Measurement of Cellular Chemotaxis with ECIS/Taxis

Cellular movement in response to external stimuli is fundamental to many cellular processes including wound healing, inflammation and the response to infection. A common method to measure chemotaxis is the Boyden chamber assay, in which cells and chemoattractant are separated by a porous membrane. As cells migrate through the membrane toward the chemoattractant, they adhere to the underside of the membrane, or fall into the underlying media, and are subsequently stained and visually counted ¹. In this method, cells are exposed to a steep and transient chemoattractant gradient, which is thought to be a poor representation of gradients found in tissues ².Another assay system, the under-agarose chemotaxis assay, ^{3, 4} measures cell movement across a solid substrate in a thin aqueous film that forms under the agarose layer. The gradient that develops in the agarose is shallow and is thought to be an appropriate representation of naturally occurring gradients. Chemotaxis can be evaluated by microscopic imaging of the distance traveled. Both the Boyden chamber assay and the under-agarose assay are usually configured as endpoint assays.The automated ECIS/Taxis system combines the under-agarose approach with Electric Cell-substrate Impedance Sensing (ECIS) ^{5, 6}. In this assay, target electrodes are located in each of 8 chambers. A large counter-electrode runs through each of the 8 chambers (Figure 2). Each chamber is filled with agarose and two small wells are the cut in the agarose on either side of the target electrode. One well is filled with the test cell population, while the other holds the sources of diffusing chemoattractant (Figure 3). Current passed through the system can be used to determine the change in resistance that occurs as cells pass over the target electrode. Cells on the target electrode increase the resistance of the system ⁶. In addition, rapid fluctuations in the resistance represent changes in the interactions of cells with the electrode surface and are indicative of ongoing cellular shape changes. The ECIS/Taxis system can measure movement of the cell population in real-time over extended periods of time, but is also sensitive enough to detect the arrival of a single cell at the target electrode. Dictyostelium discoidium is known to migrate in the presence of a folate gradient ^{7, 8} and its chemotactic response can be accurately measured by ECIS/Taxis ⁹. Leukocyte chemotaxis, in response to SDF1α and to chemotaxis antagonists has also been measured with ECIS/Taxis ^{10, 11}. An example of the leukocyte response to SDF1α is shown in Figure 1.     

Potentiation of the cytolytic activity of peripheral blood monocytes by lymphokines and interferon

Human peripheral blood monocytes obtained by EDTA-reversible adherence to plastic surfaces precoated with autologous serum can rapidly lyse a variety of tumor cells. That the effector cells in this system are indeed monocytes has been demonstrated (1). Using a short-term (3 to 4 hr) 51Cr-release assay and the single cell conjugate cytotoxic assay, we studied the effects of lymphokine-rich supernatants containing gamma-interferon and partially purified fibroblast interferon on the monocyte cytolytic activity. Overnight incubation of the monocytes in fetal bovine serum-containing medium resulted in a relatively small decrease in cytotoxic activity compared to the one obtained with monocytes incubated in autologous serum. The addition of lymphokines or interferon under both incubation conditions resulted in augmented activity as measured in the 51Cr-release assay. However, the proportions of binding and cytotoxic monocytes, determined in the single cell conjugate assay, did not increase. These results suggest that augmented activity is not due to recruitment of inactive cells. Kinetics studies of tumor cell lysis indicate the increase in killing efficiency is probably due to both an increase in the rate of killing and in the recycling ability of the cytotoxic cells. Using the conjugate/agarose technique, we also demonstrated that excess tumor cells could impair the lytic machinery of freshly isolated monocytes, whereas monocytes treated with lymphokines or interferon partially lost their sensitivity to this inhibitory effect. The ability of tumor cells to impair the lytic machinery of monocytes could be one of the mechanisms by which tumors escape immunosurveillance.     

大鼠肺细小动脉平滑肌细胞培养新方法的建立及血小板衍生因子对其增殖迁移的影响

目的：建立一种操作简单、实验仪器要求低的大鼠肺细小动脉平滑肌细胞（PASMCs）分离和培养的方法,并且探索血小板衍生因子（PDGF）介导的增殖、迁移的情况。方法：向右心注射铁及琼脂糖,利用琼脂糖能同时粘附血管内皮细胞、平滑肌细胞及铁粉,再结合胶原酶I的消化,通过磁力架吸引铁,特异性地分选出带血管的肺组织,经过3~4周左右的培养及纯化,得到肺细小动脉平滑肌细胞。用倒置相差显微镜观察细胞形态,免疫细胞化学法和免疫荧光染色法进行α-平滑肌肌动蛋白鉴定。MTT实验和划痕实验检测PDGF诱导的肺动脉细小平滑肌细胞的增殖和迁移。结果：分离后第14天、第21天及传代后进行鉴定,均表明分离培养的细胞为PASMCs。MTT结果表明,与不加PDGF组相比,PDGF增殖明显增加（P<0.05）。划痕实验结果显示PDGF刺激组比不刺激组迁移显著增多。结论：本方法分离培养大鼠的PASMCs,操作方便,实验仪器要求低。PDGF能够促进肺细小动脉平滑肌细胞的增殖、迁移。     

In chemotaxing fibroblasts, both high-fidelity and weakly biased cell movements track the localization of PI3K signaling

Cell movement biased by a chemical gradient, or chemotaxis, coordinates the recruitment of cells and collective migration of cell populations. During wound healing, chemotaxis of fibroblasts is stimulated by platelet-derived growth factor (PDGF) and certain other chemoattractants. Whereas the immediate PDGF gradient sensing response has been characterized previously at the level of phosphoinositide 3-kinase (PI3K) signaling, the sensitivity of the response at the level of cell migration bias has not yet been studied quantitatively. In this work, we used live-cell total internal reflection fluorescence microscopy to monitor PI3K signaling dynamics and cell movements for extended periods. We show that persistent and properly aligned (i.e., high-fidelity) fibroblast migration does indeed correlate with polarized PI3K signaling; accordingly, this behavior is seen only under conditions of high gradient steepness (>10% across a typical cell length of 50 μm) and a certain range of PDGF concentrations. Under suboptimal conditions, cells execute a random or biased random walk, but nonetheless move in a predictable fashion according to the changing pattern of PI3K signaling. Inhibition of PI3K during chemotaxis is accompanied by loss of both cell-substratum contact and morphological polarity, but after a recovery period, PI3K-inhibited fibroblasts often regain the ability to orient toward the PDGF gradient.     

Electrospun triple-layered PLLA/gelatin. PRGF/PLLA scaffold induces fibroblast migration

The function of fibroblast cells in wounded areas results in reconstruction of the extra cellular matrix and consequently resolution of granulation tissue. It is suggested that the use of platelet-rich plasma can accelerate the healing process in nonhealing or slow-healing wounds. In this study, a simple and novel method has been used to fabricate an electrospun three-layered scaffold containing plasma rich in growth factor with the aim of increasing the proliferation and migration of fibroblast cells in vitro. First, plasma rich in growth factor was derived from platelet rich plasma, and then a three-layered scaffold was fabricated using PLLA nanofibers as the outer layers and plasma rich in growth factor-containing gelatin fibers as the internal layer. The growth morphology of cells seeded on this scaffold was compared to those seeded on one layered PLLA scaffold. The study of the cell growth rate on different substrates and the migration of cells in response to the drug release of multilayered scaffold was investigated by the cell quantification assay and a modified under agarose assay. Scanning electron microscopy and fluorescence images showed that cells seeded on multilayered scaffold were completely oriented 72 hours after seeding compared to those seeded on PLLA scaffold. The cell quantification assay also indicated significant increase in proliferation rate of cells seeded on three-layered scaffold compared to those seeded on PLLA scaffold and finally, monitoring cell migration proved that cells migrate significantly toward the three-layered scaffold up to 48 to 72 hours and afterwards start to show a diminished migration rate toward this scaffold.     

Does the common topknot Zeugopterus punctatus (Teleosteii: Pleuronectiformes: Scophthalmidae) use a novel Venturi-effect attachment mechanism? A testable hypothesis

Common topknots (Zeugopterus punctatus) attach to vertical rock surfaces and overhangs. It has been speculated that attachment is by a suction cup, with the median (anal, dorsal) fins providing a peripheral seal. Here the authors propose that the attachment is actually based on a Venturi effect. The rear portions of the median fins continually move in a fan-like fashion (at c. 4 cycles per second). This movement produces a tailward fluid flow that ventilates the shallow underbody space between the fish and its rocky substratum. The anterior portions of the median fins seal the space laterally, but the space is open anterior (beneath the raised head) and posterior to the sea. The mid-underbody space likely has a lower cross-sectional area than does the front intake or rear exit, so flow should be faster (and pressure lower) within it than outside, thus providing pressure gradient suction. Topknots attach to rough and heavily biofouled surfaces, presumably because the high numbers of fin rays and their associated membranes plus fine muscle control allow effective sealing. The attachment ability is shared by all members of the flatfish tribe Phrynorhombini; it can be related to anatomical peculiarities and constitutes a probable synapomorphy for this clade.     

Single cells can sense their position in a morphogen gradient.

Xenopus blastula cells show a morphogen-like response to activin by expressing different genes according to the concentration of activin to which they are exposed. To understand how cells recognize their position in a concentration gradient, it is essential to know whether each cell responds individually to activin concentration. An alternative idea, proposed by previous work, is that cells need to interact with their neighbours to generate a concentration-related response. To distinguish between these ideas, we have cultured blastula cells under conditions which provide different degrees of contact with other cells, allowing nil to maximum communication with their neighbours. The cultures include cells attached to fibronectin and cells resting unattached on an agarose base. The cultures also include cells that have no contact with any cell except their clonal progeny, cells that have lateral contact to neighbouring cells, and cells that are completely enveloped by other cells in a reaggregate. We have used RNase protection and in situ hybridization to assay the expression of the activin-responsive Xenopus genes Xbra, Xgsc, Xeomes, Xapod, Xchordin, Mix1, Xlim1 and Cerberus. We find no difference in gene expression between cells attached to fibronectin and those unattached on agarose. Most importantly, we find that cells respond to activin in a concentration-related way irrespective of their degree of contact with other cells. Therefore interaction among cells is not required for the interpretation of morphogen concentration, at least in the case of the early genes studied here. We conclude that isolated blastula cells can sense and respond individually to activin by expressing genes in a concentration-dependent way.     

Comparative sensitivity of several plaque assay techniques employing TN-368 and IPLB-SF 21AE insect cell lines for plaque variants of Galleria mellonella nuclear polyhedrosis virus

Several plaque assay techniques employing TN-368 or IPLB-SF 21AE cells were evaluated for their usefulness in detecting and distinguishing MP (many polyhedra) and FP (few polyhedra) plaque variants of Galleria mellonella nuclear polyhedrosis virus. Both plaque morphologies were produced using either cell line. Of the overlays tested, the buffered 0.6% methylcellulose overlay yielded the most plaques and was best suited for titration. It was also the easiest overlay to prepare and use. The largest plaques were obtained using either cell line with the 1.0 or 0.75% agarose overlays. Plaque variants were most easily distinguished under 1.0 or 0.75% agarose overlays with IPLB-SF 21 cells. The 0.9% MC overlay was the only overlay which did not allow detection of FP plaques. However, FP plaques were detected using a buffered modification of this overlay. It is concluded that the FP variant of G. mellonella NPV is not a host-dependent phenomenon, and that its detection can be influenced by overlay formulation.     

Physical separation of hemopoietic stem cells from cells forming colonies in culture

Mouse bone marrow cells in suspension were separated into a number of fractions on the basis of cell density by equilibrium density gradient centrifugation, or on the basis of cell size by velocity sedimentation. After each type of separation, the cells from the various fractions were assayed for their ability to form macroscopic spleen colonies in irradiated recipient mice, and for their ability to form colonies in a cell culture system. The results from either separation technique demonstrate that cells in some fractions formed more colonies in vivo than in the culture system, while cells in other fractions formed more colonies in culture than in the spleen. The results of control experiments indicate that this separation of the two types of colony-forming cells was not an artifact of the separation procedures. From these experiments it was concluded that the population of cells which form colonies in culture under the conditions used is not identical to the population of cells detected by the spleen colony assay.     

CometChip: A High-throughput 96-Well Platform for Measuring DNA Damage in Microarrayed Human Cells

DNA damaging agents can promote aging, disease and cancer and they are ubiquitous in the environment and produced within human cells as normal cellular metabolites. Ironically, at high doses DNA damaging agents are also used to treat cancer. The ability to quantify DNA damage responses is thus critical in the public health, pharmaceutical and clinical domains. Here, we describe a novel platform that exploits microfabrication techniques to pattern cells in a fixed microarray. The ‘CometChip’ is based upon the well-established single cell gel electrophoresis assay (a.k.a. the comet assay), which estimates the level of DNA damage by evaluating the extent of DNA migration through a matrix in an electrical field. The type of damage measured by this assay includes abasic sites, crosslinks, and strand breaks. Instead of being randomly dispersed in agarose in the traditional assay, cells are captured into an agarose microwell array by gravity. The platform also expands from the size of a standard microscope slide to a 96-well format, enabling parallel processing. Here we describe the protocols of using the chip to evaluate DNA damage caused by known genotoxic agents and the cellular repair response followed after exposure. Through the integration of biological and engineering principles, this method potentiates robust and sensitive measurements of DNA damage in human cells and provides the necessary throughput for genotoxicity testing, drug development, epidemiological studies and clinical assays.     

Plaque Assay for Murine Norovirus

Murine norovirus (MNV) is the only member of the Norovirus genus that efficiently grows in tissue culture ^{1, 2}. Cell lysis and cytopathic effect (CPE) are observed during MNV-1 infection of murine dendritic cells or macrophages ¹. This property of MNV-1 can be used to quantify the number of infectious particles in a given sample by performing a plaque assay ¹. The plaque assay relies on the ability of MNV-1 to lyse cells and to form holes in a confluent cell monolayer, which are called plaques ³.Multiple techniques can be used to detect viral infections in tissue culture, harvested tissue, clinical, and environmental samples, but not all measure the number of infectious particles (e.g. qRT-PCR). One way to quantify infectious viral particles is to perform a plaque assay ³, which will be described in detail below. A variation on the MNV plaque assay is the fluorescent focus assay, where MNV antigen is immunostained in cell monolayers ⁴. This assay can be faster, since viral antigen expression precedes plaque formation. It is also useful for titrating viruses unable to form plaques. However, the fluorescent focus assay requires additional resources beyond those of the plaque assay, such as antibodies and a microscope to count focus-forming units. Infectious MNV can also be quantified by determining the 50% Tissue Culture Infective Dose (TCID₅₀) ³. This assay measures the amount of virus required to produce CPE in 50% of inoculated tissue culture cells by endpoint titration ⁵. However, its limit of detection is higher compared to a plaque assay ⁴.In this article, we describe a plaque assay protocol that can be used to effectively determine the number of infectious MNV particles present in biological or environmental samples ^{1, 4, 6}. This method is based on the preparation of 10-fold serial dilutions of MNV-containing samples, which are used to inoculate a monolayer of permissive cells (RAW 264.7 murine macrophage cells). Virus is allowed to attach to the cell monolayer for a given period of time and then aspirated before covering cells with a mixture of agarose and cell culture media. The agar enables the spread of viral progeny to neighboring cells while limiting spread to distantly located cells. Consequently, infected cells are lysed and form holes in the monolayer known as plaques. Upon sufficient spread of virus, plaques become visible following staining of cells with dyes, like neutral red, methylene blue, or crystal violet. At low dilutions, each plaque originates from one infectious viral particle and its progeny, which spread to neighboring cells. Thus, counting the number of plaques allows one to calculate plaque-forming units (PFU) present in the undiluted sample ³.     

Search for improved culture conditions for clonogenic growth of human colorectal cancer cells in vitro

In order to analyze and define potentially better growth conditions for colonic stem cell proliferation, we chose four established human colorectal cancer cell lines that differed in biologic cell properties. We studied variables of standard cloning conditions including culture medium, serum supplement, solidifying agent, addition of specific growth factors and use of capillaries as an alternative culture vessel. While modulation of serum concentration as well as use of various standard formulations of culture base media did not result in a reproducible increase of plating efficiencies (PEs), a significant increase in colony formation (when compared to the conventional assay procedure) was achieved; by use of 0.3% agarose or boiled agar as semisolid matrix and by culturing of cells in enriched 'GMF medium'. Specific growth factors, such as EGF or glucagon resulted in "occasionally better" in vitro growth. This suggests a retention of the ability of cells in culture to respond to physiologic regulators of growth. To verify and extend these initial results obtained with continuous cell lines, growth enhancing modifications of the original cloning technique were subsequently applied to in vitro growth of 15 human colorectal cancer specimens obtained directly from patients. Specimens that grew 30 or more colonies under standard plating conditions displayed a more than two-fold increase in PEs which was reproducible for the two specific variables mentioned above, but the overall success rate of the assay could not be improved. In addition to the possibility that several deficient basic requirements for achieving optimal environmental conditions for colonic stem cell growth have not been defined, we believe a major reason for failing to improve the number of drug-assayable specimens is related to an inherent interneoplastic diversity in terms of growth requirements of human colorectal malignancies.     

A novel method for culturing neural stem cells

The standard culture method for neural stem cells cannot prevent the attachment of neurospheres, which eventually result in differentiation. This study developed a new method for long-term neural stem cell cultivation. In the antiattachment group, neural stem cells were cultured in flasks coated with 1.5% agarose gel. As a control, cells were cultured in plastic flasks. The 5-bromine-deoxyuridine incorporation assay was used to determine the S-phase labeling index of both groups. The methyl thiazolyl tetrazolium (MTT) colorimetric assay was used to determine the total cell vitality. After a 3-mo culture, the spontaneous differentiation of stem cells was studied using immunocytochemistry for neuroepithelial stem cell protein. We found that neural stem cells grew rapidly in the antiattachment flasks. There was no statistically significant difference between the two groups in terms of the S-phase labeling index or MTT assay. When cultured for 3 mo in vitro, many more cells differentiated in the control than in the antiattachment group (32.05 vs. 0.64%, P < 0.01). Moreover, the neural stem cells in the antiattachment group remained multipotent. Therefore, flasks coated with agarose gel are suitable for long-term neural stem cell culture.     

Cyclin-dependent kinase inhibitor flavopiridol promotes remyelination in a cuprizone induced demyelination model

The cuprizone (CPZ) model has been widely used for the studies of de-and remyelination. The CPZ-exposed mice show oligodendrocyte precursor cells (OPCs) increase and mature oligodendrocytes decrease, suggesting an imbalance between proliferation and differentiation of OPCs. In the first experiment of this study, we examined the expression of cell cycle related genes in brains of mice following CPZ administration for 5 weeks by means of microarray assay. In addition, we performed a double labeling of BrdU and Ki-67 to calculate cell cycle exit index in the mice. Our results showed that CPZ administration up-regulated the expression of 16 cell cycle related genes, but down-regulated the expression of only one in the prefrontal cortex (PFC) of mice compared to control group. The treatment inhibited potential precursor cells exit from cell cycle. In the second experiment, we evaluated effects of a CDK inhibitor flavopiridol (FLA) on CPZ-induced neuropathological changes and spatial working memory impairment in mice.FLA treatment for one week effectively attenuated the CPZ-induced increases in NG2 positive cells, microglia and astrocytes, alleviated the concurrent mature oligodendrocyte loss and myelin breakdown, and improved spatial working memory deficit in the CPZ-exposed mice. These results suggest that CPZ-induced neuropathological changes involve in dysregulation of cell cycle related genes. The therapeutic effects of FLA on CPZ-exposed mice may be related to its ability of cell cycle inhibition.     

Relation between the rate of cell movement under agarose and the positioning of cells in heterotypic aggregates

Single-cell suspensions prepared from 9-day-old chick tissues (skeletal muscle, liver, and neural retina) were used to investigate a possible relationship between intrinsic mobilities of different cell types and their positioning behavior in mixed (heterotypic) cellular aggregates. The relative mobilities of the three cell types, determined by comparing their ability to migrate under an agarose layer, was muscle greater than liver greater than neural retina. The gyratory shaker method was employed to produce heterotypic aggregates from mixed suspensions of muscle, liver, and neural retina cells and the tissue-specific positioning of cells after 24 h in culture was determined from histological and autoradiograph sections. The hierarchy for "inside" positioning of segregated cells was muscle greater than liver greater than neural retina cells, correlating with the rate of movement of these cells in the migration assay. The implication of the results is that relative speed of movement may determine the positioning of cells in heterotypic aggregates.     

Effective bilayer expansion and erythrocyte shape change induced by monopalmitoyl phosphatidylcholine. Quantitative light microscopy and nuclear magnetic resonance spectroscopy measurements.

When human erythrocytes are treated with exogenous monopalmitoyl phosphatidylcholine (MPPC), the normal biconcave disk shape red blood cells (RBC) become spiculate echinocytes. The present study examines the quantitative aspect of the relationship between effective bilayer expansion and erythrocyte shape change by a newly developed method. This method is based on the combination of direct surface area measurement of micropipette and relative bilayer expansion measurement of 13C crosspolarization/magic angle spinning nuclear magnetic resonance (NMR). Assuming that 13C NMR chemical shift of fatty acyl chain can be used as an indicator of lateral packing of membrane bilayers, it is possible for us to estimate the surface area expansion of red cell membrane induced by MPPC from that induced by ethanol. Partitions of lipid molecules into cell membrane were determined by studies of shape change potency as a function of MPPC and red cell concentration. It is found that 8(+/- 0.5) x 10(6) molecules of MPPC per cell will effectively induce stage three echinocytes and yield 3.2(+/- 0.2)% expansion of outer monolayer surface area. Surface area of normal cells determined by direct measurements from fixed geometry of red cells aspirated by micropipette was 118.7 +/- 8.5 microns2. The effective cross-sectional area of MPPC molecules in the cell membrane therefore was determined to be 48(+/- 4) A2, which is in agreement with those determined by x-ray from model membranes and crystals of lysophospholipids. We concluded that surface area expansion of RBC can be explained by a simple consideration of cross-sectional area of added molecules and that erythrocyte shape changes correspond quantitatively to the incorporated lipid molecules.     

A Novel Chemotaxis Assay in 3-D Collagen Gels by Time-Lapse Microscopy

The directional cell response to chemical gradients, referred to as chemotaxis, plays an important role in physiological and pathological processes including development, immune response and tumor cell invasion. Despite such implications, chemotaxis remains a challenging process to study under physiologically-relevant conditions in-vitro, mainly due to difficulties in generating a well characterized and sustained gradient in substrata mimicking the in-vivo environment while allowing dynamic cell imaging. Here, we describe a novel chemotaxis assay in 3D collagen gels, based on a reusable direct-viewing chamber in which a chemoattractant gradient is generated by diffusion through a porous membrane. The diffusion process has been analysed by monitoring the concentration of FITC-labelled dextran through epifluorescence microscopy and by comparing experimental data with theoretical and numerical predictions based on Fick''s law. Cell migration towards chemoattractant gradients has been followed by time-lapse microscopy and quantified by cell tracking based on image analysis techniques. The results are expressed in terms of chemotactic index (I) and average cell velocity. The assay has been tested by comparing the migration of human neutrophils in isotropic conditions and in the presence of an Interleukin-8 (IL-8) gradient. In the absence of IL-8 stimulation, 80% of the cells showed a velocity ranging from 0 to 1 µm/min. However, in the presence of an IL-8 gradient, 60% of the cells showed an increase in velocity reaching values between 2 and 7 µm/min. Furthermore, after IL-8 addition, I increased from 0 to 0.25 and 0.25 to 0.5, respectively, for the two donors examined. These data indicate a pronounced directional migration of neutrophils towards the IL-8 gradient in 3D collagen matrix. The chemotaxis assay described here can be adapted to other cell types and may serve as a physiologically relevant method to study the directed locomotion of cells in a 3D environment in response to different chemoattractants.     

重组人IL-18-EGF的双顺反子表达及其对NK细胞和肝癌细胞的影响

构建重组人IL-18-EGF肿瘤靶向分子双顺反子原核表达系统,研究重组人IL-18-EGF融合蛋白对人自然杀伤细胞（natural killer cell,NK细胞）和人肝癌细胞（SMMC-7721）的影响。构建重组人IL-18-EGF原核双顺反子表达系统pET28a（＋）-proIL-18-EGF-Caspase-4/BL21,重组蛋白经纯化后,作用于NK细胞,应用CCK-8法和ELISA试剂盒分别检测NK细胞的增殖情况和IFN-γ的分泌量。Cy3荧光标记IL-18-EGF检测融合蛋白与肿瘤细胞表面EGFR的结合情况。IL-18-EGF与NK细胞共同孵育24 h后,取培养上清液作用于人肝癌细胞SMMC-7721,分别使用细胞划痕实验和Transwell小室实验检测IL-18-EGF对肝癌细胞迁移和侵袭能力的影响。实验结果显示：重组人IL-18-EGF能加快NK细胞的增殖,促进NK细胞分泌IFN-γ;IL-18-EGF能与肿瘤细胞表面EGFR特异性结合;细胞划痕实验中,重组人IL-18-EGF组空白区域的抗填充能力高于对照组;Transwell小室实验中,12,24,48 h时IL-18-EGF组细胞穿膜数分别为94.6±2.9、101.8±4.0和116.2±4.5,均显著低于相应时间的对照组（分别为128.6±8.5、133.0±7.5和138.8±5.4）（P〈0.05）。以上结果表明,IL-18-EGF对人肝癌细胞SMMC-7721的迁移和侵袭能力有明显的抑制作用,能提高机体的免疫能力,有可能作为辅助药物运用于肝癌的治疗。     

Biochemical and genetic methods for characterization of [PIN+] prions in yeast

The glutamine- and asparagine-rich Rnq1p protein in Saccharomyces cerevisiae can exist in the cell as a soluble monomer or in one of several aggregated, infectious, prion forms called [PIN(+)]. Interest in [PIN(+)] is heightened by its ability to promote the conversion of other proteins into a prion or an aggregated amyloid state. However, little is known about the function of Rnq1p, which makes it difficult to assay the phenotypes associated with its normal vs. prion forms. In this chapter, we describe methods used to detect [PIN(+)] and distinguish between different variations of the prion. Genetic methods are based on the ability of the [PIN(+)] prion to facilitate the appearance of another yeast prion, [PSI(+)], which has an easily detectable phenotype. Biochemical methods exploit the fact that the [PIN(+)] prion exists in the yeast cytosol in the form of large aggregates, composed of SDS-stable subparticles. Sucrose gradient centrifugation, agarose SDS electrophoresis and GFP fusions are used to distinguish between aggregates and subparticles from different [PIN(+)] variants.     

Strongyloides ratti: thermokinetic behavior of third-stage larvae on a temperature gradient

We examined the thermokinetic behaviors of infective third-stage larvae (L3) of the rodent parasitic nematode Strongyloides ratti on temperature gradients using an in vitro agarose tracking assay method. Observed behaviors included both negative and positive thermokineses, the direction of movement depending both on the gradient temperature at which larvae were initially placed and on prior experience of culture temperature. Larvae isolated from rat feces cultured at 25 degrees C and placed on a gradient at temperatures between 22 degrees and 29 degrees C tended to move toward higher temperatures. At higher placement temperatures, most larvae moved little and showed no directional response, whereas at lower placement temperatures, many migrated toward cooler temperatures. At placement temperatures of 20 degrees C or below, few or no larvae moved toward the zone of higher temperature. Larvae isolated from rat feces cultured at 20 degrees C tended to migrate to a high temperature area regardless of placed temperature. Those cultured at 30 degrees C did not respond to the temperature gradient. L3 cultured at 30 degrees C were significantly less infective to rats than those cultured at 25 degrees or 20 degrees C. Additional experiments were designed to demonstrate thermokinetic behaviors during the period after reaching the L3 stage. Larvae incubated in double distilled water (DDW) for 24 h at 37 degrees C lost their ability to respond to lower temperatures, while in those incubated in DDW at 15 degrees and 25 degrees C, responses were still apparent. The thermokinetic behavior of S. ratti L3 is affected by surrounding environmental temperatures and this may have an important role in host finding.