroblasts Activation Through PI3K/AKT Pathway in Pulmonary Fibrosis.

Author

Jinming Zhang, Wenshan Zhong, Yuanyuan Liu, Weimou Chen, Ye Lu, Zhaojin Zeng, Yujie Qiao, Haohua Huang, Xuan Wan, Wei Li, Xiaojing Meng, Fei Zou, Shaoxi Cai, and Hangming Dong

Subjects
PULMONARY fibrosis, EXTRACELLULAR matrix, PI3K/AKT pathway, ENDOPLASMIC reticulum, FIBROBLASTS, GLUCOSE-regulated proteins
Abstract

Pulmonary fibrosis is characterized by alveolar epithelial cell injury, lung fibroblast proliferation, differentiation, and extracellular matrix (ECM) deposition. Our previous study indicated that extracellular HSP90α (eHSP90α) promotes pulmonary fibrosis by activating the MAPK signaling pathway. Thus, treatment with 1G6-D7 (a selective HSP90α monoclonal antibody) to antagonize eHSP90α could effectively ameliorate fibrosis. This study aimed to elucidate the mechanism underlying the effects of eHSP90α in pulmonary fibrosis by focusing on its link with endoplasmic reticulum (ER) stress. Our results showed that eHSP90α promoted lung fibroblast differentiation by activating ER stress. Treatment with the ER stress inhibitor tauroursodeoxycholate (TUDCA) or glucose-regulated protein 78 kDa (GRP78) depletion significantly abrogated the effect of eHSP90α on ER stress and fibroblast activation. In addition, eHSP90α induced ER stress in fibroblasts via the phosphoinositide-4,5-bisphosphate 3-kinase (PI3K)-protein kinase B (AKT) signaling pathway, which could be blocked by the PI3K/AKT inhibitor LY294002, and blockade of eHSP90α by 1G6-D7 markedly inhibited ER stress in the model, indicating preventive and therapeutic applications. Intriguingly, we observed that TUDCA effectively reduced the secretion of eHSP90α in vitro and in vivo. In conclusion, this study shows that the interaction between eHSP90α and ER stress plays a crucial role in pulmonary fibrosis, indicating a positive feedback in lung fibroblasts. Targeting eHSP90α and alleviating fibroblast ER stress may be promising therapeutic approaches for pulmonary fibrosis. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Extracellular HSP90α promotes cellular senescence by modulating TGF-β signaling in pulmonary fibrosis

Author

Wenshan Zhong, Weimou Chen, Yuanyuan Liu, Jinming Zhang, Ye Lu, Xuan Wan, Yujie Qiao, Haohua Huang, Zhaojin Zeng, Wei Li, Xiaojing Meng, Haijin Zhao, Mengchen Zou, Shaoxi Cai, and Hangming Dong

Subjects
Mice, Inbred C57BL, Bleomycin, Mice, Transforming Growth Factor beta, Genetics, Animals, Fibroblasts, Molecular Biology, Biochemistry, Lung, Cellular Senescence, Idiopathic Pulmonary Fibrosis, Biotechnology
Abstract

Recent findings suggest that extracellular heat shock protein 90α (eHSP90α) promotes pulmonary fibrosis, but the underlying mechanisms are not well understood. Aging, especially cellular senescence, is a critical risk factor for idiopathic pulmonary fibrosis (IPF). Here, we aim to investigate the role of eHSP90α on cellular senescence in IPF. Our results found that eHSP90α was upregulated in bleomycin (BLM)-induced mice, which correlated with the expression of senescence markers. This increase in eHSP90α mediated fibroblast senescence and facilitated mitochondrial dysfunction. eHSP90α activated TGF-β signaling through the phosphorylation of the SMAD complex. The SMAD complex binding to p53 and p21 promoters triggered their transcription. In vivo, the blockade of eHSP90α with 1G6-D7, a specific eHSP90α antibody, in old mice attenuated the BLM-induced lung fibrosis. Our findings elucidate a crucial mechanism underlying eHSP90α-induced cellular senescence, providing a framework for aging-related fibrosis interventions.

Published
2022

12. HDM induce airway epithelial cell ferroptosis and promote inflammation by activating ferritinophagy in asthma

Author

Zhaojin Zeng, Haohua Huang, Jinming Zhang, Yuanyuan Liu, Wenshan Zhong, Weimou Chen, Ye Lu, Yujie Qiao, Haijin Zhao, Xiaojing Meng, Fei Zou, Shaoxi Cai, and Hangming Dong

Subjects
Inflammation, Mice, Iron, Ferritins, Pyroglyphidae, Genetics, Animals, Ferroptosis, Epithelial Cells, Molecular Biology, Biochemistry, Asthma, Biotechnology
Abstract

Asthma is a disease characterized by airway epithelial barrier destruction, chronic airway inflammation, and airway remodeling. Repeated damage to airway epithelial cells by allergens in the environment plays an important role in the pathophysiology of asthma. Ferroptosis is a novel form of regulated cell death mediated by lipid peroxidation in association with free iron-mediated Fenton reactions. In this study, we explored the contribution of ferroptosis to house dust mite (HDM)-induced asthma models. Our in vivo and in vitro models showed labile iron accumulation and enhanced lipid peroxidation with concomitant nonapoptotic cell death upon HDM exposure. Treatment with ferroptosis inhibitors deferoxamine (DFO) and ferrostatin-1 (Fer-1) illuminated the role of ferroptosis and related damage-associated molecular patterns in HDM-treated airway epithelial cells. Furthermore, DFO and Fer-1 reduced HDM-induced airway inflammation in model mice. Mechanistically, NCOA4-mediated ferritin-selective autophagy (ferritinophagy) was initiated during ferritin degradation in response to HDM exposure. Together, these data suggest that ferroptosis plays an important role in HDM-induced asthma and that ferroptosis may be a potential treatment target for HDM-induced asthma.

Published
2022

13. Anti-PD-L1 antibody alleviates pulmonary fibrosis by inducing autophagy via inhibition of the PI3K/Akt/mTOR pathway

Author

Ye Lu, Wenshan Zhong, Yuanyuan Liu, Weimou Chen, Jinming Zhang, Zhaojin Zeng, Haohua Huang, Yujie Qiao, Xuan Wan, Xiaojing Meng, Shaoxi Cai, and Hangming Dong

Subjects
Pharmacology, History, Polymers and Plastics, Pulmonary Fibrosis, TOR Serine-Threonine Kinases, Immunology, Antibodies, Monoclonal, Fibroblasts, Industrial and Manufacturing Engineering, B7-H1 Antigen, Mice, Inbred C57BL, Transforming Growth Factor beta1, Bleomycin, Phosphatidylinositol 3-Kinases, Autophagy, Immunology and Allergy, Animals, Female, Business and International Management, Lung, Proto-Oncogene Proteins c-akt, Cells, Cultured, Signal Transduction
Abstract

Pulmonary fibrosis is a fatal lung disease for which no effective treatment is available. Previous studies have shown that the expression of programmed cell death-Ligand (PD-L1) is significantly increased in pulmonary fibrosis, and that this is related to the occurrence of this disease. However, the underlying mechanism is not clear. To clarify the efficacy and mechanism of an anti-PD-L1 monoclonal antibody (anti-PD-L1 mAb) as a treatment for pulmonary fibrosis, we conducted histopathological, molecular, and functional analyses in a mouse model of bleomycin-induced pulmonary fibrosis and a cell model of fibrosis induced by transforming growth factor-beta 1 (TGF-β1). Our results indicate that PD-L1 is highly expressed in the lung fibrosis model. The anti-PD-L1 mAb significantly alleviated bleomycin-induced lung structural disorders and collagen deposition in mice and inhibited the proliferation, migration, activation and extracellular matrix deposition of TGF-β1-induced lung fibroblasts. Interestingly, the anti-PD-L1 mAb could also alleviate the autophagy impairment observed in pulmonary fibrosis. The potential mechanism is through the downregulation of the PI3K/Akt/mTOR signaling pathway. Our study provides evidence of the crucial ability of anti-PD-L1 mAbs to activate autophagy in the context of pulmonary fibrosis, providing a new strategy for the treatment of this disease.

Published
2021

15. Anlotinib Inhibits PFKFB3-Driven Glycolysis in Myofibroblasts to Reverse Pulmonary Fibrosis

Author

Haohua Huang, Ye Lu, Hangming Dong, Zhaojin Zeng, Xiaojing Meng, Fei Zou, Jinming Zhang, Shaoxi Cai, Weimou Chen, Yuanyuan Liu, Wenshan Zhong, and Xuan Wan

Subjects
Pharmacology, Lung, pulmonary fibrosis, Chemistry, Glucose uptake, Translation (biology), RM1-950, glycolysis, medicine.disease, Idiopathic pulmonary fibrosis, medicine.anatomical_structure, PFKFB3, Pulmonary fibrosis, medicine, Cancer research, anlotinib, Pharmacology (medical), Glycolysis, Therapeutics. Pharmacology, Myofibroblast, Reprogramming, PCBP3, Original Research
Abstract

Idiopathic pulmonary fibrosis (IPF) is a fatal disease in which the normal alveolar network is gradually replaced by fibrotic scars. Current evidence suggests that metabolic alterations correlate with myofibroblast activation in IPF. Anlotinib has been proposed to have antifibrotic effects, but the efficacy and mechanisms of anlotinib against lung fibrosis have not been systematically evaluated. The antifibrotic effects of anlotinib were evaluated in bleomycin-induced mouse models and transforming growth factor-beta 1 (TGF-β1)-stimulated lung fibroblasts. We measured lactate levels, 2-NBDG glucose uptake and the extracellular acidification rate (ECAR) to assess glycolysis in fibroblasts. RNA-protein coimmunoprecipitation (RIP) and polysome analyses were performed to investigate novel mechanisms of glycolytic reprogramming in pulmonary fibrosis. We found that anlotinib diminished myofibroblast activation and inhibited the augmentation of glycolysis. Moreover, we show that PCBP3 posttranscriptionally increases PFKFB3 expression by promoting its translation during myofibroblast activation, thus promoting glycolysis in myofibroblasts. Regarding mechanism, anlotinib exerts potent antifibrotic effects by downregulating PCBP3, reducing PFKFB3 translation and inhibiting glycolysis in myofibroblasts. Furthermore, we observed that anlotinib had preventative and therapeutic antifibrotic effects on bleomycin-induced pulmonary fibrosis. Therefore, we identify PCBP3 as a protein involved in the regulation of glycolysis reprogramming and lung fibrogenesis and propose it as a therapeutic target for pulmonary fibrosis. Our data suggest that anlotinib has antifibrotic effects on the lungs, and we provide a novel mechanism for this effect. Anlotinib may constitute a novel and potent candidate for the treatment of pulmonary fibrosis.

Published
2021

16. Extracellular HSP90α Interacts With ER Stress to Promote Fibroblasts Activation Through PI3K/AKT Pathway in Pulmonary Fibrosis

Author

Zhaojin Zeng, Weimou Chen, Shaoxi Cai, Fei Zou, Yujie Qiao, Xiaojing Meng, Ye Lu, Haohua Huang, Jinming Zhang, Xuan Wan, Wei Li, Hangming Dong, Yuanyuan Liu, and Wenshan Zhong

Subjects
Pharmacology, PI3K/AKT, pulmonary fibrosis, Chemistry, Endoplasmic reticulum, extracellular Hsp90α, RM1-950, er stress, medicine.disease, Cell biology, medicine.anatomical_structure, Fibrosis, Pulmonary fibrosis, Unfolded protein response, medicine, Pharmacology (medical), fibroblasts activation, Therapeutics. Pharmacology, Signal transduction, Fibroblast, Protein kinase B, PI3K/AKT/mTOR pathway, Original Research
Abstract

Pulmonary fibrosis is characterized by alveolar epithelial cell injury, lung fibroblast proliferation, differentiation, and extracellular matrix (ECM) deposition. Our previous study indicated that extracellular HSP90α (eHSP90α) promotes pulmonary fibrosis by activating the MAPK signaling pathway. Thus, treatment with 1G6-D7 (a selective HSP90α monoclonal antibody) to antagonize eHSP90α could effectively ameliorate fibrosis. This study aimed to elucidate the mechanism underlying the effects of eHSP90α in pulmonary fibrosis by focusing on its link with endoplasmic reticulum (ER) stress. Our results showed that eHSP90α promoted lung fibroblast differentiation by activating ER stress. Treatment with the ER stress inhibitor tauroursodeoxycholate (TUDCA) or glucose-regulated protein 78 kDa (GRP78) depletion significantly abrogated the effect of eHSP90α on ER stress and fibroblast activation. In addition, eHSP90α induced ER stress in fibroblasts via the phosphoinositide-4,5-bisphosphate 3-kinase (PI3K)-protein kinase B (AKT) signaling pathway, which could be blocked by the PI3K/AKT inhibitor LY294002, and blockade of eHSP90α by 1G6-D7 markedly inhibited ER stress in the model, indicating preventive and therapeutic applications. Intriguingly, we observed that TUDCA effectively reduced the secretion of eHSP90α in vitro and in vivo. In conclusion, this study shows that the interaction between eHSP90α and ER stress plays a crucial role in pulmonary fibrosis, indicating a positive feedback in lung fibroblasts. Targeting eHSP90α and alleviating fibroblast ER stress may be promising therapeutic approaches for pulmonary fibrosis.

Published
2021
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17. Tetrandrine Modulates Rheb-mTOR Signaling-Mediated Selective Autophagy and Protects Pulmonary Fibrosis

Author

Shaoxi Cai, Yujie Qiao, Hangming Dong, Zhaojin Zeng, Haohua Huang, Weimou Chen, Yuanyuan Liu, Ye Lu, Wenshan Zhong, and Jinming Zhang

Subjects
Pharmacology, autophagy, biology, Autophagy, lung fibrosis, RM1-950, medicine.disease, tetrandrine, Tetrandrine, Fibronectin, COL-I, chemistry.chemical_compound, Idiopathic pulmonary fibrosis, chemistry, Pulmonary fibrosis, medicine, Cancer research, biology.protein, mTOR, Pharmacology (medical), Therapeutics. Pharmacology, Chromatin immunoprecipitation, PI3K/AKT/mTOR pathway, RHEB, Original Research
Abstract

Idiopathic pulmonary fibrosis is a progressive fatal disease characterized by interstitial remodeling, with high lethality and a lack of effective medical therapies. Tetrandrine has been proposed to present anti-fibrotic effects, but the efficacy and mechanisms have not been systematically evaluated. We sought to study the potential therapeutic effects and mechanisms of tetrandrine against lung fibrosis. The anti-fibrotic effects of tetrandrine were evaluated in bleomycin-induced mouse models and TGF-β1-stimulated murine lung fibroblasts. We performed Chromatin Immunoprecipitation (ChIP), Immunoprecipitation (IP), and mRFP-GFP-MAP1LC3B adenovirus construct to investigate the novel mechanisms of tetrandrine-induced autophagy. Tetrandrine decreased TGF-β1-induced expression of α-smooth muscle actin, fibronectin, vimentin, and type 1 collagen and proliferation in fibroblasts. Tetrandrine restored TGF-β1-induced impaired autophagy flux, accompanied by enhanced interaction of SQSTM1 and MAP1LC3-Ⅱ. ChIP studies revealed that tetrandrine induced autophagy via increasing binding of NRF2 and SQSTM1 promoter. Furthermore, tetrandrine inhibited TGF-β1-induced phosphorylation of mTOR by reducing activation of Rheb. In vivo tetrandrine suppressed the bleomycin-induced expression of fibrotic markers and improved pulmonary function. Our data suggest that protective effect of tetrandrine against lung fibrosis might be through promoting Rheb-mTOR and NRF2-SQSTM1 mediated autophagy. Tetrandrine may thus be potentially employed as a novel therapeutic medicine against IPF.

Published
2021

18. Vernacular Industrialism in China: Local Innovation and Translated Technologies in the Making of a Cosmetics Empire, 1900-1940

Author

Zhaojin Zeng

Subjects
Cultural Studies, History, media_common.quotation_subject, Political science, Elite, Economic history, Columbia university, Empire, Vernacular, China, Industrial Revolution, Making-of, media_common
Abstract

Eugenia Lean’s Vernacular Industrialism in China is a meticulously researched account of Chen Diexian – a lettered elite and new-style industrialist from Hangzhou – and his business, scientific, an...

Published
2020
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19. Anlotinib Alleviates Pulmonary Fibrosis by Inhibiting PFKFB3-Driven Glycolysis via the Downregulation of PCBP3

Author

Wenshan Zhong, Haohua Huang, Shaoxi Cai, Yuanyuan Liu, Fei Zou, Weimou Chen, Zhaojin Zeng, Jinming Zhang, Xuan Wan, Xiaojing Meng, Ye Lu, and Hangming Dong

Subjects
Lung, business.industry, medicine.drug_class, Institutional Animal Care and Use Committee, medicine.disease, Bleomycin, Tyrosine-kinase inhibitor, Idiopathic pulmonary fibrosis, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, Downregulation and upregulation, Pulmonary fibrosis, Cancer research, Medicine, business, Myofibroblast
Abstract

Background: Idiopathic pulmonary fibrosis (IPF) is a fatal disease in which the normal alveolar network is gradually replaced by fibrotic scars. Current evidence implicates the differentiation of fibroblasts into myofibroblasts is correlated with metabolic alterations in IPF. Here, we tried to decipher whether anlotinib, a novel multitargeted tyrosine kinase inhibitor, could alleviate bleomycin (BLM) induced pulmonary fibrosis and explore the possible mechanisms. Methods: In this study, C57BL/6 mice were intraperitoneally injected with anlotinib immediately or 7 days after BLM injection to investigate the preventative and therapeutic effects of anlotinib on BLM-induced pulmonary fibrosis. Additionally, we used primary mouse lung fibroblasts and the IMR90 cell line to examine the effects and the mechanism of anlotinib on fibroblasts. Findings: We observed that anlotinib limited BLM-induced lung fibrosis and inhibited the lactate accumulation in mice. Meanwhile, we found that anlotinib could inhibit the PFKFB3-dependent glycolysis in fibroblasts and diminish myofibroblasts differentiation. The mechanism by which anlotinib exerts potent antifibrotic effects was by downregulating the RNA binding protein (RBP) PCBP3, decreasing PFKFB3 translation and inhibiting glycolysis in fibroblasts. Interpretation: Our data suggest that anlotinib has antifibrotic effects on the lungs and provide a possible mechanism. Anlotinib may be a novel and potent candidate for protection against pulmonary fibrosis. We also identify PCBP3 that is involved in the regulation of glycolysis reprogramming and lung fibrogenesis, which could be a potential therapeutic target for pulmonary fibrosis. Fund: This work was supported by National Natural Science Foundation of China (No. 81870058). Declaration of Interests: The authors declare that they have no conflict of interest. Ethics Approval Statement: All experiments were conducted in accordance with protocols approved by the Southern Medical University Institutional Animal Care and Use Committee.

Published
2021
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21. The price of persecution: The long-term effects of the Anti-Rightist Campaign on economic performance in post-Mao China

Author

Joshua Eisenman and Zhaojin Zeng

Subjects
Economics and Econometrics, Sociology and Political Science, media_common.quotation_subject, 05 social sciences, Geography, Planning and Development, Authoritarianism, Development, Political repression, Human capital, 0506 political science, Politics, State (polity), Negative relationship, Political science, 0502 economics and business, Development economics, 050602 political science & public administration, 050207 economics, China, Persecution, media_common
Abstract

What are the long-run effects of mass political repression on economic performance? Using an original county-level dataset from Maoist China, we demonstrate a strong and robust negative relationship exists between the scale of repression of intellectuals in the Anti-Rightist Campaign (ARC) in 1957–58 and economic productivity decades later. This fall in economic output is caused by the loss of already scarce human capital resulting from the violent political campaign. Until at least 2000, significant and robust negative correlations exist between the percentage of victims in a county and its populations’ level of educational achievement and economic performance. By demonstrating the negative relationship between the state’s purposeful destruction of human capital for political reasons and long-run economic growth, we are able to add China to a growing body of research on the long-run deleterious effects of state-sponsored political repression against intellectuals. Using China’s ARC as an example, this study is the first to use quantitative methods to demonstrate the often-overlooked long-term negative economic effects of political repression under authoritarian regimes.

Published
2018
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