Responses of brain and non-brain endothelial cells to meningitis-causing Escherichia coli K1

Bacterial interaction with specific host tissue may contribute to its propensity to cause an infection in a particular site. In this study, we examined whether meningitis-causing Escherichia coli K1 interaction with human brain microvascular endothelial cells, which constitute the blood-brain barrier, differed from its interaction with non-brain endothelial cells derived from skin and umbilical cord. We showed that E. coli K1 association was significantly greater with human brain microvascular endothelial cells than with non-brain endothelial cells. In addition, human brain microvascular endothelial cells maintained their morphology and intercellular junctional resistance in response to E. coli K1. In contrast, non-brain endothelial cells exhibited decreased transendothelial electrical resistance and detachment from the matrix upon exposure to E. coli K1. These different responses of brain and non-brain endothelial cells to E. coli K1 may form the basis of E. coli K1's propensity to cause meningitis.     

Intentional formation of a protein corona on nanoparticles: Serum concentration affects protein corona mass,surface charge,and nanoparticle–cell interaction

The protein corona, which immediately is formed after contact of nanoparticles and biological systems, plays a crucial role for the biological fate of nanoparticles. In the here presented study we describe a strategy to control the amount of corona proteins which bind on particle surface and the impact of such a protein corona on particle-cell interactions. For corona formation, polyethyleneimine (PEI) coated magnetic nanoparticles (MNP) were incubated in a medium consisting of fetal calf serum (FCS) and cell culture medium. To modulate the amount of proteins bind to particles, the composition of the incubation medium was varied with regard to the FCS content. The protein corona mass was estimated and the size distribution of the participating proteins was determined by means of sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS–PAGE). Additionally, the zeta potential of incubated particles was measured. Human blood–brain barrier-representing cell line HBMEC was used for in vitro incubation experiments. To investigate the consequences of the FCS dependent protein corona formation on the interaction of MNP and cells flow cytometry and laser scanning microscopy were used. Zeta potential as well as SDS–PAGE clearly reveal an increase in the amount of corona proteins on MNP with increasing amount of FCS in incubation medium. For MNP incubated with lower FCS concentrations especially medium-sized proteins of molecular weights between 30 kDa and 100 kDa could be found within the protein corona, whereas for MNP incubated within higher FCS concentrations the fraction of corona proteins of 30 kDa and less increased. The presence of the protein corona reduces the interaction of PEI-coated MNP with HBMEC cells within a 30 min-incubation.     

Real-time impedance analysis of host cell response to meningococcal infection

Measuring cell proliferation and cell death during bacterial infection involves performing end-point assays that represent the response at a single time point. A new technology from Roche Applied Science and ACEA Biosciences allows continuous monitoring of cells in real-time using specialized cell culture microplates containing micro-electrodes. The xCELLigence system enables continuous measurement and quantification of cell adhesion, proliferation, spreading, cell death and detachment, thus creating a picture of cell function during bacterial infection. Furthermore, lag and log phases can be determined to estimate optimal times to infect cells.In this study we used this system to provide valuable insights into cell function in response to several virulence factors of the meningitis causing pathogen Neisseria meningitidis, including the lipopolysaccharide (LPS), the polysaccharide capsule and the outer membrane protein Opc. We observed that prolonged time of infection with pathogenic Neisseria strains led to morphological changes including cell rounding and loss of cell-cell contact, thus resulting in changed electrical impedance as monitored in real-time. Furthermore, cell function in response to 14 strains of apathogenic Neisseria spp. (N. lactamica and N. mucosa) was analyzed. In contrast, infection with apathogenic N. lactamica isolates did not change electrical impedance monitored for 48 h. Together our data show that this system can be used as a rapid monitoring tool for cellular function in response to bacterial infection and combines high data acquisition rates with ease of handling.     

毒力岛基因ibeT有助于大肠杆菌抵抗人脑微血管内皮细胞溶酶体的降解

大肠杆菌是导致新生儿细菌性脑膜炎最常见的革兰氏阴性致病菌．为探讨毒力岛基因ibeT在大肠杆菌K1株致病过程中的作用,构建了ibeT基因缺失的大肠杆菌K1株,细菌在细胞内存活试验结果显示,ibeT基因缺失抑制了大肠杆菌K1株在人脑微血管内皮细胞中的生长．利用激光共聚焦扫描显微镜观察到,在细菌侵袭进入人脑微血管内皮细胞后,与野生型相比,ibeT基因缺失突变株较多地滞留在溶酶体内;透射电镜结果进一步显示,ibeT基因缺失使大肠杆菌K1株逃逸ECV(含有大肠杆菌的囊泡)的能力发生了下降,继而使其在细胞浆内的复制减少．利用体外模拟的弱酸性环境,检测大肠杆菌菌体胞内的缓冲容量,发现ibeT基因缺失突变株菌体胞内的缓冲能力较野生型低．这些结果提示,在大肠杆菌K1株侵袭进入人脑微血管内皮细胞后,ibeT基因有利于大肠杆菌降解ECV膜,避免与溶酶体融合,进而促使大肠杆菌逃逸进入细胞浆并进行复制．     

Crosstalk of tight junction components with signaling pathways

Tight junctions (TJs) regulate the passage of ions and molecules through the paracellular pathway in epithelial and endothelial cells. TJs are highly dynamic structures whose degree of sealing varies according to external stimuli, physiological and pathological conditions. In this review we analyze how the crosstalk of protein kinase C, protein kinase A, myosin light chain kinase, mitogen-activated protein kinases, phosphoinositide 3-kinase and Rho signaling pathways is involved in TJ regulation triggered by diverse stimuli. We also report how the phosphorylation of the main TJ components, claudins, occludin and ZO proteins, impacts epithelial and endothelial cell function.     

Astragaloside IV protects against focal cerebral ischemia/reperfusion injury correlating to suppression of neutrophils adhesion-related molecules

Inflammation injury plays a key role in the process of cerebral injury induced by ischemia/reperfusion (I/R). Thus, we studied the potential of astragaloside IV, one of the major and active components of the astragalus membranaceous, to protect rat against cerebral inflammation injury elicited by focal cerebral ischemia and reperfusion and related protective mechanisms. The rat model was induced by intraluminal occlusion of the right middle cerebral artery with reperfusion. Animals received astragaloside IV (10 or 20 mg/kg) injections when reperfusion was began to. Neurobehavioral evaluation and infarct assessment were studied. Myeloperoxidase (MPO) and tumor necrosis factor-α (TNF-α) and interleukin-1β (IL-1β) were measured by enzyme-linked immunosorbent assay (ELISA). The rates of CD11b/CD18-positive neutrophils were analyzed via flow cytometry. Intercellular adhesion molecule-1 (ICAM-1) and nuclear factor κB (NF-κB) were measured by immunohistochemistry and Western blot. Astragaloside IV improved neurological outcome and reduced infarct volume at 24 h after reperfusion. The protective effect was achieved by preventing neutrophils accumulation in the brain parenchyma demonstrated by significantly reducing the concentration of MPO in brain tissue. Astragaloside IV exerts the protection through remarkably decreasing the percentage of CD11b/CD18-positive neutrophils and down-regulating the expression of intercellular adhesion molecule-1 (ICAM-1), which is partly achieved by strongly attenuating the production of TNF-α and IL-1β and inhibiting level of nuclear factor-κB (NF-κB). We propose an anti-inflammatory mechanism evoked by astragaloside IV by suppression of neutrophils adhesion-related molecules, which exerts neuroprotection against I/R injury.     

Protein toxins from plants and bacteria: Probes for intracellular transport and tools in medicine

A number of protein toxins produced by bacteria and plants enter eukaryotic cells and inhibit protein synthesis enzymatically. These toxins include the plant toxin ricin and the bacterial toxin Shiga toxin, which we will focus on in this article. Although a threat to human health, toxins are valuable tools to discover and characterize cellular processes such as endocytosis and intracellular transport. Bacterial infections associated with toxin production are a problem worldwide. Increased knowledge about toxins is important to prevent and treat these diseases in an optimal way. Interestingly, toxins can be used for diagnosis and treatment of cancer.     

HIV-1 envelope protein gp140 binding studies to human brain microvascular endothelial cells

Human immunodeficiency virus type-1 (HIV-1) envelope glycoprotein gp140 interacts with its specific receptors on the surface of the target cells leading to cellular activation through various signaling pathways. The effect of blocking the chemokine repertoire in human brain microvascular endothelial cells in HIV dementia (HAD) disease has not been reported. Characterizing the nature of HIV-1 envelope protein gp140 (T-tropic, HXBc2) receptor binding conditions to HBMEC is critical to gain insight into the HIV dementia, and eventually to rationally design the agents to block envelope protein receptor interactions. HIV-1 gp140 oligomers were purified and separated to monomers, dimers, and trimers. The binding conditions of gp140 to HBMEC chemokine receptor, CXCR4, were optimized with an aim of understanding the structural interactions in HAD. Analysis of the interaction between HIV-1 gp140 and CXCR4 of HBMEC by saturation binding, cross-competition analysis with radiolabeled SDF and gp140, revealed a strong interaction, specificity between HIV-1 gp140 and CXCR4. Our binding data demonstrate that HIV-1 envelope protein gp140 enters cells by protein receptor mediated interactions that are regulated by the conformational state of the gp140 at physiological environment (pH and temperature). The CXCR4 antibody 12G5 inhibited SDF-1 binding to HBMEC indicating the specificity of gp140 binding to HBMEC. Scatchard analysis revealed the presence of approximately 70250 gp140 binding sites per cell with a K(d) of 4.5 nM. Cross-competition experiments using labeled SDF-1 and gp140 revealed that both unlabeled SDF-1 and gp140 are capable of displacing their radiolabeled counterparts. The binding assay conditions and radioligand binding assay are highly valuable to identify and design better HIV inhibitors for HAD.