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Oscillatory Dynamics of Heterogeneous Stem Cell Regeneration
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作者 Xiyin Liang Jinzhi Lei 《Communications on Applied Mathematics and Computation》 EI 2024年第1期431-453,共23页
Stem cell regeneration is an essential biological process in the maintenance of tissue homeostasis;dysregulation of stem cell regeneration may result in dynamic diseases that show oscillations in cell numbers.Cell het... Stem cell regeneration is an essential biological process in the maintenance of tissue homeostasis;dysregulation of stem cell regeneration may result in dynamic diseases that show oscillations in cell numbers.Cell heterogeneity and plasticity are necessary for the dynamic equilibrium of tissue homeostasis;however,how these features may affect the oscillatory dynamics of the stem cell regeneration process remains poorly understood.Here,based on a mathematical model of heterogeneous stem cell regeneration that includes cell heterogeneity and random transition of epigenetic states,we study the conditions to have oscillation solutions through bifurcation analysis and numerical simulations.Our results show various model system dynamics with changes in different parameters associated with kinetic rates,cellular heterogeneity,and plasticity.We show that introducing heterogeneity and plasticity to cells can result in oscillation dynamics,as we have seen in the homogeneous stem cell regeneration system.However,increasing the cell heterogeneity and plasticity intends to maintain tissue homeostasis under certain conditions.The current study is an initiatory investigation of how cell heterogeneity and plasticity may affect stem cell regeneration dynamics,and many questions remain to be further studied both biologically and mathematically. 展开更多
关键词 Stem cell regeneration Heterogenous Hopf bifurcation Hematopoietic dynamical disease
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Pancreatic β cell regeneration induced by clinical and preclinical agents 被引量:7
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作者 Kang-Li Wang Ming Tao +1 位作者 Tian-Jiao Wei Rui Wei 《World Journal of Stem Cells》 SCIE 2021年第1期64-77,共14页
Diabetes,one of the most common chronic diseases in the modern world,has pancreaticβcell deficiency as a major part of its pathophysiological mechanism.Pancreatic regeneration is a potential therapeutic strategy for ... Diabetes,one of the most common chronic diseases in the modern world,has pancreaticβcell deficiency as a major part of its pathophysiological mechanism.Pancreatic regeneration is a potential therapeutic strategy for the recovery ofβcell loss.However,endocrine islets have limited regenerative capacity,especially in adult humans.Almost all hypoglycemic drugs can protectβcells by inhibitingβcell apoptosis and dedifferentiation via correction of hyperglycemia and amelioration of the consequent inflammation and oxidative stress.Several agents,including glucagon-like peptide-1 andγ-aminobutyric acid,have been shown to promoteβcell proliferation,which is considered the main source of the regeneratedβcells in adult rodents,but with less clarity in humans.Pancreatic progenitor cells might exist and be activated under particular circumstances.Artemisinins andγ-aminobutyric acid can induceα-to-βcell conversion,although some disputes exist.Intestinal endocrine progenitors can transdeterminate into insulin-producing cells in the gut after FoxO1 deletion,and pharmacological research into FoxO1 inhibition is ongoing.Other cells,including pancreatic acinar cells,can transdifferentiate intoβcells,and clinical and preclinical strategies are currently underway.In this review,we summarize the clinical and preclinical agents used in different approaches forβcell regeneration and make some suggestions regarding future perspectives for clinical application. 展开更多
关键词 βcell regeneration βcell dedifferentiation cell proliferation Pancreatic progenitors α-to-βcell transdifferentiation Enteroendocrine progenitor cells
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Stem Cell-Based Hair Cell Regeneration and Therapy in the Inner Ear 被引量:1
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作者 Jieyu Qi Wenjuan Huang +7 位作者 Yicheng Lu Xuehan Yang Yinyi Zhou Tian Chen Xiaohan Wang Yafeng Yu Jia-Qiang Sun Renjie Chai 《Neuroscience Bulletin》 SCIE CAS CSCD 2024年第1期113-126,共14页
Hearing loss has become increasingly prevalent and causes considerable disability,thus gravely burdening the global economy.Irreversible loss of hair cells is a main cause of sensorineural hearing loss,and currently,t... Hearing loss has become increasingly prevalent and causes considerable disability,thus gravely burdening the global economy.Irreversible loss of hair cells is a main cause of sensorineural hearing loss,and currently,the only relatively effective clinical treatments are limited to digital hearing equipment like cochlear implants and hearing aids,but these are of limited benefit in patients.It is therefore urgent to understand the mechanisms of damage repair in order to develop new neuroprotective strategies.At present,how to promote the regeneration of functional hair cells is a key scientific question in the field of hearing research.Multi-ple signaling pathways and transcriptional factors trigger the activation of hair cell progenitors and ensure the maturation of newborn hair cells,and in this article,we first review the principal mechanisms underlying hair cell reproduction.We then further discuss therapeutic strategies involving the co-regulation of multiple signaling pathways in order to induce effective functional hair cell regeneration after degeneration,and we summarize current achievements in hair cell regeneration.Lastly,we discuss potential future approaches,such as small molecule drugs and gene therapy,which might be applied for regenerating functional hair cells in the clinic. 展开更多
关键词 Hearing loss Cochlea-Stem cell Hair cell regeneration
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Advancing diabetes management: Exploring pancreatic beta-cell restoration’s potential and challenges
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作者 Mona Mohamed Ibrahim Abdalla 《World Journal of Gastroenterology》 SCIE CAS 2024年第40期4339-4353,共15页
Diabetes mellitus,characterized by chronic hyperglycemia due to insulin deficiency or resistance,poses a significant global health burden.Central to its pathogenesis is the dysfunction or loss of pancreatic beta cells... Diabetes mellitus,characterized by chronic hyperglycemia due to insulin deficiency or resistance,poses a significant global health burden.Central to its pathogenesis is the dysfunction or loss of pancreatic beta cells,which are res-ponsible for insulin production.Recent advances in beta-cell regeneration research offer promising strategies for diabetes treatment,aiming to restore endogenous insulin production and achieve glycemic control.This review explores the physiological basis of beta-cell function,recent scientific advan-cements,and the challenges in translating these findings into clinical applications.It highlights key developments in stem cell therapy,gene editing technologies,and the identification of novel regenerative molecules.Despite the potential,the field faces hurdles such as ensuring the safety and long-term efficacy of regen-erative therapies,ethical concerns around stem cell use,and the complexity of beta-cell differentiation and integration.The review highlights the importance of interdisciplinary collaboration,increased funding,the need for patient-centered approaches and the integration of new treatments into comprehensive care strategies to overcome these challenges.Through continued research and collab-oration,beta-cell regeneration holds the potential to revolutionize diabetes care,turning a chronic condition into a manageable or even curable disease. 展开更多
关键词 Diabetes therapies Beta cell regeneration Regenerative medicine Stem cell therapy Gene editing Molecular therapeutics
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Treg cells in pancreatic lymph nodes: the possible role in diabetogenesis and βcell regeneration in a TID model
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作者 Benjamin K Nti Janet L Markman +5 位作者 Suzanne Bertera Alexis J Styche Robert J Lakomy Vladimir M Subbotin Massimo Trucco Tatiana D Zorina 《Cellular & Molecular Immunology》 SCIE CAS CSCD 2012年第6期455-463,共9页
Previously, we established a model in which physiologically adequate function of the autologous β cells was recovered in non-obese diabetic (NOD) mice after the onset of hyperglycemia by rendering them hemopoietic ... Previously, we established a model in which physiologically adequate function of the autologous β cells was recovered in non-obese diabetic (NOD) mice after the onset of hyperglycemia by rendering them hemopoietic chimera. These mice were termed antea-diabetic. In the current study, we addressed the role of T regulatory (Treg) cells in the mechanisms mediating the restoration of euglycemia in the antea-diabetic NOD model. The data generated in this study demonstrated that the numbers of Treg cells were decreased in unmanipulated NOD mice, with the most profound deficiency detected in the pancreatic lymph nodes (PLNs). The impaired retention of the Treg cells in the PLNs correlated with the locally compromised profile of the chemokines involved in their trafficking, with the most prominent decrease observed in SDF-1. The amelioration of autoimmunity and restoration of euglycemia observed in the antea-diabetic mice was associated with restoration of the Treg cell population in the PLNs. These data indicate that the function of the SDF-1/CXCR4 axis and the retention of Treg cells in the PLNs have a potential role in diabetogenesis and in the amelioration of autoimmunity and β cell regeneration in the antea-diabetic model. We have demonstrated in the antea-diabetic mouse model that lifelong recovery of the β cells has a strong correlation with normalization of the Treg cell population in the PLNs. This finding offers new opportunities for testing the immunomodulatory regimens that promote accumulation of Treg cells in the PLNs as a therapeutic approach for type 1 diabetes (TID). 展开更多
关键词 β cell regeneration T regulatory cell trafficking type 1 diabetes
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No Intestinal Stem Cell Regeneration after Complete Progenitor Ablation in Drosophila Adult Midgut
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作者 Yanfen Lu Zhouhua Li 《Journal of Genetics and Genomics》 SCIE CAS CSCD 2015年第2期83-86,共4页
Adult stem cells or progenitors are essential for maintaining the normal structure and function of adult tissues (i.e., ho- meostasis). One of the best examples is the adult intestinal epithelium which is constantly... Adult stem cells or progenitors are essential for maintaining the normal structure and function of adult tissues (i.e., ho- meostasis). One of the best examples is the adult intestinal epithelium which is constantly renewed by the progeny of intestinal stem cells (ISCs). The proliferation and differentiation of adult stem cells must be tightly controlled in order to maintain resident tissue homeostasis. Mis-regulation of stem cell proliferation and differentiation leads to depletion or excessive proliferation of stem cells, eventually resulting in severe diseases such as cancer (Radtke and Clevers, 2005; Morrison and Spradling, 2008). Understanding the detailed regulatory mechanisms of stem cell proliferation and differ- entiation will shed insights into the causes of related human diseases. 展开更多
关键词 cell No Intestinal Stem cell regeneration after Complete Progenitor Ablation in Drosophila Adult Midgut ISC
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T cell regeneration: an update on progress and challenges
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作者 Rongqun Guo Hongling Wu +1 位作者 Juan Du Jinyong Wang 《Blood Science》 2020年第1期22-26,共5页
T cells play essential roles in antitumor therapy.Via gene engineering technique to enhance tumor-antigen specificity,patient peripheral blood-derived T cells(PBT)show encouraging clinical outcomes in treating certain... T cells play essential roles in antitumor therapy.Via gene engineering technique to enhance tumor-antigen specificity,patient peripheral blood-derived T cells(PBT)show encouraging clinical outcomes in treating certain blood malignancies.However,the high costs,functionality exhaustion,and disease-condition-dependent availability of PBT prompt the attempts of exploring alternative T cell sources.Theoretically,induced T cells from pluripotent stem cells(PSC)are ideal candidates that integrate plenty of advantages that primary T cells lack,including unlimited off-the-shelf cell source and precision gene editing feasibility.However,researchers are still struggling with developing a straightforward protocol to induce functional and immunocompetent human T cells from PSC.Based on stromal cell-expressing or biomaterial-presenting Notch ligands DLL1 or DLL4,natural and induced blood progenitors can differentiate further toward T lineage commitment.However,none of the reported T induction protocols has yet translated into any clinical application,signaling the existence of numerous technical barriers for regenerating T cells functionally matching their natural PBT counterparts.Alternatively,new approaches have been developed to repopulate induced T lymphopoiesis via in vivo reprogramming or transplanting induced T cell precursors.Here,we review the most recent progress in the T cell regeneration field,and the remaining challenges dragging their clinical applications. 展开更多
关键词 Hematopoietic stem/progenitor cells NOTCH Pluripotent stem cells T cell regeneration
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Mesenchymal stem cell therapy for retinal ganglion cell neuroprotection and axon regeneration 被引量:2
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作者 Ben Mead Ben A.Scheven 《Neural Regeneration Research》 SCIE CAS CSCD 2015年第3期371-373,共3页
Retinal ganglion cells (RGCs) are responsible for propagat- ing signals derived from visual stimuli in the eye to the brain, along their axons within the optic nerve to the superior colliculus, lateral geniculate nu... Retinal ganglion cells (RGCs) are responsible for propagat- ing signals derived from visual stimuli in the eye to the brain, along their axons within the optic nerve to the superior colliculus, lateral geniculate nucleus and visu- al cortex of the brain. Damage to the optic nerve either through trauma, such as head injury, or degenerative dis- ease, such as glaucoma causes irreversible loss of function through degeneration of non-regenerating RGC axons and death of irreplaceable RGCs, ultimately leading to blindness (Berry et al., 2008). The degeneration of RGCs and their axons is due to the loss of the necessary source of retrogradely transported neurotrophic factors (NTFs) being hindered by axonal injury. NTFs are survival factors for neurons and play a pivotal part in axon regeneration. Stem cells particularly mesenchymal stem cells (MSCs) have been shown to possess a natural intrinsic capacity for paracrine support, releasing multiple signalling mol- ecules including NTFs. By transplanting MSCs into the vitreous, they are positioned adjacent to the injured reti- na to provide paracrine-mediated therapy for the retinal neuronal cells (Johnson et al., 2010a; Mead et al., 2013). Additionally, MSCs may be pre-differentiated into sup- portive glial-like cells, such as Schwann cells, which could further increase their potential for paracrine support of injured neurons (Martens et al., 2013). Thus, MSCs have received considerable attention as a new cellular therapy for both traumatic and degenerative eye disease, acting as an alternative source of NTFs, protecting injured RGCs and promoting regeneration of their axons (Figure 1). 展开更多
关键词 DPSCs RGCS BMSCS STEM Mesenchymal stem cell therapy for retinal ganglion cell neuroprotection and axon regeneration cell
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Gene therapy and the regeneration of retinal ganglion cell axons 被引量:2
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作者 Alan R. Harvey 《Neural Regeneration Research》 SCIE CAS CSCD 2014年第3期232-233,共2页
Because the adult mammalian central nervous system (CNS) has only limited intrinsic capacity to regenerate connections after injury, due to factors both intrinsic and extrinsic to the mature neuron (Shen et al., 19... Because the adult mammalian central nervous system (CNS) has only limited intrinsic capacity to regenerate connections after injury, due to factors both intrinsic and extrinsic to the mature neuron (Shen et al., 1999; Berry et al., 2008; Lingor et al., 2008; Sun and He, 2010; Moore et al., 2011 ), therapies are required to support the survival of injured neu-rons and to promote the long-distance regrowth of axons back to their original target structures. The retina and optic nerve (ON) are part of the CNS and this system is much used in experiments designed to test new ways of promoting regeneration after injury (Harvey et al., 2006; Benowitz and Yin, 2008; Berry et al., 2008; Fischer and Leibinger, 2012). Testing of therapies designed to improve retinal ganglion cell (RGC) viability also has direct clinical relevance because there is loss of these centrally projecting neurons in many ophthalmic diseases. 展开更多
关键词 RGCS gene Gene therapy and the regeneration of retinal ganglion cell axons AAV cell
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Substance P combined with epidermal stem cells promotes wound healing and nerve regeneration in diabetes mellitus 被引量:3
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作者 Fei-bin Zhu Xiang-jing Fang +6 位作者 De-wu Liu Ying Shao Hong-yan Zhang Yan Peng Qing-ling Zhong Yong-tie Li De-ming Liu 《Neural Regeneration Research》 SCIE CAS CSCD 2016年第3期493-501,共9页
Exogenous substance P accelerates wound healing in diabetes,but the mechanism remains poorly understood.Here,we established a rat model by intraperitoneally injecting streptozotocin.Four wounds(1.8 cm diameter) were... Exogenous substance P accelerates wound healing in diabetes,but the mechanism remains poorly understood.Here,we established a rat model by intraperitoneally injecting streptozotocin.Four wounds(1.8 cm diameter) were drilled using a self-made punch onto the back,bilateral to the vertebral column,and then treated using amniotic membrane with epidermal stem cells and/or substance P around and in the middle of the wounds.With the combined treatment the wound-healing rate was 100% at 14 days.With prolonged time,type I collagen content gradually increased,yet type III collagen content gradually diminished.Abundant protein gene product 9.5-and substance P-immunoreactive nerve fibers regenerated.Partial nerve fiber endings extended to the epidermis.The therapeutic effects of combined substance P and epidermal stem cells were better than with amniotic membrane and either factor alone.Our results suggest that the combination of substance P and epidermal stem cells effectively contributes to nerve regeneration and wound healing in diabetic rats. 展开更多
关键词 nerve regeneration diabetes substance P epidermal stem cells sensory nerve wound healing collagen neural regeneration
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Liver regeneration using decellularized splenic scaffold: a novel approach in tissue engineering 被引量:3
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作者 Jun-Xi Xiang Xing-Long Zheng +4 位作者 Rui Gao Wan-Quan Wu Xu-Long Zhu Jian-Hui Li Yi Lv 《Hepatobiliary & Pancreatic Diseases International》 SCIE CAS CSCD 2015年第5期502-508,共7页
BACKGROUND: The potential application of decellularized liver scaffold for liver regeneration is limited by severe shortage of donor organs. Attempt of using heterograft scaffold is accompanied with high risks of zoo... BACKGROUND: The potential application of decellularized liver scaffold for liver regeneration is limited by severe shortage of donor organs. Attempt of using heterograft scaffold is accompanied with high risks of zoonosis and immunological rejection. We proposed that the spleen, which procured more extensively than the liver, could be an ideal source of decellularized scaffold for liver regeneration. METHODS: After harvested from donor rat, the spleen was processed by 12-hour freezing/thawing ×2 cycles, then circulation perfusion of 0.02% trypsin and 3% Triton X-100 sequentially through the splenic artery for 32 hours in total to prepare decellularized scaffold. The structure and component characteristics of the scaffold were determined by hematoxylin and eosin and immumohistochemical staining, scanning electron microscope, DNA detection, porosity measurement, biocompatibility and cytocompatibility test. Recellularization of scaffold by 5×106 bone marrow mesenchymal stem cells(BMSCs) was carried out to preliminarily evaluate the feasibility of liver regeneration by BMSCs reseeding and differentiation in decellularized splenic scaffold.RESULTS: After decellularization, a translucent scaffold, which retained the gross shape of the spleen, was generated. Histological evaluation and residual DNA quantitation revealed the remaining of extracellular matrix without nucleus and cytoplasm residue. Immunohistochemical study proved the existence of collagens I, IV, fibronectin, laminin and elastin in decellularized splenic scaffold, which showed a similarity with decellularized liver. A scanning electron microscope presented the remaining three-dimensional porous structure of extracellular matrix and small blood vessels. The poros-ity of scaffold, aperture of 45.36±4.87 μm and pore rate of 80.14%±2.99% was suitable for cell engraftment. Subcutaneous implantation of decellularized scaffold presented good histocompatibility, and recellularization of the splenic scaffold demonstrated that BMSCs could locate and survive in the decellularized matrix. CONCLUSION: Considering the more extensive organ source and satisfying biocompatibility, the present study indicated that the three-dimensional decellularized splenic scaffold might have considerable potential for liver regeneration when combined with BMSCs reseeding and differentiation. 展开更多
关键词 tissue engineering liver regeneration decellularized scaffold spleen bone marrow mesenchymal stem cells
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Clinical trial with traditional Chinese medicine intervention ''tonifying the kidney to promote liver regeneration and repair by affecting stem cells and their microenvironment'' for chronic hepatitis B-associated liver failure 被引量:22
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作者 Han-Min Li Zhi-Hua Ye +21 位作者 Jun Zhang Xiang Gao Yan-Ming Chen Xin Yao Jian-Xun Gu Lei Zhan Yang Ji Jian-Liang Xu Ying-He Zeng Fan Yang Lin Xiao Guo-Guang Sheng Wei Xin Qi Long Qing-Jing Zhu Zhao-Hong Shi Lian-Guo Ruan Jia-Yao Yang Chang-Chun Li Hong-Bin Wu Sheng-Duo Chen Xin-La Luo 《World Journal of Gastroenterology》 SCIE CAS 2014年第48期18458-18465,共8页
AIM:To study the clinical efficacy of traditional Chinese medicine(TCM)intervention"tonifying the kidney to promote liver regeneration and repair by affecting stem cells and their microenvironment"("TTK... AIM:To study the clinical efficacy of traditional Chinese medicine(TCM)intervention"tonifying the kidney to promote liver regeneration and repair by affecting stem cells and their microenvironment"("TTK")for treating liver failure due to chronic hepatitis B.METHODS:We designed the study as a randomized controlled clinical trial.Registration number of Chinese Clinical Trial Registry is Chi CTR-TRC-12002961.A total of 144 patients with liver failure due to infection with chronic hepatitis B virus were enrolled in this randomized controlled clinical study.Participants were randomly assigned to the following three groups:(1)a modern medicine control group(MMC group,36patients);(2)a"tonifying qi and detoxification"("TQD")group(72 patients);and(3)a"tonifying the kidney to promote liver regeneration and repair by affecting stem cells and their microenvironment"("TTK")group(36patients).Patients in the MMC group received general internal medicine treatment;patients in the"TQD"group were given a TCM formula"tonifying qi and detoxification"and general internal medicine treatment;patients in the"TTK"group were given a TCM formula of"TTK"and general internal medicine treatment.All participants were treated for 8 wk and then followed at 48 wk following their final treatment.The primaryefficacy end point was the patient fatality rate in each group.Measurements of various virological and biochemical indicators served as secondary endpoints.The one-way analysis of variance and the t-test were used to compare patient outcomes in the different treatment groups.RESULTS:At the 48-wk post-treatment time point,the patient fatality rates in the MMC,"TQD",and"TTK"groups were 51.61%,35.38%,and 16.67%,respectively,and the differences between groups were statistically significant(P<0.05).However,there were no significant differences in the levels of hepatitis B virus DNA or prothrombin activity among the three groups(P>0.05).Patients in the"TTK"group had significantly higher levels of serum total bilirubin compared to MMC subjects(339.40μmol/L±270.09μmol/L vs 176.13μmol/L±185.70μmol/L,P=0.014).Serum albumin levels were significantly increased in both the"TQD"group and"TTK"group as compared with the MMC group(31.30 g/L±4.77g/L,30.72 g/L±2.89 g/L vs 28.57 g/L±4.56 g/L,P<0.05).There were no significant differences in levels of alanine transaminase among the three groups(P>0.05).Safety data showed that there was one case of stomachache in the"TQD"group and one case of gastrointestinal side effect in the"TTK"group.CONCLUSION:Treatment with"TTK"improved the survival rates of patients with liver failure due to chronic hepatitis B.Additionally,liver tissue was regenerated and liver function was restored. 展开更多
关键词 Clinical study 'Tonifying the kidney to promote liver regeneration and repair by affecting stem cells and their microenvironment'('TTK') Liver regeneration Treatment with integrated traditional and Western medicine Chronic hepatitis B-associated liver failure
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Editor's Choice——Retinal ganglion cell damage and regeneration
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《Neural Regeneration Research》 SCIE CAS CSCD 2011年第31期2459-2459,共1页
Retinal ganglion cell apoptosis is considered to be the main cause of loss of vision in glaucoma patients. Microglia cells are phagocytic cells present in the retina. In the retina of glaucoma rat models, microglia ce... Retinal ganglion cell apoptosis is considered to be the main cause of loss of vision in glaucoma patients. Microglia cells are phagocytic cells present in the retina. In the retina of glaucoma rat models, microglia cells become activated, which suggests a role for microglia in the pathogenesis of optic nerve injury in glaucoma patients. The retinal ganglion cell is the only cell that can produce action potential in the retina, 展开更多
关键词 cell Editor’s Choice Retinal ganglion cell damage and regeneration
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Editor's Choice——Umbilical cord blood mesenchymal stem cell differentiation and transplantation in neural regeneration
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《Neural Regeneration Research》 SCIE CAS CSCD 2011年第22期1714-1714,共1页
Previous in vivo experiments have shown that human umbilical cord blood mesenchymal stem cells can promote the proliferation and differentiation of damaged celts, and help to repair damaged sites, Recent studies have ... Previous in vivo experiments have shown that human umbilical cord blood mesenchymal stem cells can promote the proliferation and differentiation of damaged celts, and help to repair damaged sites, Recent studies have reported that umbilical cord blood-derived mesenchymal stem cells can differentiate into neurons and glial cells. Recent studies have reported that the repair mechanisms underlying cord blood stern cells involve the replacement of damaged cells and mediation of the local micro-environment. 展开更多
关键词 Editor’s Choice Umbilical cord blood mesenchymal stem cell differentiation and transplantation in neural regeneration cell stem
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Plant regeneration of protoplasts isolated from suspension cells derived from leaf blale of Oryza sative 被引量:1
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作者 YAN Changjing,HUANG Jinahua,and ZHANG Yuhua,Res Inst of Crop Breeding and Cultivation, Shang Aca of Agr Sci ,Shanghai 201106,China 《Chinese Rice Research Newsletter》 1994年第1期8-9,共2页
We used the leaf blade of rice (cultivars were Nonghu 6, Sugeng 2, Huyou 2 and Hanfeng) as initial material for protoplast culture, and a great number of regenerated plants were obtained. Rice seeds were sterilized an... We used the leaf blade of rice (cultivars were Nonghu 6, Sugeng 2, Huyou 2 and Hanfeng) as initial material for protoplast culture, and a great number of regenerated plants were obtained. Rice seeds were sterilized and germinated. The immature leaves were cut into 3-5 mm pieces when the third or forth leaf appeared. Leaf pieces were inoculated on MS medium with 2,4-D 4 mg/1, NAA 2mg/1 and IAA Img/1. After 2 wk culture, calli were induced and subcultured once or twice for multiplication. 3-5 g calli were transferred to the modified MS liquid medium with 2,4-D 2 mg/1 and KT 0.5mg/1 for suspension culture. Embryogenic cell suspension was established after 2 mo culture. The effect of the growth period of suspension cells on the 展开更多
关键词 cell Plant regeneration of protoplasts isolated from suspension cells derived from leaf blale of Oryza sative
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IGF-1, bFGF EXPRESSION AND VASCULAR REGENERATION IN ACUTE INFARCTED CANINE MYOCARDIUM AFTER AUTOLOGUS SKELETAL MUSCLE SATELLITE CELL IMPLANTATION
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作者 朱洪生 钟竑 张臻 《Journal of Shanghai Second Medical University(Foreign Language Edition)》 2003年第1期1-6,共6页
Objective To study the cell growth factor secretion and vascular regeneration in acute in-farcted myocardium after autologous skeletal muscle satellite cell implantation. Methods Autologous skeletal muscle satellite c... Objective To study the cell growth factor secretion and vascular regeneration in acute in-farcted myocardium after autologous skeletal muscle satellite cell implantation. Methods Autologous skeletal muscle satellite cells from adult mongrel canine were implanted into the acute myocardial infarct site via the ligated left anterior descending (LAD) artery. Specimens were harvested at 2, 4 , 8 weeks after implantation for the expression of insulin-like growth factor-1 (IGF-1), basic fibroblast growth factor ( bFGF) and the vascular density. Results The expression of IGF-1, bFGF and the vascular density in skeletal muscle satellite cell implant group were higher than that in the control group. Conclusion The skeletal muscle satellite cells, after being implanted into the acute myocardial infarction, not only showed myocardial regeneration, but also showed the ability to secrete the cell factors, hence representing a positive effect on the regeneration of the infarcted myocardium. 展开更多
关键词 skeletal muscle satellite cell myocardial infarction cell growth factor vascular regeneration
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Potential utility of aldose reductase-deficient Schwann cells IKARS1 for the study of axonal degeneration and regeneration
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作者 Naoko Niimi Kazunori Sango 《Neural Regeneration Research》 SCIE CAS CSCD 2018年第6期979-980,共2页
Diabetic peripheral neuropathy(DPN)is one of the most common and intractable complications of diabetes mellitus.Its irritating symptoms,such as paresthesia,hyperalgesia and allodynia,can be causes of insomnia and de... Diabetic peripheral neuropathy(DPN)is one of the most common and intractable complications of diabetes mellitus.Its irritating symptoms,such as paresthesia,hyperalgesia and allodynia,can be causes of insomnia and depression;whereas its progression to more advanced stages can result in serious consequences,such as lower limb amputations and lethal arrhythmias. 展开更多
关键词 DPN Potential utility of aldose reductase-deficient Schwann cells IKARS1 for the study of axonal degeneration and regeneration NGF NCV AR PNS
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A study on peripheral nerve regeneration via biomimetic conduits loadedwith Schwann cells and nerve growth factor
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《Chinese Journal of Biomedical Engineering(English Edition)》 2001年第2期53-55,共3页
关键词 NGF A study on peripheral nerve regeneration via biomimetic conduits loadedwith Schwann cells and nerve growth factor SC
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Notch pathway inhibitor DAPT enhances Atoh1 activity to generate new hair cells in situ in rat cochleae 被引量:6
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作者 Wen-wei Luo Zhao Han +3 位作者 Dong-dong Ren Xin-wei Wang Fang-lu Chi Juan-mei Yang 《Neural Regeneration Research》 SCIE CAS CSCD 2017年第12期2092-2099,共8页
Atoh1 overexpression in cochlear epithelium induces new hair cell formation. Use of adenovirus-mediated Atoh1 overexpression has mainly focused on the rat lesser epithelial ridge and induces ectopic hair cell regenera... Atoh1 overexpression in cochlear epithelium induces new hair cell formation. Use of adenovirus-mediated Atoh1 overexpression has mainly focused on the rat lesser epithelial ridge and induces ectopic hair cell regeneration. The sensory region of rat cochlea is difficult to transfect, thus new hair cells are rarely produced in situ in rat cochlear explants. After culturing rat cochleae in medium containing 10% fetal bovine serum, adenovirus successfully infected the sensory region as the width of the supporting cell area was significantly increased. Adenovirus encoding Atoh1 infected the sensory region and induced hair cell formation in situ. Combined application of the Notch inhibitor DAPT and Atoh1 increased the Atoh1 expression level and decreased hes1 and hes5 levels, further promoting hair cell generation. Our results demonstrate that DAPT enhances Atoh1 activity to promote hair cell regeneration in rat cochlear sensory epithelium in vitro. 展开更多
关键词 nerve regeneration Atoh 1 DAPT. transdifferentiation gamma secretase inhibitor COCHLEA sensory epithelium fetal bovine serum hair cell supporting cell hair cell regeneration neural regeneration
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Stem cell-based approaches: Possible route to hearing restoration? 被引量:1
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作者 María Beatriz Durán-Alonso 《World Journal of Stem Cells》 SCIE CAS 2020年第6期422-437,共16页
Disabling hearing loss is the most common sensorineural disability worldwide.It affects around 466 million people and its incidence is expected to rise to around 900 million people by 2050,according to World Health Or... Disabling hearing loss is the most common sensorineural disability worldwide.It affects around 466 million people and its incidence is expected to rise to around 900 million people by 2050,according to World Health Organization estimates.Most cases of hearing impairment are due to the degeneration of hair cells(HCs)in the cochlea,mechano-receptors that transduce incoming sound information into electrical signals that are sent to the brain.Damage to these cells is mainly caused by exposure to aminoglycoside antibiotics and to some anti-cancer drugs such as cisplatin,loud sounds,age,infections and genetic mutations.Hearing deficits may also result from damage to the spiral ganglion neurons that innervate cochlear HCs.Differently from what is observed in avian and nonmammalian species,there is no regeneration of missing sensory cell types in the adult mammalian cochlea,what makes hearing loss an irreversible process.This review summarizes the research that has been conducted with the aim of developing cell-based strategies that lead to sensory cell replacement in the adult cochlea and,ultimately,to hearing restoration.Two main lines of research are discussed,one directed toward the transplantation of exogenous replacement cells into the damaged tissue,and another that aims at reactivating the regenerative potential of putative progenitor cells in the adult inner ear.Results from some of the studies that have been conducted are presented and the advantages and drawbacks of the various approaches discussed. 展开更多
关键词 Hearing loss Cochlear hair cells Spiral ganglion neurons cell regeneration Adult stem cells cell transplantation
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