Cryoinjury in endothelial cell monolayers

Developing successful cryopreservation strategies for corneas have proven to be more difficult than anticipated, because of the resulting loss of viability and detachment of endothelial cells from Descemet's membrane following cryopreservation of corneas. The objectives of this study are to develop a more detailed understanding of cryoinjury in human corneal endothelial cell (HCEC) monolayers and to examine the effects of storage temperature, cryoprotectant type and concentration, and cooling/warming rates on HCEC monolayers. Monolayers of endothelial cells attached to collagen-coated glass, immersed in an experimental solution (with and without cryoprotectant) were cooled at 1 degrees C/min to various temperatures (-5 to -40 degrees C), then thawed directly or cooled rapidly to -196 or to -80 degrees C before thawing. Cryoprotectants used were dimethyl sulfoxide and propylene glycol in concentrations of 1 and 2M. Monolayers were assessed for membrane integrity and detachment using SYTO/ethidium bromide fluorescent stain. The presence of cryoprotectants resulted in high recovery of membrane integrity and low monolayer detachment in monolayers thawed directly from temperatures down to -40 degrees C. In contrast, there was excessive detachment and loss of membrane integrity in monolayers cooled to -196 degrees C compared to monolayers cooled to -80 degrees C. Also, increasing cryoprotectant concentrations did not improve recovery of the monolayers. The higher recovery and lower detachment after storage at -80 degrees C compared to storage at -196 degrees C suggest that storage temperatures for corneas should be re-evaluated.     

RNA干扰敲减FucT VII表达抑制人结肠癌细胞HT-29和HUVECs的粘附能力

 探讨利用RNA干扰（RNAi）技术抑制岩藻糖基转移酶Ⅶ（FucT Ⅶ）表达对人结肠癌细胞HT-29与人脐静脉内皮细胞（HUVEC）粘附能力的影响及其机制.本课题构建3对针对FucT Ⅶ基因的RNAi表达载体,并将其转染入人结肠癌细胞HT-29,Western 印迹检测FucT Ⅶ及其下游产物sLeX蛋白的变化;实时PCR 检测FucT Ⅶ mRNA表达的变化;玫瑰红染色法检测RNAi 对HT-29与HUVECs细胞粘附能力的影响.结果显示,3对FucT Ⅶ siRNA表达载体均可有效抑制HT-29细胞FucT Ⅶ mRNA和蛋白表达,以pSilencer 2.0 FucT Ⅶ 2最为有效;与空白细胞组比较,转染pSilencer 2.0-FucT Ⅶ的HT-29细胞表面sLeX表达水平明显下降,以pSilencer 2.0-FucT Ⅶ 2最为显著;RNA干扰FucT Ⅶ表达后HT 29细胞和HUVEC之间的粘附能力明显受到抑制.研究表明,RNAi靶向沉默HT-29细胞中FucT Ⅶ基因表达可显著降低其下游产物sLeX的合成,进而抑制HT-29细胞与HUVECs的粘附能力.     

The role of the chemokines MCP-1, GRO-alpha, IL-8 and their receptors in the adhesion of monocytic cells to human atherosclerotic plaques

Monocyte adhesion to the arterial endothelium and subsequent migration into the intima are central events in the pathogenesis of atherosclerosis. Previous experimental models have shown that chemokines can enhance monocyte–endothelial adhesion by activating monocyte integrins. Our study assesses the role of chemokines IL-8, MCP-1 and GRO-α, together with their monocyte receptors CCR2 and CXCR2 in monocyte adhesion to human atherosclerotic plaques. In an adhesion assay, a suspension of monocytic U937 cells was incubated with human atherosclerotic artery sections and the levels of endothelial adhesion were quantified. Adhesion performed in the presence of a monoclonal antibody to a chemokine, chemokine receptor or of an isotype matched control immunoglobulin, shows that antibodies to all chemokines tested, as well as their receptors, inhibit adhesion compared to the control immunoglobulins. Immunohistochemistry demonstrated the expression of MCP-1, GRO-α and their receptors in the endothelial cells and intima of all atherosclerotic lesions. These results suggest that all these chemokines and their receptors can play a role in the adhesion of monocytes to human atherosclerotic plaques. Furthermore, they suggest that these chemokine interactions provide potential targets for the therapy of atherosclerosis.     

The translocation of focal adhesion kinase in brain synaptosomes is regulated by phosphorylation and actin assembly

Focal adhesion kinase (FAK) and the related proline-rich tyrosine kinase 2 (PYK2) are non-receptor protein tyrosine kinases that transduce extracellular signals through the activation of Src family kinases and are highly enriched in neurones. To further elucidate the regulation of FAK and PYK2 in nervous tissue, we investigated their distribution in brain subcellular fractions and analysed their translocation between membrane and cytosolic compartments. We have found that FAK and PYK2 are present in a small membrane-associated pool and a larger cytosolic pool in various neuronal compartments including nerve terminals. In intact nerve terminals, inhibition of Src kinases inhibited the membrane association of FAK, but not of PYK2, whereas tyrosine phosphatase inhibition sharply increased the membrane association of both FAK and PYK2. Disruption of the actin cytoskeleton was followed by a decrease in the membrane-associated pool of FAK, but not of PYK2. For both kinases, a significant correlation was found between autophosphorylation and membrane association. The data indicate that FAK and PYK2 are present in nerve terminals and that the membrane association of FAK is regulated by both phosphorylation and actin assembly, whereas that of PKY2 is primarily dependent on its phosphorylation state.     

Stealth siRNA against CD147 inhibits hepatocellular carcinoma cell metastatic properties

CD147 plays a critical role in the invasive and metastatic activity of hepatocellular carcinoma (HCC) cells by stimulating the surrounding fibroblasts to secrete matrix metalloproteinases (MMPs). Tumor cells adhesion to extracellular matrix (ECM) proteins is the first step to the tumor metastasis. MMPs degrade the ECM to promote tumor metastasis. The aim of this research was to investigate the inhibitory effects of stealth small interfering RNA (siRNA) against CD147 on HCC cell line (SMMC-7721) metastatic properties including invasion, adhesion to ECM, gelatinase production, focal adhesion kinase (FAK) and vinculin expression. Flow cytometry (FCM) and western blot assays were employed to detect the transfection efficiency of the stealth siRNA against CD147. Invasion assays and gelatin zymography were also used to detect the effects of stealth siRNA against CD147 on SMMC-7721 cells’ invasion and gelatinase production. The effects of stealth siRNA against CD147 on FAK and vinculiln expression in SMMC-7721 cells were also detected by western blot. The results showed that stealth siRNA against CD147 inhibited SMMC-7721 invasion, adhesion to ECM proteins, MMP-2 production, and FAK and vinculin expression. These findings indicate that CD147 is required for tumor cell invasion and adhesion. Perturbation of CD147 expression may have potential therapeutic uses in the prevention of MMP-2-dependent tumor invasion.     

Cell-cell and cell-matrix adhesion molecules in human heart and lung transplants

The interaction of immune cells with endothelial and target cells and extracellular matrix in human organ transplants is regulated by a number of receptor-ligand molecules. The molecules mediating intercellular adhesion and activation are classified as integrin, immunoglobulin and selectin families. In the present study the patterns of their cellular expression in human heart and lung transplants are described in normal state and during transplant rejection. The results reveal an organ specific regulation of the different adhesion molecules during transplant rejection. Specific differences were noted in the endothelial expression of vascular ligand molecules in the vascular segments of heart and lung transplants, especially in the lung capillaries. Cell type specific patterns of intercellular and cell-matrix adhesion molecules as their ligands were found in different states of graft rejection. Intravascular and interstitial differences in the expression patterns of leukocyte adhesion receptors support a concept of their stepwise function during graft infiltration. The implications for the organ specific appearance of inflammatory reactions in human heart and lung transplants as for immunosuppressive therapy are discussed.     

Helicobacter pylori adhesin HopQ disrupts trans dimerization in human CEACAMs

The human gastric pathogen Helicobacter pylori is a major causative agent of gastritis, peptic ulcer disease, and gastric cancer. As part of its adhesive lifestyle, the bacterium targets members of the carcinoembryonic antigen‐related cell adhesion molecule (CEACAM) family by the conserved outer membrane adhesin HopQ. The HopQ–CEACAM1 interaction is associated with inflammatory responses and enables the intracellular delivery and phosphorylation of the CagA oncoprotein via a yet unknown mechanism. Here, we generated crystal structures of HopQ isotypes I and II bound to the N‐terminal domain of human CEACAM1 (C1ND) and elucidated the structural basis of H. pylori specificity toward human CEACAM receptors. Both HopQ alleles target the β‐strands G, F, and C of C1ND, which form the trans dimerization interface in homo‐ and heterophilic CEACAM interactions. Using SAXS, we show that the HopQ ectodomain is sufficient to induce C1ND monomerization and thus providing H. pylori a route to influence CEACAM‐mediated cell adherence and signaling events.     

Degradation for better survival? Role of ubiquitination in epithelial morphogenesis

As a prevalent post‐translational modification, ubiquitination is essential for many developmental processes. Once covalently attached to the small and conserved polypeptide ubiquitin (Ub), a substrate protein can be directed to perform specific biological functions via its Ub‐modified form. Three sequential catalytic reactions contribute to this process, among which E3 ligases serve to identify target substrates and promote the activated Ub to conjugate to substrate proteins. Ubiquitination has great plasticity, with diverse numbers, topologies and modifications of Ub chains conjugated at different substrate residues adding a layer of complexity that facilitates a huge range of cellular functions. Herein, we highlight key advances in the understanding of ubiquitination in epithelial morphogenesis, with an emphasis on the latest insights into its roles in cellular events involved in polarized epithelial tissue, including cell adhesion, asymmetric localization of polarity determinants and cytoskeletal organization. In addition, the physiological roles of ubiquitination are discussed for typical examples of epithelial morphogenesis, such as lung branching, vascular development and synaptic formation and plasticity. Our increased understanding of ubiquitination in epithelial morphogenesis may provide novel insights into the molecular mechanisms underlying epithelial regeneration and maintenance.     

Calpain2 mediates Rab5-driven focal adhesion disassembly and cell migration

The early endosome protein Rab5 was recently shown to promote cell migration by enhancing focal adhesion disassembly through mechanisms that remain elusive. Focal adhesion disassembly is associated to proteolysis of talin, in a process that requires calpain2. Since calpain2 has been found at vesicles and endosomal compartments, we hypothesized that Rab5 stimulates calpain2 activity, leading to enhanced focal adhesion disassembly in migrating cells. We observed that calpain2 co-localizes with EEA1-positive early endosomes and co-immunoprecipitates with EEA1 and Rab5 in A549 lung carcinoma cells undergoing spreading, whereas Rab5 knock-down decreased the accumulation of calpain2 at early endosomal-enriched fractions. In addition, Rab5 silencing decreased calpain2 activity, as shown by cleavage of the fluorogenic substrate tBOC-LM-CMAC and the endogenous substrate talin. Accordingly, Rab5 promoted focal adhesion disassembly in a calpain2-dependent manner, as expression of GFP-Rab5 accelerated focal adhesion disassembly in nocodazole-synchronized cells, whereas pharmacological inhibition of calpain2 with N-acetyl-Leu-Leu-Met prevented both focal adhesion disassembly and cell migration induced by Rab5. In summary, these data uncover Rab5 as a novel regulator of calpain2 activity and focal adhesion proteolysis leading to cell migration.