A Special Issue on Stem Cell Research

Stem cells possess the remarkable ability of extensive self-renewal and differentiation into specific celllineages,and they play essential roles in development and adult tissue homeostasis.Due to their criticalimportance in normal physiology and the promise for use in regenerative medicine to treat a variety ofdiseases,stem cells have attracted extensive research interest in recent years.As China's premium in-ternational journal with a broad scope in cell and molecular biology,Cell Research has witnessed moreand more submissions on stem cell research.Indeed,along with the traditional strengths of the journal inmolecular immunology,cancer biology,and plant molecular physiology,stem cell research has graduallyand naturally evolved into a new growth point of Cell Research.Reflecting the growing interest of bothour readers and authors in this exciting and expanding field,we are pleased to present this Special Issueon Stem Cell Research.

Human neural stem cell-derived extracellular vesicles protect against ischemic stroke by activating the PI3K/AKT/mTOR pathway

Human neural stem cell-derived extracellular vesicles exhibit analogous functions to their parental cells,and can thus be used as substitutes for stem cells in stem cell therapy,thereby mitigating the risks of stem cell therapy and advancing the frontiers of stem cell-derived treatments.This lays a foundation for the development of potentially potent new treatment modalities for ischemic stroke.However,the precise mechanisms underlying the efficacy and safety of human neural stem cell-derived extracellular vesicles remain unclear,presenting challenges for clinical translation.To promote the translation of therapy based on human neural stem cell-derived extracellular vesicles from the bench to the bedside,we conducted a comprehensive preclinical study to evaluate the efficacy and safety of human neural stem cell-derived extracellular vesicles in the treatment of ischemic stroke.We found that administration of human neural stem cell-derived extracellular vesicles to an ischemic stroke rat model reduced the volume of cerebral infarction and promoted functional recovery by alleviating neuronal apoptosis.The human neural stem cell-derived extracellular vesicles reduced neuronal apoptosis by enhancing phosphorylation of phosphoinositide 3-kinase,mammalian target of rapamycin,and protein kinase B,and these effects were reversed by treatment with a phosphoinositide 3-kinase inhibitor.These findings suggest that human neural stem cell-derived extracellular vesicles play a neuroprotective role in ischemic stroke through activation of phosphoinositide 3-kinase/protein kinase B/mammalian target of rapamycin signaling pathway.Finally,we showed that human neural stem cell-derived extracellular vesicles have a good in vivo safety profile.Therefore,human neural stem cell-derived extracellular vesicles are a promising potential agent for the treatment of ischemic stroke.

Single-cell RNA sequencing reveals the heterogeneity and interactions of immune cells and Müller glia during zebrafish retina regeneration

Inflammation plays a crucial role in the regeneration of fish and avian retinas.However,how inflammation regulates Müller glia(MG)reprogramming remains unclear.Here,we used single-cell RNA sequencing to investigate the cell heterogeneity and interactions of MG and immune cells in the regenerating zebrafish retina.We first showed that two types of quiescent MG(resting MG1 and MG2)reside in the uninjured retina.Following retinal injury,resting MG1 transitioned into an activated state expressing known reprogramming genes,while resting MG2 gave rise to rod progenitors.We further showed that retinal microglia can be categorized into three subtypes(microglia-1,microglia-2,and proliferative)and pseudotime analysis demonstrated dynamic changes in microglial status following retinal injury.Analysis of cell–cell interactions indicated extensive crosstalk between immune cells and MG,with many interactions shared among different immune cell types.Finally,we showed that inflammation activated Jak1–Stat3 signaling in MG,promoting their transition from a resting to an activated state.Our study reveals the cell heterogeneity and crosstalk of immune cells and MG in zebrafish retinal repair,and may provide valuable insights into future mammalian retina regeneration.

Cell Research 2007年度影响因子达4.217

2008年6月18日，美国Thomson科技信息集团（THOMSON—ISI，PA，USA）科学网站（Web of Science）发布了2007年度科学期刊引证报告（2007 JCR Science Edition）。据报告，我国细胞生物学领域的英文期刊Cell Research（《细胞研究》）2007年度的影响因子（Impact Factor，IF）为4．217，在IsI细胞生物学（Cell Biology）同行领域156种国际期刊中排名47／156位（前30％），

国际化视角--Cell Research办刊经验点滴

Cell Research自创刊起始终坚持国际化办刊理念和视角,发展到现在已具有较好的国际化基础,具有一定的国际影响,已被国际同行认可。本文从国际合作和引进高端编辑人才两方面介绍了Cell Research人近年来办刊的重要举措,希望能对期刊出版同行和各级领导指导创办我国的国际性期刊有所借鉴。

The link between olfactory ensheathing cell survival and spinal cord injury repair: a commentary on common limitations of contemporary research

Olfactory ensheathing cells(OECs)are crucial players in the continuous regeneration of the olfactory nervous system that occurs through out life and are thought to have unique growth-promoting properties.For this reason,OEC transplantation has been thoroughly explored for the potential to promote neural repair after both central and peripheral nervous system injuries.Numerous studies have shown that OEC transplantation is safe and can promote recovery after spinal cord injury(SCI),both in animal models and in human clinical trials.To date,a variety of injury types and time-points after injury,as well as different delivery methods,have been tested.Outcomes have been encouraging(in rodent models including,for example,restoration of locomotion,breathing and climbing ability along with induction of axonal sprouting and some axonal regeneration)but highly variable(Barnett and Riddell,2007;Gomez et al.,2018).

第二届赛诺菲-Cell Research优秀论文奖揭晓

2011年10月21日,第二届赛诺菲-Cell Research优秀论文奖颁奖仪式在江苏溧阳举行,Cell Research主编裴钢院士,中科院上海生命科学研究院领导及赛诺菲公司代表张愚等参加仪式并共同为获奖者颁奖。

Cell Research发表CRISPR-Cas技术在植物中的研究进展

Cell Research2013年第10期，同时刊登了中科院植物生理生态研究所朱健康实验室和北京大学瞿礼嘉实验室的研究论文，他们将CRISPR．Cas技术成功用于植物基因组的编辑，实现了CRISPR—Cas技术在植物领域的新突破。

Impact of umbelliprenin-containing niosome nanoparticles on VEGF-A and CTGF genes expression in retinal pigment epithelium cells

AIM:To investigate the impact of niosome nanoparticles carrying umbelliprenin(UMB),an anti-angiogenic and anti-inflammatory plant compound,on the expression of vascular endothelial growth factor(VEGF-A)and connective tissue growth factor(CTGF)genes in a human retinal pigment epithelium(RPE)-like retina-derived cell line.METHODS:UMB-containing niosomes were created,optimized,and characterized.RPE-like cells were treated with free UMB and UMB-containing niosomes.The IC_(50)values of the treatments were determined using an MTT assay.Gene expression of VEGF-A and CTGF was evaluated using real-time polymerase chain reaction after RNA extraction and cDNA synthesis.Niosomes’characteristics,including drug entrapment efficiency,size,dispersion index,and zeta potential were assessed.Free UMB had an IC_(50)of 96.2μg/mL,while UMB-containing niosomes had an IC_(50)of 25μg/mL.RESULTS:Treatment with UMB-containing niosomes and free UMB resulted in a significant reduction in VEGF-A expression compared to control cells(P=0.001).Additionally,UMB-containing niosomes demonstrated a significant reduction in CTGF expression compared to control cells(P=0.05).However,there was no significant reduction in the expression of both genes in cells treated with free UMB.CONCLUSION:Both free UMB and niosome-encapsulated UMB inhibits VEGF-A and CTGF genes expression.However,the latter demonstrates significantly greater efficacy,potentially due to the lower UMB dosage and gradual delivery.These findings have implications for anti-angiogenesis therapeutic approaches targeting age-related macular degeneration.

A dysregulated calcium homeostasis as the earliest pathological sign in stem cell-derived Parkinson's disease neurons?

Parkinson’s disease(PD) is characterized by the slow and progressive demise of dopamine(DA)-synthesizing neurons in the substantia nigra pars compacta(SNc),a nucleus located in the human ventral midbrain.Neuron death also affects other regions in the brain at later stages of PD.The concomitant lack of DA in the human forebrain(striatum) leads to the typical motor symptoms of this still uncurable neurodegenerative disorder.

Niosome-encapsulated auraptene reduced the mRNA expression of VEGF-A and PDGFs genes in human retinaderived RPE cell line

AIM:To evaluate the effect of auraptene(AUR)treatment in forms of free and encapsulated in niosome nanoparticles by investigating the mRNA expression level of vascular endothelium growth factor(VEGF)-A and platelet-derived growth factors(PDGFs)in human retinal pigment epithelium(RPE)cell line.METHODS:Niosome nanocarriers were produced using two surfactants Span 60 and Tween 80.RPE cell line was treated with both free AUR and niosome-encapsulated.Optimum dosage of treatments was calculated using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide(MTT)assay.Expression of VEGF-A and PDGF-A,PDGF-B,PDGF-C,PDGF-D genes was measured after total RNA extraction and cDNA synthesis,using real-time polymerase chain reaction(RT-PCR).RESULTS:The highest entrapment efficiency(EE)was achieved by Span 60:cholesterol(1:1)with 64.3%.The half maximal inhibitory concentration(IC50)of free and niosome-encapsulated AUR were 38.5 and 27.78µg/mL,respectively.Release study revealed that niosomal AUR had more gradual delivery to the cells.RT-PCR results showed reduced expression levels of VEGF-A,PDGF-A,PDGF-B,PDGF-C,and PDGF-D after treatment with both free and niosomal AUR.CONCLUSION:Niosomal formulation of Span 60:cholesterol(1:1)is an effective drug delivery approach to transfer AUR to RPE cells.VEGF-A,PDGF-A,PDGF-B,PDGF-C,and PDGF-D are four angiogenic factors,inhibiting which by niosomal AUR may be effective in age-related macular degeneration.

Cadherin-18 loss in prospermatogonia and spermatogonial stem cells enhances cell adhesion through a compensatory mechanism

Extracellular membrane proteins are crucial for mediating cell attachment,recognition,and signal transduction in the testicular microenvironment,particularly germline stem cells.Cadherin 18(CDH18),a type Ⅱ classical cadherin,is primarily expressed in the nervous and reproductive systems.Here,we investigated the expression of CDH18in neonatal porcine prospermatogonia(ProSGs)and murine spermatogonial stem cells(SSCs).Disruption of CDH18 expression did not adversely affect cell morphology,proliferation,self-renewal,or differentiation in cultured porcine ProSGs,but enhanced cell adhesion and prolonged cell maintenance.Transcriptomic analysis indicated that the down-regulation of CDH18 in ProSGs significantly up-regulated genes and signaling pathways associated with cell adhesion.To further elucidate the function of CDH18 in germ cells,Cdh18 knockout mice were generated,which exhibited normal testicular morphology,histology,andspermatogenesis.Transcriptomic analysis showed increased expression of genes associated with adhesion,consistent with the observations in porcine ProSGs.The interaction of CDH18withβ-catenin and JAK2 in both porcine ProSGs and murine SSCs suggested an inhibitory effect on the canonical Wnt and JAK-STAT signaling pathways during CDH18 deficiency.Collectively,these findings highlight the crucial role of CDH18 in regulating cell adhesion in porcine ProSGs and mouse SSCs.Understanding this regulatory mechanism provides significant insights into the testicular niche.

Expansion of human umbilical cord derived mesenchymal stem cells in regenerative medicine

BACKGROUND Stem cells are undifferentiated cells that possess the potential for self-renewal with the capacity to differentiate into multiple lineages.In humans,their limited numbers pose a challenge in fulfilling the necessary demands for the regeneration and repair of damaged tissues or organs.Studies suggested that mesenchymal stem cells(MSCs),necessary for repair and regeneration via transplantation,require doses ranging from 10 to 400 million cells.Furthermore,the limited expansion of MSCs restricts their therapeutic application.AIM To optimize a novel protocol to achieve qualitative and quantitative expansion of MSCs to reach the targeted number of cells for cellular transplantation and minimize the limitations in stem cell therapy protocols.METHODS Human umbilical cord(hUC)tissue derived MSCs were obtained and re-cultured.These cultured cells were subjected to the following evaluation pro-cedures:Immunophenotyping,immunocytochemical staining,trilineage differentiation,population doubling time and number,gene expression markers for proliferation,cell cycle progression,senescence-associatedβ-galactosidase assay,human telomerase reverse transcriptase(hTERT)expression,mycoplasma,cytomegalovirus and endotoxin detection.RESULTS Analysis of pluripotent gene markers Oct4,Sox2,and Nanog in recultured hUC-MSC revealed no significant differences.The immunophenotypic markers CD90,CD73,CD105,CD44,vimentin,CD29,Stro-1,and Lin28 were positively expressed by these recultured expanded MSCs,and were found negative for CD34,CD11b,CD19,CD45,and HLA-DR.The recultured hUC-MSC population continued to expand through passage 15.Proliferative gene expression of Pax6,BMP2,and TGFb1 showed no significant variation between recultured hUC-MSC groups.Nevertheless,a significant increase(P<0.001)in the mitotic phase of the cell cycle was observed in recultured hUC-MSCs.Cellular senescence markers(hTERT expression andβ-galactosidase activity)did not show any negative effect on recultured hUC-MSCs.Additionally,quality control assessments consistently confirmed the absence of mycoplasma,cytomegalovirus,and endotoxin contamination.CONCLUSION This study proposes the development of a novel protocol for efficiently expanding stem cell population.This would address the growing demand for larger stem cell doses needed for cellular transplantation and will significantly improve the feasibility of stem cell based therapies.

Harnessing endothelial cells and vascularization strategies for nerve regeneration

Peripheral nerves are essential components of the human body’s communication system,transmitting signals between the central nervous system and various body parts.Damage resulting from trauma or disease can result in debilitating sensory and motor deficits.Nerve injuries,particularly those resulting in significant gaps in the nerve tissue,pose a formidable challenge for clinicians and researchers.Despite their limitations,including limited availability and donor site morbidity,nerve autografts remain the clinical gold standard for treating nerve injuries.

Correlation between hydration properties and electrochemical performances on Ln cation size effect in layered perovskite for protonic ceramic fuel cells

PrBa_(0.5)Sr_(0.5)Co_(1.5)Fe_(0.5)O_(5+δ)(PrBSCF) has attracted much research interest as a potential triple ionic and electronic conductor(TIEC) electrode for protonic ceramic fuel cells(PCFCs). The chemical formula for Pr BSCF is AA'B_(2)O_(5+δ), with Pr(A-site) and Ba/Sr(A'-site) alternately stacked along the c-axis. Due to these structural features, the bulk oxygen ion diffusivity is significantly enhanced through the disorder-free channels in the PrO layer;thus, the A site cations(lanthanide ions) play a pivotal role in determining the overall electrochemical properties of layered perovskites. Consequently, previous research has predominantly focused on the electrical properties and oxygen bulk/surface kinetics of Ln cation effects,whereas the hydration properties for PCFC systems remain unidentified. Here, we thoroughly examined the proton uptake behavior and thermodynamic parameters for the hydration reaction to conclusively determine the changes in the electrochemical performances depending on LnBa_(0.5)Sr_(0.5)Co_(1.5)Fe_(0.5)O_(5+δ)(LnBSCF,Ln=Pr, Nd, and Gd) cathodes. At 500 ℃, the quantitative proton concentration of PrBSCF was 2.04 mol% and progressively decreased as the Ln cation size decreased. Similarly, the Gibbs free energy indicated that less energy was required for the formation of protonic defects in the order of Pr BSCF < Nd BSCF < Gd BSCF. To elucidate the close relationship between hydration properties and electrochemical performances in LnBSCF cathodes, PCFC single cell measurements and analysis of the distribution of relaxation time were further investigated.

白细胞介素10工程化修饰人脐带间充质干细胞优效治疗炎症性肠病

背景:间充质干细胞来源广泛、易体外增殖,并可分泌一系列免疫调节因子抑制炎症、促进组织修复再生,广泛应用于各种疾病治疗研究。但是对于多种疾病,间充质干细胞的治疗效果有限。针对疾病特定发病机制或者干预靶点进行工程化修饰间充质干细胞是未来细胞治疗的重要发展方向。目的:白细胞介素10是一种典型的抗炎细胞因子,有助于调节免疫反应并诱导巨噬细胞向抗炎表型极化,该研究探讨白细胞介素10基因工程化修饰人脐带间充质干细胞对炎症性肠病的治疗效果。方法:通过电转染建立稳定过表达人白细胞介素10基因的人脐带间充质干细胞,并基于细胞治疗产品标准筛选出临床级细胞。给予C57BL/6J小鼠自由饮用5%葡聚糖硫酸钠盐水溶液建立急性结肠炎模型,分别在造模前1 d(尾静脉途径)与造模后第4天(腹腔途径)注射空质粒转染的人脐带间充质干细胞或过表达人白细胞介素10基因的人脐带间充质干细胞(1×10~6个/只)。在造模后第6天取结肠组织进行苏木精-伊红染色评估组织学变化,免疫荧光染色检测增殖细胞核抗原与CD31的表达。结果与结论:构建的稳定过表达白细胞介素10的工程化人脐带间充质干细胞,满足临床级人脐带间充质干细胞质量标准;人脐带间充质干细胞对小鼠急性结肠炎具有修复效果,过表达白细胞介素10基因的人脐带间充质干细胞的治疗效果更加优效,更显著地抑制急性结肠炎小鼠的体质量下降(P<0.05)、结肠缩短(P<0.05)以及结肠组织损伤(P<0.05);过表达白细胞介素10基因人脐带间充质干细胞组结肠组织切片中增殖细胞核抗原阳性细胞与CD31阳性细胞显著多于人脐带间充质干细胞组,表明过表达白细胞介素10基因的人脐带间充质干细胞可能通过显著促进肠组织细胞增殖和血管再生进而促进结肠组织修复。

外源性黄体生成素对玻璃化冻存颗粒细胞的影响及机制研究

目的 观察外源性黄体生成素(LH)对玻璃化冻存颗粒细胞的影响及其作用机制。方法 取4周龄青春期前小鼠颗粒细胞,分为新鲜组(不进行玻璃化冻存)、玻璃化冻存组(按玻璃化冻存程序处理)和LH组(在玻璃化冻存组的基础上添加0.3 IU/mL LH干预)。进行颗粒细胞计数,采用Realtime PCR及Western blot检测各组Foxl2、PI3K、AKT及mTOR mRNA和蛋白的表达变化。结果 与玻璃化冻存组相比,LH组颗粒细胞总数显著增加(P<0.05),Foxl2、PI3K、AKT、mTOR mRNA及蛋白的表达显著升高(P<0.05)。结论 外源性LH干预有利于冻存颗粒细胞的存活,其机制可能与激活PI3K/AKT/mTOR通路有关。

Comparison of phenotypic markers and neural differentiation potential of multipotent adult progenitor cells and mesenchymal stem cells

AIM: To compare the phenotypic and neural differentiation potential of human bone marrow derived multipotent adult progenitor cells (MAPC) and mesenchymal stem cells (MSC). METHODS: Cultures of MAPC and MSC were established in parallel from same samples of human bone marrow (n = 5). Both stem cell types were evaluated for expression of pluripotency markers including Oct-4 and Nanog by immunocytochemistry and reversetranscription polymerase chain reaction (RT-PCR) and expression of standard mesenchymal markers including CD14, CD34, CD44, CD45, CD73, CD90, CD105 andhuman leukocyte antigen (HLA)-ABC by flow cytometry. After treatment with neural induction medium both MAPC and MSC were evaluated for expression of neural proteins [neuronal filament-200 (NF-200) and glial fibrillar acidic protein (GFAP)] by immunocytochemistry and Western blotting and neural genes [NF-200, GFAP, Tau, microtubule-associated protein (MAP)-1B, MAP-2, neuron-specific enolase (NSE) and oligodendrocyte-1 (Olig-1)] by quantitative real-time-PCR. RESULTS: MAPC had small trigonal shaped while MSC had elongated spindle-shaped morphology. The MAPC expressed Oct-4 and Nanog both at gene and protein levels, whereas MSC were negative for these pluripotent markers. MAPC were negative for HLA-ABC while MSC had high expression of HLA-ABC. In addition, MAPC as compared to MSC had significantly lower expression of CD44 (36.56% ± 1.92% vs 98.23% ± 0.51%), CD73 (15.11% ± 2.24% vs 98.53% ± 2.22%) and CD105 (13.81% ± 3.82%vs 95.12% ± 5.65%) (P < 0.001, for all) MAPC cultures compared to MSC cultures treated with neural induction medium had significantly higher fold change expression of NF-200 (0.64), GFAP (0.52), Tau (0.59), MAP-2 (0.72), Olig-1 (0.18) and NSE (0.29) proteins (P < 0.01 for Olig-1 and P < 0.001 for rest) as well as higher fold change expression of genes of NF-200 (1.34),GFAP (1.12),Tau (1.08),MAP-1B (0.92), MAP-2 (1.14) andNSE (0.4) (P < 0.001 for all). CONCLUSION: MAPC can be differentially characterized from MSC as Oct-4 and Nanog positive stem cells with no expression of HLA-ABC and low expression of mesenchymal markers CD44, CD73 and CD105 and when compared to MSC they possess greater predilection for differentiation into neuro-ectodermal lineage.

Upregulation of FIk-1 by bFGF via the ERK pathway is essential for VEGF-mediated promotion of neural stem cell proliferation

Neural stem cells （NSCs） constitute the cellular basis for embryonic brain development and neurogenesis. The process is regulated by NSC niche including neighbor cells such as vascular and glial cells. Since both vascular and glial cells secrete vascular endothelial growth factor （VEGF） and basic fibroblast growth factor （bFGF）, we assessed the effect of VEGF and bFGF on NSC proliferation using nearly homogeneous NSCs that were differentiated from mouse embryonic stem cells. VEGF alone did not have any significant effect. When bFGF was added, however, VEGF stimulated NSC proliferation in a dose-dependent manner, and this stimulation was inhibited by ZM323881, a VEGF receptor （Flk-1）- specific inhibitor. Interestingly, ZM323881 also inhibited cell proliferation in the absence of exogenous VEGF, suggesting that VEGF autocrine plays a role in the proliferation of NSCs. The stimulatory effect of VEGF on NSC proliferation depends on bFGF, which is likely due to the fact that expression of Flk-1 was upregulated by bFGF via phosphorylation of ERK1/2. Collectively, this study may provide insight into the mechanisms by which microenvironmental niche signals regulate NSCs.

Lipid accumulation in hepatocytes induces fibrogenic activation of hepatic stellate cells

Despite the initial belief that non-alcoholic fatty liver disease is a benign disorder, it is now recognized that fibrosis progression occurs in a significant number of patients. Furthermore, hepatic steatosis has been identified as a risk factor for the progression of hepatic fibrosis in a wide range of other liver diseases. Here, we established an in vitro model to study the effect of hepatic lipid accumulation on hepatic stellate cells （HSCs）, the central mediators of liver fibrogenesis. Primary human hepatocytes were incubated with the saturated fatty acid palmitate to induce intracellular lipid accumulation. Subsequently, human HSCs were incubated with conditioned media （CM） from steatotic or control hepatocytes. Lipid accumulation in hepatocytes induced the release of factors that accelerated the activation and proliferation of HSC, and enhanced their resistance to apoptosis, largely mediated via activation of the PI-3-kinase pathway. Furthermore, CM from steatotic hepatocytes induced the expression of the profibrogenic genes TGF-β, tissue inhibitor of metallo-proteinase-1 （TIMP-1）, TIMP-2 and matrix-metallo-proteinase-2, as well as nuclear-factor κB-dependent MCP-1 expression in HSC. In summary, our in vitro data indicate a potential mechanism for the pathophysiological link between hepatic steatosis and fibrogenesis in vivo. Herewith, this study provides an attractive in vitro model to study the molecular mechanisms of steatosis-induced fibrogenesis, and to identify and test novel targets for antifibrotic therapies in fatty liver disease.