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  1. Article: Matrix stiffness-dependent STEAP3 coordinated with PD-L2 identify tumor responding to sorafenib treatment in hepatocellular carcinoma.

    Wang, Shunxi / Chen, Long / Liu, Wanqian

    Cancer cell international

    2022  Volume 22, Issue 1, Page(s) 318

    Abstract: Background: Ferroptosis have been implicated in tumorigenesis, tumor progression, and chemo- and immuno-therapy in cirrhotic hepatocellular carcinoma (HCC), indicating its association with matrix stiffness and clinical benefit of targeting drugs or ... ...

    Abstract Background: Ferroptosis have been implicated in tumorigenesis, tumor progression, and chemo- and immuno-therapy in cirrhotic hepatocellular carcinoma (HCC), indicating its association with matrix stiffness and clinical benefit of targeting drugs or immune checkpoint inhibitor. Here, we postulated that increased matrix stiffness reduces ferroptosis and impairs tumor immunity by regulating the expression of ferroptosis- and immune-related genes in HCC, which might be a robust predictor of therapeutic efficacy.
    Methods: Using publicly available tissue microarray datasets, liver cancer rat model, and clinical specimen, ferroptosis-related differential genes in HCV-infected cirrhotic HCC and its mechanical heterogeneous pattern of expression were screened and identified. Further investigation on the underlying mechanism of matrix stiffness-regulated ferroptosis and the expression of immune mediator were performed. Finally, threshold analysis of HCC cases with sorafenib treatment revealed the value of clinical applications of these potential predictors.
    Results: STEAP3 was identified as the ferroptosis-related differential genes in HCV-infected cirrhotic HCC. Stiffer matrix decreased STEAP3 in the invasive front area of HCC and the liver cirrhotic tissue. Contrarily, softer matrix induced STEAP3 in the central area of HCC and the normal liver tissue. Immunological correlation of STEAP3 in cirrhotic HCC showed that STEAP3-mediated immune infiltration of CD4+ T and CD8+ T cells, macrophages, neutrophils, and dendritic cells and HCC prognosis, predicting to regulate immune infiltration. Overexpression of STEAP3 induced ferroptosis and inhibited the expression of immune mediator of PD-L2 on a stiff matrix. Especially, the ferroptosis- and immune-related gene predictive biomarker (FIGPB), including STEAP3 and PD-L2, predicts better clinical benefit of sorafenib in HCC patients.
    Conclusions: This finding identifies matrix stiffness impairs ferroptosis and anti-tumor immunity by mediating STEAP3 and PD-L2. More importantly, coordinated with PD-L2, matrix stiffness-dependent STEAP3 could be applied as the independent predictors to favorable sorafenib response, and thus targeting it could be a potential diagnosis and treatment strategy for HCC.
    Language English
    Publishing date 2022-10-13
    Publishing country England
    Document type Journal Article
    ZDB-ID 2091573-1
    ISSN 1475-2867
    ISSN 1475-2867
    DOI 10.1186/s12935-022-02634-7
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  2. Article: Mechanic-Driven Biodegradable Polyglycolic Acid/Silk Fibroin Nanofibrous Scaffolds Containing Deferoxamine Accelerate Diabetic Wound Healing.

    Zha, Shenfang / Utomo, Yohanes Kristo Sugiarto / Yang, Li / Liang, Guizhao / Liu, Wanqian

    Pharmaceutics

    2022  Volume 14, Issue 3

    Abstract: The extracellular matrix (ECM), comprising of hundreds of proteins, mainly collagen, provides physical, mechanical support for various cells and guides cell behavior as an interactive scaffold. However, deposition of ECM, especially collagen content, is ... ...

    Abstract The extracellular matrix (ECM), comprising of hundreds of proteins, mainly collagen, provides physical, mechanical support for various cells and guides cell behavior as an interactive scaffold. However, deposition of ECM, especially collagen content, is seriously impaired in diabetic wounds, which cause inferior mechanical properties of the wound and further delay chronic wound healing. Thus, it is critical to develop ECM/collagen alternatives to remodel the mechanical properties of diabetic wounds and thus accelerate diabetic wound healing. Here, we firstly prepared mechanic-driven biodegradable PGA/SF nanofibrous scaffolds containing DFO for diabetic wound healing. In our study, the results in vitro showed that the PGA/SF-DFO scaffolds had porous three-dimensional nanofibrous structures, excellent mechanical properties, biodegradability, and biocompatibility, which would provide beneficial microenvironments for cell adhesion, growth, and migration as an ECM/collagen alternative. Furthermore, the data in vivo showed PGA/SF-DFO scaffolds can adhere well to the wound and have excellent biodegradability, which is helpful to avoid secondary damage by omitting the removal process of scaffolds. The finite element analysis results showed that the application of silk fibroin-based scaffolds could significantly reduce the maximum stress around the wound. Besides, PGA/SF-DFO scaffolds induced collagen deposition, re-vascularization, recovered impaired mechanical properties up to about 70%, and ultimately accelerated diabetic wound healing within 14 days. Thus, our work provides a promising therapeutic strategy for clinically chronic wound healing.
    Language English
    Publishing date 2022-03-10
    Publishing country Switzerland
    Document type Journal Article
    ZDB-ID 2527217-2
    ISSN 1999-4923
    ISSN 1999-4923
    DOI 10.3390/pharmaceutics14030601
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  3. Article ; Online: Disordered Mechanical Stress and Tissue Engineering Therapies in Intervertebral Disc Degeneration.

    Zhao, Runze / Liu, Wanqian / Xia, Tingting / Yang, Li

    Polymers

    2019  Volume 11, Issue 7

    Abstract: Low back pain (LBP), commonly induced by intervertebral disc degeneration, is a lumbar disease with worldwide prevalence. However, the mechanism of degeneration remains unclear. The intervertebral disc is a nonvascular organ consisting of three ... ...

    Abstract Low back pain (LBP), commonly induced by intervertebral disc degeneration, is a lumbar disease with worldwide prevalence. However, the mechanism of degeneration remains unclear. The intervertebral disc is a nonvascular organ consisting of three components: Nucleus pulposus, annulus fibrosus, and endplate cartilages. The disc is structured to support our body motion and endure persistent external mechanical pressure. Thus, there is a close connection between force and intervertebral discs in LBP. It is well established that with aging, disordered mechanical stress profoundly influences the fate of nucleus pulposus and the alignment of collagen fibers in the annulus fibrosus. These support a new understanding that disordered mechanical stress plays an important role in the degeneration of the intervertebral discs. Tissue-engineered regenerative and reparative therapies are being developed for relieving disc degeneration and symptoms of lower back pain. In this paper, we will review the current literature available on the role of disordered mechanical stress in intervertebral disc degeneration, and evaluate the existing tissue engineering treatment strategies of the current therapies.
    Language English
    Publishing date 2019-07-05
    Publishing country Switzerland
    Document type Journal Article ; Review
    ZDB-ID 2527146-5
    ISSN 2073-4360 ; 2073-4360
    ISSN (online) 2073-4360
    ISSN 2073-4360
    DOI 10.3390/polym11071151
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  4. Article: Biomechanical Regulatory Factors and Therapeutic Targets in Keloid Fibrosis.

    Feng, Fan / Liu, Mingying / Pan, Lianhong / Wu, Jiaqin / Wang, Chunli / Yang, Li / Liu, Wanqian / Xu, Wei / Lei, Mingxing

    Frontiers in pharmacology

    2022  Volume 13, Page(s) 906212

    Abstract: Keloids are fibroproliferative skin disorder caused by abnormal healing of injured or irritated skin and are characterized by excessive extracellular matrix (ECM) synthesis and deposition, which results in excessive collagen disorders and calcinosis, ... ...

    Abstract Keloids are fibroproliferative skin disorder caused by abnormal healing of injured or irritated skin and are characterized by excessive extracellular matrix (ECM) synthesis and deposition, which results in excessive collagen disorders and calcinosis, increasing the remodeling and stiffness of keloid matrix. The pathogenesis of keloid is very complex, and may include changes in cell function, genetics, inflammation, and other factors. In this review, we aim to discuss the role of biomechanical factors in keloid formation. Mechanical stimulation can lead to excessive proliferation of wound fibroblasts, deposition of ECM, secretion of more pro-fibrosis factors, and continuous increase of keloid matrix stiffness. Matrix mechanics resulting from increased matrix stiffness further activates the fibrotic phenotype of keloid fibroblasts, thus forming a loop that continuously invades the surrounding normal tissue. In this process, mechanical force is one of the initial factors of keloid formation, and matrix mechanics leads to further keloid development. Next, we summarized the mechanotransduction pathways involved in the formation of keloids, such as TGF-β/Smad signaling pathway, integrin signaling pathway, YAP/TAZ signaling pathway, and calcium ion pathway. Finally, some potential biomechanics-based therapeutic concepts and strategies are described in detail. Taken together, these findings underscore the importance of biomechanical factors in the formation and progression of keloids and highlight their regulatory value. These findings may help facilitate the development of pharmacological interventions that can ultimately prevent and reduce keloid formation and progression.
    Language English
    Publishing date 2022-05-09
    Publishing country Switzerland
    Document type Journal Article ; Review
    ZDB-ID 2587355-6
    ISSN 1663-9812
    ISSN 1663-9812
    DOI 10.3389/fphar.2022.906212
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  5. Article ; Online: Demethylzeylasteral targets lactate by inhibiting histone lactylation to suppress the tumorigenicity of liver cancer stem cells.

    Pan, Lianhong / Feng, Fan / Wu, Jiaqin / Fan, Shibing / Han, Juanjuan / Wang, Shunxi / Yang, Li / Liu, Wanqian / Wang, Chunli / Xu, Kang

    Pharmacological research

    2022  Volume 181, Page(s) 106270

    Abstract: Cancer stem cells drive tumor initiation, progression, and recurrence, which compromise the effectiveness of anti-tumor drugs. Here, we report that demethylzeylasteral (DML), a triterpene anti-tumor compound, suppressed tumorigenesis of liver cancer stem ...

    Abstract Cancer stem cells drive tumor initiation, progression, and recurrence, which compromise the effectiveness of anti-tumor drugs. Here, we report that demethylzeylasteral (DML), a triterpene anti-tumor compound, suppressed tumorigenesis of liver cancer stem cells (LCSCs) by interfering with lactylation of a metabolic stress-related histone. Using RNA sequencing (RNA-seq) and gas chromatography-mass spectrometric (GC-MS) analysis, we showed that the glycolysis metabolic pathway contributed to the anti-tumor effects of DML, and then focused on lactate downstream regulation as the molecular target. Mechanistically, DML opposed the progress of hepatocellular carcinoma (HCC), which was efficiently facilitated by the increase in H3 histone lactylation. Two histone modification sites: H3K9la and H3K56la, which were found to promote tumorigenesis, were inhibited by DML. In addition, we used a nude mouse tumor xenograft model to confirm that the anti-liver cancer effects of DML are mediated by regulating H3 lactylation in vivo. Our findings demonstrate that DML suppresses the tumorigenicity induced by LCSCs by inhibiting H3 histone lactylation, thus implicating DML as a potential candidate for the supplementary treatment of hepatocellular carcinoma.
    MeSH term(s) Animals ; Carcinogenesis/metabolism ; Carcinoma, Hepatocellular/metabolism ; Cell Line, Tumor ; Cell Proliferation ; Cell Transformation, Neoplastic/metabolism ; Histones/metabolism ; Humans ; Lactic Acid/metabolism ; Liver Neoplasms/metabolism ; Mice ; Neoplastic Stem Cells ; Triterpenes
    Chemical Substances Histones ; Triterpenes ; demethylzeylasteral ; Lactic Acid (33X04XA5AT)
    Language English
    Publishing date 2022-05-21
    Publishing country Netherlands
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1003347-6
    ISSN 1096-1186 ; 0031-6989 ; 1043-6618
    ISSN (online) 1096-1186
    ISSN 0031-6989 ; 1043-6618
    DOI 10.1016/j.phrs.2022.106270
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    In stock of ZB MED Cologne/Königswinter

    Zs.A 721: Show issues Location:
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    bis Jg. 1994: Bestellungen von Artikeln über das Online-Bestellformular
    Jg. 1995 - 2021: Lesesall (1.OG)
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  6. Article ; Online: Correction to "Dual-Peptide-Functionalized Nanofibrous Scaffolds Recruit Host Endothelial Progenitor Cells for Vasculogenesis to Repair Calvarial Defects".

    Li, Li / Liu, Wanqian / Zhao, Yulan / Ma, Pingping / Zha, Shenfang / Chen, Peixin / Lu, Hongwei / Jiang, Xiaorui / Wan, Shuang / Luo, Jiangming / Dai, Qijie / Hu, Junxian / Kristo Sugiarto Utomo, Yohanes / Han, Xinyun / Yang, Zhengwei / Yang, Li / He, Qingyi

    ACS applied materials & interfaces

    2024  

    Language English
    Publishing date 2024-05-16
    Publishing country United States
    Document type Published Erratum
    ISSN 1944-8252
    ISSN (online) 1944-8252
    DOI 10.1021/acsami.4c06587
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  7. Article ; Online: Tumor progression locus 2 (TPL2) in tumor-promoting Inflammation, Tumorigenesis and Tumor Immunity.

    Njunge, Lucy Wanjiru / Estania, Andreanne Poppy / Guo, Yao / Liu, Wanqian / Yang, Li

    Theranostics

    2020  Volume 10, Issue 18, Page(s) 8343–8364

    Abstract: Over the years, tumor progression locus 2 (TPL2) has been identified as an essential modulator of immune responses that conveys inflammatory signals to downstream effectors, subsequently modulating the generation and function of inflammatory cells. TPL2 ... ...

    Abstract Over the years, tumor progression locus 2 (TPL2) has been identified as an essential modulator of immune responses that conveys inflammatory signals to downstream effectors, subsequently modulating the generation and function of inflammatory cells. TPL2 is also differentially expressed and activated in several cancers, where it is associated with increased inflammation, malignant transformation, angiogenesis, metastasis, poor prognosis and therapy resistance. However, the relationship between TPL2-driven inflammation, tumorigenesis and tumor immunity has not been addressed. Here, we reconcile the function of TPL2-driven inflammation to oncogenic functions such as inflammation, proliferation, apoptosis resistance, angiogenesis, metastasis, immunosuppression and immune evasion. We also address the controversies reported on TPL2 function in tumor-promoting inflammation and tumorigenesis, and highlight the potential role of the TPL2 adaptor function in regulating the mechanisms leading to pro-tumorigenic inflammation and tumor progression. We discuss the therapeutic implications and limitations of targeting TPL2 for cancer treatment. The ideas presented here provide some new insight into cancer pathophysiology that might contribute to the development of more integrative and specific anti-inflammatory and anti-cancer therapeutics.
    MeSH term(s) Animals ; Apoptosis/genetics ; Apoptosis/immunology ; Carcinogenesis/drug effects ; Carcinogenesis/genetics ; Carcinogenesis/immunology ; Cell Proliferation/genetics ; Disease Models, Animal ; Disease Progression ; Humans ; Inflammation/drug therapy ; Inflammation/genetics ; Inflammation/immunology ; Inflammation/pathology ; MAP Kinase Kinase Kinases/antagonists & inhibitors ; MAP Kinase Kinase Kinases/genetics ; MAP Kinase Kinase Kinases/metabolism ; MAP Kinase Signaling System/drug effects ; MAP Kinase Signaling System/genetics ; MAP Kinase Signaling System/immunology ; Mice ; Mice, Knockout ; Molecular Targeted Therapy/methods ; Mutation ; Neoplasms/drug therapy ; Neoplasms/genetics ; Neoplasms/immunology ; Neoplasms/pathology ; Protein Kinase Inhibitors/pharmacology ; Protein Kinase Inhibitors/therapeutic use ; Proto-Oncogene Proteins/antagonists & inhibitors ; Proto-Oncogene Proteins/genetics ; Proto-Oncogene Proteins/metabolism ; Tumor Escape/drug effects ; Tumor Escape/genetics
    Chemical Substances Protein Kinase Inhibitors ; Proto-Oncogene Proteins ; MAP Kinase Kinase Kinases (EC 2.7.11.25) ; MAP3K8 protein, human (EC 2.7.11.25) ; Map3k8 protein, mouse (EC 2.7.11.25)
    Language English
    Publishing date 2020-07-09
    Publishing country Australia
    Document type Journal Article ; Research Support, Non-U.S. Gov't ; Review
    ZDB-ID 2592097-2
    ISSN 1838-7640 ; 1838-7640
    ISSN (online) 1838-7640
    ISSN 1838-7640
    DOI 10.7150/thno.45848
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  8. Article ; Online: NFAT5 directs hyperosmotic stress-induced fibrin deposition and macrophage infiltration via PAI-1 in endothelium.

    Ma, Pingping / Li, Guang / Jiang, Xiaorui / Shen, Xinkun / Li, Hong / Yang, Li / Liu, Wanqian

    Aging

    2020  Volume 13, Issue 3, Page(s) 3661–3679

    Abstract: Although stress can significantly promote atherosclerosis, the underlying mechanisms are still not completely understood. Here we successfully unveiled that high salt-induced nuclear factor of activated T cells 5 (NFAT5) control the endothelial-dependent ...

    Abstract Although stress can significantly promote atherosclerosis, the underlying mechanisms are still not completely understood. Here we successfully unveiled that high salt-induced nuclear factor of activated T cells 5 (NFAT5) control the endothelial-dependent fibrinolytic activity and the inflammatory adhesion-related molecules expression through regulation of plasminogen activator inhibitor-1 (PAI-1). We first observed that high salt diets instigated the expression of NFAT5 and PAI-1 in the endothelium which brought about the fibrin deposition and macrophage infiltration in the atherosclerotic arteries of ApoE
    MeSH term(s) Animals ; Cells, Cultured ; Endothelium, Vascular/metabolism ; Endothelium, Vascular/pathology ; Fibrin/metabolism ; Human Umbilical Vein Endothelial Cells/cytology ; Humans ; Macrophages/metabolism ; Male ; Mice ; Mice, Knockout ; Osmotic Pressure/physiology ; Plasminogen Activator Inhibitor 1/genetics ; Plasminogen Activator Inhibitor 1/metabolism ; Serpin E2/genetics ; Serpin E2/metabolism ; Transcription Factors/genetics ; Transcription Factors/metabolism
    Chemical Substances NFAT5 protein, human ; Nfat5 protein, mouse ; Plasminogen Activator Inhibitor 1 ; SERPINE1 protein, human ; Serpin E2 ; Serpine2 protein, mouse ; Transcription Factors ; Fibrin (9001-31-4)
    Language English
    Publishing date 2020-12-19
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ISSN 1945-4589
    ISSN (online) 1945-4589
    DOI 10.18632/aging.202330
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  9. Article ; Online: Epidermal-dermal coupled spheroids are important for tissue pattern regeneration in reconstituted skin explant cultures.

    Lei, Mingxing / Jiang, Jingwei / Wang, Mengyue / Wu, Wang / Zhang, Jinwei / Liu, Wanqian / Zhou, Wei / Lai, Yung-Chih / Jiang, Ting-Xin / Widelitz, Randall B / Harn, Hans I-Chen / Yang, Li / Chuong, Cheng-Ming

    NPJ Regenerative medicine

    2023  Volume 8, Issue 1, Page(s) 65

    Abstract: Tissue patterning is critical for the development and regeneration of organs. To advance the use of engineered reconstituted skin organs, we study cardinal features important for tissue patterning and hair regeneration. We find they spontaneously form ... ...

    Abstract Tissue patterning is critical for the development and regeneration of organs. To advance the use of engineered reconstituted skin organs, we study cardinal features important for tissue patterning and hair regeneration. We find they spontaneously form spheroid configurations, with polarized epidermal cells coupled with dermal cells through a newly formed basement membrane. Functionally, the spheroid becomes competent morphogenetic units (CMU) that promote regeneration of tissue patterns. The emergence of new cell types and molecular interactions during CMU formation was analyzed using scRNA-sequencing. Surprisingly, in newborn skin explants, IFNr signaling can induce apical-basal polarity in epidermal cell aggregates. Dermal-Tgfb induces basement membrane formation. Meanwhile, VEGF signaling mediates dermal cell attachment to the epidermal cyst shell, thus forming a CMU. Adult mouse and human fetal scalp cells fail to form a CMU but can be restored by adding IFNr or VEGF to achieve hair regeneration. We find different multi-cellular configurations and molecular pathways are used to achieve morphogenetic competence in developing skin, wound-induced hair neogenesis, and reconstituted explant cultures. Thus, multiple paths can be used to achieve tissue patterning. These insights encourage more studies of "in vitro morphogenesis" which may provide novel strategies to enhance regeneration.
    Language English
    Publishing date 2023-11-23
    Publishing country United States
    Document type Journal Article
    ISSN 2057-3995
    ISSN (online) 2057-3995
    DOI 10.1038/s41536-023-00340-0
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  10. Article ; Online: A review of gradient stiffness hydrogels used in tissue engineering and regenerative medicine.

    Xia, Tingting / Liu, Wanqian / Yang, Li

    Journal of biomedical materials research. Part A

    2017  Volume 105, Issue 6, Page(s) 1799–1812

    Abstract: Substrate stiffness is known to impact characteristics including cell differentiation, proliferation, migration and apoptosis. Hydrogels are polymeric materials distinguished by high water content and diverse physical properties. Gradient stiffness ... ...

    Abstract Substrate stiffness is known to impact characteristics including cell differentiation, proliferation, migration and apoptosis. Hydrogels are polymeric materials distinguished by high water content and diverse physical properties. Gradient stiffness hydrogels are designed by the need to develop biologically friendly materials as extracellular matrix (ECM) alternatives to replace the separated and narrow-ranged hydrogel substrates. Important new discoveries in cell behaviors have been realized with model gradient stiffness hydrogel systems from the two-dimensional (2D) to three-dimensional (3D) scale. Basic and clinical applications for gradient stiffness hydrogels in tissue engineering and regenerative medicine continue to drive the development of stiffness and structure varied hydrogels. Given the importance of gradient stiffness hydrogels in basic research and biomedical applications, there is a clear need for systems for gradient stiffness hydrogel design strategies and their applications. This review will highlight past work in the field of gradient stiffness hydrogels fabrication methods, mechanical property test, applications as well as areas for future study. © 2017 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 105A: 1799-1812, 2017.
    MeSH term(s) Animals ; Biocompatible Materials/chemistry ; Compressive Strength ; Cross-Linking Reagents/chemistry ; Equipment Design ; Extracellular Matrix/chemistry ; Humans ; Hydrogels/chemistry ; Materials Testing/instrumentation ; Materials Testing/methods ; Polymerization ; Printing, Three-Dimensional ; Regenerative Medicine/methods ; Tensile Strength ; Tissue Engineering/methods
    Chemical Substances Biocompatible Materials ; Cross-Linking Reagents ; Hydrogels
    Language English
    Publishing date 2017-04-03
    Publishing country United States
    Document type Journal Article ; Review ; Research Support, Non-U.S. Gov't
    ZDB-ID 2099989-6
    ISSN 1552-4965 ; 1549-3296 ; 0021-9304
    ISSN (online) 1552-4965
    ISSN 1549-3296 ; 0021-9304
    DOI 10.1002/jbm.a.36034
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