Research Progress on the Immunomodulatory Effect of Mesenchymal Stem Cells on Chronic Periodontitis

Periodontal disease is an inflammatory and destructive disease of periodontal support tissue caused by microorganisms in dental plaque. During the development of periodontal disease, host immune regulation plays an important role, and unnecessary excessive immune regulation often exacerbates the course of chronic periodontal disease. Mesenchymal stem cells (MSCs) are adult stem cells with self replication ability and multi-directional differentiation potential. Many studies have found that MSCs have strong immunosuppressive effects on both adaptive and innate immunity. In recent years, literature has reported that MSCs are involved in the immune regulatory effect of chronic periodontal disease, inhibiting its inflammatory response and alveolar bone resorption, but the specific regulatory mechanism has not been elucidated. This article reviews the current research status of the immune regulatory effects of MSCs on chronic periodontitis.

Characterization of the osteogenic potential of mesenchymal stem cells from human periodontal ligament based on cell surface markers

Mesenchymal stem cell （MSC）-mediated therapy has been shown to be clinically effective in regenerating tissue defects. For improved regenerative therapy, it is critical to isolate homogenous populations of MSCs with high capacity to differentiate into appropriate tissues. The utilization of stem cell surface antigens provides a means to identify MSCs from various tissues. However, few surface markers that consistently isolate highly regenerative MSCs have been validated, making it challenging for routine clinical applications and making it all the more imperative to identify reliable surface markers. In this study, we used three surface marker combinations： CD51/CD140a, CD271, and STRO-1/CD146 for the isolation of homogenous populations of dental mesenchymal stem cells （DMSCs） from heterogeneous periodontal ligament cells （PDLCs）. Fluorescence-activated cell sorting analysis revealed that 24% of PDLCs were CD51＋/CD140a＋, 0.8% were CD271＋, and 2.4% were STRO-1＋/CD146＋. Sorted cell populations were further assessed for their multipotent properties by inducing osteogenic and chondrogenic differentiation. All three subsets of isolated DMSCs exhibited differentiation capacity into osteogenic and chondrogenic lineages but with varying degrees. CD271＋ DMSCs demonstrated the greatest osteogenic potential with strong induction of osteogenic markers such as DLX5, RUNX2, and BGLAP. Our study provides evidence that surface marker combinations used in this study are sufficient markers for the isolation of DMSCs from PDLCs. These results provide important insight into using specific surface markers for identifying homogenous populations of DMSCs for their improved utilization in regenerative medicine.

Exosomes Derived from Human Umbilical Cord Mesenchymal Stem Cells Enhance the Osteoblastic Differentiation of Periodontal Ligament Stem Cells Under High Glucose Conditions Through the PI3K/AKT Signaling Pathway

Objective High glucose(HG)can influence the osteogenic differentiation ability of periodontal ligament stem cells(PDLSCs).Human umbilical cord mesenchymal stem cell-derived exosomes(hUCMSC-exo)have broad application prospects in tissue healing.The current study aimed to explore whether hUCMSC-exo could promote the osteogenic differentiation of hPDLSCs under HG conditions and the underlying mechanism.Methods We used a 30 mmol/L glucose concentration to simulate HG conditions.CCK-8 assay was performed to evaluate the effect of hUCMSC-exo on the proliferation of hPDLSCs.Alkaline phosphatase(ALP)staining,ALP activity,and qRT-PCR were performed to evaluate the pro-osteogenic effect of hUCMSC-exo on hPDLSCs.Western blot analysis was conducted to evaluate the underlying mechanism.Results The results of the CCK-8 assay,ALP staining,ALP activity,and qRT-PCR assay showed that hUCMSC-exo significantly promoted cell proliferation and osteogenic differentiation in a dosedependent manner.The Western blot results revealed that hUCMSC-exo significantly increased the levels of p-PI3K and p-AKT in cells,and the effect was inhibited by LY294002(PI3K inhibitor)or MK2206(AKT inhibitor),respectively.Moreover,the increases in osteogenic indicators induced by hUCMSC-exo were significantly suppressed by LY294002 and MK2206.Conclusion hUCMSC-exo promote the osteogenic differentiation of hPDLSCs under HG conditions through the PI3K/AKT signaling pathway.

Therapeutic potential of periodontal ligament stem cells

Inflammatory periodontal disease known as periodontitis is one of the most common conditions that affect human teeth and often leads to tooth loss.Due to the complexity of the periodontium,which is composed of several tissues,its regeneration and subsequent return to a homeostatic state is challenging with the therapies currently available.Cellular therapy is increasingly becoming an alternative in regenerative medicine/dentistry,especially therapies using mesenchymal stem cells,as they can be isolated from a myriad of tissues.Periodontal ligament stem cells(PDLSCs)are probably the most adequate to be used as a cell source with the aim of regenerating the periodontium.Biological insights have also highlighted PDLSCs as promising immunomodulator agents.In this review,we explore the state of knowledge regarding the properties of PDLSCs,as well as their therapeutic potential,describing current and future clinical applications based on tissue engineering techniques.

Comparative analysis of different feeder layers with 3T3 fibroblasts for culturing rabbits limbal stem cells

AIM： To explore the possibility of human umbilical cord mesenchymal stem cells（h UCMSCs）, human umbilical vein endothelial cells（h UVECs）, human dental pulp stem cells（h DPSCs） and human periodontal ligament stem cells（h PDLSCs） serving as feeder cells in co-culture systems for the cultivation of limbal stem cells.METHODS： Different feeder layers were cultured in Dulbecco＇s modified Eagle＇s medium（DMEM）/F12 and were treated with mitomycin C. Rabbits limbal stem cells（LSCs） were co-cultured on h UCMSCs, h UVECs, h DPSCs, h PDLSCs and NIH-3T3, and then comparative analysis were made between each group to see their respective colony-forming efficiency（CFE） assay and immunofluorescence（IPO13,CK3/12）.RESULTS： The efficiency of the four type cells in supporting the LSCs morphology and its cellular differentiation was similar to that of NIH-3T3 fibroblasts as demonstrated by the immunostaining properties analysis, with each group exhibiting a similar strong expression pattern of IPO13, but lacking CK3 and CK12 expression in terms of immunostaining. But h UCMSCs, h DPSCs and h PDLSCs feeder layers were superior in promoting colony formation potential of cells when compared to h UVECs and feedercell-free culture.CONCLUSION： hUCMSCs, hDPSCs and hPDLSCs can be a suitable alternative to conventional mouse NIH-3T3 feeder cells, so that risk of zoonotic infection can be diminished.

牙龈卟啉单胞菌超声提取物对hPDLSCs表达VEGF的影响

目的:观察牙龈卟啉单胞菌(Porphyromonas gingivalis,Pg)超声提取物对人牙周膜干细胞(human per-iodontal ligament stem cells,hPDLSCs)表达血管内皮生长因子(vascular endothelial growth factor,VEGF)及基质金属蛋白酶-9(matrix metalloproteinase-9,MMP-9)的影响。方法:标准厌氧培养环境下培养Pg,收集细菌菌落,离心,制备细菌的超声提取物,然后以不同的浓度加入hPDLSCs的培养液中。培养6d,分别观察第2、4、6天时hPDLSCs的增殖情况。提取蛋白并用Western Blotting法检测VEGF和MMP-9的表达。结果:与对照组相比,第2天时,10μg/ml和100μg/mlPg轻度促进hPDLSCs的生长,第4天时,10μg/ml和100μg/mlPg则明显抑制hPDLSCs的生长(P<0.05),第6天时,3种浓度的Pg均明显抑制hPDLSCs的生长(P<0.05);1μg/ml和10μg/mlPg上调VEGF的表达,100μg/mlPg明显抑制VEGF的表达;3种浓度的Pg均上调hPDLSCs中MMP-9的表达。结论:作为牙周炎病原菌,大量的Pg可能通过抑制hPDLSCs的生长增殖,抑制局部血管重建以及加速细胞外基质的降解而降低了牙周组织的自我修复能力。

miR-17对炎症微环境中PDLSCs骨向分化特性的影响

目的探讨体外炎症微环境中,miR-17对牙周膜干细胞(periodontal ligament stem cells,PDLSCs骨向分化能力的影响。方法体外有限稀释法克隆化和密度梯度离心法分别培养牙周膜干细胞(PDLSCs)和外周血免疫细胞(PBMCs),并建立PDLSCs与免疫细胞的Transwell共培养炎症微环境体系。使用定量PCR技术检测miR-17的表达,并将PDLSCs转染miR-17模拟物Mimics和抑制剂Inhibitor后进行成骨诱导,ALP染色,定量PCR和Western Blot检测细胞成骨分化的能力。结果共培养组PDLSCs中miR-17表达降低,转染Mimics后共培养细胞成骨分化能力升高,转染Inhibitor后细胞成骨分化能力降低。结论炎症微环境中miR-17可以促进PDLSCs骨向分化。

培养模式控制对人牙周膜和骨髓间充质干细胞生物电特性的影响

目的:探索微模式培养控制和导电基底对人牙周膜干细胞和骨髓间充质干细胞生物电特性的影响。方法:通过光刻技术在盖玻片和导电玻璃两种透明材料表面构造与细胞自身宽度相当的微模式化培养基底,微模式图案分为两种:单种细胞的单格阵列结构、双细胞共培养的交叉指贯通结构。应用全细胞膜片钳技术记录两种细胞在不同培养模式下的静息电位、钾通道电流等生物电特性。实验分9组:培养皿对照组、盖玻片牙周膜干细胞组、盖玻片骨髓间充质干细胞组、盖玻片共培养牙周膜干细胞组、盖玻片共培养骨髓间充质干细胞组、导电玻璃牙周膜干细胞组、导电玻璃骨髓间充质干细胞组、导电玻璃共培养牙周膜干细胞组、导电玻璃共培养骨髓间充质干细胞组。结果:对于牙周膜干细胞,与对照组自由铺展培养模式相比,微模式化形态控制导致细胞膜电容减小,钾通道电流密度增大(P<0.01),导电基底导致细胞静息膜电位绝对值增大;两种微模式化培养模式相比,双细胞交叉指贯通培养使得细胞静息膜电位绝对值减小。对于骨髓间充质干细胞,与对照组自由铺展培养模式相比,导电基底表面细胞膜电容增大、钾通道电流密度减小和静息膜电位绝对值减小,但双细胞交叉指贯通培养则导致细胞膜电容减小、钾电流密度增大和静息膜电位绝对值增大;与盖玻片共培养模式相比,导电玻璃共培养细胞的钾电流密度显著增大(P<0.01)。结论:导电培养微模式能够调控人牙周膜和骨髓间充质干细胞的生物电特性,从利用内源电场角度,为深入探索两种干细胞促进口腔软硬组织再生修复机制提供新的思路。

牙源性干细胞来源的外泌体在牙周组织再生中的研究进展

牙周炎是影响我国人群健康和生活质量的常见口腔疾病。实现满意的牙周组织结构与功能的再生,以保留更多天然牙是目前治疗牙周炎的目标。外泌体是一种内含多种生物活性物质的纳米级囊泡,经摄取可以参与细胞间信息交流与物质交换。牙源性干细胞独特的组织特异性,使其来源的外泌体在牙周组织再生方面成为热点之一。本文就牙源性干细胞来源的外泌体在牙周组织再生中研究新进展作一综述,以期为牙周炎相关研究提供新思路。

牙源性间充质干细胞来源的外泌体在牙周免疫调节的研究进展

外泌体(exosomes,EXOs)是细胞间通讯的重要介质,其内含有多种物质,包括miRNA、mRNA、DNA和蛋白质等,可通过多种方式作用于靶细胞。外泌体作为“无细胞治疗”手段,具有广阔的医学应用前景。EXOs的内含物随供体细胞及其状态的变化而变化,因此来自不同类型细胞的EXOs可能表现出不同的生物学效应。牙源性间充质干细胞来源的EXOs因其在组织再生医学和免疫调节领域表现出的生物学特性而受到越来越多的关注。在牙周免疫调节过程中促炎型(M1型)/抗炎型(M2型)巨噬细胞以及辅助性T细胞(Th17)/调节性T细胞(Treg)之间的平衡转化是研究热点。现有研究表明,牙源性间充质干细胞来源的EXOs能够促进巨噬细胞和T细胞的转化并且这种功能可能取决于周围微环境以及干细胞的组织来源等因素,如牙髓间充质干细胞来源的EXOs中的miR-1246通过抑制NF-κB P65从而促进M2型巨噬细胞的极化;根尖牙乳头间充质干细胞来源的EXOs通过促进DNA去甲基化酶Tet2(Tet methylcytosine dioxygenase 2,Tet2)介导的FoxP3的去甲基化,维持FoxP3的稳定表达,促进Treg转化,从而缓解牙周炎局部炎症。此外炎症相关因子可以影响牙源性间充质干细胞来源的EXOs的免疫调节活性,如脂多糖预处理的牙囊间充质干细胞来源的EXOs可通过ROS/JNK信号通路降低RANKL/OPG比例,并通过ROS/ERK信号通路促进巨噬细胞向M2型极化;肿瘤坏死因子-α和干扰素-α两种促炎细胞因子预处理的牙龈间充质干细胞来源的EXOs通过高表达CD73和CD5L从而促进M2型巨噬细胞的极化;牙周炎患者牙周膜间充质干细胞来源的EXOs促进巨噬细胞向M1表型极化。本文综述牙源性间充质干细胞来源的EXOs在牙周免疫调节过程中对两种细胞平衡转化影响的研究进展,为EXOs治疗牙周炎提供参考。

牙周膜干细胞免疫调节特性的研究进展

牙周膜干细胞(periodontal ligament stem cells,PDLSCs)具有多向分化的潜能,是牙周组织再生的首选种子细胞。近年来,大量研究证实PDLSCs还具有广泛的免疫调节特性,深入探究其具体分子机制对于牙周炎的治疗具有重要的指导意义。本文旨在归纳总结PDLSCs对各种免疫细胞的调控以及炎症环境对PDLSCs免疫特性影响的研究进展,以期为实现PDLSCs的异体移植提供重要理论依据,从而提升牙周组织再生的治疗效果。现有研究表明,PDLSCs对固有免疫细胞和获得性免疫细胞均具有一定的免疫抑制作用,炎症刺激可导致其免疫调节特性受损。然而,目前的研究主要局限于体外细胞试验,缺乏对体内环境下PDLSCs免疫调节作用的深入研究,基于细胞谱系示踪和条件性基因敲除技术的体内研究可能成为未来的主要研究方向。

牙周慢性炎症对牙周膜干细胞生物学特性的影响

目的:探讨牙周慢性炎症对牙周膜干细胞(periodontal ligament stem cells,PDLSCs)生物学特性的影响。方法:体外有限稀释法克隆化培养健康个体和慢性牙周炎患者牙周膜干细胞(H-PDLSCs和P-PDLSCs),免疫荧光染色法分析细胞表面分子;克隆形成和Edu染色检测细胞增殖能力;并通过体外成骨、成脂、成软骨诱导培养,比较两组PDLSCs多向分化能力。结果:慢性牙周炎患者牙周膜组织中可分离培养出PDLSCs,与分离自牙周健康者的H-PDLSCs相比,其增殖能力升高,但分化能力减弱(P<0.05)。结论:牙周慢性炎症微环境可降低PDLSCs的分化潜能。

牙周膜干细胞用于犬牙槽嵴组织工程化增高的实验研究

目的:探讨牙周膜干细胞复合生物支架材料增高重建牙槽嵴效果,为缺牙后牙槽嵴重度萎缩的种植义齿修复奠定基础。方法:分离培养牙周膜干细胞(PDLSCs),将其分别与骨组织工程支架材料羟基磷灰石-磷酸三钙(HA/TCP)及附着龈组织工程材料脱细胞真皮基质(ADM)复合诱导后,植入犬双尖牙缺失致牙槽嵴缺损部位,PDLSCs-HA/TCP植入骨缺损区,PDLSCs-ADM植入粘骨膜缺损区。植入32周,大体测量植入前后增高牙槽嵴高度;X-线片显示牙槽嵴高度与密度变化;组织学观察边界区新生牙槽骨结构,未植入做对照。结果:细胞-材料复合体植入后牙槽嵴高度显著增高,由移植前4.15±0.20,增加到移植后9.30±0.15(P<0.05)。x-线显示邻牙标记部位冠方有类骨密度硬组织形成,牙槽嵴明显增高。组织学显示:与对照组比较,细胞材料移植组可见缺损区有新生骨样组织形成,可见骨陷窝和骨细胞样结构。结论:PDLSCs分别与骨及粘骨膜组织工程支架材料HA/TCP、ADM复合后体内移植,可显著增高牙槽嵴高度,是牙槽嵴增高重建、实现无牙合种植修复的有效途径。

人牙龈间充质干细胞与牙周膜干细胞的性能比较

目的:比较人牙龈间充质干细胞(gingival mesenchymal stem cells,GMSCs)和牙周膜干细胞(periodontalligament stem cells,PDLSCs)的增殖及分化能力。方法:取同一个体的牙龈组织及牙周膜组织进行干细胞的分离培养和鉴定,并对其干细胞基本性能与增殖、分化能力进行对比分析。结果:GMSCs和PDLSCs均具有良好的间充质干细胞的特性,但其增殖及分化能力存在一定的差异。GMSCs原代细胞培养的成功率较PDLSCs高,增殖能力强,差异具有统计学意义(P<0.05);而分化能力检测结果显示,GMSCs成骨能力明显弱于PDLSCs(P<0.05),成脂能力两组细胞无显著性差异。结论:GMSCs能否代替PDLSCs用于牙周组织再生治疗,尚需要进一步研究。

正常和炎症来源的人牙周膜干细胞内皮向分化能力的比较

目的:比较炎症和正常牙周膜组来源的牙周膜干细胞(iPDLSCs和PDLSCs)体外成血管的能力。方法:组织块酶消化法培养iPDLSCs和PDLSCs,并经有限稀释法纯化和干细胞表面标记物检测鉴定后,对其进行成血管诱导,并通过免疫荧光染色、实时定量PCR、Matrigel assay检测其内皮细胞相关标记物的表达水平及毛细血管网形成状况。结果:两种细胞经纯化后均阳性表达干细胞标记物CD90、CD29、CD105、CD146;iPDLSCs比PDLCSs具有更高的克隆形成能力;两种细胞经内皮向诱导培养后其内皮细胞标记物VEGF、vWF、CD31、VE-cadherin mRNA的表达水平均较诱导前明显上调(P<0.05),并且均能在体外形成管腔样结构;iPDLSCs中CD31、VE-cadherin mRNA的表达水平和管腔长度、分支节点数等均明显高于PDLSCs(P<0.05)。结论:正常和炎症来源的人牙周膜干细胞均具有成血管能力,并且炎症来源的成血管能力更高。

牙周膜干细胞中乙酰基转移酶MORF调控成骨的研究

目的:比较正常与炎症来源牙周膜干细胞(H-PDLSCs与P-PDLSCs)中乙酰基转移酶MORF表达水平的差异及其对PDLSCs分化的调控。方法:有限稀释法培养H-PDLSCs与P-PDLSCs,LPS、TNF-α、IL-β及三者混合物体外模拟炎症微环境诱导H-PDLSCs(IP-PDLSCs);基因与蛋白检测方法对比2种来源PDLSCs中MORF的表达水平;蛋白检测方法检测IPPDLSCs中MORF的表达水平;基因、蛋白检测与茜素红染色方法对比H-PDLSCs及下调MORF基因后的PDLSCs成骨基因表达的差异。结果:与H-PDLSCs相比,P-PDLSCs中MORF的表达显著下降(P<0.05);IP-PDLSCs中MORF的表达下降;MORF基因被下调后,PDLSCs成骨能力下降(P<0.05)。结论:牙周炎及炎症微环境会导致PDLSCs中MORF表达的下降,从而使其成骨分化受到抑制。

牙周膜干细胞的表型分析

目的:分析人牙周膜干细胞(PDLSCs)的表型特点,为分离、鉴定和应用PDLSCs提供有效途径。方法:采用免疫磁珠法分离PDLSCs,制备细胞爬片。分别采用免疫荧光、免疫细胞化学染色法检测PDLSCs表面蛋白STRO-1、CD44、Vimentin、CK、COL-I、BSP的表达。收集PDLSCs,采用RT-PCR法检测PDLSCs Scleraxis mRNA、ColⅠ及CAP mRNA的表达情况。结果:PDLSCs表达间充质干细胞表面标志STRO-1、CD44,强阳性表达间充质来源细胞表面蛋白Vimentin,弱表达Col-I,不表达上皮细胞标志蛋白CK、成骨细胞相对特异性蛋白BSP。RT-PCR也显示PDLSCs表达韧带组织特异性基因Scleraxis和Col-I,不表达成牙骨质细胞特异性蛋白CAP。结论:本实验所分离的PDLSCs具有间充质来源的、牙周组织特异性的、未分化细胞的表型特点,该特点可作为PDLSCs分离和鉴定的重要依据。

脂多糖干预卵巢切除小鼠骨髓间充质干细胞的成骨分化能力

背景:骨平衡被打破造成的绝经后骨质疏松往往是由炎症因子的升高造成的,在牙周组织中,炎症致病菌可产生破坏宿主组织的毒性因子,如脂多糖、菌毛、凝集素等。目的:通过建立卵巢切除小鼠骨质疏松的模型,观察脂多糖刺激下骨髓间充质干细胞成骨分化能力的改变,初步探讨雌激素缺乏患者易患牙周炎的细胞分子生物学机制,为绝经后妇女牙周炎的防治提供实验基础。方法:30只雌性昆明小鼠随机均分为卵巢切除组和对照组。取两组小鼠的骨髓间充质干细胞进行成骨诱导,同时加入不同质量浓度脂多糖(0,10,100μg/L)刺激,检测碱性磷酸酶染色、茜素红染色以及碱性磷酸酶活性;RT-PCR之后检测成骨相关分子Runx2、Ocn、Alp的表达。结果与结论:成骨诱导7 d后可表达碱性磷酸酶,21 d后茜素红染色阳性,可形成矿化结节。检测发现成骨相关分子Ocn、Runx2、Alp的mRNA在成骨诱导后均有表达;3种目的基因在100μg/L脂多糖作用下表达显著下降(P<0.05),卵巢切除小鼠骨髓间充质干细胞在脂多糖作用下3种基因表达较对照组下降显著(P<0.05)。卵巢切除小鼠骨髓间充质干细胞的成骨分化能力下降;脂多糖使骨髓间充质干细胞的成骨分化能力下降,卵巢切除组小鼠骨髓间充质干细胞成骨分化能力在脂多糖作用下明显减弱,这可能是雌激素缺乏导致牙周炎易感性增加的细胞分子学机制之一。

人牙周炎症组织中干(祖)细胞的分离培养及初步鉴定

目的:体外分离纯化人牙周炎症组织来源的干(祖)细胞,研究其生物学特性、表面标记物及多向分化能力。方法:用组织块消化法对人牙周炎症组织进行原代培养,经有限稀释法纯化细胞并连续培养,测定其生长曲线和克隆形成率,用免疫荧光化学染色检测细胞表面波形丝蛋白、STRO-1和CD146的表达,并对其进行成骨和成脂诱导,观察其分化能力。结果:从人牙周炎症组织中可提取出干(祖)细胞,该细胞具有较高克隆形成能力,波形丝蛋白、STRO-1、CD146表达阳性,具有成骨、成脂多向分化能力。结论:人牙周炎症组织中存在干(祖)细胞,为牙周组织工程种子细胞提供了新的可能来源。

牙周膜干细胞向成骨细胞方向分化实验

目的:探讨人牙周膜干细胞(Periodontalligament stem cell,PDLSCs)向成骨细胞定向分化潜能,从细胞、分子和基因水平分析矿化诱导过程中细胞形态、功能变化。方法:将免疫磁珠分离的人PDLSCs矿化诱导,通过倒置显微镜观察诱导细胞形态变化,ELISA法检测诱导细胞碱性磷酸酶活性(ALPase)、RT-PCR、Western blot及免疫化学染色分析其成骨相关基因、蛋白表达变化,茜素红染色法检测其矿化结节形成情况来诱导细胞做对照。结果:矿化诱导14d,细胞形态呈成骨样短突起、多角形改变,诱导7d、14d ALPase活性显著增强。21d,诱导细胞高丰度表达骨桥素(OPN)、骨钙素(OCN)、牙骨质附着蛋白(CAP)及I型胶原(COLⅠ)mRNA,而对照组只有COLⅠmRNA弱表达。同时,Western blot及免疫化学染色均显示诱导细胞分泌骨涎蛋白(BSP)。21d,仅诱导组形成大量矿化结节。结论:人PDLSCs在矿化液诱导下可向成骨细胞分化,具有成骨细胞的形态、表型和功能特点,有望成为牙周及种植体周围骨缺损修复再生的理想的种子细胞。