α2-HS 糖蛋白基因与中国人群的髋部骨大小的相关性研究

骨大小是一种独立于骨密度（BMD）的骨质疏松性骨折的重要风险因子。由于其高遗传率,充分了解控制骨大小的遗传因素有很重要的临床意义。文章研究目的为检测中国人群中α2-HS糖蛋白基因（AHSG）多态性和腰椎及髋部骨大小变异之间的关联。我们总共征集了来自中国401个核心家庭（包括父母亲及至少一个女儿）的1260个研究样本,并且分型了AHSG基因第7个外显子的Sac Ⅰ位点多态性。该位点核苷酸的替换（C→G）引起第238号丝氨酸被苏氨酸取代,因此可能对基因功能有影响。在任何骨骼位点,没有发现显著的群体分层。发现-HSG基因SacⅠ位点多态性和转子间（P=0．019）以及全髋的（P=0．035）骨大小呈显著性相关。该多态性位点能分别解释转子间和全髋3．74％和3．16％的骨大小变异。连锁分析没有检测到显著性结果,可能的主要原因是样本中同胞对的数目较少,统计效力较低,以及SacⅠ位点多态相对于微卫星标记对连锁分析提供的信息量少。结果表明,月HSG基因多态性可能和中国人群中髋部骨大小变异有关。     

骨髓间充质干细胞分化为胰岛细胞治疗糖尿病

糖尿病已成为严重危害人类健康的疾病之一。目前,移植胰岛治疗糖尿病已初见疗效,但由于胰岛来源匮乏和免疫排斥反应而受阻。骨髓间充质干细胞(bonemarrowmesenchymalstemcells,BMMSCs)取材方便,容易进行体外分离、培养和纯化,且具有跨越分化潜能。若将自体BMMSCs诱导分化为胰岛细胞,可望解决细胞来源和免疫排除问题,实现糖尿病的自体细胞治疗。现对体外诱导BMMSCs分化为胰岛细胞治疗糖尿病的研究进展进行综述,并指出了存在问题和今后的研究方向。     

Osteogenic growth peptide enhances the rate of fracture healing in rabbits

The discovery of growth factors, such as osteogenic growth peptide (OGP), that stimulate bone formation led to experiments to discover whether they can accelerate fracture healing. To determine whether OGP enhances the rate of healing in rabbits, fractures were made in the tibiae of New Zealand White rabbits and immobilized with either a plastic plate (unstable mechanical conditions), or a dynamic compression plate (stable mechanical conditions). OGP was administered to experimental animals by intravenous injection from day 4 until the day before sacrifice; control animals were not injected. After treatment with OGP, callus development under unstable mechanical conditions was accelerated. At 7 days, the cartilage in the centre of the callus was covered by bone and endochondral ossification had started; these events occur at 10 days in control fractures. Subsequently, endochondral ossification is completed earlier which allows the invasion of the fracture gap by cells, so that cortical union is complete by 21 to 28 days. In control fractures, bone is only beginning to form in the gaps at 28 days. There was no increase in the size of the callus in any of the experimental fractures compared to the untreated controls. Treatment with OGP has no observable effect on the rate of healing of fractures under stable mechanical conditions. These observations suggest that under unstable mechanical conditions only, the rate of callus formation and subsequent cortical healing is enhanced by treatment with OGP, but that the size of the callus is determined by mechanical and other factors.     

孕期应激对子代大鼠骨髓淋巴干细胞发育的影响

孕期应激对子代产生的影响是多方面的,这种影响是复杂的。研究表明,出生前的应激经历可导致出生后子代长期的免疫功能改变。这些改变追其根源与骨髓淋巴干细胞的改变有关。本文综述了大鼠孕期经历应激的子代骨髓淋巴干细胞所受的影响及免疫系统的相关改变,并根据现有的研究提出假说,为进一步研究孕期应激导致子代免疫系统改变的机理研究提供新的思路。     

体外诱导骨髓间充质干细胞向肝细胞样细胞方向分化

探讨成纤维生长因子-2(FGF-2)在体外定向诱导大鼠骨髓间充质干细胞(BM-MSCs)向肝细胞样细胞分化的作用及量化关系。体外分离培养大鼠BM-MSCs,将第3代BM-MSCs采用不同剂量的FGF-2诱导。诱导后,在显微镜下观察细胞形态学的改变;用免疫细胞化学法检测白蛋白和CK19的分泌;Shiff染色法检测糖原的分泌。诱导后BM-MSCs由梭形向多角形、卵圆形方向变化,白蛋白、CK19和糖原12 d即有阳性表达,以后随着诱导时间的延长阳性率逐渐升高。20 ng/mL FGF-2诱导比10 ng/mL FGF-2诱导细胞白蛋白、CK19和糖原的表达量均多。20 ng/mL FGF-2具有较强的诱导BM-MSCs向肝细胞样细胞分化的能力。     

Vascular morphogenesis by adult bone marrow progenitor cells in three-dimensional fibrin matrices

The neovascularization of tissues is accomplished by two distinct processes: de novo formation of blood vessels through the assembly of progenitor cells during early prenatal development (vasculogenesis), and expansion of a pre-existing vascular network by endothelial cell sprouting (angiogenesis), the main mechanism of blood vessel growth in postnatal life. Evidence exists that adult bone marrow (BM)-derived progenitor cells can contribute to the formation of new vessels by their incorporation into sites of active angiogenesis. Aim of this study was to investigate the in vitro self-organizing capacity of human BM mononuclear cells (BMMNC) to induce vascular morphogenesis in a three-dimensional (3D) matrix environment in the absence of pre-existing vessels. Whole BMMNC as well as the adherent and non-adherent fractions of BMMNC were embedded in fibrin gels and cultured for 3-4 weeks without additional growth factors. The expression of hematopoietic-, endothelial-, smooth muscle lineage, and stem cell markers was analyzed by immunohistochemistry and confocal laser-scanning microscopy. The culture of unselected BMMNC in 3D fibrin matrices led to the formation of cell clusters expressing the endothelial progenitor cell (EPC) markers CD133, CD34, vascular endothelial growth factor receptor (VEGFR)-2, and c-kit, with stellar shaped spreading of peripheral elongated cells forming tube-like structures with increasing complexity over time. Cluster formation was dependent on the presence of both adherent and non-adherent BMMNC without the requirement of external growth factors. Developed vascular structures expressed the endothelial markers CD34, VEGFR-2, CD31, von Willebrand Factor (vWF), and podocalyxin, showed basement-membrane-lined lumina containing CD45+ cells and were surrounded by alpha-smooth muscle actin (SMA) expressing mural cells. Our data demonstrate that adult human BM progenitor cells can induce a dynamic self organization process to create vascular structures within avascular 3D fibrin matrices suggesting a possible alternative mechanism of adult vascular development without involvement of pre-existing vascular structures.     

Bone marrow mesenchymal stem cells protected post‐infarcted myocardium against arrhythmias via reversing potassium channels remodelling

Bone marrow mesenchymal stem cells (BMSCs) emerge as a promising approach for treating heart diseases. However, the effects of BMSCs‐based therapy on cardiac electrophysiology disorders after myocardial infarction were largely unclear. This study was aimed to investigate whether BMSCs transplantation prevents cardiac arrhythmias and reverses potassium channels remodelling in post‐infarcted hearts. Myocardial infarction was established in male SD rats, and BMSCs were then intramyocardially transplanted into the infarcted hearts after 3 days. Cardiac electrophysiological properties in the border zone were evaluated by western blotting and whole‐cell patch clamp technique after 2 weeks. We found that BMSCs transplantation ameliorated the increased heart weight index and the impaired LV function. The survival of infarcted rats was also improved after BMSCs transplantation. Importantly, electrical stimulation‐induced arrhythmias were less observed in BMSCs‐transplanted infarcted rats compared with rats without BMSCs treatment. Furthermore, BMSCs transplantation effectively inhibited the prolongation of action potential duration and the reduction of transient and sustained outward potassium currents in ventricular myocytes in post‐infarcted rats. Consistently, BMSCs‐transplanted infarcted hearts exhibited the increased expression of K_V4.2, K_V4.3, K_V1.5 and K_V2.1 proteins when compared to infarcted hearts. Moreover, intracellular free calcium level, calcineurin and nuclear NFATc3 protein expression were shown to be increased in infarcted hearts, which was inhibited by BMSCs transplantation. Collectively, BMSCs transplantation prevented ventricular arrhythmias by reversing cardiac potassium channels remodelling in post‐infarcted hearts.     

在CHO细胞中表达具有高效成骨活性的BMP-2/7异源二聚体

PCR扩增BMP-2与BMP-7的编码基因, 利用重叠PCR以柔性肽(Gly4Ser)5编码序列将二者串连并克隆到质粒pIRESneo3上, 转染CHO-K1细胞得到混合稳定克隆。ELISA检测培养液中BMP-2/7异源二聚体蛋白的表达水平为230.75±13.34 ng/mL, 以此为条件培养基处理成骨细胞株MC3T3, 对照组为分别含有CHO-K1细胞及大肠杆菌表达的BMP-2同源二聚体以及PBS的条件培养基。结果发现碱性磷酸酶染色与茜素红染色差异明显, 定量RT-PCR显示分子指标OC、ALP、Runx2与Osx的转录水平明显增高(P<0.05), Luciferase报告基因检测BMP/Smad通路活性较对照组升高明显(P<0.05)。首次设计构建了BMP-2/7异源二聚体蛋白, 其成骨活性显著高于BMP-2同源二聚体。     

Polydatin promotes the neuronal differentiation of bone marrow mesenchymal stem cells in vitro and in vivo: Involvement of Nrf2 signalling pathway

Bone marrow mesenchymal stem cell (BMSC) transplantation represents a promising repair strategy following spinal cord injury (SCI), although the therapeutic effects are minimal due to their limited neural differentiation potential. Polydatin (PD), a key component of the Chinese herb Polygonum cuspidatum, exerts significant neuroprotective effects in various central nervous system disorders and protects BMSCs against oxidative injury. However, the effect of PD on the neuronal differentiation of BMSCs, and the underlying mechanisms remain inadequately understood. In this study, we induced neuronal differentiation of BMSCs in the presence of PD, and analysed the Nrf2 signalling and neuronal differentiation markers using routine molecular assays. We also established an in vivo model of SCI and assessed the locomotor function of the mice through hindlimb movements and electrophysiological measurements. Finally, tissue regeneration was evaluated by H&E staining, Nissl staining and transmission electron microscopy. PD (30 μmol/L) markedly facilitated BMSC differentiation into neuron‐like cells by activating the Nrf2 pathway and increased the expression of neuronal markers in the transplanted BMSCs at the injured spinal cord sites. Furthermore, compared with either monotherapy, the combination of PD and BMSC transplantation promoted axonal rehabilitation, attenuated glial scar formation and promoted axonal generation across the glial scar, thereby enhancing recovery of hindlimb locomotor function. Taken together, PD augments the neuronal differentiation of BMSCs via Nrf2 activation and improves functional recovery, indicating a promising new therapeutic approach against SCI.