人髌下脂肪垫干细胞的分离培养鉴定及初步研究

目的建立人髌下脂肪垫干细胞分离、培养和鉴定的平台，验证其可作为可靠的干细胞来源，并可作为细胞模型参与科学研究。 方法人髌下脂肪垫取自膝关节置换手术患者，经Ⅰ型胶原酶消化，在高糖Dulbecco改良Eagle培养基(DMEM)内扩增，取P5代细胞用于检测其"干性"及三向分化能力。与微尺度支架结合，通过RT－PCR检测成骨基因的表达，应用最小显著性差异法进行组间两两比较，用于验证微尺度支架的成骨诱导特性。 结果人髌下脂肪垫干细胞具备间充质干细胞相关特性，包括黏附贴壁性；成脂肪、成软骨及成骨分化；表达相关表面标记，如分化抗原簇(CD)73、CD90和CD105；不表达造血细胞系的分子表面标记，如c-kit、CD14、CD11b、CD34、CD45、CD19、CD79和人白细胞抗原(HLA)-DR。本课题中人髌下脂肪垫来源干细胞成功作为一种干细胞模型，证明HaCG微尺度支架具备成骨诱导特性，表现为三组中成骨基因ALP、COL1、Runx2表达差异有统计学意义(分别为F＝150，P<0.01；F＝68，P<0.01；F＝16，P<0.01)。HaCG微尺度支架组高于纯明胶微尺度支架组及二维培养组，纯明胶微尺度支架组高于二维培养组(P值均小于0.05)。 结论人髌下脂肪垫干细胞分离、培养和鉴定平台的建立，未来可作为细胞模型应用于多种不同实验。     

B细胞介导的体液免疫应答在肝移植急性排斥反应中的作用

目前，国内外肝移植学界对肝移植术后急性排斥反应(AR)的机制阐释为T细胞介导的细胞免疫应答，但为获得长期生存仍需长期乃至终身服用免疫抑制剂。即使如此，临床上AR仍时有发生，并导致相当一部分受者移植肝功能丧失，更重要的是受者术后还受到感染、肿瘤和其他一系列不良反应及沉重经济负担的影响。因此，为肝移植AR机制提出新的理论解释，更全面深入阐明肝移植免疫排斥反应的内在机制，进而依据新的机制研制出新型免疫抑制剂已势在必行。本文就B细胞介导的体液免疫应答在肝移植AR中的作用作一综述。     

A new aspect of in vitro antimicrobial leukocyte- and platelet-rich plasma activity based on flow cytometry assessment

The current literature suggests that the antibacterial effect of leukocyte- and platelet-rich plasma (L-PRP) is directly related to platelet and leukocyte concentrations. The aim of this study was twofold: first, to evaluate the antimicrobial effect of L-PRP against selected bacterial strains in vitro, and second, to correlate this effect with leukocyte and platelet content in the final concentration. Blood was collected from 20 healthy males, and L-PRP, acellular plasma (AP), and autologous thrombin were consecutively prepared. Flow cytometry analysis of the blood, L-PRP, and AP was performed. The L-PRP gel, liquid L-PRP, and thrombin samples were tested in vitro for their antibacterial properties against seven selected bacterial strains using the Kirby–Bauer disk-diffusion method. There was notable antimicrobial activity against selected bacterial strains. No statistically significant correlations between antimicrobial activities and the platelet concentration in L-PRP were observed. Statistically significant positive correlations between selected leukocyte subtypes and antimicrobial activity were noted. A negative correlation was found between elevated monocyte count and antimicrobial activity of L-PRP against one bacterial strain studied. L-PRP possesses antimicrobial activity and can be potentially useful in the fight against certain postoperative infections. The bactericidal effect of L-PRP is caused by leukocytes, and there exists a relationship among selected leukocyte subtypes and L-PRP antimicrobial activity.     

人脐带间充质干细胞对大鼠视网膜光损伤的保护作用

目的　观察体外人脐带间充质干细胞（human umbilical cord mesenchymal stem cells，hUCMSCs）能否由视网膜匀浆上清液诱导分化为神经样细胞及移植到视网膜光损伤大鼠玻璃体内后存活、迁移、整合及分化的情况。方法　无菌条件下采集健康足月剖宫产胎儿的正常脐带组织，经2.5 g·L^-1胰蛋白酶和1 g·L^-1胶原酶消化、贴壁培养获得hUCMSCs。将CM-Dil标记的hUCMSCs注入光损伤大鼠玻璃体内，观察眼内整合分化情况，对正常对照组、光损伤组、PBS治疗组和hUCMSCs治疗组大鼠视网膜外核层层数和厚度进行对比分析。结果　hUCMSCs培养48 h后贴壁生长，呈长梭形，14 d后可见细胞融合成片。光损伤后大鼠视网膜外核层结构紊乱、细胞层数减少，厚度变薄，与正常对照组［（40.73±1.32）μm］相比，hUCMSCs治疗组［（31.28±1.79）μm］与PBS治疗组［（17.21±1.02）μm］及光损伤组［（12.68±1.42）μm］的视网膜外核层厚度均变薄（均为P<0.05）。与光损伤组相比，PBS治疗组和hUCMSCs治疗组视网膜外核层层数显著增加。结论　HUCMSCs移植到光损伤大鼠玻璃体内后能存活、迁移及整合到受损伤视网膜，hUCMSCs玻璃体内移植可抑制光损伤大鼠光感受器的凋亡。     

Epithelial physical barrier defects in chronic rhinosinusitis

Introduction: Chronic rhinosinusitis (CRS) is a common upper airway disease with a prevalence of greater than 10% of the general population. Although the pathogenesis of CRS remains poorly understood, there is growing evidence indicating that epithelial physical barrier defects play an important role in CRS pathogenesis.

Areas covered: Epithelial physical barriers are maintained by various intercellular junctions, especially tight junctions (TJs). Recent studies suggest that the expression of TJ molecules and epithelial barrier function in human nasal epithelium are modulated by various internal and external factors. This review summarizes recent advances regarding the structure, function, and regulating mechanisms of the epithelial physical barrier in the context of CRS.

Expert opinion: Available data indicate that epithelial physical barrier defects in CRS can result from inhaled allergens, microbial or virus infections, cytokines, hypoxia, or zinc deficiency, among other causes. Several genes/molecules, such as SPINK5, S100A7, S100A8/9, PCDH1, NDRG1, SPRR, and p63 are involved in modulating the physical barrier function in the context of CRS. The exact mechanisms and molecular pathways that lead to these barrier defects, however, require additional study. Additional work is necessary to further explore the epithelial physical barrier function in normal and pathologic sinonasal mucosa.     

VP1-Binding Protein Glucose-regulated protein 78 as an important mediator for Enterovirus 71 infecting Human Brain Microvascular Endothelial Cells

Purpose: Enterovirus 71 (EV71) is one of the main pathogens causing hand, foot and mouth disease, which could even induce severe brain damage in some patients. As the underlying mechanism of the invasion and replication process still remains largely unknown, we investigated the role of candidate proteins expressed during EV71 invasion in human brain microvascular endothelial cells (HBMECs) to delineate the pathophysiological mechanism of EV-71 infection. Materials and Methods: Ninety-one candidate EV71-associated proteins which could bind the major capsid protein (viral protein 1 [VP1]) of EV71 on the HBMEC were identified by applying an analysis of glutathione-S-transferase pull-down coupling with liquid chromatography-electrospray ionisation-tandem mass spectrometry (LC-ESI-MS/MS). Seventy-eight kDa glucose-regulated protein 78 (GRP78) binding to the VP1 protein was further validated by co-immunoprecipitation, immunofluorescence and western blot analysis. To explore the role of GRP78 in EV71 infection, GRP78 was knocked down and overexpressed in HBMEC and was verified by TCID50 assay. Results: LC-ESI-MS/MS-identified 91 proteins were subjected to gene ontology analysis, and on molecular and biological function analysis revealed GRP78 act as an important binding protein in mediating EV71 infection. In addition, immunofluorescence demonstrated the co-localisation of GRP78 and VP1 in cytoplasm of the infected HBMEC. The TCID50 assay showed that knockdown of GRP78 could attenuate the replication capacity of EV71 in HBMEC, and the overexpression could increase the virus titre in HBEMC at 24 h post-infection suggesting that GRP78 was associated with the replication capacity of EV71 in HBMEC. Conclusion: These findings provided evidence that GRP78 plays an important role during the progression of EV71 infection as a mediator in HBMEC.     

Stem cells for babies and their surgeons: The future is now

Pediatric surgeons are ideal allies for the translation of basic science including stem cell therapies. In the spirit of Robert E. Gross, of applying creative solutions to pediatric problems with technical expertise, we describe the impending cellular therapies that may be derived from stem and progenitor cells. Understanding the types and capabilities of stem and progenitor cells is important for pediatric surgeons to join and facilitate progress for babies. We are developing an induced pluripotent stem cell therapy for enteric neuropathies such as Hirschsprung disease that might be helpful for children in the near future. Our goals, which we hope to share with other surgeons and scientists, include working to establish safe clinical trials and meeting regulatory standards in a thoughtful way that balances patients need and unknown risks.