Your search keyword '"Zhenbing Chen"' showing total 42 results

1. Biohybrid Nanorobots Carrying Glycoengineered Extracellular Vesicles Promote Diabetic Wound Repair through Dual‐Enhanced Cell and Tissue Penetration

Author

Chengqi Yan, Kai Feng, Bingkun Bao, Jing Chen, Xiang Xu, Guoyong Jiang, Yufeng Wang, Jiahe Guo, Tao Jiang, Yu Kang, Cheng Wang, Chengcheng Li, Chi Zhang, Pengjuan Nie, Shuoyuan Liu, Hans‐Günther Machens, Linyong Zhu, Xiaofan Yang, Ran Niu, and Zhenbing Chen

Subjects

biohybrid nanorobots, diabetic wound, drug delivery, extracellular vesicles, glycoengineering, Science

Abstract

Abstract Considerable progress has been made in the development of drug delivery systems for diabetic wounds. However, underlying drawbacks, such as low delivery efficiency and poor tissue permeability, have rarely been addressed. In this study, a multifunctional biohybrid nanorobot platform comprising an artificial unit and several biological components is constructed. The artificial unit is a magnetically driven nanorobot surface modified with antibacterial 2‐hydroxypropyltrimethyl ammonium chloride chitosan, which enables the entire platform to move and has excellent tissue penetration capacity. The biological components are two‐step engineered extracellular vesicles that are first loaded with mangiferin, a natural polyphenolic compound with antioxidant properties, and then glycoengineered on the surface to enhance cellular uptake efficiency. As expected, the platform is more easily absorbed by endothelial cells and fibroblasts and exhibits outstanding dermal penetration performance and antioxidant properties. Encouraging results are also observed in infected diabetic wound models, showing improved wound re‐epithelialization, collagen deposition, angiogenesis, and accelerated wound healing. Collectively, a biohybrid nanorobot platform that possesses the functionalities of both artificial units and biological components serves as an efficient delivery system to promote diabetic wound repair through dual‐enhanced cell and tissue penetration and multistep interventions.

Published

2024

2. Knockdown of long noncoding RNA SAN rejuvenates aged adipose-derived stem cells via miR-143-3p/ADD3 axis

Author

Hewei Xiong, Sen Ren, Jing Chen, Xiaofan Yang, Yutian Liu, Zhao Xu, Jiahe Guo, Tao Jiang, Meng Yuan, Yang Liu, Guolei Zhang, Wenqing Li, Hans-Günther Machens, and Zhenbing Chen

Subjects

Adipose-derived mesenchymal stem cell (ASCs), Non-coding RNA (ncRNA), Senescence, Stem cell therapy, Wound healing, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Senescent adipose-derived stem cells (ASCs) exhibit reduced therapeutic efficacy during wound healing. Transcriptional regulation factors including long noncoding RNAs (lncRNAs) reportedly have essential roles in stem cell aging. However, the mechanisms of which lncRNAs influence mesenchymal stem cell aging and how it works need further investigation. Methods The expression patterns of lncRNA senescence-associated noncoding RNA (SAN) and miR-143-3p in ASCs obtained from old and young volunteer donors were detected by quantitative polymerase chain reaction. ASCs with overexpression or knockdown of SAN and γ-adducin (ADD3) were constructed by lentiviral transduction. Mimic and inhibitor were used to manipulate the cellular level of miR-143-3p in ASCs. The effects of these RNAs on ASCs proliferation, migration and cellular senescence were examined by EdU, transwell and senescence-activated β-galactosidase (SA-β-gal) staining assays. Wound scratch and tube formation assays were conducted to evaluate the capacities of ASCs in promoting fibroblasts migration and endothelial cells angiogenesis. Furthermore, dual-luciferase assays and rescue experiments were performed to identify the RNA interactions. Finally, the therapeutic effects of SAN-depleted aged ASCs were evaluated in a skin injury model. Results The lncRNA SAN (NONHSAT035482.2) was upregulated in aged ASCs; it controlled cellular senescence in ASCs. lncRNA SAN knockdown in ASCs led to ASC functional enhancement and the inhibition of cellular senescence; it also promoted the effects of conditioned medium (CM) on endothelial cell tube formation and fibroblast migration. Mechanistic analysis showed that SAN serves as a sponge for miR-143-3p, thereby regulating the expression of ADD3. The application of SAN-depleted aged ASCs increased re-epithelialization, collagen deposition, neovascularization and led to accelerated skin wound closure, compared with transplantation of aged ASCs. Conclusion The lncRNA SAN mediates ASC senescence by regulating the miR-143-3p/ADD3 pathway, providing a potential target for rejuvenation of senescent ASCs and enhancement of wound repair.

Published

2023

3. Exosomal miR-125b-5p derived from adipose-derived mesenchymal stem cells enhance diabetic hindlimb ischemia repair via targeting alkaline ceramidase 2

Author

Jiahe Guo, Xiaofan Yang, Jing Chen, Cheng Wang, Yue Sun, Chengqi Yan, Sen Ren, Hewei Xiong, Kaituo Xiang, Maojie Zhang, Chengcheng Li, Guoyong Jiang, Xuejiao Xiang, Gui Wan, Tao Jiang, Yu Kang, Xiang Xu, Zhenbing Chen, and Wenqing Li

Subjects

Adipose-derived mesenchymal stem cells, Exosomes, miR-125b-5p, Hindlimb ischemia, Alkaline ceramidase 2, Bioinformatics analysis, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Introduction Ischemic diseases caused by diabetes continue to pose a major health challenge and effective treatments are in high demand. Mesenchymal stem cells (MSCs) derived exosomes have aroused broad attention as a cell-free treatment for ischemic diseases. However, the efficacy of exosomes from adipose-derived mesenchymal stem cells (ADSC-Exos) in treating diabetic lower limb ischemic injury remains unclear. Methods Exosomes were isolated from ADSCs culture supernatants by differential ultracentrifugation and their effect on C2C12 cells and HUVECs was assessed by EdU, Transwell, and in vitro tube formation assays separately. The recovery of limb function after ADSC-Exos treatment was evaluated by Laser-Doppler perfusion imaging, limb function score, and histological analysis. Subsequently, miRNA sequencing and rescue experiments were performed to figure out the responsible miRNA for the protective role of ADSC-Exos on diabetic hindlimb ischemic injury. Finally, the direct target of miRNA in C2C12 cells was confirmed by bioinformatic analysis and dual-luciferase report gene assay. Results ADSC-Exos have the potential to promote proliferation and migration of C2C12 cells and to promote HUVECs angiogenesis. In vivo experiments have shown that ADSC-Exos can protect ischemic skeletal muscle, promote the repair of muscle injury, and accelerate vascular regeneration. Combined with bioinformatics analysis, miR-125b-5p may be a key molecule in this process. Transfer of miR-125b-5p into C2C12 cells was able to promote cell proliferation and migration by suppressing ACER2 overexpression. Conclusion The findings revealed that miR-125b-5p derived from ADSC-Exos may play a critical role in ischemic muscle reparation by targeting ACER2. In conclusion, our study may provide new insights into the potential of ADSC-Exos as a treatment option for diabetic lower limb ischemia.

Published

2023

4. MiR-145-5p overexpression rejuvenates aged adipose stem cells and accelerates wound healing

Author

Chengcheng Li, Sen Ren, Hewei Xiong, Jing Chen, Tao Jiang, Jiahe Guo, Chengqi Yan, Zhenbing Chen, Xiaofan Yang, and Xiang Xu

Subjects

stem cells, micrornas, aging, bmper, Science, Biology (General), QH301-705.5

Published

2024

5. Single-cell transcriptome analysis reveals distinct cell populations in dorsal root ganglia and their potential roles in diabetic peripheral neuropathy.

Author

Guojun Guo, Jing Chen, Qixiao Shen, and Zhenbing Chen

Subjects

Medicine, Science

Abstract

Diabetic peripheral neuropathy (DPN) is a common complication associated with diabetes, and can affect quality of life considerably. Dorsal root ganglion (DRG) plays an important role in the development of DPN. However, the relationship between DRG and the pathogenesis of DPN still lacks a thorough exploration. Besides, a more in-depth understanding of the cell type composition of DRG, and the roles of different cell types in mediating DPN are needed. Here we conducted single-cell RNA-seq (scRNA-seq) for DRG tissues isolated from healthy control and DPN rats. Our results demonstrated DRG includes eight cell-type populations (e.g., neurons, satellite glial cells (SGCs), Schwann cells (SCs), endothelial cells, fibroblasts). In the heterogeneity analyses of cells, six neuron sub-types, three SGC sub-types and three SC sub-types were identified, additionally, biological functions related to cell sub-types were further revealed. Cell communication analysis showed dynamic interactions between neurons, SGCs and SCs. We also found that the aberrantly expressed transcripts in sub-types of neurons, SGCs and SCs with DPN were associated with diabetic neuropathic pain, cell apoptosis, oxidative stress, etc. In conclusion, this study provides a systematic perspective of the cellular composition and interactions of DRG tissues, and suggests that neurons, SGCs and SCs play vital roles in the progression of DPN. Our data may provide a valuable resource for future studies regarding the pathophysiological effect of particular cell type in DPN.

Published

2024

6. Multifunctional ADM hydrogel containing endothelial cell-exosomes for diabetic wound healing

Author

Kaituo Xiang, Jing Chen, Jiahe Guo, Gongchi Li, Yu Kang, Cheng Wang, Tao Jiang, Maojie Zhang, Guoyong Jiang, Meng Yuan, Xuejiao Xiang, Yingpeng Xu, Sen Ren, Hewei Xiong, Xiang Xu, Wenqing Li, Xiaofan Yang, and Zhenbing Chen

Subjects

Diabetic wound healing, Acellular dermal matrix, Exosomes, Hydrogel, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Non-healing wound, with limited treatment options, remains a prevalent complication of diabetes mellitus. The underlying causes wherein include oxidative stress injury, bacterial infection, cellular dysfunction, and persistent inflammation. Acellular Dermal Matrix (ADM), a wound dressing composed of natural extracellular matrix and abundant bioactive factors, has been successfully developed to treat various wounds, including burns and diabetic ulcers. Protocatechualdehyde (PA) & trivalent iron ion (Fe3+) complex (Fe3+@PA) exhibits potential antioxidant and antibacterial properties. In this study, we developed a dual hydrogel network by combining Fe3+@PA complex-modified ADM with light-cured gelatin (GelMA), supplemented with exosomes derived from human umbilical vein endothelial cells (HUVEC-Exos), to create an ADM composite hydrogel system (ADM-Fe3+@PA-Exos/GelMA) with antioxidant, antibacterial, and cell-promoting functions for diabetic wound treatment. Through in vitro experiments, we investigated the biosafety, antioxidant and antibacterial properties of ADM composite hydrogel. Furthermore, we examined the protective effects of ADM composite hydrogel on diabetic wound. The above experiments collectively demonstrate that our ADM-Fe3+@PA-Exos/GelMA hydrogel promotes diabetic wound healing by eliminating bacterial infection, reduced the reactive oxygen species (ROS) levels, protecting cells against oxidative stress damage, promotingcollagen deposition and angiogenesis, which provides a promising strategy to optimize ADM for diabetic wound treatment.

Published

2023

7. Milk exosomes-mediated miR-31-5p delivery accelerates diabetic wound healing through promoting angiogenesis

Author

Chengqi Yan, Jing Chen, Cheng Wang, Meng Yuan, Yu Kang, Zihan Wu, Wenqing Li, Guolei Zhang, Hans-Günther Machens, Yuval Rinkevich, Zhenbing Chen, Xiaofan Yang, and Xiang Xu

Subjects

milk-derived exosomes, mir-31-5p, drug delivery, diabetic wound, angiogenesis, Therapeutics. Pharmacology, RM1-950

Abstract

The refractory diabetic wound has remained a worldwide challenge as one of the major health problems. The impaired angiogenesis phase during diabetic wound healing partly contributes to the pathological process. MicroRNA (miRNA) is an essential regulator of gene expression in crucial biological processes and is a promising nucleic acid drug in therapeutic fields of the diabetic wound. However, miRNA therapies have limitations due to lacking an effective delivery system. In the present study, we found a significant reduction of miR-31-5p expression in the full-thickness wounds of diabetic mice compared to normal mice. Further, miR-31-5p has been proven to promote the proliferation, migration, and angiogenesis of endothelial cells. Thus, we conceived the idea of exogenously supplementing miR-31-5p mimics to treat the diabetic wound. We used milk-derived exosomes as a novel system for miR-31-5p delivery and successfully encapsulated miR-31-5p mimics into milk exosomes through electroporation. Then, we proved that the miR-31-5p loaded in exosomes achieved higher cell uptake and was able to resist degradation. Moreover, our miRNA-exosomal formulation demonstrated dramatically improved endothelial cell functions in vitro, together with the promotion of angiogenesis and enhanced diabetic wound healing in vivo. Collectively, our data showed the feasibility of milk exosomes as a scalable, biocompatible, and cost-effective delivery system to enhance the bioavailability and efficacy of miRNAs.

Published

2022

8. Microneedle Patches with Antimicrobial and Immunomodulating Properties for Infected Wound Healing

Author

Shengbo Li, Xuemei Wang, Zhiyao Yan, Tian Wang, Zhenbing Chen, Heng Song, and Yongbin Zheng

Subjects

antimicrobial, dopamine, immunity, infected wound healing, microneedle, Science

Abstract

Abstract Treatment of infected wounds remains a challenge owing to antibiotic resistance; thus, developing smart biomaterials for the healing of infected wounds is urgently needed. In this study, a microneedle (MN) patch system with antimicrobial and immunomodulatory properties is developed to promote and accelerate infected wound healing. In the MN patch (termed PFG/M MNs), a nanoparticle with polydopamine (PDA)‐loaded iron oxide is grafted with glucose oxidase (GOx) and hyaluronic acid (HA) and then integrated into the tips, and amine‐modified mesoporous silica nanoparticles (AP‐MSNs) are incorporated into the bases. Results show that PFG/M MNs eradicate bacterial infections and modulate the immune microenvironment, combining the advantages of chemodynamic therapy, photothermal therapy, and M2 macrophage polarization from Fe/PDA@GOx@HA in the tips as well as anti‐inflammatory effect of AP‐MSNs from the MN bases. Thus, the PFG/M MN system is a promising clinical candidate for promoting infected wound healing.

Published

2023

9. SESN2 prevents the slow-to-fast myofiber shift in denervated atrophy via AMPK/PGC-1α pathway

Author

Xiaofan Yang, Pingping Xue, Zhenyu Liu, Wenqing Li, Chuyan Li, and Zhenbing Chen

Subjects

Denervation, Skeletal muscle atrophy, Myofiber type transition, SESN2, AMPK/PGC-1α, Cytology, QH573-671

Abstract

Abstract Background Sestrin2 (SESN2), a stress-inducible protein, has been reported to protect against denervated muscle atrophy through unfolded protein response and mitophagy, while its role in myofiber type transition remains unknown. Methods A mouse sciatic nerve transection model was created to evaluate denervated muscle atrophy. Myofiber type transition was confirmed by western blot, fluorescence staining, ATP quantification, and metabolic enzyme activity analysis. Adeno-associated virus (AAV) was adopted to achieve SESN2 knockdown and overexpression in gastrocnemius. AMPK/PGC-1α signal was detected by western blot and activated with 5-aminoimidazole-4-carboxamide ribonucleotide (AICAR). C2C12 myotubes with rotenone treatment were adopted for in vitro experiments. Results SESN2 was found to be upregulated in denervated skeletal muscles and rotenone-treated C2C12 cells. Knockdown of SESN2 aggravated muscle atrophy and accelerated myofiber type transition from slow-twitch to fast-twitch. Moreover, AMPK/PGC-1α signaling was proven to be activated by SESN2 after denervation, which further induced the expression of hypoxia-inducible factor HIF2α. Exogenous activation of AMPK/PGC-1α signaling could counteract the addition of slow-to-fast myofiber shift caused by SESN2 knockdown and lead to the retainment of muscle mass after denervation. Conclusion Collectively, the present study indicates that SESN2 prevents myofiber type transition from slow-twitch to fast-twitch and preserves muscle mass in denervated atrophy via AMPK/PGC-1α signaling. These findings contribute to a better understanding of the pathogenesis of muscle atrophy and provide novel insights into the role of SESN2 in myofiber type transition.

Published

2022

10. Crossover replantation of a foot after bilateral traumatic lower-leg amputation

Author

Pan Zhou and Zhenbing Chen

Subjects

Replantation, Traumatic amputation, Surgery, RD1-811

Abstract

A successful case of crossover replantation of the left foot to the stump of the right leg was described. The lower extremities were amputated at different levels. On the left side, there was a complete amputation in the distal part of the lower leg with comminuted fracture of the distal tibia. On the right side, there was a complete amputation in the hindfoot with comminuted fracture of both the talus and calcaneus. Since anatomical replantation was impossible, we performed crossover replantation of the left foot to the right lower leg. At the latest follow-up examination, forty-six months after the accident, the patient walked independently with a prosthesis on the stump of the left leg. Crossover replantation should be considered in bilateral amputations for the salvage of at least one extremity.

Published

2022

11. GelMA/PEGDA microneedles patch loaded with HUVECs-derived exosomes and Tazarotene promote diabetic wound healing

Author

Meng Yuan, Kun Liu, Tao Jiang, Shengbo Li, Jing Chen, Zihan Wu, Wenqing Li, Rongzhi Tan, Wenying Wei, Xiaofan Yang, Honglian Dai, and Zhenbing Chen

Subjects

Microneedle, GelMA hydrogel, Exosomes delivery, Drug release, Diabetic wound healing, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Clinical work and research on diabetic wound repair remain challenging globally. Although various conventional wound dressings have been continuously developed, the efficacy is unsatisfactory. The effect of drug delivery is limited by the depth of penetration. The sustained release of biomolecules from biological wound dressings is a promising treatment approach to wound healing. An assortment of cell-derived exosomes (exos) have been proved to be instrumental in tissue regeneration, and researchers are dedicated to developing biomolecules carriers with unique properties. Herein, we reported a methacrylate gelatin (GelMA) microneedles (MNs) patch to achieve transdermal and controlled release of exos and tazarotene. Our MNs patch comprising GelMA/PEGDA hydrogel has distinctive biological features that maintain the biological activity of exos and drugs in vitro. Additionally, its unique physical structure prevents it from being tightly attached to the skin of the wound, it promotes cell migration, angiogenesis by slowly releasing exos and tazarotene in the deep layer of the skin. The full-thickness cutaneous wound on a diabetic mouse model was carried out to demonstrate the therapeutic effects of GelMA/PEGDA@T + exos MNs patch. As a result, our GelMA/PEGDA@T + exos MNs patch presents a potentially valuable method for repairing diabetic wound in clinical applications. Graphic Abstract

Published

2022

12. Ingrown toenail treated by the modified howard–dubois technique: Long-term follow-up results

Author

Jia Tian, Zhenbing Chen, and Jin Li

Subjects

howard–dubois technique, ingrown toenail, onychocryptosis, recurrence, Dermatology, RL1-803

Abstract

Background: According to the Mozena classification system, stage IIb and stage III ingrown toenail cases are considered as severe ones; however, limited options are available for treatment. Aims: To lower the recurrence rate and achieve primary intention healing in severe ingrown toenail cases by the modified Howard–Dubois technique. Methods: Forty patients were included in this study. In this procedure, a fish-mouth like soft tissue along the nail groove to the tip of the toe was resected, the upper surface of the distal phalanx was flattened and the nail bed matrix was remodelled. The European Quality of Life (EuroQol) questionnaire and Surgical Satisfaction Questionnaire were used to assess the outcomes. Results: There were no recurrences observed during the follow-up period. Healing time from surgery to back to school or work was 10.82 days on an average (range: 7–23 days). According to the results of EuroQol questionnaire, improvements were achieved in the areas of mobility (50%), looking after myself (10%), doing usual activities (35%), having pain or discomfort (95%) and feeling worried, sad, or unhappy (55%). According to the results of Surgical Satisfaction Questionnaire, 38 (95%) patients indicated that they would undergo the surgery again if they 'had to do it all over again' and 36 (90%) patients said that they would recommend the procedure to others. Conclusions: This modified Howard–Dubois technique was an effective, safe and cosmetic alternation for the treatment of ingrown toenail in severe or relapsed cases.

Published

2022

13. ADSC-exo@MMP-PEG smart hydrogel promotes diabetic wound healing by optimizing cellular functions and relieving oxidative stress

Author

Tao Jiang, Siju Liu, Zihan Wu, Qianyun Li, Sen Ren, Jing Chen, Xiang Xu, Cheng Wang, Cuifen Lu, Xiaofan Yang, and Zhenbing Chen

Subjects

Smart hydrogel, Diabetic wound, Exosome, Adipose-derived stem cell, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Diabetic wound complications are financially costly and difficult to heal in worldwide. Whereas the therapies of diabetic wound, such as wound dressing, endocrine therapy or flap-transplantations, were not satisfied. Based on our previous study of exosome secreted by adipose-derived stem cell (ADSC-exo), we loaded ADSC-exo into the matrix metalloproteinase degradable polyethylene glycol (MMP-PEG) smart hydrogel. Physical and chemical properties of ADSC-exo@MMP-PEG smart hydrogel were tested by scanning electron microscope (SEM), Fourier transform infrared spectroscopy (FTIR), weight loss examination, etc. As the hydrogel degraded in response to MMP, ADSC-exo was released and subsequently enhanced cell function via Akt signaling. Moreover, treatment with ADSC-exo@MMP-PEG smart hydrogel significantly relieved the H2O2-induced oxidative stress, which was widely recognized as a major cause of diabetic wound nonhealing. Similar results were achieved in mice diabetic wound models, in which the ADSC-exo@MMP-PEG treatment group displayed a significantly accelerated wound healing. To summarize, the present smart hydrogel with enzyme-response and exosome-release was proved to be benefit for diabetic wounds healing, which provides a reliable theoretical basis for application of ADSC-exo in treatment of diabetic wounds.

Published

2022

14. Protein Binding Nanoparticles as an Integrated Platform for Cancer Diagnosis and Treatment

Author

Xuemei Wang, Shengbo Li, Siqi Wang, Shuo Zheng, Zhenbing Chen, and Heng Song

Subjects

immunotherapy multimodal tumor therapy, multimodal imaging, polydopamine, protein‐binding nanoparticles, Science

Abstract

Abstract Smart nanomaterials constitute a new approach toward safer and more effective combined anti‐cancer immunotherapy. In this study, polydopamine‐multiprotein conjugates (DmPCs) that can be used for targeted delivery of multiple proteins to cells, realize imaging and combine the advantages of multiple treatment methods (photothermal therapy, chemodynamic therapy, and immunotherapy) can be synthesized and characterized. Proteins, as biological agents, are frequently used in this context, given their low toxicity in vivo. To overcome protein instability and short half‐life in vivo, the use of several proteins in combination with selected nanomaterials to treat patients with melanoma is proposed. In addition to the synthesis and characterization of protein‐bound nanoparticles, it is further demonstrated that several proteins can be efficiently delivered to tumor sites. DmPCs have a wide range of potential adaptability, which provides new opportunities for proteins in the field of treatment and imaging.

Published

2022

15. SESN2 protects against denervated muscle atrophy through unfolded protein response and mitophagy

Author

Xiaofan Yang, Pingping Xue, Meng Yuan, Xiang Xu, Cheng Wang, Wenqing Li, Hans-Günther Machens, and Zhenbing Chen

Subjects

Cytology, QH573-671

Abstract

Abstract Denervation of skeletal muscles results in a rapid and programmed loss of muscle size and performance, termed muscle atrophy, which leads to a poor prognosis of clinical nerve repair. Previous researches considered this process a result of multiple factors, such as protein homeostasis disorder, mitochondrial dysfunction, endoplasmic reticulum stress (ERS), and apoptosis, while their intrinsic association remains to be explored. In this study, Sestrin2 (SESN2), a stress-inducible protein, was shown to act as a key protective signal involved in the crosstalk therein. SESN2 expression was induced in the gastrocnemius two weeks post denervation, which was accompanied by ERS, mitochondrial dysfunction, and apoptosis. Knockdown of SESN2 aggravated this situation and resulted in severer atrophy. Similar results were also found in rotenone-treated C2C12 cells. Furthermore, SESN2 was demonstrated to be induced by an ERS-activated transcription factor CCAAT-enhancer-binding protein beta (C/EBPβ). Once induced, SESN2 halted protein synthesis by inhibiting the mammalian target of rapamycin complex 1 (mTORC1), thereby attenuating ERS. Moreover, increased SESN2 activated the specific autophagic machinery and facilitated the aggregation of sequestosome 1 (SQSTM1, p62) on the mitochondrial surface, which promoted the clearance of damaged mitochondria through mitophagy. Collectively, the SESN2-mediated unfolded protein response (UPR) and mitophagy play a critical role in protecting against denervated muscle atrophy, which may provide novel insights into the mechanism of skeletal muscle atrophy following denervation.

Published

2021

16. Medial plantar artery perforator (MPAP) flap is an ideal option for reconstruction of complex soft tissue defect in the finger: Clinical experience from 11 cases

Author

Xiang Xu, Cheng Wang, Zhenbing Chen, and Jin Li

Subjects

medial plantar flap, perforator flap, complex soft tissue defects, finger reconstruction, lobulated flap, Surgery, RD1-811

Abstract

IntroductionSoft tissue defects of fingers are common in reconstructive plastic surgery, and reconstruction of the defects remains challenging for plastic surgeons. In our study, we reported our experience in finger reconstruction with a medial plantar artery perforator (MPAP) flap, especially using a lobulated MPAP flap for the complex multifinger soft defect.Patients and methodsFrom the period April 2012 to October 2018, 11 patients (9 males and 2 females) with an average age of 44 years old (ranging from 11 to 58) received finger reconstruction with a free MPAP flap. In total, 11 flaps (8 single-lobulated flaps and 3 two-lobulated flaps) were raised from the ipsilateral or contralateral instep area. Trauma and scar contracture caused hand soft tissue loss in all cases.ResultsThe sizes of the flaps ranged from 2×3 to 5×7.5 cm2. All flaps survived intact with no complications. One donor site was closed primarily, and other donor sites were covered with a full-thickness skin graft. The mean follow-up time was 6 months (ranging from 3 to 8 months). During the follow-up period, the patients were satisfied with their appearance without any traces of flap plastic surgery.ConclusionThe MPAP flap is a reliable and acceptable option for the reconstruction of complex soft tissue defects in the finger. Depending on the two branches of the medial plantar artery, the use of the lobulated MPAP flap holds promise in the treatment of multifinger soft tissue defects.

Published

2022

17. The whole profiling and competing endogenous RNA network analyses of noncoding RNAs in adipose-derived stem cells from diabetic, old, and young patients

Author

Sen Ren, Hewei Xiong, Jing Chen, Xiaofan Yang, Yutian Liu, Jiahe Guo, Tao Jiang, Zhao Xu, Meng Yuan, Yang Liu, Nan Zhou, Hongrui Chen, Wenqing Li, Hans-Günther Machens, and Zhenbing Chen

Subjects

Adipose-derived stem cell, Noncoding RNA, Competing endogenous RNA, Diabetes, Aging, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Mesenchymal stem cells including adipose-derived stem cells (ASCs) have a considerable potential in the field of translational medicine. Unfortunately, multiple factors (e.g., older age, co-existing diabetes, and obesity) may impair cellular function, which hinders the overall effectiveness of autologous stem cell therapy. Noncoding RNAs—including microRNAs (miRNAs), long ncRNAs (lncRNAs), and circular RNAs (circRNAs)—have been shown to play important roles in stem cell biology. However, the overall diabetes-related and aging-related expression patterns and interactions of these RNAs in ASCs remain unknown. Method The phenotypes and functions of ASCs isolated from diabetic (D-ASCs), old (O-ASCs), and young (Y-ASCs) donors were evaluated by in vitro assays. We conducted high-throughput RNA sequencing (RNA-seq) in these ASCs to identify the differentially expressed (DE) RNAs. Gene ontology (GO), Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway, and protein-protein interaction (PPI) analyses were performed to investigate mRNAs with significant differences among groups. The lncRNA- or circRNA-associated competing endogenous RNA (ceRNA) networks were constructed based on bioinformatics analyses and real-time polymerase chain reaction (RT-PCR) results. The miR-145-5p mimics were transfected into O-ASCs and verified by PCR. Results ASCs from diabetic and old donors showed inferior migration ability and increased cellular senescence. Furthermore, O-ASCs have decreased capacities for promoting endothelial cell angiogenesis and fibroblast migration, compared with Y-ASCs. The DE miRNAs, mRNAs, lncRNAs, and circRNAs were successfully identified by RNA-seq in O-ASCs vs. Y-ASCs and D-ASCs vs. O-ASCs. GO and KEGG analyses demonstrated that DE mRNAs were significantly enriched in aging and cell senescence terms separately. PPI networks revealed critical DE mRNAs in the above groups. RNAs with high fold changes and low p values were validated by PCR. ceRNA networks were constructed based on bioinformatics analyses and validated RNAs. Additionally, the lncRNA RAET1E-AS1–miR-145-5p–WNT11/BMPER axis was validated by PCR and correlation analyses. Finally, the overexpression of miR-145-5p was found to rejuvenate O-ASCs phenotype and augment the functionality of these cells. Conclusion Our research may provide insights regarding the underlying mechanisms of ASC dysfunction; it may also offer novel targets for restoring therapeutic properties in ASCs.

Published

2021

18. Schwann Cell-Derived Exosomes Induce the Differentiation of Human Adipose-Derived Stem Cells Into Schwann Cells

Author

Nan Zhou, Zhao Xu, Xiang Li, Sen Ren, Jing Chen, Hewei Xiong, Cheng Wang, Jiahe Guo, Yu Kang, Zhenbing Chen, Wenqing Li, Xiaofan Yang, Xing Zhang, and Xiang Xu

Subjects

adipose-derived stem cell, exosome, Schwann cell, differentiation, miRNA sequencing, Biology (General), QH301-705.5

Abstract

Adipose-derived stem cells (ADSCs) can differentiate into Schwann cells (SCs) at the site of nerve injury, where Schwann cell-derived exosomes (SC-Exos) are suspected to exert an induction effect. Our study aimed to induce the differentiation of ADSCs in vitro using SC-Exos and to investigate the mechanisms involved through miRNA sequencing. Subcutaneous fat was used to extract ADSCs. Exosomes were extracted from Schwann cell lines (RSC96) using ultracentrifugation and were able to be taken up by human ADSCs. After 8 days of induction of ADSCs by SC-Exos, phenotypic characteristics were observed by examining the expression of SC markers (S100ß, NGFR, MPZ, GFAP) through RT-qPCR, Western blot and immunofluorescence. The RNA and protein expression levels of S100ß, NGFR, MPZ, and GFAP were found to be significantly higher in the SC-Exo induction group than in the uninduced group, which was also consistent with the immunofluorescence results. Additionally, miRNA sequencing was performed on exosome-induced ADSCs, followed by bioinformatic analysis and validation of the results. According to the sequencing results, there were a total of 94 differentially expressed miRNAs. Bioinformatics analysis indicated that 3506 Gene Ontology terms and 98 Kyoto Encyclopedia of Genes and Genomes pathways were significantly enriched. Ten miRNAs, 5 target mRNAs and elevated expression of the PIK3CD/Akt pathway were validated by RT-qPCR or Western blot, which is consistent with the sequencing results. Our study demonstrates that the utility of SC-Exos is effective in inducing the differentiation of ADSCs into SCs, in which these validated differentially expressed miRNAs exert a vital effect. This work provides a new paradigm via rationally applying Schwann cell-derived exosomes as a promising therapeutic option for repairing peripheral nerve injury.

Published

2022

19. Identification of Immune Infiltration and the Potential Biomarkers in Diabetic Peripheral Neuropathy through Bioinformatics and Machine Learning Methods

Author

Wenqing Li, Jiahe Guo, Jing Chen, Haibo Yao, Renqun Mao, Chuyan Li, Guolei Zhang, Zhenbing Chen, Xiang Xu, and Cheng Wang

Subjects

diabetic peripheral neuropathy, immune cells infiltration, biomarkers, bioinformatics analysis, Microbiology, QR1-502

Abstract

Diabetic peripheral neuropathy (DPN) is one of the most common chronic complications in diabetes. Previous studies have shown that chronic neuroinflammation was associated with DPN. However, further research is needed to investigate the exact immune molecular mechanism underlying the pathogenesis of DPN. Expression profiles were downloaded from the Gene Expression Omnibus (GEO) database. Differentially expressed genes (DEGs) were screened by R software. After functional enrichment analysis of DEGs, a protein–protein interaction (PPI) network analysis was performed. The CIBERSORT algorithm was used to evaluate the infiltration of immune cells in DPN. Next, the least absolute shrinkage and selection operator (LASSO) logistic regression and support vector machine-recursive feature elimination (SVM-RFE) algorithms were applied to identify potential DPN diagnostic markers. Finally, the results were further validated by qRT-PCR. A total of 1308 DEGs were screened in this study. Enrichment analysis identified that DEGs were significantly enriched in immune-related biological functions and pathways. Immune cell infiltration analysis found that M1 and M2 macrophages, monocytes, resting mast cells, resting CD4 memory T cells and follicular helper T cells were involved in the development of DPN. LTBP2 and GPNMB were identified as diagnostic markers of DPN. qRT-PCR results showed that 15 mRNAs, including LTBP2 and GPNMB, were differentially expressed, consistent with the microarray results. In conclusion, LTBP2 and GPNMB can be used as novel candidate molecular diagnostic markers for DPN. Furthermore, the infiltration of immune cells plays an important role in the progression of DPN.

Published

2022

20. Exosomes from Adipose Stem Cells Promote Diabetic Wound Healing through the eHSP90/LRP1/AKT Axis

Author

Sen Ren, Jing Chen, Jiahe Guo, Yutian Liu, Hewei Xiong, Boping Jing, Xiaofan Yang, Gongchi Li, Yu Kang, Cheng Wang, Xiang Xu, Zhenyu Liu, Maojie Zhang, Kaituo Xiang, Chengcheng Li, Qianyun Li, Hans-Günther Machens, and Zhenbing Chen

Subjects

adipose-derived stem cell, exosomes, diabetic wound, oxidative stress, heat shock protein 90, Cytology, QH573-671

Abstract

Oxidative damage is a critical cause of diabetic wounds. Exosomes from various stem cells could promote wound repair. Here, we investigated the potential mechanism by which exosomes from adipose-derived stem cells (ADSC-EXOs) promote diabetic wound healing through the modulation of oxidative stress. We found that ADSC-EXOs could promote proliferation, migration, and angiogenesis in keratinocytes, fibroblasts, and endothelial cells. Furthermore, ADSC-EXOs reduced the reactive oxygen species (ROS) levels in these cells and protected them against hypoxic and oxidative stress damage. Finally, the local injection of ADSC-EXOs at wound sites significantly increased collagen deposition and neovascularization while reducing ROS levels and cell death; thus, it led to accelerated diabetic wound closure. The mechanism underlying ADSC-EXO functions involved heat-shock protein 90 (HSP90) expressed on the cell surface; these functions could be inhibited by an anti-HSP90 antibody. Exosomal HSP90 could bind to the low-density lipoprotein receptor-related protein 1 (LRP1) receptor on the recipient cell membrane, leading to activation of the downstream AKT signaling pathway. Knockdown of LRP1 and inhibition of the AKT signaling pathway by LY294002 in fibroblasts was sufficient to impair the beneficial effect of ADSC-EXOs. In summary, ADSC-EXOs significantly accelerated diabetic wound closure through an exosomal HSP90/LRP1/AKT signaling pathway.

Published

2022

21. Comprehensive Analysis of E2F Family Members in Human Gastric Cancer

Author

Shengbo Li, Xiaofan Yang, Wenqing Li, and Zhenbing Chen

Subjects

E2F, gastric cancer, comprehensive bioinformatics analysis, biomarkers, prognosis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Gastric cancer (GC) is the second most common cancer and the third most frequent cause of cancer-related deaths in China. E2Fs are a family of transcription factors reported to be involved in the tumor progression of various cancer types; however, the roles of individual E2Fs are still not known exactly in tumor progression of GC. In this study, we examined the expression of E2Fs to investigate their roles in tumor progression in GC patients using multiple databases, including ONCOMINE, GEPIA2, Kaplan-Meier plotter, cBioPortal, Metascape, LinkedOmics, GeneMANIA, STRING and UCSC Xena. We also performed real-time polymerase chain reaction (RT-PCR) to validate the expression levels of individual E2Fs in several GC cell lines. Our results demonstrated that the mRNA levels of E2F1/2/3/5/8 were significantly higher both in GC tissues and cell lines. The expression levels of E2F1 and E2F4 were correlated with poor overall survival (OS), decreased post-progression survival (PPS), and decreased progression-free survival (FP) in patients with GC. However, overexpression of E2F2, E2F5, E2F7 and E2F8 is significantly associated with disease-free survival and overall survival in patients with GC. In addition, higher E2F3 and E2F6 mRNA expression was found to increase GC patients’ OS and PPS. 224 of 415 patients with STAD (54%) had gene mutations that were associated with longer disease-free survival (DFS) but not OS. Cell cycle pathway was closely associated with mRNA level of more than half of E2Fs (E2F1/2/3/7/8). There were close and complicated interactions among E2F family members. Finally, our results indicated the gene expressions of E2Fs had a positive relationship with its copy numbers. Taken together, E2F1/2/3/5/8 can serve as biomarkers for GC patients with high prognostic value for OS of GC patients or therapeutic targets for GC.

Published

2021

22. Microvesicles from human adipose stem cells promote wound healing by optimizing cellular functions via AKT and ERK signaling pathways

Author

Sen Ren, Jing Chen, Dominik Duscher, Yutian Liu, Guojun Guo, Yu Kang, Hewei Xiong, Peng Zhan, Yang Wang, Cheng Wang, Hans-Günther Machens, and Zhenbing Chen

Subjects

Adipose stem cells (ASCs), Microvesicles (MVs), Extracellular vesicles, Wound healing, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Human adipose stem cells (ASCs) have emerged as a promising treatment paradigm for skin wounds. Recent works demonstrate that the therapeutic effect of stem cells is partially mediated by extracellular vesicles, which comprise exosomes and microvesicles. In this study, we investigate the regenerative effects of isolated microvesicles from ASCs and evaluate the mechanisms how ASC microvesicles promote wound healing. Methods Adipose stem cell-derived microvesicles (ASC-MVs) were isolated by differential ultracentrifugation, stained by PKH26, and characterized by electron microscopy and dynamic light scattering (DLS). We examined ASC-MV effects on proliferation, migration, and angiogenesis of keratinocytes, fibroblasts, and endothelial cells both in vitro and in vivo. Next, we explored the underlying mechanisms by gene expression analysis and the activation levels of AKT and ERK signaling pathways in all three kinds of cells after ASC-MV stimulation. We then assessed the effect of ASC-MVs on collagen deposition, neovascularization, and re-epithelialization in an in vivo skin injury model. Results ASC-MVs could be readily internalized by human umbilical vein endothelial cells (HUVECs), HaCAT, and fibroblasts and significantly promoted the proliferation, migration, and angiogenesis of these cells both in vitro and in vivo. The gene expression of proliferative markers (cyclin D1, cyclin D2, cyclin A1, cyclin A2) and growth factors (VEGFA, PDGFA, EGF, FGF2) was significantly upregulated after ASC-MV treatment. Importantly, ASC-MVs stimulated the activation of AKT and ERK signaling pathways in those cells. The local injection of ASC-MVs at wound sites significantly increased the re-epithelialization, collagen deposition, and neovascularization and led to accelerated wound closure. Conclusions Our data suggest that ASC-MVs can stimulate HUVEC, HaCAT, and fibroblast functions. ASC-MV therapy significantly accelerates wound healing, and the benefits of ASC-MVs may due to the involvement of AKT and ERK signaling pathways. This illustrates the therapeutic potential of ASC-MVs which may become a novel treatment paradigm for cutaneous wound healing.

Published

2019

23. HMGB1/autophagy pathway mediates the atrophic effect of TGF-β1 in denervated skeletal muscle

Author

Xiaofan Yang, Pingping Xue, Xin Liu, Xiang Xu, and Zhenbing Chen

Subjects

Denervation, Skeletal muscle, Atrophy, TGF-β1, HMGB1, Autophagy, Medicine, Cytology, QH573-671

Abstract

Abstract Background Transforming growth factor beta 1 (TGF-β1) is a classical modulator of skeletal muscle and regulates several processes, such as myogenesis, regeneration and muscle function in skeletal muscle diseases. Skeletal muscle atrophy, characterized by the loss of muscle strength and mass, is one of the pathological conditions regulated by TGF-β1, but the underlying mechanism involved in the atrophic effects of TGF-β1 is not fully understood. Methods Mice sciatic nerve transection model was created and gastrocnemius were analysed by western blot, immunofluorescence staining and fibre diameter quantification after 2 weeks. Exogenous TGF-β1 was administrated and high-mobility group box-1 (HMGB1), autophagy were blocked by siRNA and chloroquine (CQ) respectively to explore the mechanism of the atrophic effect of TGF-β1 in denervated muscle. Similar methods were performed in C2C12 cells. Results We found that TGF-β1 was induced in denervated muscle and it could promote atrophy of skeletal muscle both in vivo and in vitro, up-regulated HMGB1 and increased autophagy activity were also detected in denervated muscle and were further promoted by exogenous TGF-β1. The atrophic effect of TGF-β1 could be inhibited when HMGB1/autophagy pathway was blocked. Conclusions Thus, our data revealed that TGF-β1 is a vital regulatory factor in denervated skeletal muscle in which HMGB1/ autophagy pathway mediates the atrophic effect of TGF-β1. Our findings confirmed a new pathway in denervation-induced skeletal muscle atrophy and it may be a novel therapeutic target for patients with muscle atrophy after peripheral nerve injury.

Published

2018

24. Schwannoma of the long thoracic nerve in the left axilla: a case report

Author

Jia Tian, Qishun Huang, and Zhenbing Chen

Subjects

Medicine (General), R5-920

Abstract

Schwannoma, which is also known as neurilemmoma, is a type of tumor that arises from the peripheral nerve sheaths. Cases of schwannomas located in different regions have been reported. Some schwannomas present as asymptomatic masses, while others cause discomfort, such as pain and numbness. Magnetic resonance imaging (MRI) is a valuable diagnostic tool. A 23-year-old woman presented to our hospital with a mass in the left axilla that was misdiagnosed as mammae erraticae. The patient also considered the condition to be mammae erraticae for approximately 14 months because of a lack of symptoms. MRI was recommended by a surgeon from the galactophore department. A giant schwannoma was found. The mass was surgically excised, while preserving the continuity of the long thoracic nerve. Routine histopathological analysis confirmed the presence of a benign schwannoma. Schwannomas located in the axilla are rare and may be easily misdiagnosed as mammae erraticae or enlarged lymph nodes. Early investigation is necessary to make the diagnosis, and surgical excision is usually curative.

Published

2020

25. Management of foot degloving injury with bilateral anterolateral thigh flaps

Author

Pan Zhou, Xiaobin Cong, and Zhenbing Chen

Subjects

Degloving injuries, Foot injuries, Salvage limb, Soft tissue defect, Surgical flaps, Anterolateral thigh flap, Surgery, RD1-811

Abstract

Foot degloving injuries are frequently encountered by reconstructive surgeons as there are more and more vehicles on the road. The separation between the deep facia and the superficial skin often damage the blood supply of the cutaneous tissue, resulting skin defect and digit necrosis. In order to manage these challenging situations, reconstructive surgeons have explored various types of techniques. Our team have managed to cure one such patient through bilateral anterolateral thigh flaps, in which the two flaps cover the dorsal and plantar side respectively. The flaps survived uneventfully and second stage operation of defatting was consequently arranged. The patient obtained protective sensation and felt satisfied with the cosmetic outcome. With the development of microsurgery, bilateral anterolateral thigh flaps could be effectively adopted to manage foot degloving injuries.

Published

2020

26. The Construction and Analysis of lncRNA–miRNA–mRNA Competing Endogenous RNA Network of Schwann Cells in Diabetic Peripheral Neuropathy

Author

Cheng Wang, Xiang Xu, Jing Chen, Yu Kang, Jiahe Guo, Dominik Duscher, Xiaofan Yang, Guojun Guo, Sen Ren, Hewei Xiong, Meng Yuan, Tao Jiang, Hans-Günther Machens, Zhenbing Chen, and Yanhua Chen

Subjects

diabetic peripheral neuropathy, Schwann cells, mRNA, lncRNA, miRNA, RNA sequencing, Biotechnology, TP248.13-248.65

Abstract

BackgroundDiabetes mellitus is a worldwide disease with high incidence. Diabetic peripheral neuropathy (DPN) is one of the most common but often ignored complications of diabetes mellitus that cause numbness and pain, even paralysis. Recent studies demonstrate that Schwann cells (SCs) in the peripheral nervous system play an essential role in the pathogenesis of DPN. Furthermore, various transcriptome analyses constructed by RNA-seq or microarray have provided a comprehensive understanding of molecular mechanisms and regulatory interaction networks involved in many diseases. However, the detailed mechanisms and competing endogenous RNA (ceRNA) network of SCs in DPN remain largely unknown.MethodsWhole-transcriptome sequencing technology was applied to systematically analyze the differentially expressed mRNAs, lncRNAs and miRNAs in SCs from DPN rats and control rats. Gene ontology (GO) and KEGG pathway enrichment analyses were used to investigate the potential functions of the differentially expressed genes. Following this, lncRNA-mRNA co-expression network and ceRNA regulatory network were constructed by bioinformatics analysis methods.ResultsThe results showed that 2925 mRNAs, 164 lncRNAs and 49 miRNAs were significantly differently expressed in SCs from DPN rats compared with control rats. 13 mRNAs, 7 lncRNAs and 7 miRNAs were validated by qRT-PCR and consistent with the RNA-seq data. Functional and pathway analyses revealed that many enriched biological processes of GO terms and pathways were highly correlated with the function of SCs and the pathogenesis of DPN. Furthermore, a global lncRNA–miRNA–mRNA ceRNA regulatory network in DPN model was constructed and miR-212-5p and the significantly correlated lncRNAs with high degree were identified as key mediators in the pathophysiological processes of SCs in DPN. These RNAs would contribute to the diagnosis and treatment of DPN.ConclusionOur study has shown that differentially expressed RNAs have complex interactions among them. They also play critical roles in regulating functions of SCs involved in the pathogenesis of DPN. The novel competitive endogenous RNA network provides new insight for exploring the underlying molecular mechanism of DPN and further investigation may have clinical application value.

Published

2020

27. Comprehensive analysis of differentially expressed microRNAs and mRNAs in dorsal root ganglia from streptozotocin-induced diabetic rats.

Author

Guojun Guo, Yutian Liu, Sen Ren, Yu Kang, Dominik Duscher, Hans-Günther Machens, and Zhenbing Chen

Subjects

Medicine, Science

Abstract

Diabetic peripheral neuropathy is a common complication associated with diabetes mellitus with a pathogenesis that is incompletely understood. By regulating RNA silencing and post-transcriptional gene expression, microRNAs participate in various biological processes and human diseases. However, the relationship between microRNAs and the progress of diabetic peripheral neuropathy still lacks a thorough exploration. Here we used microarray microRNA and mRNA expression profiling to analyze the microRNAs and mRNAs which are aberrantly expressed in dorsal root ganglia from streptozotocin-induced diabetic rats. We found that 37 microRNAs and 1357 mRNAs were differentially expressed in comparison to non-diabetic samples. Bioinformatics analysis indicated that 399 gene ontology terms and 29 Kyoto Encyclopedia of Genes and Genomes pathways were significantly enriched in diabetic rats. Additionally, a microRNA-gene network evaluation identified rno-miR-330-5p, rno-miR-17-1-3p and rno-miR-346 as important players for network regulation. Finally, quantitative real-time polymerase chain reaction analysis was used to confirm the microarray results. In conclusion, this study provides a systematic perspective of microRNA and mRNA expression in dorsal root ganglia from diabetic rats, and suggests that dysregulated microRNAs and mRNAs may be important promotors of peripheral neuropathy. Our results may be the underlying framework of future studies regarding the effect of the aberrantly expressed genes on the pathophysiology of diabetic peripheral neuropathy.

Published

2018

28. Exosomes derived from oral squamous cell carcinoma tissue accelerate diabetic wound healing.

Author

Maojie Zhang, Jiahe Guo, Kaituo Xiang, Jing Chen, Cheng Wang, Tao Jiang, Yu Kang, Xiang Xu, Jin Li, Xiaofan Yang, and Zhenbing Chen

Abstract

It is a widespread and difficult problem that refractory diabetic wounds have a poor local environment and prolonged inflammatory irritation. Tumor cell-derived exosomes play an important role in the development of tumors, as they can promote tumor cell proliferation, migration, and invasion and enhance tumor cell activity. However, tumor tissue-derived exosomes (Ti-Exos) have been less studied, and it is unclear how they affect wound healing. In this study, we extracted Ti-Exos from human oral squamous carcinoma and paracancerous tissue by ultracentrifugation, size exclusion chromatography, and ultrafiltration and performed exosome characterization. In vitro, the oral squamous cell carcinoma tissue-derived exosomes (OSCC Ti-Exos) promoted the proliferation and migration of endothelial cells, keratinocytes, and fibroblasts. In addition, in vivo experiments showed that the OSCC Ti-Exos accelerated the healing of diabetic wounds and were safe in mice. In contrast, there was no promoting effect of paracancerous tissue-derived exosomes either in vivo or in vitro. In conclusion, OSCC Ti-Exos promoted the healing of diabetic wounds, demonstrated preliminary biosafety in mice, and have promise as therapeutic applications. NEW & NOTEWORTHY Diabetic wound healing has become a public health issue that lacks effective treatment. We collected oral squamous cell carcinoma samples and paracancerous tissue and extracted Ti-Exos for verification. In vitro assays revealed that OSCC Ti-EVs could enhance the proliferation and migration of endothelial cells, keratinocytes, and fibroblasts in diabetic cell model. In vivo assays also verified that OSCC Ti-Exos could promote diabetic wound healing, demonstrated preliminary biosafety in mice, and have promise as therapeutic applications. [ABSTRACT FROM AUTHOR]

Published

2023

29. Comprehensive Analysis of E2F Family Members in Human Gastric Cancer

Author

Zhenbing Chen, Shengbo Li, Xiaofan Yang, and Wenqing Li

Subjects

Cancer Research, gastric cancer, Cancer, biomarkers, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Gene mutation, Biology, medicine.disease, Oncology, Tumor progression, E2F, comprehensive bioinformatics analysis, medicine, Cancer research, E2F1, prognosis, E2F4, Gene, RC254-282, E2F2, Original Research

Abstract

Gastric cancer (GC) is the second most common cancer and the third most frequent cause of cancer-related deaths in China. E2Fs are a family of transcription factors reported to be involved in the tumor progression of various cancer types; however, the roles of individual E2Fs are still not known exactly in tumor progression of GC. In this study, we examined the expression of E2Fs to investigate their roles in tumor progression in GC patients using multiple databases, including ONCOMINE, GEPIA2, Kaplan-Meier plotter, cBioPortal, Metascape, LinkedOmics, GeneMANIA, STRING and UCSC Xena. We also performed real-time polymerase chain reaction (RT-PCR) to validate the expression levels of individual E2Fs in several GC cell lines. Our results demonstrated that the mRNA levels of E2F1/2/3/5/8 were significantly higher both in GC tissues and cell lines. The expression levels of E2F1 and E2F4 were correlated with poor overall survival (OS), decreased post-progression survival (PPS), and decreased progression-free survival (FP) in patients with GC. However, overexpression of E2F2, E2F5, E2F7 and E2F8 is significantly associated with disease-free survival and overall survival in patients with GC. In addition, higher E2F3 and E2F6 mRNA expression was found to increase GC patients’ OS and PPS. 224 of 415 patients with STAD (54%) had gene mutations that were associated with longer disease-free survival (DFS) but not OS. Cell cycle pathway was closely associated with mRNA level of more than half of E2Fs (E2F1/2/3/7/8). There were close and complicated interactions among E2F family members. Finally, our results indicated the gene expressions of E2Fs had a positive relationship with its copy numbers. Taken together, E2F1/2/3/5/8 can serve as biomarkers for GC patients with high prognostic value for OS of GC patients or therapeutic targets for GC.

Published

2021

30. Role of transforming growth factor-β1 in the process of fibrosis of denervated skeletal muscle

Author

Fanbin, Meng / 孟繁斌, Jianghai, Chen / 陈江海, Juan, Liu / 刘 娟, Yang, Wang / 王 旸, Yuxiong, Weng / 翁雨雄, Yanhua, Chen / 陈燕花, Tao, Li / 李 涛, and Zhenbing, Chen / 陈振兵

Published

2011

31. Clinical characteristics and predictors of the duration of SARS‐CoV‐2 viral shedding in 140 healthcare workers

Author

Yutian Liu, Wanhong Liu, Tao Jiang, Yong Kang, G Zhu, Zhenbing Chen, and Zhenghe Xu

Subjects

rIFN‐α, Adult, Male, 0301 basic medicine, China, medicine.medical_specialty, clinical features, Health Personnel, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Psychological intervention, Alpha interferon, 030204 cardiovascular system & hematology, SARS‐CoV‐2, Early admission, 03 medical and health sciences, 0302 clinical medicine, COVID‐19, Internal medicine, Epidemiology, Health care, medicine, Internal Medicine, viral shedding duration, Humans, Viral shedding, Glucocorticoids, healthcare workers, SARS-CoV-2, business.industry, COVID-19, Interferon-alpha, Original Articles, Middle Aged, Virus Shedding, COVID-19 Drug Treatment, Hospitalization, 030104 developmental biology, Original Article, Female, business, Glucocorticoid, medicine.drug

Abstract

Background Epidemiological and clinical features of patients with COVID‐19 have been reported, but none of them focused on medical staff, and few predictors of the duration of viral shedding have been reported. It is urgent to help healthcare workers prevent and recover quickly from the coronavirus disease 2019 (COVID‐19). Methods We enrolled 140 medical workers with COVID‐19 in Wuhan. Epidemiological, demographic, clinical, laboratory, radiological, treatment and clinical outcome data were collected, and predictors of the duration of viral shedding were explored through multivariable linear regression analysis. Results The medical staff with COVID‐19 presented mild clinical symptoms and showed a low frequency of abnormal laboratory indicators. All the medical staff were cured and discharged, of whom 96 (68.6%) were female, 39 (27.9%) had underlying diseases, the median age was 36.0 years, and 104 (74.3%) were infected whilst working in hospital. The median duration of viral shedding was 25.0 days (IQR:20.0–30.0). Multivariable linear regression analysis showed reducing viral shedding duration was associated with receiving recombinant human interferon alpha (rIFN‐α) treatment, whilst the prolonged duration of viral shedding correlated with the use of glucocorticoid treatment, the durations from the first symptom to hospital admission and the improvement in chest computed tomography (CT) evidence. Moreover, infected healthcare workers with lymphocytes less than 1.1 × 109/L on admission had prolonged viral shedding. Conclusion Medical staff with timely medical interventions shows milder clinical features. Glucocorticoid treatment and lymphocytes less than 1.1 × 109/L are associated with prolonged viral shedding. Early admission and rIFN‐α treatment help shorten the duration of viral shedding.

Published

2020

32. The Construction and Analysis of lncRNA–miRNA–mRNA Competing Endogenous RNA Network of Schwann Cells in Diabetic Peripheral Neuropathy

Author

Yu Kang, Tao Jiang, Cheng Wang, Zhenbing Chen, Meng Yuan, Sen Ren, Xiaofan Yang, Hans-Günther Machens, Yanhua Chen, Dominik Duscher, Jing Chen, Hewei Xiong, Guojun Guo, Jiahe Guo, and Xiang Xu

Subjects

0301 basic medicine, Histology, Microarray, mRNA, lcsh:Biotechnology, Biomedical Engineering, Bioengineering, 02 engineering and technology, Computational biology, Biology, Pathogenesis, Transcriptome, 03 medical and health sciences, lncRNA, lcsh:TP248.13-248.65, microRNA, competing endogenous RNA, Schwann cells, Original Research, miRNA, Messenger RNA, Competing endogenous RNA, diabetic peripheral neuropathy, Bioengineering and Biotechnology, RNA, RNA sequencing, 021001 nanoscience & nanotechnology, 030104 developmental biology, 0210 nano-technology, Function (biology), Biotechnology

Abstract

Background Diabetes mellitus is a worldwide disease with high incidence. Diabetic peripheral neuropathy (DPN) is one of the most common but often ignored complications of diabetes mellitus that cause numbness and pain, even paralysis. Recent studies demonstrate that Schwann cells (SCs) in the peripheral nervous system play an essential role in the pathogenesis of DPN. Furthermore, various transcriptome analyses constructed by RNA-seq or microarray have provided a comprehensive understanding of molecular mechanisms and regulatory interaction networks involved in many diseases. However, the detailed mechanisms and competing endogenous RNA (ceRNA) network of SCs in DPN remain largely unknown. Methods Whole-transcriptome sequencing technology was applied to systematically analyze the differentially expressed mRNAs, lncRNAs and miRNAs in SCs from DPN rats and control rats. Gene ontology (GO) and KEGG pathway enrichment analyses were used to investigate the potential functions of the differentially expressed genes. Following this, lncRNA-mRNA co-expression network and ceRNA regulatory network were constructed by bioinformatics analysis methods. Results The results showed that 2925 mRNAs, 164 lncRNAs and 49 miRNAs were significantly differently expressed in SCs from DPN rats compared with control rats. 13 mRNAs, 7 lncRNAs and 7 miRNAs were validated by qRT-PCR and consistent with the RNA-seq data. Functional and pathway analyses revealed that many enriched biological processes of GO terms and pathways were highly correlated with the function of SCs and the pathogenesis of DPN. Furthermore, a global lncRNA-miRNA-mRNA ceRNA regulatory network in DPN model was constructed and miR-212-5p and the significantly correlated lncRNAs with high degree were identified as key mediators in the pathophysiological processes of SCs in DPN. These RNAs would contribute to the diagnosis and treatment of DPN. Conclusion Our study has shown that differentially expressed RNAs have complex interactions among them. They also play critical roles in regulating functions of SCs involved in the pathogenesis of DPN. The novel competitive endogenous RNA network provides new insight for exploring the underlying molecular mechanism of DPN and further investigation may have clinical application value.

Published

2020

33. Schwannoma of the long thoracic nerve in the left axilla: a case report

Author

Zhenbing Chen, Jia Tian, and Qishun Huang

Subjects

Adult, Medicine (General), medicine.medical_specialty, surgical excision, Schwannoma, long thoracic nerve, Enucleation, Case Report, Biochemistry, Asymptomatic, 03 medical and health sciences, Young Adult, R5-920, 0302 clinical medicine, otorhinolaryngologic diseases, Medicine, Humans, Lymph node, Ultrasonography, Thoracic Nerves, medicine.diagnostic_test, business.industry, Biochemistry (medical), Magnetic resonance imaging, Cell Biology, General Medicine, neurilemmoma, lymph node, medicine.disease, Long thoracic nerve, Magnetic Resonance Imaging, Axilla, axilla, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Female, Lymph, Radiology, medicine.symptom, business, mammae erraticae, 030217 neurology & neurosurgery, enucleation

Abstract

Schwannoma, which is also known as neurilemmoma, is a type of tumor that arises from the peripheral nerve sheaths. Cases of schwannomas located in different regions have been reported. Some schwannomas present as asymptomatic masses, while others cause discomfort, such as pain and numbness. Magnetic resonance imaging (MRI) is a valuable diagnostic tool. A 23-year-old woman presented to our hospital with a mass in the left axilla that was misdiagnosed as mammae erraticae. The patient also considered the condition to be mammae erraticae for approximately 14 months because of a lack of symptoms. MRI was recommended by a surgeon from the galactophore department. A giant schwannoma was found. The mass was surgically excised, while preserving the continuity of the long thoracic nerve. Routine histopathological analysis confirmed the presence of a benign schwannoma. Schwannomas located in the axilla are rare and may be easily misdiagnosed as mammae erraticae or enlarged lymph nodes. Early investigation is necessary to make the diagnosis, and surgical excision is usually curative.

Published

2019

34. Thermosensitive Hydrogel Incorporating Prussian Blue Nanoparticles Promotes Diabetic Wound Healing via ROS Scavenging and Mitochondrial Function Restoration.

Author

Zhao Xu, Yujing Liu, Rui Ma, Jing Chen, Jinmei Qiu, Shuang Du, Chengcheng Li, Zihan Wu, Xiaofan Yang, Zhenbing Chen, and Tongkai Chen

Published

2022

35. The characteristics of acute rejection after limb allotransplantation in rats—An experimental study

Author

Hao, Kang, Guangxiang, Hong, Fabin, Wang, Zhenbing, Chen, Qishun, Huang, and Yuxiong, Weng

Published

2003

36. Verapamil inhibits scar formation after peripheral nerve repair in vivo

Author

Qishun Huang, Jing-xiu Deng, Zhenbing Chen, Zhi-wei Liu, Pan Zhou, Huaiyuan Zheng, and A-chao Han

Subjects

verapamil, Adhesion (medicine), sciatic nerve, Pharmacology, scar, lcsh:RC346-429, Extracellular matrix, 03 medical and health sciences, 0302 clinical medicine, Developmental Neuroscience, In vivo, medicine, nerve regeneration, Fibroblast, lcsh:Neurology. Diseases of the nervous system, Chemistry, type III collagen, 030206 dentistry, Anatomy, Nerve injury, medicine.disease, type I collagen, medicine.anatomical_structure, Verapamil, nerve injury, Sciatic nerve, medicine.symptom, neural regeneration, 030217 neurology & neurosurgery, Type I collagen, Research Article, medicine.drug

Abstract

The calcium channel blocker, verapamil, has been shown to reduce scar formation by inhibiting fibroblast adhesion and proliferation in vitro. It was not clear whether topical application of verapamil after surgical repair of the nerve in vivo could inhibit the formation of excessive scar tissue. In this study, the right sciatic nerve of adult Sprague-Dawley rats was transected and sutured with No. 10-0 suture. The stoma was wrapped with gelfoam soaked with verapamil solution for 4 weeks. Compared with the control group (stoma wrapped with gelfoam soaked with physiological saline), the verapamil application inhibited the secretion of extracellular matrix from fibroblasts in vivo, suppressed type I and III collagen secretion and increased the total number of axons and the number of myelinated axons. These findings suggest that verapamil could reduce the formation of scar tissue and promote axon growth after peripheral nerve repair.

Published

2016

37. NRF2 signalling pathway: New insights and progress in the field of wound healing.

Author

Yang Liu, Xiaofan Yang, Yutian Liu, Tao Jiang, Sen Ren, Jing Chen, Hewei Xiong, Meng Yuan, Wenqing Li, Machens, Hans-Günther, and Zhenbing Chen

Subjects

WOUND healing, GENETIC regulation, CHEMICAL resistance, CALCIUM ions, OXIDATIVE stress, PYROPTOSIS

Abstract

As one of the most common pathological processes in the clinic, wound healing has always been an important topic in medical research. Improving the wound healing environment, shortening the healing time and promoting fast and effective wound healing are hot and challenging issues in clinical practice. The nuclear factor-erythroid-related factor 2 (NFE2L2 or NRF2) signalling pathway reduces oxidative damage and participates in the regulation of anti-oxidative gene expression in the process of oxidative stress and thus improves the cell protection. Activation of the NRF2 signalling pathway increases the resistance of the cell to chemical carcinogens and inflammation. The signal transduction pathway regulates anti-inflammatory and antioxidant effects by regulating calcium ions, mitochondrial oxidative stress, autophagy, ferroptosis, pyroptosis and apoptosis. In this article, the role of the NRF2 signalling pathway in wound healing and its research progress in recent years are reviewed. In short, the NRF2 signalling pathway has crucial clinical significance in wound healing and is worthy of further study. [ABSTRACT FROM AUTHOR]

Published

2021

38. Schwann cells originating from skin-derived precursors promote peripheral nerve regeneration in rats

Author

Zhenbing Chen, Xiaocheng Lu, Jianghai Chen, and Ping Zhang

Subjects

Technical Updates, Developmental Neuroscience, Dermis, medicine, peripheral nerve injury, Schwann cells, Progenitor cell, Neuregulin 1, nerve regeneration, cell transplantation, NSFC grant, skin-derived precursors, biology, integumentary system, Chemistry, Regeneration (biology), Cell biology, Transplantation, Reverse transcription polymerase chain reaction, medicine.anatomical_structure, nervous system, Peripheral nerve injury, biology.protein, Sciatic nerve, neural regeneration, Neuroscience

Abstract

Artificial guidance channels containing Schwann cells can promote the regeneration of injured peripheral nerve over long distances. However, primary Schwann cells are not suitable for autotransplantation. Under specific conditions, skin-derived progenitors can be induced to differentiate into Schwann cells. Therefore, adult rat dorsal skin (dermis)-derived progenitors were isolated and induced to differentiate with DMEM/F12 containing B27, neuregulin 1, and forskolin. Immunofluorescence staining and reverse transcription polymerase chain reaction (RT-PCR) confirmed that the resultant cells were indeed Schwann cells. Artificial guidance channels containing skin-derived progenitors, Schwann cells originating from skin-derived progenitors, or primary Schwann cells were used to bridge 5 mm sciatic nerve defects. Schwann cells originating from skin-derived progenitors significantly promoted sciatic nerve axonal regeneration. The significant recovery of injured rat sciatic nerve function after the transplantation of Schwann cells originating from skin-derived progenitors was confirmed by electromyogram. The therapeutic effect of Schwann cells originating from skin-derived progenitors was better than that of skin-derived progenitors. These findings indicate that Schwann cells originating from skin-derived precursors can promote peripheral nerve regeneration in rats.

Published

2014

39. The mini-incision technique for carpal tunnel release using nasal instruments in Chinese patients.

Author

Yanhua Chen, Wei Ji, Tao Li, Xiaobin Cong, Zhenbing Chen, Chen, Yanhua, Ji, Wei, Li, Tao, Cong, Xiaobin, and Chen, Zhenbing

Published

2017

40. Correction to "Injectable and Degradable PEG Hydrogel with Antibacterial Performance for Promoting Wound Healing".

Author

Siju Liu, Tao Jiang, Renqi Guo, Chuang Li, Cuifen Lu, Guichun Yang, Junqi Nie, Feiyi Wang, Xiaofan Yang, and Zhenbing Chen

Published

2022

41. Chronic sciatic nerve compression induces fibrosis in dorsal root ganglia.

Author

QINWEN LI, JIANGHAI CHEN, YANHUA CHEN, XIAOBIN CONG, and ZHENBING CHEN

Subjects

DORSAL root ganglia, FIBROSIS, SCIATIC nerve diseases, ENTRAPMENT neuropathies, COLLAGEN diseases, POLYMERASE chain reaction, PROGNOSIS

Abstract

In the present study, pathological alterations in neurons of the dorsal root ganglia (DRG) were investigated in a rat model of chronic sciatic nerve compression. The rat model of chronic sciatic nerve compression was established by placing a 1 cm Silastic tube around the right sciatic nerve. Histological examination was performed via Masson's trichrome staining. DRG injury was assessed using Fluoro Ruby (FR) or Fluoro Gold (FG). The expression levels of target genes were examined using reverse transcription-quantitative polymerase chain reaction, western blot and immunohistochemical analyses. At 3 weeks post-compression, collagen fiber accumulation was observed in the ipsilateral area and, at 8 weeks, excessive collagen formation with muscle atrophy was observed. The collagen volume fraction gradually and significantly increased following sciatic nerve compression. In the model rats, the numbers of FR-labeled DRG neurons were significantly higher, relative to the sham-operated group, however, the numbers of FG-labeled neurons were similar. In the ipsilateral DRG neurons of the model group, the levels of transforming growth factor-β1 (TGF-β1) and connective tissue growth factor (CTGF) were elevated and, surrounding the neurons, the levels of collagen type I were increased, compared with those in the contralateral DRG. In the ipsilateral DRG, chronic nerve compression was associated with significantly higher levels of phosphorylated (p)-extracellular signal-regulated kinase 1/2, and significantly lower levels of p-c-Jun N-terminal kinase and p-p38, compared with those in the contralateral DRGs. Chronic sciatic nerve compression likely induced DRG pathology by upregulating the expression levels of TGF-β1, CTGF and collagen type I, with involvement of the mitogen-activated protein kinase signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2016

42. A new modified Tsuge suture for flexor tendon repairs: the biomechanical analysis and clinical application.

Author

Jianghai Chen, Kun Wang, Foad Katirai, and Zhenbing Chen

Subjects

BIOMECHANICS, DEAD, HAND injuries, SUTURING, TENDONS, TIME, RANDOMIZED controlled trials

Abstract

Purpose This study is to develop a new suturing technique for flexor tendon repair by modifying the extant Tsuge repair techniques and to use biomechanical analysis to compare the new method with four established repair techniques and evaluate its clinical efficacy in the repair of 47 flexor tendons in 22 patients. Methods The biomechanical analysis relied on 50 flexor digitorum profundus tendons harvested from fresh cadavers. The tendons were randomly divided into five groups, transected, and repaired by use of a 1. double-loop suture, 2. double modified locking Kessler, 3. four-strand Savage, 4. modified six-strand Savage, and 5. the new technique. The tensile force and breaking force of all repaired tendons were measured by static loading trials. For clinical application, 22 patients with acute flexor tendon injuries were treated with the new modified Tsuge suture and follow-up for more than 12 months. Results While differences in the tensile force and breaking force in the modified Tsuge sutures and modified six-strand Savage sutures were not statistically significant, static loading trials showed the tensile force, in the form of a 2-mm gap formation, and the breaking force of the new modified Tsuge sutures were, statistically, both higher than the ones characteristic of double-loop sutures, double modified locking Kessler, and four-strand Savage sutures. After 12 months, restored functions were observed in all the patients during the postoperative 12 months. Total active motion (TAM) score demonstrated that more than 90% fingers were estimated as excellent or good. [ABSTRACT FROM AUTHOR]

Published

2014