Rho GTPases are involved in S1P‐enhanced glomerular endothelial cells activation with anti‐myeloperoxidase antibody positive IgG

Sphingosine‐1‐phosphate (S1P) is a crucial regulator in vascular inflammation. Our recent study found that under pathophysiological concentration in active anti‐neutrophil cytoplasmic antibody (ANCA)‐associated vasculitis (AAV), S1P participated in MPO‐ANCA‐positive IgG‐induced glomerular endothelial cell (GEnC) activation via a S1P receptor (S1PR)‐dependent way. However, the downstream signalling pathways are not fully clear yet. In this study, we demonstrated that Rho guanosine triphosphatases (GTPases) signalling pathways, RhoA and Rac1 in particular, were implicated in MPO‐ANCA‐positive IgG‐mediated GEnCs activation enhanced by pathophysiological concentration of S1P in AAV. These results provide mechanistic insights into vascular barrier dysfunction in AAV, which may facilitate the development of effective therapies.     

Cholesterol‐regulated stress fiber formation

Dynamic interactions between cellular membranes and the cytoskeleton are known to play major roles in many cellular responses to environmental cues. External signals resulting in proliferation, differentiation, polarization, and motility must be translated from chemical signals into changes of state, often involving the cytoskeleton‐dependent altering of cell shape and redistribution of molecules. Cholesterol, a critical component of eukaryotic cell membranes, performs vital roles in regulating membrane dynamics and function. Here we demonstrate, using mesenchymal and epithelial cell lines, that depletion of membrane cholesterol results in Src kinase‐mediated Rho activation and caveolin phosphorylation, which together collaborate to form stress fibers. These results demonstrate that cholesterol is a critical regulator of membrane‐cytoskeletal dynamics and suggest that altered cholesterol concentrations may result in dramatic changes in cellular responses mediated by the cytoskeleton. J. Cell. Biochem. 106: 1031–1040, 2009. © 2009 Wiley‐Liss, Inc.     

Rho‐kinase inhibitor Y‐27632 increases cellular proliferation and migration in human foreskin fibroblast cells

The idea of direct differentiation of somatic cells into other differentiated cell types has attracted a great interest recently. Rho‐kinase inhibitor Y‐27632 (ROCKi) is a potential drug molecule, which has been reported to support the gene expressions typical for the chondrocytes, thus restricting their phenotypic conversion to fibroblastic cells upon the cellular expansion. In this study, we have investigated the short‐term biological responses of ROCKi to human primary foreskin fibroblasts. The fibroblast cells were exposed to 1 and 10 μM ROCKi treatments. A proteomics analysis revealed expression changes of 56 proteins, and a further protein pathway analysis suggested their association with the cell morphology, the organization, and the increased cellular movement and the proliferation. These functional responses were confirmed by a Cell‐IQ time‐lapse imaging analysis. Rho‐kinase inhibitor treatment increased the cellular proliferation up to twofold during the first 12 h, and a wound model based migration assay showed 50% faster filling of the mechanically generated wound area. Additionally, significantly less vinculin‐associated focal adhesions were present in the ROCKi‐treated cells. Despite the marked changes in the cell behavior, ROCKi was not able to induce the expression of the chondrocyte‐specific genes, such as procollagen α₁(II) and aggrecan.     

Rho‐associated coiled‐coil kinase 1 activation mediates amyloid precursor protein site‐specific Ser655 phosphorylation and triggers amyloid pathology

Rho‐associated coiled‐coil kinase 1 (ROCK1) is proposed to be implicated in Aβ suppression; however, the role for ROCK1 in amyloidogenic metabolism of amyloid precursor protein (APP) to produce Aβ was unknown. In the present study, we showed that ROCK1 kinase activity and its APP binding were enhanced in AD brain, resulting in increased β‐secretase cleavage of APP. Furthermore, we firstly confirmed that APP served as a substrate for ROCK1 and its major phosphorylation site was located at Ser655. The increased level of APP Ser655 phosphorylation was observed in the brain of APP/PS1 mice and AD patients compared to controls. Moreover, blockade of APP Ser655 phosphorylation, or inhibition of ROCK1 activity with either shRNA knockdown or Y‐27632, ameliorated amyloid pathology and improved learning and memory in APP/PS1 mice. These findings suggest that activated ROCK1 targets APP Ser655 phosphorylation, which promotes amyloid processing and pathology. Inhibition of ROCK1 could be a potential therapeutic approach for AD.     

Independent roles of Rho‐GTPases in growth cone and axonal behavior

Many external signals influence growth cone motility, pathfinding, and the formation of synapses that lead to the final map formation of the retinotectal system. Chick temporal retinal ganglion cell axons (RGCs) collapse and retract after encountering posterior tectal cells in vitro. During this process lateral extensions appear along the RGC axonal shaft. Lateral extensions appear as nascent interstitial axonal branches and also as defasciculating growth cones that are trailing along the pioneer axon. RGC branching controlled by repellent tectal cues has recently been shown to be the critical event in retinotectal map development. The intracellular mechanism underlying this phenomenon, however, is not understood. Inhibiting RhoA with either C3 toxin or inhibiting p160Rock kinase, an effector of RhoA, with Y27632 inhibited collapse, retraction, and the number of axons that showed lateral extensions. Lateral extension length increased significantly. Inhibiting Rac1A and cdc42 with cell permeable peptide inhibitors did not inhibit collapse of growth cones, but did inhibit axon retraction. In addition, the number of axons that showed lateral extensions and lateral extension length were significantly reduced. A dynamic cytoskeleton is necessary to react to incoming guidance information. This study addresses the problems of how growth cone motility and branching or defasciculation are affected by Rho‐GTPases as extracellular signals are transmitted to the cytoskeleton. © 2002 Wiley Periodicals, Inc. J Neurobiol 54: 358–369, 2003     

RhoD Binds the Rab5 Effector Rabankyrin‐5 and has a Role in Trafficking of the Platelet‐derived Growth Factor Receptor

RhoD is a member of the classical Rho GTPases and it has essential roles in the regulation of actin dynamics. RhoD localizes to early endosomes and recycling endosomes, which indicates its important role in the regulation of endosome trafficking. Here, we show that RhoD binds to the Rab5 effector Rabankyrin‐5, and RhoD and Rabankyrin‐5 colocalize to Rab5‐positive endosomes, which suggests a role for Rabankyrin‐5 in the coordination of RhoD and Rab5 in endosomal trafficking. Interestingly, depletion of RhoD using siRNA techniques interfered with the internalization of the PDGFβ receptor and the subsequent activation of the downstream signaling cascades. Our data suggest that RhoD and Rabankyrin‐5 have important roles in coordinating RhoD and Rab activities during internalization and trafficking of activated tyrosine kinase receptors .     

A Review of: “An Introduction to Separation Science B.L. Karger,L.R. Snyder and C. Horvath; Wiley-Interscience,New York, 1973; 586 pages; hard cover; $19.50”

The preparative buffer electrofocusing of a variety of thyroid related proteins is described. The study shows that selective electrofocusing of these proteins on granulated gels can be readily achieved with buffer systems of defined chemical composition. Specific proteins were recovered in satisfactory yields (30-70%) with sample loadings in the range 25-500mg.     

A ROCK inhibitor promotes keratinocyte survival and paracrine secretion,enhancing establishment of primary human melanocytes and melanocyte–keratinocyte co‐cultures

Primary melanocytes isolated from skin and expanded in culture have been widely used for laboratory research and clinical applications. The conventional method to isolate primary melanocytes from skin usually requires about 3–4 weeks of culture for melanocytes to grow sufficiently to passage. Considering that melanocytes comprise only 3%–7% of epidermal cells in normal human skin, it would be extremely helpful to increase the isolation efficiency and shorten the initial culture time to quickly meet various application needs. Here, we report that adding Y‐27632, a Rho kinase inhibitor, into the initial culture medium for 2 days can dramatically increase the yield of melanocytes. We found that Y‐27632 can promote keratinocyte attachment and survival in the melanocyte culture system, resulting in not only better recovery, but also increased proliferation of melanocytes by a paracrine signaling pathway. More specifically, Y‐27632 significantly induced keratinocyte expression of stem cell factor, which played an important role in enhancing the growth of melanocytes. In summary, Y‐27632 could profoundly enhance the yield of primary melanocytes in the initial culture through paracrine effects on keratinocytes.     

Alkannin attenuates lipopolysaccharide‐induced lung injury in mice via Rho/ROCK/NF‐κB pathway

We investigated the effects and associated mechanism of alkannin (AL) on lipopolysaccharide (LPS)‐induced acute lung injury in a mouse model. Pretreatment with AL in vivo significantly reduced the lung wet/dry weight ratio and inhibited lung myeloperoxidase activity and malondialdehyde content, while increasing superoxide dismutase activity. Hematoxylin and eosin staining demonstrated that AL attenuated lung histopathological changes. In addition, AL‐inhibited overproduction of proinflammatory cytokines in bronchoalveolar lavage fluid and lung tissues in LPS‐injured mice and LPS‐exposed A549 cells. Further analysis showed that AL‐inhibited induction of the Rho/ROCK/NF‐κB pathway via LPS‐induced inflammation in mice and A549 cells. Fasudil, a selective ROCK inhibitor, showed similar effects. Overall, the findings indicate that AL suppresses the expression of messenger RNAs and proteins associated with Rho/ROCK/NF‐κB signaling to effectively ameliorate lung injury.     

β‐Catenin and Rho GTPases as downstream targets of TGF‐β1 during pulp repair

TGF‐β1 (transforming growth factor‐β1) plays a central role in regulating proliferation, migration and differentiation of dental pulp cells during the repair process after tooth injury. Our previous study showed that p38 mitogen‐activated protein kinase may act downstream of TGF‐β1 signalling to effect the differentiation of dental pulp cells. However, the molecular mechanisms that trigger and regulate the process remain to be elucidated. TGF‐β1 interacts with signalling pathways such as Wnt/β‐catenin and Rho to induce diverse biological effects. TGF‐β1 activates β‐catenin signalling, increases β‐catenin nuclear translocation and interacts with LEF/TCF to regulate gene expression. Morphologic changes in response to TGF‐β1 are associated with activation of Rho GTPases, but are abrogated by inhibitors of Rho‐associated kinase, a major downstream target of Rho. These results suggest that the Wnt/β‐catenin and Rho pathways may mediate the downstream events of TGF‐β1 signalling.     

Phosphoinositide 3‐kinases in cell migration

Cell migration is essential for many biological processes in animals and is a complex highly co‐ordinated process that involves cell polarization, actin‐driven protrusion and formation and turnover of cell adhesions. The PI3K (phosphoinositide 3‐kinase) family of lipid kinases regulate cell migration in many different cell types, both through direct binding of proteins to their lipid products and indirectly through crosstalk with other pathways, such as Rho GTPase signalling. Emerging evidence suggests that the involvement of PI3Ks at different stages of migration varies even within one cell type, and is dependent on the combination of external stimuli, as well as on the signalling status of the cell. In addition, it appears that different PI3K isoforms have distinct roles in cell polarization and migration. This review describes how PI3K signalling is regulated by pro‐migratory stimuli, and the diverse ways in which PI3K‐mediated signal transduction contributes to different aspects of cell migration.     

Protective effect of betulinic acid on Freund's complete adjuvant‐induced arthritis in rats

The purpose of the experiment was to study the effects of betulinic acid (BA) on adjuvant‐induced arthritis in rats. The rat model of rheumatoid arthritis (AA) was established by Freund's complete adjuvant. Arthritis index, joint pathology, toe swelling, hemorheology, related cytokines and ROCK/NF‐κB signaling pathway were measured in rats. BA can significantly inhibit the arthritis index, improve joint pathology, reduce toe swelling, improve blood rheology, improve synovial cell apoptosis, and restore related cytokine negative regulation of ROCK/NF‐κB signaling pathways. BA has an obvious therapeutic effect on joint inflammation of toes in AA model rats, which may be due to the regulation of ROCK/NF‐κB signaling pathway.