Effect of copper variation in yeast hydrolysate on C‐terminal lysine levels of a monoclonal antibody

The ability to control charge heterogeneity in monoclonal antibodies is important to demonstrate product quality comparability and consistency. This article addresses the control of C‐terminal lysine processing through copper supplementation to yeast hydrolysate powder, a raw material used in the cell culture process. Large‐scale production of a murine cell line exhibited variation in the C‐terminal lysine levels of the monoclonal antibody. Analysis of process data showed that this variation correlated well with shifts in cell lactate metabolism and pH levels of the production culture. Small‐scale studies demonstrated sensitivity of the cells to copper, where a single low dose of copper to the culture impacted cell lactate metabolism and C‐terminal lysine processing. Subsequent analytical tests indicated that the yeast hydrolysate powder, added to the basal media and nutrient feed in the process, contained varying levels of trace copper across lots. The measured copper concentrations in yeast hydrolysate lots correlated well with the variation in lactate and pH trends and C‐terminal lysine levels of the batches in manufacturing. Small‐scale studies further demonstrated that copper supplementation to yeast hydrolysate lots with low concentrations of copper can shift the metabolic performance and C‐terminal lysine levels of these cultures to match the control, high copper cultures. Hence, a strategy of monitoring, and if necessary supplementing, copper in yeast‐hydrolysate powders resulted in the ability to control and ensure product quality consistency. © 2017 American Institute of Chemical Engineers Biotechnol. Prog., 33:463–468, 2017     

维甲酸对人神经母细胞瘤SK—N—SH细胞形态结构和分化标志物表达的影响

目的：观察维甲酸对人神经母细胞瘤SK-N-SH细胞形态与超微结构及其相关标志物表达的影响,以鉴定其对神经母细胞瘤细胞终末分化的诱导作用。方法：1μmol／L维甲酸处理SK—N—SH细胞,光镜、电镜和免疫细胞化学检测研究SK—N—SH细胞处理前后细胞形态、超微结构变化和神经元相关标志物的表达变化。结果：光镜与电镜观察结果显示,SK—N—SH细胞经1μmol／LRA处理后,细胞形态和超微结构产生了细胞呈极性状、伸出多个轴突树突状突起、细胞逐渐变小变圆并融合在一起形成类似神经节样结构、细胞表面微绒毛减少、核仁变少变小、常染色质增多、细胞器丰富发达等显著变化;免疫细胞化学检测显示经RA处理后SK-N-SH细胞NSE、MAP2、Synaptophysin的表达较对照组细胞明显加强。结论：维甲酸能改变SK—N—SH细胞形态和超微结构恶性表型特征,并促进与神经细胞相关的终末分化指标的表达,从而对人神经母细胞瘤细胞的终末分化具有显著的诱导作用。     

EB病毒LMP1-CTAR3对NP69细胞增殖和蛋白质表达的影响

为了探讨EB病毒潜伏性膜蛋白 1(LMP1)第三个功能活性区域(CTAR₃)在鼻咽上皮细胞NP69中的转化作用机制,采用逆病毒感染的方法,将浓缩的逆病毒RV-LMP1和RV-LMP1^Δ232～351分别感染鼻咽上皮细胞NP69,建立NP69-LMP1与NP69-LMP1^Δ232～351稳定表达细胞系．通过绘制生长曲线、平皿克隆形成试验和软琼脂集落形成试验比较野生型和突变型LMP1对NP69细胞增殖的影响,运用蛋白质组学方法鉴定NP69-LMP1与NP69-LMP1^Δ232～351细胞间的差异表达蛋白,选用实时荧光定量RT-PCR与Western blot对其中部分蛋白质点差异表达进行验证．结果发现：a．突变型LMP1^Δ232～351促NP69细胞增殖的能力较野生型LMP1明显降低(n=3,P < 0.05);b．鉴定了LMP1-CTAR₃在NP69细胞中参与调节的16个蛋白质(表达上调的蛋白质8个,下调的8个)．c．实时荧光定量RT-PCR和Western blot证实了部分上述蛋白质的差异表达．以上结果说明,LMP1-CTAR₃是其发挥促细胞增殖的重要活性部位,可能通过参与调节G蛋白和异柠檬酸脱氢酶等蛋白质的表达而起作用．     

Activity-Dependent Bulk Synaptic Vesicle Endocytosis—A Fast,High Capacity Membrane Retrieval Mechanism

Central nerve terminals are placed under considerable stress during intense stimulation due to large numbers of synaptic vesicles (SVs) fusing with the plasma membrane. Classical clathrin-dependent SV endocytosis cannot correct for the large increase in nerve terminal surface area in the short term, due to its slow kinetics and low capacity. During such intense stimulation, an additional SV retrieval pathway is recruited called bulk endocytosis. Recent studies have shown that bulk endocytosis fulfils all of the physiological requirements to remedy the acute changes in nerve terminal surface area to allow the nerve terminal to continue to function. This review will summarise the recent developments in the field that characterise the physiology of bulk endocytosis which show that it is a fast, activity-dependent and high capacity mechanism that is essential for the function of central nerve terminals.