细菌粘附宿主细胞外基质的分子基础

本文对细菌粘附宿主组织时与胞外基质（ＥＣＭ）结合的粘附素分子进行了综述。重点介绍了这类识别粘连基质分子的微生物表面成分的性质、结构和功能。具体涉及的金黄色葡萄球菌、化脓性链球菌、大肠杆菌、肺炎克雷伯菌、耶尔森菌和气单胞菌等,涉及的ＥＣＭ分子有纤维结合蛋白（Ｆｎ）、胶原及血纤维蛋白原。此外,还对ＭＳＣＲＡＭＭ－ＥＣＭ相互作用在细菌定居后,组织向性及致病中的作用进行了讨论。     

骨组织工程基质材料现状及展望

骨组织工程是目前公认的最有可能在临床取得实际效益的研究领域之一,而细胞外基质材料的选取又是骨组织工程的关键。本文从材料的选择,制备方法以及临床应用等方面的研究现状进行了较系统的综述,并对当前基质材料研究所面临的问题以及未来的研究方向进行了分析。     

人骨髓基质细胞体外分离及定向培养内皮细胞

用Ficoll(比重1.077 g/ml)从正常成人骨髓中分离骨髓基质细胞(BMSCs),DMEM-HG 培养基内含20?S、GM-CSF(100 u/ml)、VEGF(10 ng/ml)、FGF(5 ng/ml)、L-谷氨酰胺(2mmol/ L)、肝素(90 u/ml),以及抗生素液进行定向培养和扩增其中的内皮细胞(ECs),Ⅷ因子相关抗原的免疫组化法和透射电镜观察(TEM)鉴定其细胞的性质。结果5.0×105个BMSCs在体外经定向ECs 培养和扩增8代后,获得了6.0×109个ECs,扩增了约1.2×104倍。70%-80%的细胞对Ⅷ因子相关抗原免疫组化呈阳性反应;光镜下细胞呈典型的“鹅卵石”样;TEM下可观察到胞浆内有Weible- palade小体,证实为内皮细胞。实验表明,BMSCs在体外分离和定向培养的ECs,经扩增后可能是心血管组织工程所需种子细胞的又一个重要来源。     

人骨髓基质细胞对精原干细胞体外增殖的影响研究

精原干细胞是精子形成的原始细胞,在睾丸组织中的含量极低,而体外有效扩增方法的选择对其移植治疗和抗生育研究十分重要。本实验选用人骨髓基质细胞代替传统饲养层培养人精原干细胞,探讨精原干细胞能否在该饲养层上增殖的可能机制,为人精原干细胞培养提供实验方法和技术指导。骨髓基质饲养层的制备：无菌分离流产5～8月胎儿股骨,     

兔BMSCs复合纤维蛋白胶在体外分化为角膜基质细胞的研究

目的：探讨体外诱导兔骨髓间充质干细胞（BMSCs）分化为角膜基质细胞的可行性,并观察纤维蛋白胶（FG）作为细胞支架材料的效果。方法：密度梯度法获得BMSCs,体外诱导实验将细胞分为三组：对照组用普通培养皿、BMSCs培养条件并不加角膜基质细胞共培养的条件下培养;非FG共培养组使用普通培养皿并与角膜基质细胞共培养诱导BMSCs分化;FG共培养组使用铺有FG的培养皿并与角膜基质细胞共培养诱导BMSCs分化。培养1w及2w后用WestenBlot法检测三组细胞Keratocan的表达,在相差显微镜下进行形态学观察。结果：原代培养的BMSCs表现出成体干细胞潜能,CD29染色阳性,符合骨髓基质干细胞的特征。诱导培养2周后对照组BMSCs融合成单层、呈条索状生长;非FG共培养组部分细胞体积变小、多突起,局部呈梭形生长;FG共培养组细胞生长状态良好,部分细胞呈梭形或纺锤形,与FG生物相容性好。Westen检测结果：BMSCs细胞在纤维蛋白胶或普通培养皿上特定培养条件下均能诱导表达角膜基质细胞的特异性蛋白Keratocan。结论：骨髓间充质干细胞在条件培养基下可分化为角膜基质细胞,有望作为治疗角膜疾病及角膜组织工程的备选材料,纤维蛋白胶组织相容性好,可为组织工程提供移植细胞片。     

乳酸菌表面蛋白对免疫细胞的诱导增殖及粘附抑制效应

目的研究表面蛋白在乳酸菌体外粘附和激活免疫细胞中的作用。方法应用5mol/L氯化锂结合盐酸胍提取植物乳杆菌LpYZU09、干酪乳杆菌LcYZU02、鼠李糖乳杆菌LrGG、发酵乳杆菌LfYZU15及戊糖片球菌PpYZU32的表面蛋白,并分析提取物对乳酸菌粘附鼠肠上皮细胞、巨噬细胞和脾细胞的抑制作用及诱导增殖效应。结果表面蛋白对3种细胞粘附菌体均具有显著抑制效应,抑制作用具有细胞和菌株差异性,其中菌株LrGG表面蛋白对巨噬细胞粘附5种菌体普遍显示了较强的抑制作用,抑制率为38.7%~76.0%。不同菌株表面蛋白对肠上皮细胞的诱导增殖指数为0.05~0.35,对巨噬细胞为0.05~0.42,对脾细胞为0.02~0.40,诱导效应具有菌株和剂量依赖性,菌株LrGG的诱导增殖指数显著高于其他四种。结论乳酸菌表面的蛋白类因子在粘附和激活免疫细胞中发挥了重要作用。     

EGF体外诱导骨髓基质干细胞增殖分化为成纤维细胞的实验研究

目的:研究表皮生长因子(EGF)在体外诱导兔骨髓基质干细胞(BMSCs)向成纤维细胞增殖分化,为韧带组织工程种子细胞提供可能的来源。方法:以EGF对体外培养的BMsCs进行诱导分化培养,相差显微镜观察细胞生长,MTT检测细胞的增殖,免疫组化半定量细胞的分化。结果:诱导后7d、14d时,诱导组呈现更均一的纤维细胞样的带有长突起的纺锤形细胞,呈束状排列,并且具有更高的细胞密度;诱导组在7d、14d细胞增殖均比对照组快;第10d时,诱导组、对照组胶原Ⅰ、Ⅲ染色均为阳性,但诱导组有更高的染色密度;诱导组、对照组胶原Ⅱ染色阴性。结论:BMSCs经。EGF。诱导后细胞增殖,并且能刺激细胞外基质的表达,基本符合肌腱和韧带组织工程的要求。     

胶原蛋白-壳聚糖支架的构建及其与骨髓基质干细胞复合的实验研究

目的:构建一种组织工程神经支架,并观察体外培养的骨髓基质干细胞在其内部的生长情况,为后续种子细胞的移植提供阶段性实验数据.方法:以Ⅰ型胶原蛋白和壳聚糖为原料通过冷冻干燥技术制备神经支架,扫描电镜观察其内部结构,测量其孔径大小、孔隙率等指标.将体外培养的骨髓基质干细胞与Ⅰ型胶原蛋白-壳聚糖神经支架复合,共培养2天;扫描电镜观察细胞在支架内部的生长情况.结果:构建的神经支架均为圆柱状,内部为纵向平行排列的孔径均匀的微管样结构,细胞紧密贴附在支架微孔内壁上,细胞生长状况良好.结论:Ⅰ型胶原蛋白-壳聚糖支架具有良好的内部三维结构和生物相容性,可与细胞复合后用于修复周围神经缺损.     

骨髓间充质干细胞在脱细胞真皮基质再生过程中的初步研究

较大的腹壁缺损需要应用补片修复来缓解腹横筋膜的张力,人工合成补片的应用一定程度上实现了无张力修补的目的,但它在腹壁外科应用中有诸多的并发症,诸如复发率高,腹腔黏连,肠穿孔导致腹膜炎,侵袭性肠瘘等影响患者术后的正常生活,而脱细胞真皮基质(Acellular dermal matrix,ADM)作为一种新型的生物材料应用在腹壁外科中能解决上述人工合成补片所带来的并发症发挥强大作用且能与周围组织较好的融合,最后改建成宿主自身组织已并在多学科领域中广泛应用;骨髓间充质干细胞(Bone marrow mesenchymal stem cells,BMSCs)能参与组织自我修复,并能分化成为多种功能细胞,分泌各种生长因子,在ADM内源性转归过程中可发挥作用。本文就对骨髓间充质干细胞在ADM生物补片应用于临床疝修补术中转归机制的研究做一综述。     

骨髓基质干细胞的分离纯化及培养

目的 建立骨髓基质干细胞(MSCs)良好的分离纯化和培养方法。方法 将小鼠骨髓基质干细胞自殷骨中分离,应用贴壁选择法结合细胞克隆挑选法进行分离纯化,应用细胞生长因子(EGF和PDGF-BB)刺激法进行MSCs的体外培养和传代,倒置显微镜下观察分离培养的细胞并照像记录。结果,培养获得了纯化的呈梭形成纤雏样细胞的骨髓基质干细胞。在生长因子EGF和PDGF-BB的共同作用下,传代MSCs生长旺盛,形态均一。结论 该方法是简便高效的骨髓基质干细胞的分离纯化和培养方法。     

Vitreous cryopreservation of tissue engineered bone composed of bone marrow mesenchymal stem cells and partially demineralized bone matrix

Cryopreservation of tissue engineered products by maintaining their structure and function is a prerequisite for large-scale clinical applications. In this study, we examined the feasibility of cryopreservation of tissue engineered bone (TEB) composed of osteo-induced canine bone marrow mesenchymal stem cells (cBMSCs) and partially demineralized bone matrix (pDBM) scaffold by vitrification. A novel vitreous solution named as VS442 containing 40% dimethyl-sulfoxide (DMSO), 40% EuroCollins (EC) solution and 20% basic culture medium (BCM) was developed. After being cultured in vitro for 8 days, cell/scaffold complex in VS442 was subjected to vitreous preservation for 7 days and 3 months, respectively. Cell viability, proliferation and osteogenic differentiation of cBMSCs in TEB after vitreous cryopreservation were examined with parallel comparisons being made with those cryopreserved in VS55 vitreous solution. Compared with that cryopreserved in VS55, cell viability and subsequent proliferative ability of TEB in VS442 after being rewarmed were significantly higher as detected by live/dead staining and DNA assay. The level of alkaline phosphatase (ALP) expression and osteocalcin (OCN) deposition in VS442 preserved TEB was also higher than those in the VS55 group since 3 days post-rewarm. Both cell viability and osteogenic capability of the VS55 group were found to be declined to a negligible level within 15 days post-rewarm. Furthermore, it was observed that extending the preservation of TEB in VS442 to 3 months did not render any significant effect on its survival and osteogenic potential. Thus, the newly developed VS442 vitreous solution was demonstrated to be more efficient in maintaining cellular viability and osteogenic function for vitreous cryopreservation of TEB over VS55.     

Ectopic osteogenesis and chondrogenesis of bone marrow stromal stem cells in alginate system

In orthopedics, the regeneration and repair of cartilage or bone defects after trauma, cancer, or metabolic disorders is still a major clinical challenge. Through developmental plasticity, bone marrow mesenchymal stem cells (BMSSCs) are important seed cells for the musculoskeletal tissue engineering approach. The present study sought to determine the ectopic osteogenic and chondrogenic ability of BMSSCs in combination with a scaffolding material made from alginate gel. After isolation from the bone marrow of BALB/C mice, BMSSCs were expanded in vitro and induced to chondrogenesis or osteogenesis for 14 days, respectively. Subsequently, these induced cells were seeded into alginate gel, and the constructs implanted into BALB/C nude mice subcutaneously for up to 8 weeks. In the histological analysis, the transmission electron microscopy of the retrieved specimens at various intervals showed obvious trends of ectopic cartilage or bone formation along with the alteration of the cellular phenotype. Simultaneously, the results of the immunohistochemical staining and RT-PCR both confirmed the expression of specific extracellular matrix (ECM) markers for cartilaginous tissue, such as collagen type II (Col-II), SOX9, and aggrecan, or alternatively, markers for osteoid tissue, such as osteopontin (OPN), osteocalcin (OCN), and collagen type I (Col-I). During subcutaneous implantation, the elevating production of ECM and the initiation of the characteristic structure were closely correlated with the increase of time. In contrast, there was an apparent degradation and resorption of the scaffolding material in blank controls, but with no newly formed tissues. Finally, the constructs that were made of non-induced BMSSCs nearly disappeared during the 8 weeks after implantation. Therefore, it is suggested that alginate gel, which is combined with BMSSCs undergoing differentiation into skeletal lineages, may represent a useful strategy for the clinical reconstruction of bone and cartilage defects.     

间歇式轴向压应力对组织工程骨种子细胞的黏附增殖与成骨分化促进作用的研究

目的探究间歇式轴向压应力对组织工程骨种子细胞黏附、增殖与成骨分化能力的影响。 方法构建表达绿色荧光蛋白的兔骨髓间充质干细胞（rBMSCs）作为示踪种子细胞,运用旋转细胞培养仪将松质骨支架和种子细胞共培养7 d获得组织工程骨（TEB）,实验组在第7 ~ 14天施加大小10 N、频率1 Hz、4 h/d的间歇式轴向压应力刺激,对照组常规培养,14 d后胰酶消化法获取两组种子细胞并比较其黏附、增殖和成骨分化能力。采用两组独立样本t检验进行统计学分析。 结果（1）流式细胞术显示rBMSCs被成功提取分离。（2）倒置荧光显微镜及扫描电镜显示TEB中种子细胞与支架相容性良好。（3）活体荧光成像系统及扫描电镜显示应力刺激组种子细胞的生长状况要优于非应力刺激组,前者平均荧光密度及细胞数/500倍视野均大于后者,差异均具有统计学意义（平均荧光密度：（3.75±0.34）×10⁸ vs （2.91±0.22）×10⁸,t = 2.90,P = 0.04;细胞数/500倍视野：30.50±4.43 vs 21.00±5.13,t = 3.14,P = 0.01）。（4）细胞黏附实验显示,应力刺激组种子细胞的75%细胞贴壁时间短于非应力刺激组,两组时间分别为（3.00±0.41）h、（13.33±1.70）h,差异具有统计学意义（t = 8.20,P < 0.01）,前者的最终细胞贴壁率高于后者（99.97%±0.34% vs 85.83%±1.18%）,差异具有统计学意义（t = 11.31,P < 0.01）。（5）CCK-8检测显示,在培养第48 ~ 96 h,应力刺激组种子细胞的增殖能力优于非应力刺激组,将两者的450 nm吸光度值在第48小时（0.49±0.02、0.40±0.02）、72 h（0.76±0.07、0.64±0.04）和96 h（1.58±0.07、1.34±0.13）分别进行比较,差异均具有统计学意义（t = 5.15、2.57、2.86,P均< 0.01）。（6）在成骨诱导14 d后,应力刺激组种子细胞的ALP和Ca结节染色阳性率要强于非应力刺激组：两组ALP染色阳性率分别为26.73%±4.56%、16.68% ± 3.89%,差异具有统计学意义（t =3.33,P = 0.03）;两组Ca结节染色阳性率分别为41.81%±3.56%、27.40% ± 2.35%,差异具有统计学意义（t = 3.68,P = 0.02）。 结论间歇性轴向压应力可促进组织工程骨种子细胞的黏附、增殖与成骨分化。     

Engineering of osteoinductive grafts by isolation and expansion of ovine bone marrow stromal cells directly on 3D ceramic scaffolds

In this work, we investigated whether osteoinductive constructs can be generated by isolation and expansion of sheep bone marrow stromal cells (BMSC) directly within three-dimensional (3D) ceramic scaffolds, bypassing the typical phase of monolayer (2D) expansion prior to scaffold loading. Nucleated cells from sheep bone marrow aspirate were seeded into 3D ceramic scaffolds either by static loading or under perfusion flow and maintained in culture for up to 14 days. The resulting constructs were exposed to enzymatic treatment to assess the number and lineage of extracted cells, or implanted subcutaneously in nude mice to test their capacity to induce bone formation. As a control, BMSC expanded in monolayer for 14 days were also seeded into the scaffolds and implanted. BMSC could be isolated and expanded directly in the 3D ceramic scaffolds, although they proliferated slower than in 2D. Upon ectopic implantation, the resulting constructs formed a higher amount of bone tissue than constructs loaded with the same number of 2D-expanded cells. Constructs cultivated for 14 days generated significantly more bone tissue than those cultured for 3 days. No differences in bone formation were found between samples seeded by static loading or under perfusion. In conclusion, the culture of bone marrow nucleated cells directly on 3D ceramic scaffolds represents a promising approach to expand BMSC and streamline the engineering of osteoinductive grafts.     

Proliferation and differentiation of bone marrow stromal cells under hypoxic conditions

Low oxygen tension is a potent differentiation inducer of numerous cell types and an effective stimulus of many gene expressions. Here, we described that under 8% O(2), bone marrow stromal cells (MSCs) exhibited proliferative and morphologic changes. The level of differentiated antigen H-2Dd and the number of G(2)/S/M phase cells increased evidently under 8% O(2) condition. Also, the proportion of wide, flattened, and epithelial-like cells (which were alkaline phosphatase staining positive) in MSCs increased significantly. When cultured in adipogenic medium, there was a 5- to 6-fold increase in the number of lipid droplets under hypoxic conditions compared with that in normoxic culture. We also demonstrated the existence of MSC differentiation under hypoxic conditions by electron microscopy. Expression of Oct4 was inhibited under 8% O(2) condition, but after adipocyte differentiation in normoxic culture and hypoxia-mimicking agents cobalt chloride (CoCl(2)) and deferoxamine mesylate (DFX) treatments, Oct4 was still expressed in MSCs. These results indicate hypoxia accelerates MSC differentiation and hypoxia and hypoxia-mimicking agents exert different effects on MSC differentiation.     

骨髓间充质干细胞向神经细胞分化的研究

无论是在体外实验、还是在体内实验,MSCs都可以向中枢神经系统(CNS)神经细胞分化,但争议颇多。因为功能性神经元不仅要具有典型神经元的形态、特异性标记,还要求具有可兴奋性、能和其他神经元形成突触联系、产生突触电位等,所以对于骨髓间充质干细胞是否能诱导出真正具有功能的神经元存在很大分歧。在此对MSCs向神经细胞诱导分化研究的现况、存在的问题及发展前景给以综述。     

Steroid regulation of proliferation and osteogenic differentiation of bone marrow stromal cells: A gender difference

Bone marrow mesenchymal stem cells (MSCs) are considered a potential cell source for stem cell-based bone tissue engineering. However, noticeable limitations of insufficient supply and reduction of differentiation potential impact the feasibility of their clinical application. This study investigated the in vitro function of steroids and gender differences on the proliferation and differentiation of rat MSCs. Bone marrow MSCs of age-matched rats were exposed to proliferation and osteogenic differentiation media supplements with various concentrations of 17β-estradiol (E2) and dexamethasone. Cell proliferation was measured by MTS assay; osteogenic markers and steroid-associated growth factors and receptors were evaluated by ELISA and real-time PCR. The results revealed that supplements of E2 and dexamethasone increase MSC proliferation in a biphasic manner. The optimal dose and interaction of steroids required to improve MSC proliferation effectively varied depending on the gender of donors. Supplementation of E2 effectively improves osteogenic differentiation markers including ALP, osteocalcin and calcium levels for MSCs isolated from both male and female donors. The mRNA of TGF-β1 and BMP-7 are also up-regulated. However, effective doses to maximally improve osteogenic potentials and growth factors for MSCs are different between male and female donors. The relationship between steroid receptors, osteogenic markers and cytokines are also varied by genders. The outcomes of the present study strongly indicate that steroids potentially function as an effective modulator to improve the capacity of MSCs in bone regeneration. It provides crucial information for improving and optimizing MSCs for future clinical application of bone regeneration.     

Evaluating the biodegradability of Gelatin/Siloxane/Hydroxyapatite (GS-Hyd) complex in vivo and its ability for adhesion and proliferation of rat bone marrow mesenchymal stem cells

Recent studies have shown that the use of biomaterials and new biodegradable scaffolds for repair or regeneration of damaged tissues is of vital importance. Scaffolds used in tissue engineering should be biodegradable materials with three-dimensional structures which guide the growth and differentiation of the cells. They also tune physical, chemical and biological properties for efficient supplying of the cells to the selected tissues and have proper porosity along with minimal toxic effects. In this manner, the study of these characteristics is a giant stride towards scaffold design. In this study, Gelatin/Siloxane/Hydroxyapatite (GS-Hyd) scaffold was synthesized and its morphology, in vivo biodegradability, cytotoxic effects and ability for cell adhesion were investigated using mesenchymal stem cells (MSCs). The cells were treated with different volumes of the scaffold suspension for evaluation of its cytotoxic effects. The MSCs were also seeded on scaffolds and cultured for 2 weeks to evaluate the ability of the scaffold in promoting of cell adhesion and growth. To check the biodegradability of the scaffold in vivo, scaffolds were placed in the rat body for 21 days in three different positions of thigh muscle, testicle, and liver and they were analyzed by scanning electron microscopy (SEM) and weight changes. According to the results of the viability of this study, no cytotoxic effects of GS-Hyd scaffold was found on the cells and MSCs could adhere on the scaffold with expanding their elongations and forming colonies. The rate of degradation as assessed by weight loss was significant within each group along with significant differences between different tissues at the same time point. SEM micrographs also indicated the obvious morphological changes on the surface of the particles and diameter of the pores through different stages of implantation. The greatest amount of degradation happened to the scaffold particles implanted into the muscle, followed by testicle and liver, respectively.     

Evaluation of bone marrow derived mesenchymal stem cells for full-thickness wound healing in comparison to tissue engineered chitosan scaffold in rabbit

Background

Chronic wounds present a major challenge in modern medicine. Even under optimal conditions, the healing process may lead to scarring and fibrosis. The ability of mesenchymal stem cells (MSCs) to differentiate into other cell types makes these cells an attractive therapeutic tool for cell transplantation. Both tissue-engineered construct and MSC therapy are among the current wound healing procedures and potential care. Chitosan has been widely applied in tissue engineering because of its biocompatibility and biodegradability.

Tissue-engineered bone formation with cryopreserved human bone marrow mesenchymal stem cells

Bone marrow mesenchymal stem cells (MSCs) have become the main cell source for bone tissue engineering. It has been reported that cryopreserved human MSCs can maintain their potential for proliferation and osteogenic differentiation in vitro. There are, however, no reports on osteogenesis with cryopreserved human MSCs in vivo. The aim of this study was to determine whether cryopreservation had an effect on the proliferation capability and osteogenic differentiation of human MSCs on scaffolds in vitro and in vivo. MSCs were isolated from human bone marrow, cultured in vitro until passage 2, and then frozen and stored at −196 °C in liquid nitrogen with 10% Me₂SO as cryoprotectant for 24 h. The cryopreserved MSCs were then thawed rapidly, seeded onto partially demineralized bone matrix (pDBM) scaffolds and cultured in osteogenic media containing 10 mM sodium β-glycerophosphate, 50 μM l-ascorbic acid, and 10 nM dexamethasone. Non-cryopreserved MSCs seeded onto the pDBM scaffolds were used as control groups. Scanning electronic microscopy (SEM) observation, DNA content assays, and measurements of alkaline phosphatase (ALP) activity and osteocalcin (OCN) content were applied, and the results showed that the proliferation potential and osteogenic differentiation of MSCs on pDBM in vitro were not affected by cryopreservation. After 2 weeks of subculture, the MSCs/pDBM composites were subcutaneously implanted into the athymic mice. The constructs were harvested at 4 and 8 weeks postimplantation, and histological examination showed tissue-engineered bone formation in the pDBM pores in both groups. Based on these results, it can be concluded that cryopreservation allows human MSCs to be available for potential therapeutic use to tissue-engineer bone.