Patterning of neural stem cells on poly(lactic-co-glycolic acid) film modified by hydrophobin

Patterning of neural stem cells (NSCs) is of great importance for its potential applications in the therapy of nerve injuries. Due to the critical requirements and the great difficulty in NSCs cultivation, developing new methods for NSCs patterning is very challenging and has progressed slowly in recent years. In this study, we reported a new method for patterning NSCs on a hydrophobin II (HFBI) modified poly(lactic-co-glycolic acid) (PLGA) film by using microcontact printing (μCP) technique. HFBI modification converted the PLGA surface from hydrophobic to hydrophilic, which should facilitate the absorption of serum on it. Serum was transferred onto the modified PLGA film by microcontact printing (μCP) to promote NSCs adhesion on the PLGA surface. Since the serum-coated PLGA surface promoted NSCs adhesion and the serum-free PLGA surface inhibited NSCs adhesion, micro-patterns of NSCs were obtained by directly culturing NSCs on the PLGA surface patterned with serum. This method allows the precise control of NSCs adhesion on the PLGA film without using the conventional cell-repellent species, which is anticipated to make great contribution in the fields of therapy of nerve injuries.     

人胎盘间充质样干细胞的分离、培养及其生物学特性分析

从组织块中分离纯化成体干细胞具有一定的困难,其他细胞的混杂成为获取高纯度组织干细胞的一个技术瓶颈.以人体胎盘为研究对象,在分散组织细胞的基础上,通过不同时间梯度贴壁方法分离纯化了人胎盘间充质样干细胞,并与常规的直接贴壁方法作了比较,同时分析了时间梯度贴壁方法分选细胞的增殖能力、多分化潜能以及免疫原性.研究结果表明,时间梯度贴壁法获得的细胞具有较强的增殖能力.直接贴壁法得到的细胞不具有分化潜能,而时间梯度贴壁法获得的细胞具有向成骨细胞和成脂肪细胞方向分化的能力.通过对免疫原性基因检测的分析,表明时间梯度贴壁法获得的细胞表达HLA-Ⅰ,但不表达HLA-Ⅱ.     

钾离子在烟草梗丝上的吸附性能

通过静态吸附实验,研究了K^＋在烟草叶梗上的吸附性能,考察了粒径大小、pH值、温度、K^＋浓度、阴离子、共存物质等诸因素对吸附的影响。结果表明,粒径大小、pH值、温度、K^＋浓度、阴离子、共存物质对吸附均有明显影响;吸附热力学过程可用Freundlich等温吸附模型描述。     

Preparation of biodegradable polymer nanoparticles by miniemulsion technique and their cell interactions

The emulsion/solvent evaporation method and miniemulsion technique were combined and applied in the formulation of biodegradable monodisperse nanoparticles at high solid contents using different biocompatible and biodegradable polymers such as poly(L-lactide) (PLLA), poly[(D,L-lactide)-co-glycolide] 50:50 (PLGA), and poly(epsilon-caprolactone) (PCL). Differences between the results of various polymers are found in terms of the particle size and size distribution as well as in the degradation time. An encapsulated hydrophobic fluorescent dye was used as a model marker in order to study the entrapment efficiency and diffusion yield out of the particle. Cellular uptake of the obtained particles was observed in Jurkat and HeLa cells. In the investigated particle size range of 80-200 nm, the surfactant on the particles' surface had a greater influence than the particle size. Uptake kinetics reveals that the PLLA and PCL particles are endocytosed much faster than polystyrene particles.     

Analysis of stem cell lipids by offline HPTLC-MALDI-TOF MS

MALDI-TOF MS is traditionally used for “proteomics”, but is also a useful tool for lipid analysis. Depending on the applied matrix, however, some lipid classes are more sensitively detected than other ones and this may even lead to suppression effects if complex mixtures are analyzed. Therefore, a previous separation into the individual lipid classes is necessary. Using artificial lipid mixtures or easily available tissue extracts, it has been already shown that HPTLC-(High Performance Thin-Layer Chromatography)-separated lipids can be conveniently analyzed by MALDI-TOF MS directly on the TLC plate. Here we present an initial TLC-MALDI study of the lipid composition of ovine mesenchymal stem cells. Due to the complex composition of these cells, data are also compared to lipids extracted from human erythrocytes. It will be shown that even very minor lipid classes can be easily detected and with much higher sensitivity than by common staining protocols. Additionally, MS images of the developed TLC plates will be shown and potential applications, new methods of data analysis as well as problems discussed.

Effect of Degree of Deacetylation of Chitosan/Chitin on Human Neural Stem Cell Culture

Stem cell therapy and research for neural diseases depends on reliable reproduction of neural stem cells. Chitosan-based materials have been proposed as a substrate for culturing human neural stem cells (hNSCs) in the pursuit of clinically compatible culture conditions that are chemically defined and compliant with good manufacturing practices. The physical and biochemical properties of chitosan and chitin are strongly regulated by the degree of deacetylation (DD). However, the effect of DD on hNSC behavior has not been systematically investigated. In this study, films with DD ranging from 93% to 14% are fabricated with chitosan and chitin. Under xeno-free conditions, hNSCs proliferate preferentially on films with a higher DD, exhibiting adherent morphology and retaining multipotency. Lowering the DD leads to formation of neural stem cell spheroids due to unsteady adhesion. The neural spheroids present NSC multipotency protein expression reduction and cytoplasmic translocation. This study provides an insight into the influence of the DD on hNSCs behavior and may serve as a guideline for hNSC research using chitosan-based biomaterials. It demonstrates the capability of controlling hNSC fate by simply tailoring the DD of chitosan.     

靶向肺癌干细胞的多肽Gd基T1型MRI探针的研究

用固相多肽合成技术制备了特异性靶向肺癌干细胞的T_1型多肽核磁共振成像(MRI)探针——Gd-DOTA-HCBP-1.在11.7 T静磁场条件下,其纵向弛豫效率(r1)为6.15 mmol~(-1)·L·s~(-1),是商用T1造影剂Dotarem的1.6倍.体外细胞成像表明,此探针的使用可显著提高肺癌干细胞克隆球的可观测性,单个克隆球(包含2 000~4 000个细胞)可被明显辨识.     

Risks of Muscle Atrophy in Patients with Malignant Lymphoma after Autologous Stem Cell Transplantation

Objective: Muscle atrophy is associated with autologous stem cell transplantation (ASCT)-related outcomes in patients with malignant lymphoma (ML). However, the impact of ASCT on muscle mass remains unclear in patients with ML. The aims of this study were to investigate changes in muscle mass and risk profiles for muscle atrophy after ASCT. Method: We enrolled 40 patients with refractory ML (age 58 [20-74] years, female/male 16/24, body mass index (BMI) 21.1 kg/m² [17.1-29.6]). Psoas muscle mass was assessed using the psoas muscle index (PMI) before and after ASCT. Statistical analysis used: Independent factors associated with a severe decrease rate of change in PMI were evaluated by decision-tree analysis, respectively. Results: PMI was significantly decreased after ASCT (4.61 vs. 4.55 cm²/m²; P=0.0425). According to the decision-tree analysis, the regimen was selected as the initial split. The rates of change in PMI were −5.57% and −3.97% for patients administered MCEC and LEED, respectively. In patients who were administered LEED, the second branching factor was BMI. In patients with BMI < 20.3 kg/m², the rate of change in PMI was −7.16%. On the other hand, the rate of change in PMI was 4.05% for patients with BMI ≥ 20.3 kg/m². Conclusion: We demonstrated that muscle mass decreased after ASCT in patients with ML. Patients who received MCEC and patients with low BMI were at risk for a decrease in muscle mass.     

The feasibility of using dielectrophoresis for isolation of glioblastoma subpopulations with increased stemness

Cancer stem cells (CSCs) are aggressive subpopulations with increased stem‐like properties. CSCs are usually resistant to most standard therapies and are responsible for tumor repropagation. Similar to normal stem cells, isolation of CSCs is challenging due to the lack of reliable markers. Antigen‐based sorting of CSCs usually requires staining with multiple markers, making the experiments complicated, expensive, and sometimes unreliable. Here, we study the feasibility of using dielectrophoresis (DEP) for isolation of glioblastoma cells with increased stemness. We culture a glioblastoma cell line in the form of neurospheres as an in vitro model for glioblastoma stem cells. We demonstrate that spheroid forming cells have higher expression of stem cell marker, nestin. Next, we show that dielectric properties of neurospheres change as a result of changing culture conditions. Our results indicate that spheroid forming cells need higher voltages to experience the same DEP force magnitude compared to normal monolayer cultures of glioblastoma cell line. This study confirms the possibility of using DEP to isolate glioblastoma stem cells.