An inhibitor specific for the mouse T-cell associated serine proteinase 1 (TSP-1) inhibits the cytolytic potential of cytoplasmic granules but not of intact cytolytic T cells

We have investigated a proteinase inhibitor, designed according to the preferred amino acid sequence that is cleaved by the murine T-cell specific serine proteinase 1 (TSP-1) for its effect on the cytolytic potential of cloned cytotoxic T-cell lines (CTLL) and of cytoplasmic granules, derived from these cells. Pretreatment of effector cells with H-D-Pro-Phe-Arg-chloromethyl-ketone (PFR-CK) prior to the cytotoxicity assay did not result in inhibition of cytolytic activity of three independent CTLL and did not effect their granule-associated TSP-1 activity after extraction with Triton X-100. Furthermore, PFR-CK did not interfere with cytolysis of target cells by CTLL when present for the entire incubation period. In contrast, PFR-CK inhibited in a dose-dependent manner both TSP-1 activity and the hemolytic/cytolytic potential of isolated cytoplasmic granules after their pretreatment with high-salt concentration. We interpret these results to mean that cytolysis of target cells by CTLL involves the granule-associated proteinase TSP-1, which probably becomes active upon exocytosis following effector-target cell interactions.     

PDMS Microwell Stencil Based Multiplexed Single‐Cell Secretion Analysis

Multiplexed single‐cell protein secretion analysis provides an in‐depth understanding of cellular heterogeneity in intercellular communications mediated by secreted proteins in both fundamental and clinical research. However, it has been challenging to increase the proteomic parameters co‐profiled from every single cell in a facile way. Herein, a simple method to improve the multiplexed proteomic parameters of PDMS microwell based single‐cell secretion analysis platform by sandwiching PDMS stencil in between two antibody‐coated glass slides is introduced. Two different antibody panels can be immobilized easily by static coating, without using sophisticated fluid handling or bulky equipment. 5‐plexed, 3‐fluorescence color single‐cell secretion assay is demonstrated with this platform to investigate human monocytic U937 cells in response to lipopolysaccharide and phorbol myristate acetate stimulation, which identified the existence of functional subsets dictated by different cytokine profiles. The technology introduced here is simple, easy to operate, which holds great potential to become a powerful tool for profiling multiplexed single‐cell cytokine secretion at high throughput to dissect cellular heterogeneity in secretome signatures.     

Causalities of war: The connection between type VI secretion system and microbiota

Microbiota niches have space and/or nutrient restrictions, which has led to the coevolution of cooperation, specialisation, and competition within the population. Different animal and environmental niches contain defined resident microbiota that tend to be stable over time and offer protection against undesired intruders. Yet fluxes can occur, which alter the composition of a bacterial population. In humans, the microbiota are now considered a key contributor to maintenance of health and homeostasis, and its alteration leads to dysbiosis. The bacterial type VI secretion system (T6SS) transports proteins into the environment, directly into host cells or can function as an antibacterial weapon by killing surrounding competitors. Upon contact with neighbouring cells, the T6SS fires, delivering a payload of effector proteins. In the absence of an immunity protein, this results in growth inhibition or death of prey leading to a competitive advantage for the attacker. It is becoming apparent that the T6SS has a role in modulating and shaping the microbiota at multiple levels, which is the focus of this review. Discussed here is the T6SS, its role in competition, key examples of its effect upon the microbiota, and future avenues of research.     

圈养林麝麝香分泌时间节律及影响因素

在2016年和2017年的5—8月,我们对川西马尔康麝场圈养林麝（Moschus berezovskii）的麝香分泌进行了行为与生理监测,对麝香分泌的各阶段进行了准确判定,记录了泌香启动、泌香盛期开始、泌香盛期终止及泌香结束的时间阶段及持续时间长,分析了林麝麝香分泌的时间阶段与体重和年龄等因素的关系。结果表明,马尔康麝场的雄性林麝平均泌香启动日在6月16日[（167.06±7.75）d,n=141],于6月17日进入泌香盛期[（168.52±7.67）d,n=141],6月21日[（172.17±7.26）d, n=138]泌香活动减弱,至6月25日[（176.27±8.11）d, n=131]泌香结束;雄麝体重与其泌香启动、泌香盛期停止及泌香结束时间呈显著负相关（r_PS = -0.234,P_PS =0.028;r _VSF = -0.215,P_VSF = 0.047;r _SE = -0.229,P_SE = 0.043）,即雄麝的体重越大,其泌香越早;各年龄组间的平均泌香时长差异显著（F _{17, 113} = 3.482, P = 0.003）,其中2岁雄麝平均泌香时长最长[（13.07±2.08）d, n=20],显著高于3岁[（9.38±0.76）d, n=12, P = 0.042]和4岁[（7.80±1.60）d, n=5, P = 0.013]个体;马尔康林麝平均泌香量为（11.85g±0.96）g, （n=114）,随泌香时长延长有增加趋势,但不显著（P = 0.854）。基于上述林麝雄体的泌香时间、泌香量与年龄和体重等因素间的关联,可对圈养的林麝个体间的泌香力、泌香量等进行区分和预判,作为圈养林麝驯养生产力优化的依据,并可为圈养林麝优质品系的选育提供参考。     

昆虫口腔分泌物效应子及其在害虫防治中基于RNAi技术的应用展望

昆虫口腔分泌物(oral secretion, OS),又称返吐液,是昆虫唾液腺分泌的唾液和肠道分泌物的混合液。昆虫取食寄主植物过程中,OS随之分泌至植物中,并影响植物的防御反应。RNA干扰(RNAinterference, RNAi)是研究昆虫基因功能有价值的反向遗传学工具,也是目前最有可能应用于害虫防治的新技术。本文主要综述了昆虫OS对寄主植物防御的影响、昆虫OS效应子的鉴定和OS效应子基于RNAi技术在害虫防治中可行性及应用前景。昆虫OS对寄主植物防御的影响主要表现为干扰植物的茉莉酸信号通路、筛管阻塞、Ca²⁺通路等防御反应,进而促进昆虫摄取食物。目前,昆虫OS效应子主要鉴定手段是通过昆虫唾液腺转录组分析和OS蛋白组分析;而已鉴定的OS效应子主要来源于刺吸式口器昆虫,在咀嚼式口器昆虫中的报道甚少;功能研究发现昆虫OS效应子在寄主植物中的表达会影响昆虫存活率、繁殖力和取食能力及昆虫和植物的其他重要生理指标,并通过鉴定OS效应子与植物防御机制的相互作用关系,进而证明OS效应子在昆虫与寄主植物关系中的重要性。基于RNAi技术,通过注射、饲喂和植物介导RNAi等方法在多种昆虫中产生了OS效应子基因下调和生长发育受影响的现象,由此说明OS效应子基因已具备作为RNAi靶标的条件。虽然目前研究尚处于实验室阶段,但已证明其应用于害虫防治方面具有一定的可行性。昆虫口腔分泌物是研究昆虫与寄主植物相互作用机制的新方向。最后,对OS未来潜在的研究方向进行了展望,以期对我国害虫防治的研究提供理论指导。     

The Golgi complex: a hub of the secretory pathway

The Golgi complex plays a central role in protein secretion by regulating cargo sorting and trafficking. As these processes are of functional importance to cell polarity, motility, growth, and division, there is considerable interest in achieving a comprehensive understanding of Golgi complex biology. However, the unique stack structure of this organelle has been a major hurdle to our understanding of how proteins are secreted through the Golgi apparatus. Herein, we summarize available relevant research to gain an understanding of protein secretion via the Golgi complex. This includes the molecular mechanisms of intra-Golgi trafficking and cargo export in the trans-Golgi network. Moreover, we review recent insights on signaling pathways regulated by the Golgi complex and their physiological significance.     

The molecular mechanism of NELL2 movement and secretion in hippocampal progenitor HiB5 cells

Neural epidermal growth factor-like protein-like 2 (NELL2) is a secreted glycoprotein that is predominantly expressed in the nervous system, but little is known about the intracellular movement and secretion mechanism of this protein. By monitoring the localization and movements of enhanced green fluorescent protein (EGFP)-labeled NELL2 in living cultured hippocampal neuroprogenitor HiB5 cells, we determined the subcellular localization of NELL2 and its intracellular movement and secretion mechanism. Cterminal EGFP-fused NELL2 showed a typical expression pattern of secreted proteins, especially with respect to its localization in the endoplasmic reticulum, Golgi apparatus, and punctate structures. Vesicles containing NELL2 exhibited bidirectional movement in HiB5 cells. The majority of the vesicles (70.1%) moved in an anterograde direction with an average velocity of 0.454 μm/s, whereas some vesicles (28.7%) showed retrograde movement with an average velocity of 0.302 μm/s. The movement patterns of NELL2 vesicles were dependent upon the presence of microtubules in HiB5 cells. Anterograde movement of NELL2 did not lead to a detectable accumulation of NELL2 in the peripheral region of the cell, indicating that it was secreted into the culture medium. We also showed that the N-terminal 29 amino acids of NELL2 were important for secretion of this protein. Taken together, these results strongly suggest that the N-terminal region of NELL2 determines both the pattern of its intracellular expression and transport of NELL2 vesicles by high-velocity movement. Therefore, NELL2 may affect the cellular activity of cells in a paracrine or autocrine manner.