Neural differentiation of human Wharton＇s jelly-derived mesenchymal stem cells improves the recovery of neurological function after transplantation in ischemic stroke rats

Human Wharton＇s jelly-derived mesenchymal stem cells（h WJ-MSCs）have excellent proliferative ability,differentiation ability,low immunogenicity,and can be easily obtained.However,there are few studies on their application in the treatment of ischemic stroke,therefore their therapeutic effect requires further verification.In this study,h WJ-MSCs were transplanted into an ischemic stroke rat model via the tail vein 48 hours after transient middle cerebral artery occlusion.After 4 weeks,neurological functions of the rats implanted with h WJ-MSCs were significantly recovered.Furthermore,many h WJ-MSCs homed to the ischemic frontal cortex whereby they differentiated into neuron-like cells at this region.These results confirm that h WJ-MSCs transplanted into the ischemic stroke rat can differentiate into neuron-like cells to improve rat neurological function and behavior.

Allogeneic mesenchymal stem cells may be a viable treatment modality in cerebral palsy

BACKGROUND Cerebral palsy(CP)describes a group of disorders affecting movement,balance,and posture.Disturbances in motor functions constitute the main body of CP symptoms.These symptoms surface in early childhood and patients are affected for the rest of their lives.Currently,treatment involves various pharmacotherapies for different types of CP,including antiepileptics for epilepsy and Botox A for focal spasticity.However,none of these methods can provide full symptom relief.This has prompted researchers to look for new treatment modalities,one of which is mesenchymal stem cell therapy(MSCT).Despite being a promising tool and offering a wide array of possibilities,mesenchymal stem cells(MSCs)still need to be investigated for their efficacy and safety.AIM To analyze the efficacy and safety of MSCT in CP patients.METHODS Our sample consists of four CP patients who cannot stand or walk without external support.All of these cases received allogeneic MSCT six times as 1×106/kg intrathecally,intravenously,and intramuscularly using umbilical cord-derived MSCs(UC-MSC).We monitored and assessed the patients pre-and post-treatment using the Wee Functional Independence Measure(WeeFIM),Gross Motor Function Classification System(GMFCS),and Manual Ability Classification Scale(MACS)instruments.We utilized the Modified Ashworth Scale(MAS)to measure spasticity.RESULTS We found significant improvements in MAS scores after the intervention on both sides.Two months:Rightχ^(2)=4000,P=0.046,leftχ^(2)=4000,P=0.046;four months:Rightχ^(2)=4000,P=0.046,leftχ^(2)=4000,P=0.046;12 months:Rightχ^(2)=4000,P=0.046,leftχ^(2)=4000,P=0.046.However,there was no significant difference in motor functions based on WeeFIM results(P>0.05).GMFCS and MACS scores differed significantly at 12 months after the intervention(P=0.046,P=0.046).Finally,there was no significant change in cognitive functions(P>0.05).CONCLUSION In light of our findings,we believe that UC-MSC therapy has a positive effect on spasticity,and it partially improves motor functions.

Effect of Human Umbilical Cord Mesenchymal Stem Cells on GRP78/ATF4 Pathway in Alzheimer s Disease Model Mice

[Objectives]To study the effect of human umbilical cord mesenchymal stem cells(hUC-MSCs)on GRP78/ATF4 pathway in APP/PS1 mice.[Methods]Twelve 6-month-old female APP/PS1 mice were randomly divided into model group(MOD,n=6)and human umbilical cord mesenchymal stem cell treatment group(MSC,n=6);six 6-month-old C57BL/6N mice were used as control group(CON,n=6).The mice in each group were treated with the fourth generation of human umbilical cord mesenchymal stem cells through tail vein.Four weeks later,the mice in each group were killed.The expression of GFP78 and ATF4 in the cortex of mice in each group was detected by Western blotting and real-time fluorescence quantitative PCR.[Results]The results of immunoblotting and real-time fluorescence quantitative PCR showed that the expression of GRP78 in MOD group was lower than that in CON group and the expression of ATF4 increased.The expression of GRP78 protein in MSC group was higher than that in MOD group,but the expression of ATF4 protein was lower.The results of real-time fluorescence quantitative PCR showed that the mRNA level of GRP78 decreased and the mRNA level of ATF4 increased in MOD group compared with CON group.The mRNA level of GRP78 in MSC group was higher than that in MOD group,while the mRNA level of ATF4 in MSC group was lower than that in MOD group.[Conclusions]Human umbilical cord mesenchymal stem cells can regulate the expression of GRP78/ATF4 pathway in APP/PSI mice,which may be related to the stress level of endoplasmic reticulum in the brain of APP/PS1 mice mediated by human umbilical cord mesenchymal stem cells.

Soluble factors secreted by human Wharton’s jelly mesenchymal stromal/stem cells exhibit therapeutic radioprotection: A mechanistic study with integrating network biology

BACKGROUND Human Wharton’s jelly-derived mesenchymal stromal/stem cells(hWJ-MSCs)have gained considerable attention in their applications in cell-based therapy due to several advantages offered by them.Recently,we reported that hWJ-MSCs and their conditioned medium have significant therapeutic radioprotective potential.This finding raised an obvious question to identify unique features of hWJ-MSCs over other sources of stem cells for a better understanding of its radioprotective mechanism.AIM To understand the radioprotective mechanism of soluble factors secreted by hWJMSCs and identification of their unique genes.METHODS Propidium iodide staining,endogenous spleen colony-forming assay,and survival study were carried out for radioprotection studies.Homeostasis-driven proliferation assay was performed for in vivo lymphocyte proliferation.Analysis of RNAseq data was performed to find the unique genes of WJ-MSCs by comparing them with bone marrow mesenchymal stem cells,embryonic stem cells,and human fibroblasts.Gene enrichment analysis and protein-protein interaction network were used for pathway analysis.RESULTS Co-culture of irradiated murine splenic lymphocytes with WJ-MSCs offered significant radioprotection to lymphocytes.WJ-MSC transplantation increased the homeostasis-driven proliferation of the lymphocytes.Neutralization of WJ-MSC conditioned medium with granulocyte-colony stimulating factor antibody abolished therapeutic radioprotection.Transcriptome analysis showed that WJ-MSCs share several common genes with bone marrow MSCs and embryonic stem cells and express high levels of unique genes such as interleukin(IL)1-α,IL1-β,IL-6,CXCL3,CXCL5,CXCL8,CXCL2,CCL2,FLT-1,and IL-33.It was also observed that WJ-MSCs preferentially modulate several cellular pathways and processes that handle the repair and regeneration of damaged tissues compared to stem cells from other sources.Cytokine-based network analysis showed that most of the radiosensitive tissues have a more complex network for the elevated cytokines.CONCLUSION Systemic infusion of WJ-MSC conditioned media will have significant potential for treating accidental radiation exposed victims。

Human Wharton’s jelly mesenchymal stem cells inhibit cytokine storm in acute respiratory distress syndrome in a rat model

Objective:To evaluate the potential effect of human Wharton’s jelly mesenchymal stem cells(hWJMSCs)on acute respiratory distress syndrome in lipopolysaccharide(LPS)-induced rats.Methods:The hWJMSCs(5×10^(4)/mL,5×10^(5)/mL,5×10^(6)/mL)were administered to rats on day 1 and day 8 after being induced by LPS(5 mg/kg body weight).TNF-αlevels in the lung and IL-18 and IL-1βlevels in the serum were measured using ELISA.In addition,caspase-1 expression in lung tissues was quantified using qRT-PCR,and NF-κB and IL-6 expressions were assessed using immunohistochemistry.Results:The hWJMSCs decreased TNF-αlevels in the lung and plasma IL-18 and IL-1βlevels.Moreover,the hWJMSCs downregulated the expressions of caspase-1,IL-6,and NF-κB in lung tissues.Conclusions:The hWJMSCs can decrease inflammatory markers of acute respiratory distress syndrome in a rat model and may be further investigated for the treatment of acute respiratory distress syndrome.

Wharton's jelly mesenchymal stem cells differentiate into retinal progenitor cells

Human Wharton＇s jelly mesenchymal stem cells were isolated from fetal umbilical cord. Cells were cultured in serumfree neural stem cellconditioned medium or neural stem cellconditioned medium supplemented with Dkk1, a Wnt/13 catenin pathway antagonist, and LeftyA, a Nodal signaling pathway antagonist to induce differentiation into retinal progenitor cells. Inverted microscopy showed that after induction, the spindleshaped or fibroblastlike Wharton＇s jelly mesenchymal stem cells changed into bulbous cells with numerous processes. Immunofluorescent cytochemical stain ing and reversetranscription PCR showed positive expression of retinal progenitor cell markers, Pax6 and Rx, as well as weakly downregulated nestin expression. These results demonstrate that Wharton＇s jelly mesenchymal stem cells are capable of differentiating into retinal progenitor cells in vitro.

Human umbilical cord Wharton's jelly-derived oligodendrocyte precursor-like cells for axon and myelin sheath regeneration

Human umbilical mesenchymal stem cells from Wharton＇s jelly of the umbilical cord were induced to differentiate into oligodendrocyte precursor-like cells in vitro. Oligodendrocyte precursor cells were transplanted into contused rat spinal cords. Immunofluorescence double staining indicated that transplanted cells survived in injured spinal cord, and differentiated into mature and immature oligodendrocyte precursor cells. Biotinylated dextran amine tracing results showed that cell transplantation promoted a higher density of the corticospinal tract in the central and caudal parts of the injured spinal cord. Luxol fast blue and toluidine blue staining showed that the volume of residual myelin was significantly increased at 1 and 2 mm rostral and caudal to the lesion epicenter after cell transplantation. Furthermore, immunofluorescence staining verified that the newly regenerated myelin sheath was derived from the central nervous system. Basso, Beattie and Bresnahan testing showed an evident behavioral recovery. These results suggest that human umbilical mesenchymal stem cell-derived oligodendrocyte precursor cells promote the regeneration of spinal axons and myelin sheaths.

Comparison between the therapeutic effects of differentiated and undifferentiated Wharton’s jelly mesenchymal stem cells in rats with streptozotocin-induced diabetes

BACKGROUND Despite the availability of current therapies,including oral antidiabetic drugs and insulin,for controlling the symptoms caused by high blood glucose,it is difficult to cure diabetes mellitus,especially type 1 diabetes mellitus.AIM Cell therapies using mesenchymal stem cells(MSCs)may be a promising option.However,the therapeutic mechanisms by which MSCs exert their effects,such as whether they can differentiate into insulin-producing cells (IPCs) beforetransplantation, are uncertain.METHODSIn this study, we used three types of differentiation media over 10 d to generateIPCs from human Wharton’s jelly MSCs (hWJ-MSCs). We further transplantedthe undifferentiated hWJ-MSCs and differentiated IPCs derived from them intothe portal vein of rats with streptozotocin-induced diabetes, and recorded thephysiological and pathological changes.RESULTSUsing fluorescent staining and C-peptide enzyme-linked immunoassay, we wereable to successfully induce the differentiation of hWJ-MSCs into IPCs.Transplantation of both IPCs derived from hWJ-MSCs and undifferentiated hWJMSCshad the therapeutic effect of ameliorating blood glucose levels andimproving intraperitoneal glucose tolerance tests. The transplanted IPCs homedto the pancreas and functionally survived for at least 8 wk after transplantation,whereas the undifferentiated hWJ-MSCs were able to improve the insulitis andameliorate the serum inflammatory cytokine in streptozotocin-induced diabeticrats.CONCLUSIONDifferentiated IPCs can significantly improve blood glucose levels in diabetic ratsdue to the continuous secretion of insulin by transplanted cells that survive in theislets of diabetic rats. Transplantation of undifferentiated hWJ-MSCs cansignificantly improve insulitis and re-balance the inflammatory condition indiabetic rats with only a slight improvement in blood glucose levels.

Differentiation of Wharton's jelly mesenchymal stem cells into neurons in alginate scaffold

Alginate scaffold has been considered as an appropriate biomaterial for promoting the differentiation of embryonic stem cells toward neuronal cell lineage. We hypothesized that alginate scaffold is suitable for culturing Wharton’s jelly mesenchymal stem cells（WJMSCs） and can promote the differentiation of WJMSCs into neuron-like cells. In this study, we cultured WJMSCs in a three-dimensional scaffold fabricated by 0.25% alginate and 50 m M Ca Cl2 in the presence of neurogenic medium containing 10 μM retinoic acid and 20 ng/m L basic fibroblast growth factor. These cells were also cultured in conventional two-dimensional culture condition in the presence of neurogenic medium as controls. After 10 days, immunofluorescence staining was performed for detecting β-tubulin（marker for WJMSCs-differentiated neuron） and CD271（motor neuron marker）. β-Tubulin and CD271 expression levels were significantly greater in the WJMSCs cultured in the three-dimensional alginate scaffold than in the conventional two-dimensional culture condition. These findings suggest that three-dimensional alginate scaffold cell culture system can induce neuronal differentiation of WJMSCs effectively.

WJSC 6^(th) Anniversary Special Issues(2):Mesenchymal stem cells Umbilical cord-derived mesenchymal stem cells:Their advantages and potential clinical utility

Human umbilical cord(UC)is a promising source of mesenchymal stem cells(MSCs).Apart from their prominent advantages,such as a painless collection procedure and faster self-renewal,UC-MSCs have shown the ability to differentiate into three germ layers,to accumulate in damaged tissue or inflamed regions,to promote tissue repair,and to modulate immune response.There are diverse protocols and culture methods for the isolation of MSCs from the various compartments of UC,such as Wharton’s jelly,vein,arteries,UC lining and subamnion and perivascular regions.In this review,we give a brief introduction to various compartments of UC as a source of MSCs and emphasize the potential clinical utility of UC-MSCs for regenerative medicine and immunotherapy.

Human umbilical cord Wharton's Jelly-derived mesenchymal stem cells differentiation into nerve-like cells

Background The two most basic properties of mesenchymal stem cells （MSCs） are the capacities to selfrenew indefinitely and differentiate into multiple cells and tissue types. The cells from human umbilical cord Wharton＇ s Jelly have properties of MSCs and represent a rich source of primitive cells. This study was conducted to explore the possibility of inducing human umbilical cord Wharton＇ s Jelly-derived MSCs to differentiate into nerve-like cells.Methods MSCs were cultured from the Wharton＇ s Jelly taken from human umbilical cord of babies delivered after full-term normal labor. Salvia miltiorrhiza and [3-mercaptoethanol were used to induce the human umbilical cord-derived MSCs to differentiate The expression of neural protein markers was shown by immunocytochemistry. The induction process was monitored by phase contrast microscopy, electron microscopy （EM）, and laser scanning confocal microscopy （LSCM） . The pleiotrophin and nestin genes were measured by reverse transcription-polymerase chain reaction （RT-PCR）.Results MSCs in the Wharton＇ s Jelly were easily attainable and could be maintained and expanded in culture. They were positive for markers of MSCs, but negative for markers of hematopoietic cells and graft-versus-host disease （GVHD）-related cells. Treatment with Salvia mihiorrhiza caused Wharton＇ s Jelly cells to undergo profound morphological changes. The induced MSCs developed rounded cell bodies with multiple neurite-like extensions. Eventually they developed processes that formed networks reminiscent of primary cultures of neurons. Salvia mihiorrhiza and β-mercaptoethanol also induced MSCs to express nestin, β-tubulin Ⅲ, neurofilament （NF） and glial fibrillary acidic protein （GFAP）. It was confirmed by RT-PCR that MSCs could express pleiotrophin both before and after induction by Salvia miltiorrhiza. The expression was markedly enhanced after induction and the nestin gene was also expressed.Conclusions MSCs could be isolated from human umbilical cord Wharton＇ s Jelly. They were capable ofdifferentiating into nerve-like cells using Salvia miltiorrhiza or 15-mercaptoethanol. The induced MSCs not only underwent morphologic changes, but also expressed the neuron-related genes and neuronal cell markers. They may represent an alternative source of stem cells for central nervous system cell transplantation.

Methods of isolation, expansion, differentiating induction and preservation of human umbilical cord mesenchymal stem cells

Objective This literature review aims to summarize the methods of isolation, expansion, preservation of human umbilical cord mesenchymal stem cells （hUCMSCs）, for comprehensive practical use in preclinical research and clinical trials. differentiation and understanding and Data sources All the literature reviewed was published over the last 10 years and is listed in PubMed and Chinese National Knowledge Infrastructure （CNKI）. Studies were retrieved using the key word ＂human umbilical cord mesenchymal stem cells＂. Results Explants culture and enzymatic digestion are two methods to isolate hUCMSCs from WJ and there are modifications to improve these methods. Culture conditions may affect the expansion and differentiating orientations of hUCMSCs. In addition, hUCMSCs can maintain their multi-potential effects after being properly frozen and thawed. Conclusion Considering their multi-potential, convenient and non-invasive accessibility, low immunogenicity and the reported therapeutic effects in several different preclinical animal models, hUCMSCs have immense scope in regeneration medicine as a substitute for MSCs derived from bone marrow or umbilical cord blood.

“生物药”——Wharton's jelly源间充质干细胞

干细胞治疗代表生物冶疗进入到了一个崭新的时代。间充质干细胞是存在于胚胎或成体组织中来源于中胚层具有多向分化潜能的干细胞。由于成体间充质干细胞的质量与数量自身缺陷,使之应用受到了很大限制。Wharton's jelly组织,是起始于胚胎发育第13天的胚外中胚层组织。使用基因微阵列分析及功能分析,首次发现Wharton's jelly源间充质干细胞(Wharton's jelly derived mesenchymal stem cells,WJMSCs)高表达胚胎早期干性基因及心肌细胞分化早期特异转录因子,可分化心肌细胞等多种细胞。进而,应用临床级WJMSCs经冠状动脉移植治疗ST抬高型急性心肌梗死患者的随机双盲临床试验,首次证明WJMSCs可明显改善心肌活力及心脏功能。因此,WJMSCs具有极其重要益处;无伦理涉及,有强的分化潜能,无致瘤性;加之,WJMSCs可作为产品,在任何时候病情需要时立即应用。为此,WJMSCs作为真正意义上的干细胞族,将最有希望成为具有应用前景的于细胞生物药。

人脐带Wharton’s Jelly来源间充质干细胞与人牙周膜干细胞成骨分化能力的对比研究

目的:比较人脐带Wharton’s Jelly来源间充质干细胞(human umbilical cord Wharton’s Jelly-derived mesechymal stem cells,h UCWJMSCs)与人牙周膜干细胞(periodontal mesenchymal stem cells,h PDLSCs)成骨分化能力。方法:体外培养h UCWJMSCs和h PDLSCs。MTT法检测细胞增殖情况;成骨诱导后测定细胞的ALP活性,茜素红染色检测细胞矿化能力,Real-time PCR分析OPN和Runx2基因的表达。结果:hUCWJMSCs增殖能力高于hPDLSCs;经矿化诱导后hPDLSCsALP表达、矿化结节形成高于hUCWJMSCs(P<0.05);Runx2在hPDLSCs中表达高于hUCWJMSCs(P<0.05);而hUCWJMSCs中OPN表达高于hPDLSCs(P<0.05)。结论:h UCWJMSCs、hPDLSCs均具有成骨分化能力,hPDLSCs成骨分化能力较强。

人脐带Wharton's Jelly来源间充质干细胞和人牙周膜干细胞复合PHBHHx、PHBV支架成骨分化能力的体外研究

目的:探讨人脐带Wharton's Jelly来源间充质干细胞(h UCWJMSCs)和人牙周膜干细胞(h PDLSCs)复合聚(3-羟基丁酸酯-3-羟基己酸酯)(PHBHHx)、聚羟基丁酸-羟基戊酸酯(PHBV)支架成骨分化的能力。方法:将2种干细胞分别接种在2种支架中,MTT法及粘附率分析2种干细胞和PHBHHx、PHBV的生物相容性;成骨诱导后ALP活性检测、茜素红染色和扫描电镜观察研究两种干细胞在两种支架上的成骨分化情况。结果:2种干细胞与PHBV具有更好的黏附效果及增殖效率(P <0. 05),且h UCWJMSCs组优于h PDLSCs组; h UCWJMSCs和h PDLSCs与PHBV组ALP活性检测、茜素红染色阳性表达明显高于与PHBHHx组; h UCWJMSCs与2种支架组的表达高于h PDLSCs组。扫描电镜显示2种干细胞与PHBV组可见大量矿化基质形成。结论:h UCWJMSCs与PHBV生物相容性和成骨能力优于h PDLSCs组。

人WJ-MHCs移植对心肌梗死后心力衰竭大鼠TNF-α及NT-proBNP的影响

目的观察人华通胶间充质干细胞(WJ-MHCs)对心肌梗死后心力衰竭大鼠肿瘤坏死因子α(TNF-α)及N末端B型脑利钠肽前体(NT-proBNP)的影响。方法采用80只雄性SD大鼠通过异丙肾上腺素多点皮下注射,剂量为200mg/kg,隔24h注射1次共2次。待大鼠存活1周建立模型后各取12只随机均衡分入WJ-MHCs移植组、普通对照组、空白对照组各12只健康大鼠,3组再分为移植前和移植后4周两个亚组。WJ-MHCs移植组于心肌梗死后1周移植以DAPI标记的WJ-MHCs,空白对照组及普通对照组不做处理正常饲养。分别于移植前和移植后4周检测大鼠心脏组织中TNF-α水平,移植后4周WJ-MHCs细胞在大鼠心脏中的情况,大鼠TNF-α和NT-proBNP的水平,左室射血分数(LVEF)。结果移植后WJ-MHCs移植组较移植前LVEF明显提高(P<0.05),较移植前及普通对照组血清TNF-α及NT-proBNP明显降低(P<0.05);移植后WJ-MHCs移植组较普通对照组心脏组织中TNF-α表达明显减少;WJ-MHCs移植组病死率(16.67%)较普通对照组病死率(33.33%)明显降低;免疫荧光显示移植后4周仍可检测到移植的WJ-MHCs。结论移植人WJ-MHCs可明显降低心梗后心衰大鼠心脏组织及循环中的TNF-α,降低循环中的NT-proBNP,提高心功能。

人脐带非酶解法培养MSCs的方法建立

目的建立从人脐带Wharton's jelly组织中直接培养间充质干细胞(MSCs)的方法。方法将人脐带切成5 cm左右的片段,纵向剖开,剔除血管,把富含Wharton's jelly组织的脐带面置于10 cm2塑料培养皿的培养面上,加入含20%FBS的LG-DMEM培养基连续培养10 d;移去脐带组织后,培养皿中的细胞继续培养至80%-90%融合。传代和扩增3代(次)后,以倒置光学显微镜观察细胞形态,流式细胞仪检测细胞免疫表型及细胞周期,用含有成骨细胞诱导剂、脂肪细胞诱导剂对传代培养至第3代的细胞分别定向诱导分化为成骨细胞、脂肪细胞,并对诱导后细胞用碱性磷酸酶检测试剂、Von-Kossa染色检测试剂和茜苏红染色试剂作细胞生物学检测。结果脐带组织在贴壁培养5 d,组织周围可见有少量细胞贴壁生长,主要呈"成纤维样",形状不规则,移去脐带组织后继续培养至14-15 d时,细胞达到80%-90%汇合;细胞表面表达CD73、CD105、CD90、CD44、CD29、CD71及CD13,不表达CD34、CD14、CD133、CD45、HLA-DR;培养至第4代时约72.724%的细胞处在G1期,S期细胞占18.069%,第6代时,G1期细胞约为83.875%、S期细胞仅为9.606%左右。细胞经成骨细胞诱导分化后,碱性磷酸酶染色显示呈强阳性,茜苏红染色和Von-Kossa染色显示细胞有钙盐沉积并形成钙结节;细胞经成脂细胞诱导分化后,油红O染色呈红色,显示胞浆内有大量甘油三酯的聚集。结论采用非酶解法从人脐带Wharton's jelly中分离及培养扩增的细胞具备MSCs的基本特性,具有分化为成骨细胞和脂肪细胞的能力。

脓毒症大鼠来源的外泌体对WJ-MSC的免疫调控能力的影响

目的探究脓毒症大鼠外周血来源外泌体对人脐带华通胶来源间充质干细胞(WJ-MSC)免疫调控能力的影响。方法采用盲肠穿孔结扎(CLP)方法建立脓毒症大鼠模型,分别提取对照组(假手术组)和实验组(CLP模型组)大鼠外周血的外泌体,鉴定其表面标志物及形态特征,并分别处理WJ-MSC,CCK8检测WJ-MSC的细胞活性,Annexin-VFITC/PI检测凋亡细胞比例,q PCR检测细胞因子(IL-10、TNF-α)的mRNA水平;分别将两组外泌体处理后的WJ-MSC与LPS刺激后的人单核巨噬细胞(THP-1)共培养,q PCR检测THP-1细胞中细胞因子(IL-6、IL-10、TNF-α、IL-1β)的mRNA水平变化。结果两组外泌体在表面标志物和形态特征上无明显差异;实验组外泌体不影响WJ-MSC的增殖活性,但可抑制其凋亡,同时能够上调IL-10的mRNA表达,下调TNF-α的mRNA表达;经过两组外泌体处理后的WJ-MSC,均能够降低LPS刺激下THP-1细胞中促炎性细胞因子(IL-1β,TNF-α)的表达,两组无明显差异。结论脓毒症大鼠外周血来源的外泌体能够上调WJ-MSC中IL-10的表达,下调TNF-α的表达,可增强其免疫调控能力。

脐带华通胶间充质干细胞移植对退变椎间盘影响的实验研究

目的:探讨人华通胶间充质干细胞(Wharton′s jelly-derived mesenchymal stem cells,WJMSCs)移植对犬退变椎间盘的影响。方法:从新生儿脐带中提取WJMSCs,取增殖良好的第3代细胞,用含有绿色荧光蛋白的腺相关病毒(r AAV2-EGFP)感染标记细胞。选择20只健康成年比格犬作为实验动物,使用穿刺抽吸髓核组织法建立椎间盘退变模型(L4/5、L5/6、L6/7)。4周后将犬各节段椎间盘进行分组:L3/4为对照组(A组);L4/5为退变组(B组);L5/6为注射组(C组),注射生理盐水;L6/7为移植组(D组),移植绿色荧光蛋白标记的WJMSCs细胞悬液。造模术前、术后4、8、12、24周行腰椎X线及MRI检查。24周后处死动物取材进行冰冻切片荧光、HE染色及番红O染色等组织学检测,提取髓核组织总RNA,反转录后行Real Time PCR检测,观察蛋白多糖、Ⅱ型胶原、SOX-9及Ⅰ型胶原基因表达变化。结果:分离培养的WJMSCs贴壁生长,呈梭形形态,r AAV2-EGFP病毒感染后第3天表达绿色荧光。影像学检查结果显示各组椎间盘高度指数及相对灰度指数在造模术前、术后第4周无统计学差异,术后8、12、24周,D组椎间盘相对高度指数及相对灰度指数较B、C组高(P<0.05),比A组低(P<0.05)。术后24周,D组髓核组织冰冻切片内能够检测到GFP阳性的WJMSC细胞,HE染色显示D组髓核组织退变比B组和C组轻,番红O染色结果显示D组染色较B组和C组深,基因表达检测结果显示D组Ⅱ型胶原、蛋白多糖及SOX-9基因表达比B、C组高(P<0.05),但比A组低(P<0.05)。结论:人WJMSCs移植入犬退变椎间盘内能够存活,促进椎间盘细胞外基质Ⅱ型胶原及蛋白多糖合成,维持椎间盘高度及髓核含水量,能够有效延缓椎间盘退变进展。

不同剂量人脐带间充质干细胞异种移植对大鼠血液学及肝肾功能影响的研究

目的观察不同剂量的人脐带胶样组织间充质干细胞（hUMSCs）经静脉移植人大鼠体内对血常规及肝肾功能等指标的影响。方法①体外培养人脐带间充质干细胞；利用流式细胞仪鉴定第4代hUM．SCs表面抗原的表达；标准试剂盒鉴定第4代hUMSCs向脂肪细胞和成骨细胞分化的潜能；②182～203g的50只SD大鼠随机分为5组：空白对照组；盐水组；3．5×10^7／kg干细胞移植为干细胞I组；3．5×10。／kg干细胞移植为干细胞Ⅱ组；3．5X10’／kg干细胞移植为干细胞Ⅲ组；注射后第11天，腹主动脉取血，监测和比较血常规和生化指标，分析比较各项指标的变化和差异。结果①第4代hUMSCs特异性表面抗原CD73、CD90和CD105表达强阳性，能分成脂细胞和成骨细胞，比例分别为98．4％和95．7％；②注射干细胞后实验动物全部存活，第11天时实验组24项血常规指标与空白对照组相比差异无统计学意义；③干细胞组血糖较空白对照组明显降低[（8．4±1．6），（7．7±1．6），（7．1±1．6）mmol／L比（9．6±4．9）mmol／L]；干细胞组糖化血清白蛋白较空白对照组明显降低[（0．69±0．10），（0．68±0．12），（0．65±0．08）mmol／L比（0．85±0．14）mmol／L]；干细胞组的心肌酶水平较空白对照组明显降低[（1844-8），（155±24），（144±18）U／L比（223±21）U／L，P〈0．05]。结论不同剂量hUMSCs经尾静脉注射人大鼠体内引起血糖、糖化血红蛋白和心肌酶等的降低，且与剂量相关，选择适当剂量的干细胞移植将对临床治疗效果起到重要的作用。