Project description:The role of the Wiskott-Aldrich syndrome protein (WASp) in platelet function is unclear because platelets that lack WASp function normally. WASp constitutively associates with WASp-interacting protein (WIP) in resting and activated platelets. The role of WIP in platelet function was investigated using mice that lack WIP or WASp. WIP knockout (KO) platelets lack WASp and thus are double deficient. WIP KO mice have a thrombocytopenia, similar to WASp KO mice, resulting in part from enhanced platelet clearance. Most WIP KO, but not WASp KO, mice evolved platelet-associated immunoglobulins (Ig) of the IgA class, which normalize their platelet survival but diminish their glycoprotein VI (GPVI) responses. Protein tyrosine phosphorylation, including that of phospholipase C-gamma2, and calcium mobilization are impaired in IgA-presenting WIP KO platelets stimulated through GPVI, resulting in defects in alpha-granule secretion, integrin alphaIIbbeta3 activation, and actin assembly. The anti-GPVI antibody JAQ1 induces the irreversible loss of GPVI from circulating platelets in wild-type mice, but not in WIP KO mice that bear high levels of platelet-associated IgAs. Together, the data indicate that platelet-associated IgAs negatively modulate GPVI signaling and function in WIP KO mice.

Project description:Amyloids are highly ordered, cross-?-sheet-rich protein/peptide aggregates associated with both human diseases and native functions. Given the well established ability of amyloids in interacting with cell membranes, we hypothesize that amyloids can serve as universal cell-adhesive substrates. Here, we show that, similar to the extracellular matrix protein collagen, amyloids of various proteins/peptides support attachment and spreading of cells via robust stimulation of integrin expression and formation of integrin-based focal adhesions. Additionally, amyloid fibrils are also capable of immobilizing non-adherent red blood cells through charge-based interactions. Together, our results indicate that both active and passive mechanisms contribute to adhesion on amyloid fibrils. The present data may delineate the functional aspect of cell adhesion on amyloids by various organisms and its involvement in human diseases. Our results also raise the exciting possibility that cell adhesivity might be a generic property of amyloids.

Project description:Platelet aggregation is essential for hemostasis but can also cause myocardial infarction and stroke. A key but poorly understood step in platelet activation is the shift of the principal adhesive receptor, alpha(IIb)beta(3) integrin, from a low- to high-affinity state for its ligands, a process that enables adhesion and aggregation. In response to stimulation of heterotrimeric guanosine triphosphate-binding protein or immunoreceptor tyrosine-based activation motif-coupled receptors, phospholipases cleave membrane phospholipids to generate lipid and soluble second messengers. An essential role in platelet activation has been established for phospholipase C (PLC) but not for PLD and its product phosphatidic acid. Here, we report that platelets from Pld1(-/-) mice displayed impaired alpha(IIb)beta(3) integrin activation in response to major agonists and defective glycoprotein Ib-dependent aggregate formation under high shear conditions. These defects resulted in protection from thrombosis and ischemic brain infarction without affecting tail bleeding times. These results indicate that PLD1 may be a critical regulator of platelet activity in the setting of ischemic cardiovascular and cerebrovascular events.

Project description:The properties of cholesterol-dependent domains (lipid rafts) in cell membranes have been controversial. Because integrin-mediated cell adhesion and caveolin both regulate trafficking of raft components, we investigated the effects of adhesion and caveolin on membrane order. The fluorescent probe Laurdan and two-photon microscopy revealed that focal adhesions are highly ordered; in fact, they are more ordered than caveolae or domains that stain with cholera toxin subunit B (CtxB). Membrane order at focal adhesion depends partly on phosphorylation of caveolin1 at Tyr14, which localizes to focal adhesions. Detachment of cells from the substratum triggers a rapid, caveolin-independent decrease in membrane order, followed by a slower, caveolin-dependent decrease that correlates with internalization of CtxB-stained domains. Endocytosed CtxB domains also become more fluid. Thus, membrane order is highly dependent on caveolae and focal adhesions. These results show that lipid raft properties are conferred by assembly of specific protein complexes. The ordered state within focal adhesions may have important consequences for signaling at these sites.

Project description:Integrin ?IIb?3 mediated bidirectional signaling plays a critical role in thrombosis and haemostasis. Signaling mediated by the ?3 subunit has been extensively studied, but ?IIb mediated signaling has not been characterized. Previously, we reported that platelet granule secretion and TxA2 production induced by ?IIb mediated outside-in signaling is negatively regulated by the ?3 cytoplasmic domain residues R(724)KEFAKFEEER(734). In this study, we identified part of the signaling pathway utilized by ?IIb mediated outside-in signaling. Platelets from humans and gene deficient mice, and genetically modified CHO cells as well as a variety of kinase inhibitors were used for this work. We found that aggregation of TxA2 production and granule secretion by ?3?724 human platelets initiated by ?IIb mediated outside-in signaling was inhibited by the Src family kinase inhibitor PP2 and the PI3K inhibitor wortmannin, respectively, but not by the MAPK inhibitor U0126. Also, PP2 and wortmannin, and the palmitoylated ?3 peptide R(724)KEFAKFEEER(734), each inhibited the phosphorylation of Akt residue Ser473 and prevented TxA2 production and storage granule secretion. Similarly, Akt phosphorylation in mouse platelets stimulated by the PAR4 agonist peptide AYPGKF was ?IIb?3-dependent, and blocked by PP2, wortmannin and the palmitoylated peptide p-RKEFAKFEEER. Akt was also phosphorylated in response to mAb D3 plus Fg treatment of CHO cells in suspension expressing ?IIb?3-?724 or ?IIb?3E(724)AERKFERKFE(734), but not in cells expressing wild type ?IIb?3. In summary, SFK(s) and PI3K/Akt signaling is utilized by ?IIb-mediated outside-in signaling to activate platelets even in the absence of all but 8 membrane proximal residues of the ?3 cytoplasmic domain. Our results provide new insight into the signaling pathway used by ?IIb-mediated outside-in signaling in platelets.

Project description:Focal adhesion kinase (FAK) is an essential nonreceptor tyrosine kinase regulating cell migration, adhesive signaling, and mechanosensing. Using FAK-null cells expressing FAK under an inducible promoter, we demonstrate that FAK regulates the time-dependent generation of adhesive forces. During the early stages of adhesion, FAK expression in FAK-null cells enhances integrin activation to promote integrin binding and, hence, the adhesion strengthening rate. Importantly, FAK expression regulated integrin activation, and talin was required for the FAK-dependent effects. A role for FAK in integrin activation was confirmed in human fibroblasts with knocked-down FAK expression. The FAK autophosphorylation Y397 site was required for the enhancements in adhesion strengthening and integrin-binding responses. This work demonstrates a novel role for FAK in integrin activation and the time-dependent generation of cell-ECM forces.

Project description:Deficient epidermal adhesion is a hallmark of blistering skin disorders and chronic wounds, implicating integrins as potential therapeutic targets. Integrin ?3?1, a major receptor in the epidermis for adhesion to laminin-332 (LN-332), has critical roles in basement membrane (BM) organization during skin development. In the current study we identify a role for ?3?1 in promoting stability of nascent epidermal BMs through induction of fibulin-2, a matrix-associated protein that binds LN-332. We demonstrate that mice lacking ?3?1 in the epidermis display ruptured BM beneath neo-epidermis of wounds, characterized by extensive blistering. This junctional blistering phenocopies defects reported in newborn ?3-null mice, as well as in human patients with ?3 gene mutations, indicating that the developmental role of ?3?1 in BM organization is recapitulated during wound healing. Mice lacking epidermal ?3?1 also have reduced fibulin-2 expression, and fibulin-2-null mice display perinatal skin blisters similar to those in ?3?1-deficient mice. Interestingly, ?3-null wound epidermis or keratinocytes also show impaired processing of the LN-332 ?2 chain, although this defect was independent of reduced fibulin-2 and did not appear to cause blistering. Our findings indicate a role for integrin ?3?1 in BM stability through fibulin-2 induction, both in neonatal skin and in adult wounds.

Project description:p160(ROCK) is a protein serine/threonine kinase that binds to GTP-Rho and is activated by this binding. We have recently found that the expression of p160(ROCK) induces focal adhesions and stress fibres in HeLa cells, whereas a dominant-negative form of this kinase suppresses Rho-induced formation of these structures, suggesting that this kinase is a downstream target of Rho in this process [Ishizaki, Naito, Fujisawa, Maekawa, Watanabe, Saito and Narumiya (1997) FEBS Lett. 404, 118-124]. To find out the mode of action of p160(ROCK), we developed immunoblotting with an anti-p160(ROCK) antibody and investigated the subcellular localization of p160(ROCK) during platelet aggregation. In resting human platelets, more than 90% of p160(ROCK) was present in the Triton X-100-soluble fraction. When platelets were stimulated with thrombin, approx. 10% of p160(ROCK) was translocated to the Triton X-100-insoluble fraction. This translocation was detected as early as 20 s after stimulation and reached a maximum at 5 min; it was suppressed by the addition of EDTA or an Arg-Gly-Asp-Ser peptide (RGDS), both of which inhibit integrin alphaIIbbeta3-mediated platelet aggregation. Using [32P]Pi-loaded platelets, we found that p160(ROCK) was phosphorylated in response to stimulation by thrombin. This phosphorylation, however, was not affected by the addition of EDTA and RGDS. These results suggest that p160(ROCK) translocates to cytoskeleton in a manner dependent on integrin ligation and works in an early stage of cytoskeletal reorganization in thrombin-stimulated platelets.

Project description:Multicellular organisms have well-defined, tightly regulated mechanisms for cell adhesion. Heterodimeric ?? integrin receptors play central roles in this function and regulate processes for normal cell functions, including signaling, cell migration, and development, binding to the extracellular matrix, and senescence. They are involved in hemostasis and the immune response, participate in leukocyte function, and have biological implications in angiogenesis and cancer. Proper control of integrin activation for cellular communication with the external environment requires several physiological processes. Perturbation of these equilibria may lead to constitutive integrin activation that results in bleeding disorders. Furthermore, integrins play key roles in cancer progression and metastasis in which certain tumor types exhibit higher levels of various integrins. Thus, the integrin-associated signaling complex is important for cancer therapy development. During inside-out signaling, the cytoskeletal protein talin plays a key role in regulating integrin affinity whereby the talin head domain activates integrin by binding to the cytoplasmic tail of ?-integrin and acidic membrane phospholipids. To understand the mechanism of integrin activation by talin, we determined the crystal structure of the talin head domain bound to the acidic phospholipid phosphatidylinositol 4,5-bisphosphate (PIP2), allowing us to design a lipid-binding-deficient talin mutant. Our confocal microscopy with talin knockout cells suggests that the talin-cell membrane interaction seems essential for focal adhesion formation and stabilization. Basal integrin activation in Chinese hamster ovary cells suggests that the lipid-binding-deficient talin mutant inhibits integrin activation. Thus, membrane attachment of talin seems necessary for integrin activation and focal adhesion formation.

Project description:Published data suggest that the tyrosine kinase syk participates in platelet signalling through the integrin alphaIIbbeta3. Our data show an association of syk and integrin beta3 in immunoprecipitates from unstimulated and stimulated platelets. We detected syk in anti-beta3 precipitates and, conversely, beta3 in anti-syk precipitates. In vitro kinase assays with anti-beta3 precipitates demonstrated that syk activity was enhanced in ADP-stimulated platelets.