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1.
Integrin-linked kinase (ILK) is an essential component of the cardiac mechanical stretch sensor and is bound in a protein complex with parvin and PINCH proteins, the so-called ILK-PINCH-parvin (IPP) complex. We have recently shown that inactivation of ILK or β-parvin activity leads to heart failure in zebrafish via reduced protein kinase B (PKB/Akt) activation. Here, we show that PINCH proteins localize at sarcomeric Z disks and costameres in the zebrafish heart and skeletal muscle. To investigate the in vivo role of PINCH proteins for IPP complex stability and PKB signaling within the vertebrate heart, we inactivated PINCH1 and PINCH2 in zebrafish. Inactivation of either PINCH isoform independently leads to instability of ILK, loss of stretch-responsive anf and vegf expression, and progressive heart failure. The predominant cause of heart failure in PINCH morphants seems to be loss of PKB activity, since PKB phosphorylation at serine 473 is significantly reduced in PINCH-deficient hearts and overexpression of constitutively active PKB reconstitutes cardiac function in PINCH morphants. These findings highlight the essential function of PINCH proteins in controlling cardiac contractility by granting IPP/PKB-mediated signaling.  相似文献   

2.
Protein kinase B (PKB/Akt) plays a pivotal role in signaling pathways downstream of phosphatidylinositol 3-kinase, regulating fundamental processes such as cell survival, cell proliferation, differentiation, and metabolism. PKB/Akt activation is regulated by phosphoinositide phospholipid-mediated plasma membrane anchoring and by phosphorylation on Thr-308 and Ser-473. Whereas the Thr-308 site is phosphorylated by PDK-1, the identity of the Ser-473 kinase has remained unclear and controversial. The integrin-linked kinase (ILK) is a potential regulator of phosphorylation of PKB/Akt on Ser-473. Utilizing double-stranded RNA interference (siRNA) as well as conditional knock-out of ILK using the Cre-Lox system, we now demonstrate that ILK is essential for the regulation of PKB/Akt activity. ILK knock-out had no effect on phosphorylation of PKB/Akt on Thr-308 but resulted in almost complete inhibition of phosphorylation on Ser-473 and significant inhibition of PKB/Akt activity, accompanied by significant stimulation of apoptosis. The inhibition of PKB/Akt Ser-473 phosphorylation was rescued by kinase-active ILK but not by a kinase-deficient mutant of ILK, suggesting a role for the kinase activity of ILK in the stimulation of PKB/Akt phosphorylation. ILK knock-out also resulted in the suppression of phosphorylation of GSK-3beta on Ser-9 and cyclin D1 expression. These data establish ILK as an essential upstream regulator of PKB/Akt activation.  相似文献   

3.
BackgroundLeucine rich Aspartate motifs (LD motifs) are molecular recognition motifs on Paxillin that recognize LD-motif binding domains (LDBD) of a number of focal adhesion proteins in order to carry out downstream signaling and actin cytoskeleton remodeling. In this study, we identified structural features within LDBDs that influence their binding affinity with Paxillin LD motifs.MethodsVarious point mutants of focal adhesion targeting (FAT) domain of Focal Adhesion Kinase (FAK) were created by moving a key Lysine residue two and three helical turns in order to match the unique conformations as observed in LDBDs of two other focal adhesion proteins, Vinculin and CCM3.ResultsThis led to identify a mutant of FAT domain of FAK, named as FAT(NV) (Asn992 of FAT domain was replaced by Val), with remarkable high affinity for LD1 (Kd = 1.5 μM vs no-binding with wild type) and LD2 peptides (Kd = 7.2 μM vs 63 μM with wild type). Consistently, the focal adhesions of MCF7 cells expressing FAK(NV) were highly stable (turnover rate = 1.25 × 10−5 μm2/s) as compared to wild type FAK transfected cells (turnover rate = 1.5 × 10−3 μm2/s).ConclusionsWe observed that the relative disposition of key LD binding amino-acids at LDBD surface, hydrophobic burial of long Leucine side chains of LD-motifs and complementarity of charged surfaces are the key factors determining the binding affinities of LD motifs with LDBDs.General significanceOur study will help in protein engineering of FAT domain of FAK by modulating FAK-LD motif interactions which have implications in cellular focal adhesions and cell migration.  相似文献   

4.
Xie J  Lu W  Gu R  Dai Q  Zong B  Ling L  Xu B 《PloS one》2011,6(9):e24115

Background

Integrin linked kinase (ILK), as an important component of mechanical stretch sensor, can initiate cellular signaling response in the heart when cardiac preload increases. Previous work demonstrated increased ILK expression could induce angiogenesis to improved heart function after MI. However the patholo-physiological role of ILK in cardiac remodeling after MI is not clear.

Method and Results

Hearts were induced to cardiac remodeling by infarction and studied in Sprague-Dawley rats. Until 4 weeks after infarction, ILK expression was increased in non-ischemic tissue in parallel with myocytes hypertrophy and compensatory cardiac function. 8 weeks later, when decompensation of heart function occurred, ILK level returned to baseline. Followed ILK alternation, vascular endothelial growth factor (VEGF) expression and phosphorylation of endothelial nitric oxide synthase (eNOS) was significantly decreased 8 weeks after MI. Histology study also showed significantly microvessel decreased and myocytes loss 8 weeks paralleled with ILK down-regualtion. While ILK expression was maintained by gene delivery, tissue angiogenesis and cardiac function was preserved during cardiac remodeling.

Conclusion

Temporally up-regulation of ILK level in non-ischemic myocytes by increased external load is associated with beneficial angiogenesis to maintain infarction-induced cardiac hypertrophy. When ILK expression returns to normal, this cardiac adaptive response for infarction is weaken. Understanding the ILK related mechanism of cardiac maladaptation leads to a new strategy for treatment of heart failure after infarction.  相似文献   

5.
PINCH-1 is a widely expressed focal adhesion protein that forms a ternary complex with integrin-linked kinase (ILK) and CH-ILKBP/actopaxin/alpha-parvin (abbreviated as alpha-parvin herein). We have used RNA interference, a powerful approach of reverse genetics, to investigate the functions of PINCH-1 and ILK in human cells. We report here the following. First, PINCH-1 and ILK, but not alpha-parvin, are essential for prompt cell spreading and motility. Second, PINCH-1 and ILK, like alpha-parvin, are crucial for cell survival. Third, PINCH-1 and ILK are required for optimal activating phosphorylation of PKB/Akt, an important signaling intermediate of the survival pathway. Whereas depletion of ILK reduced Ser473 phosphorylation but not Thr308 phosphorylation of PKB/Akt, depletion of PINCH-1 reduced both the Ser473 and Thr308 phosphorylation of PKB/Akt. Fourth, PINCH-1 and ILK function in the survival pathway not only upstream but also downstream (or in parallel) of protein kinase B (PKB)/Akt. Fifth, PINCH-1, ILK and to a less extent alpha-parvin are mutually dependent in maintenance of their protein, but not mRNA, levels. The coordinated down-regulation of PINCH-1, ILK, and alpha-parvin proteins is mediated at least in part by proteasomes. Finally, increased expression of PINCH-2, an ILK-binding protein that is structurally related to PINCH-1, prevented the down-regulation of ILK and alpha-parvin induced by the loss of PINCH-1 but failed to restore the survival signaling or cell shape modulation. These results provide new insights into the functions of PINCH proteins in regulation of ILK and alpha-parvin and control of cell behavior.  相似文献   

6.
Paxillin is a focal adhesion adapter protein involved in integrin signaling. We have recently reported that the paxillin LD1 motif acts as a binding interface for both the actin-binding protein actopaxin and the serine/threonine integrin-linked kinase (ILK). In this report we demonstrate the direct association between actopaxin and ILK and dissect the role of the respective interactions in their subcellular localization. Co-immunoprecipitation experiments were employed to map the binding sites on ILK and actopaxin. ILK binds to the CH2 domain of actopaxin. However, an actopaxin CH2 domain mutant defective for paxillin binding (paxillin binding subdomain mutant) retains the capacity to bind ILK, indicating that paxillin and ILK binding sites on actopaxin are distinct. Actopaxin binds to the C terminus of ILK. Despite the direct binding between actopaxin and ILK, mutation analysis confirmed a primary role for paxillin in their localization to focal adhesions. Interestingly, an ILK mutant (E359K) that was previously reported to act as dominant negative for ILK function was unable to bind actopaxin or paxillin and failed to localize to focal adhesions. This mutant also exhibited in vitro kinase activity comparable with wild-type ILK. Taken together, these data suggest that normal ILK signaling is dependent on efficient localization involving multiple protein interactions.  相似文献   

7.
Focal adhesion kinase (FAK) and integrin-linked kinase (ILK) are both involved in integrin-mediated cell migration. However, the molecular mechanism, and the relationship between FAK and ILK activity in signaling transduction for the osteopontin (OPN)-induced migration of vascular smooth muscle cells (VSMCs) remain unclear. Here, we show that treating VSMCs with OPN could result in the dissociation of FAK with ILK by inducing phosphorylation of the former and dephosphorylation of the latter. Furthermore, we demonstrate that FAK phosphorylation induced by OPN is coupled with ILK dephosphorylation. We also provide evidence that ILK acts downstream of FAK in the signaling pathways that mediate OPN-induced VSMC migration. These findings suggest that FAK phosphorylation and ILK dephosphorylation play important roles in VSMC migration induced by OPN.  相似文献   

8.
We have examined the relationship between the in vivo and in vitro expression of three adhesion-signaling proteins (FAK, PYK2 and Paxillin), using cells of the early chick embryo, where pure cell populations may be isolated and cultured, and in which epithelial-to-mesenchymal transformation is occurring. Focal Adhesion Kinase (FAK) and Proline-rich Tyrosine Kinase-2 (PYK2) are related in molecular structure, and may have some overlapping functions in signal transduction associated with cell-substratum adhesion. Paxillin, a cytoskeletal protein, is also localized to focal adhesions. We show that the immunocytochemical detection of these molecules in vivo does not reflect their in vitro localization. Focal Adhesion Kinase showed a developmentally regulated localization to the cytoplasm, but not to sites of adhesion, in epithelial cells in vivo, while Paxillin was associated with migrating mesoderm cells. Proline-rich Tyrosine Kinase-2 was undetectable in vivo. The level of expression of these molecules was compared under in vivo and in vitro conditions. While the expression of Focal Adhesion Kinase showed a tissue-specific regulation of expression with the change to in vitro conditions, Proline-rich Tyrosine Kinase-2 showed a more uniform and less tissue-specific up-regulation. Levels of Paxillin expression also showed an increase with this change in conditions. We conclude that despite the structural and functional relationships between these three molecules in the developing embryo, the expression and localization of each is independently regulated. We suggest that this provides these cells with the adaptability that they require in order to respond to the changing extracellular environment in the early embryo, and to undergo epithelial-to-mesenchymal transformation.  相似文献   

9.
The intestinal epithelium is subjected to repetitive deformation during normal gut function by peristalsis and villous motility. Such repetitive strain promotes intestinal epithelial migration across fibronectin in vitro, but signaling mediators for this are poorly understood. We hypothesized that integrin-linked kinase (ILK) mediates strain-stimulated migration in intestinal epithelial cells cultured on fibronectin. ILK kinase activity increased rapidly 5 min after strain induction in both Caco-2 and intestinal epithelial cell-6 (IEC-6) cells. Wound closure in response to strain was reduced in ILK small interfering RNA (siRNA)-transfected Caco-2 cell monolayers when compared with control siRNA-transfected Caco-2 cells. Pharmacological blockade of phosphatidylinositol-3 kinase (PI3K) or Src or reducing Src by siRNA prevented strain activation of ILK. ILK coimmunoprecipitated with focal adhesion kinase (FAK), and this association was decreased by mutation of FAK Tyr925 but not FAK Tyr397. Strain induction of FAK Tyr925 phosphorylation but not FAK Tyr397 or FAK Tyr576 phosphorylation was blocked in ILK siRNA-transfected cells. ILK-Src association was stimulated by strain and was blocked by the Src inhibitor PP2. Finally, ILK reduction by siRNA inhibited strain-induced phosphorylation of myosin light chain and Akt. These results suggest a strain-dependent signaling pathway in which ILK association with FAK and Src mediates the subsequent downstream strain-induced motogenic response and suggest that ILK induction by repetitive deformation may contribute to recovery from mucosal injury and restoration of the mucosal barrier in patients with prolonged ileus. ILK may therefore be an important target for intervention to maintain the mucosa in such patients.  相似文献   

10.
黏着斑激酶(FAK)和整合素偶联激酶(ILK)是整合素信号途径中的重要信号转导分子,为阐明两者在血管平滑肌细胞(VSMC)黏附和迁移中的作用,以骨桥蛋白(OPN)作为VSMC黏附和迁移的诱导剂,检测其对FAK和ILK磷酸化以及对两者之间结合的影响.在此基础上,用FAK磷酸化特异性抑制剂黏着斑相关非激酶(FRNK)或ILK反义RNA分别阻断FAK磷酸化或ILK表达,进一步探讨两者在VSMC黏附和迁移中所起的作用.结果显示,OPN诱导可促进FAK磷酸化,诱导10 min后FAK磷酸化水平升高到对照组的2.4倍;与此同时,ILK的磷酸化受到抑制,30 min降至对照细胞的44.6%.OPN诱导FAK磷酸化的同时使FAK与ILK的结合减少.外源性FRNK在VSMC中的过表达显著降低FAK的磷酸化水平,促进ILK磷酸化和FAK与ILK之间的结合,抑制VSMC的黏附和迁移.用ILK反义RNA抑制ILK表达使VSMC在OPN上的黏附增加1.8倍,迁移细胞数降低45.5%.结果提示,FAK和ILK介导OPN诱导的VSMC黏附和迁移过程,两者通过对同一刺激信号产生不同的磷酸化变化而对VSMC的黏附和迁移产生不同的影响.  相似文献   

11.
The focal adhesion kinase (FAK) and the proline‐rich tyrosine kinase 2‐beta (PYK2) are implicated in cancer progression and metastasis and represent promising biomarkers and targets for cancer therapy. FAK and PYK2 are recruited to focal adhesions (FAs) via interactions between their FA targeting (FAT) domains and conserved segments (LD motifs) on the proteins Paxillin, Leupaxin, and Hic‐5. A promising new approach for the inhibition of FAK and PYK2 targets interactions of the FAK domains with proteins that promote localization at FAs. Advances toward this goal include the development of surface plasmon resonance, heteronuclear single quantum coherence nuclear magnetic resonance (HSQC‐NMR) and fluorescence polarization assays for the identification of fragments or compounds interfering with the FAK‐Paxillin interaction. We have recently validated this strategy, showing that Paxillin mimicking polypeptides with 2 to 3 LD motifs displace FAK from FAs and block kinase‐dependent and independent functions of FAK, including downstream integrin signaling and FA localization of the protein p130Cas. In the present work we study by all‐atom molecular dynamics simulations the recognition of peptides with the Paxillin and Leupaxin LD motifs by the FAK‐FAT and PYK2‐FAT domains. Our simulations and free‐energy analysis interpret experimental data on binding of Paxillin and Leupaxin LD motifs at FAK‐FAT and PYK2‐FAT binding sites, and assess the roles of consensus LD regions and flanking residues. Our results can assist in the design of effective inhibitory peptides of the FAK‐FAT: Paxillin and PYK2‐FAT:Leupaxin complexes and the construction of pharmacophore models for the discovery of potential small‐molecule inhibitors of the FAK‐FAT and PYK2‐FAT focal adhesion based functions.  相似文献   

12.
为阐明酪氨酸激酶Src在整合素被骨桥蛋白(OPN)激活所触发的细胞黏附和迁移信号途径中所起的作用,应用Src特异性抑制剂PP2阻断Src,观察OPN诱导的血管平滑肌细胞(VSMC)黏附和迁移活性的改变,并利用免疫沉淀检查PP2对整合素下游信号分子黏着斑激酶(FAK)和整合素偶联激酶(ILK)磷酸化及其相互作用的影响。结果显示,PP2可明显抑制OPN诱导的VSMC黏附和伤口愈合(黏附和迁移活性分别为对照组的76.6%和33.8%);OPN可显著诱导FAK磷酸化(磷酸化水平达对照组的1.9倍),促进ILK去磷酸化,并使FAK与ILK的结合减少(降至对照组的46.4%)。10μmol/LPP2可明显抑制OPN诱导的FAK磷酸化、拮抗OPN诱导对ILK的去磷酸化作用、促进FAK与ILK之间的结合。研究结果表明,Src作为OPN-整合素-FAK信号途径中的信号分子,通过影响FAK和ILK的磷酸化以及两者之间的相互作用来调节VSMC的黏附和迁移活性。  相似文献   

13.
Phosphoinositide 3-kinase (PI3K) is a critical component of the signaling pathways that control the activation of platelets. Here we have examined the regulation of protein kinase B (PKB), a downstream effector of PI3K, by the platelet collagen receptor glycoprotein (GP) VI and thrombin receptors. Stimulation of platelets with collagen or convulxin (a selective GPVI agonist) resulted in PI3K-dependent, and aggregation independent, Ser(473) and Thr(308) phosphorylation of PKBalpha, which results in PKB activation. This was accompanied by translocation of PKB to cell membranes. The phosphoinositide-dependent kinase PDK1 is known to phosphorylate PKBalpha on Thr(308), although the identity of the kinase responsible for Ser(473) phosphorylation is less clear. One candidate that has been implicated as being responsible for Ser(473) phosphorylation, either directly or indirectly, is the integrin-linked kinase (ILK). In this study we have examined the interactions of PKB, PDK1, and ILK in resting and stimulated platelets. We demonstrate that in platelets PKB is physically associated with PDK1 and ILK. Furthermore, the association of PDK1 and ILK increases upon platelet stimulation. It would therefore appear that formation of a tertiary complex between PDK1, ILK, and PKB may be necessary for phosphorylation of PKB. These observations indicate that PKB participates in cell signaling downstream of the platelet collagen receptor GPVI. The role of PKB in collagen- and thrombin-stimulated platelets remains to be determined.  相似文献   

14.
Paxillin is a focal adhesion adapter protein involved in integrin signaling. Paxillin LD motifs bind several focal adhesion proteins including the focal adhesion kinase, vinculin, the Arf-GTPase-activating protein paxillin-kinase linker, and the newly identified actin-binding protein actopaxin. Microsequencing of peptides derived from a 50-kDa paxillin LD1 motif-binding protein revealed 100% identity with integrin-linked kinase (ILK)-1, a serine/threonine kinase that has been implicated in integrin, growth factor, and Wnt signaling pathways. Cloning of ILK from rat smooth muscle cells generated a cDNA that exhibited 99.6% identity at the amino acid level with human ILK-1. A monoclonal antibody raised against a region of the carboxyl terminus of ILK, which is identical in rat and human ILK-1 protein, recognized a 50-kDa protein in all cultured cells and tissues examined. Binding experiments showed that ILK binds directly to the paxillin LD1 motif in vitro. Co-immunoprecipitation from fibroblasts confirmed that the association between paxillin and ILK occurs in vivo in both adherent cells and cells in suspension. Immunofluorescence microscopy of fibroblasts demonstrated that endogenous ILK as well as transfected green fluorescent protein-ILK co-localizes with paxillin in focal adhesions. Analysis of the deduced amino acid sequence of ILK identified a paxillin-binding subdomain in the carboxyl terminus of ILK. In contrast to wild-type ILK, paxillin-binding subdomain mutants of ILK were unable to bind to the paxillin LD1 motif in vitro and failed to localize to focal adhesions. Thus, paxillin binding is necessary for efficient focal adhesion targeting of ILK and may therefore impact the role of ILK in integrin-mediated signal transduction events.  相似文献   

15.
Inflammation and pro-hypertrophic signaling are important for development and progression of myocardial hypertrophy (LVH) and chronic heart failure (CHF). Here we investigated the relevance of integrin-linked kinase (ILK) for chemokine receptor CXCR4- and angiotensin II type 1-triggered signaling and its regulation and role in cardiac remodeling.Using ELISA, real-time-PCR, and Western blotting, the present study demonstrates that SDF-1 and its receptor CXCR4 are up-regulated in plasma and left ventricles, respectively, in mouse models of cardiac hypertrophy (transaortic constriction, transgenic cardiac-specific overexpression of rac1) and in human CHF in association with increased cardiac ILK-expression. In isolated cardiomyocytes, ILK is activated by CXCR4-ligation and necessary for SDF-1-triggered activation of rac1, NAD(P)H oxidase, and release of reactive oxygen species. Importantly, the pro-hypertrophic peptide angiotensin II induces ILK-activation dependent on rac1 in cardiomyocytes, where ILK is necessary for angiotensin II-mediated stimulation of hypertrophy genes and protein synthesis.We conclude that in both SDF-1- and angiotensin II-triggered signaling, ILK is a central mediator of rac1-induced oxidative stress and myocardial hypertrophy.  相似文献   

16.
The integrin-linked kinase (ILK) is a multidomain focal adhesion protein implicated in signal transmission from integrin and growth factor receptors. We have determined that ILK regulates U2OS osteosarcoma cell spreading and motility in a manner requiring both kinase activity and localization. Overexpression of wild-type (WT) ILK resulted in suppression of cell spreading, polarization, and motility to fibronectin. Cell lines overexpressing kinase-dead (S343A) or paxillin binding site mutant ILK proteins display inhibited haptotaxis to fibronectin. Conversely, spreading and motility was potentiated in cells expressing the "dominant negative," non-targeting, kinase-deficient E359K ILK protein. Suppression of cell spreading and motility of WT ILK U2OS cells could be rescued by treatment with the Rho-associated kinase (ROCK) inhibitor Y-27632 or introduction of dominant negative ROCK or RhoA, suggesting these cells have increased RhoA signaling. Activation of focal adhesion kinase (FAK), a negative regulator of RhoA, was reduced in WT ILK cells, whereas overexpression of FAK rescued the observed defects in spreading and cell polarity. Thus, ILK-dependent effects on ROCK and/or RhoA signaling may be mediated through FAK.  相似文献   

17.
In cardiac muscle, the ryanodine receptor (RyR2) on the sarcoplasmic reticulum (SR) releases the calcium required for muscle contraction. The magnitude of Ca2+ release by RyR2, which is subject to regulation by several physiological mediators, determines cardiac contractility. In heart failure, chronic stimulation of the β-adrenergic signaling pathway leads to hyperphosphorylation of RyR2 by protein kinase A, which dissociates calstabin2 (FKBP12.6) from the receptor. Calstabin2-depleted channels display altered channel gating and can cause diastolic Ca2+ release from the SR. This release depletes the SR Ca2+ stores, leading to reduced myocardial contractility. Mutant RyR2, found in patients with catecholaminergic polymorphic ventricular tachycardia, has decreased calstabin2 binding affinity, which can trigger ventricular arrhythmias and sudden cardiac death after stress and exercise. Thus, defects in RyR2 have been linked to heart failure and exercise-induced sudden cardiac death and might provide novel therapeutic targets for the treatment of these common diseases of the heart.  相似文献   

18.
《The Journal of cell biology》1995,130(5):1181-1187
The integrins have recently been implicated in signal transduction. A likely mediator of integrin signaling is focal adhesion kinase (pp125FAK or FAK), a structurally distinct protein tyrosine kinase that becomes enzymatically activated upon engagement of integrins with their ligands. A second candidate signaling molecule is paxillin, a focal adhesion associated, cytoskeletal protein that coordinately becomes phosphorylated on tyrosine upon activation of pp125FAK. Paxillin physically complexes with two protein tyrosine kinases, pp60src and Csk (COOH-terminal src kinase), and the oncoprotein p47gag-crk, each of which could function as part of a paxillin signaling complex. Using an in vitro assay we have established that the cytoplasmic domain of the beta 1 integrin can bind to paxillin and pp125FAK from chicken embryo cell lysates. The NH2-terminal, noncatalytic domain of pp125FAK can bind directly to the cytoplasmic tail of beta 1 and recognizes integrin sequences distinct from those involved in binding to alpha-actinin. Paxillin binding is independent of pp125FAK binding despite the fact that both bind to the same region of beta 1. These results demonstrate that the cytoplasmic domain of the beta subunits of integrins contain binding sites for both signaling molecules and structural proteins suggesting that integrins can coordinate the generation of cytoplasmic signals in addition to their role in anchoring components of the cytoskeleton.  相似文献   

19.
Malignant transformation is characterized by a phenotype “switch” from E- to N-cadherin – a major hallmark of epithelial to mesenchymal transition (EMT). The increased expression of N-cadherin is commonly followed by a growing capacity for migration as well as resistance to apoptosis. Integrin Linked Kinase (ILK) is a key molecule involved in EMT and progression of cancer cells. ILK is known as a major signaling mediator involved in cadherin switch, but the specific mechanism through which ILK modulates N-cadherin expression is still not clear.Studies were carried out on human melanoma WM793 and 1205Lu cell lines. Expression of proteins was analyzed using PCR and Western Blot; siRNA transfection was done for ILK. Analysis of cell signaling pathways was monitored with phospho-specific antibodies. Subcellular localization of protein was studied using the ProteoExtract Subcellular Kit and Western blot analysis.Our data show that ILK knockdown by siRNA did suppress N-cadherin expression in melanoma, but only at the protein level. The ILK silencing-induced decrease of N-cadherin membranous expression in melanoma highlights the likely crucial role of ILK in the coordination of membrane trafficking through alteration of Rab expression. It is essential to understand the molecular mechanism of increased N-cadherin expression in cancer to possibly use it in the search of new therapeutic targets.  相似文献   

20.
Vasculogenic mimicry (VM) is a newly-defined tumor microcirculation pattern in highly aggressive malignant tumors. We recently reported tumor growth and VM formation of gallbladder cancers through the contribution of the ephrin type a receptor 2 (EphA2)/focal adhesion kinase (FAK)/Paxillin signaling pathways. In this study, we further investigated the anti-VM activity of norcantharidin (NCTD) as a VM inhibitor for gallbladder cancers and the underlying mechanisms. In vivo and in vitro experiments to determine the effects of NCTD on tumor growth, host survival, VM formation of GBC-SD nude mouse xenografts, and vasculogenic-like networks, malignant phenotypes i.e., proliferation, apoptosis, invasion and migration of GBC-SD cells. Expression of VM signaling-related markers EphA2, FAK and Paxillin in vivo and in vitro were examined by immunofluorescence, western blotting and real-time polymerase chain reaction (RT-PCR), respectively. The results showed that after treatment with NCTD, GBC-SD cells were unable to form VM structures when injecting into nude mouse, growth of the xenograft was inhibited and these observations were confirmed by facts that VM formation by three-dimensional (3-D) matrix, proliferation, apoptosis, invasion, migration of GBC-SD cells were affected; and survival time of the xenograft mice was prolonged. Furthermore, expression of EphA2, FAK and Paxillin proteins/mRNAs of the xenografts was downregulated. Thus, we concluded that NCTD has potential anti-VM activity against human gallbladder cancers; one of the underlying mechanisms may be via blocking the EphA2/FAK/Paxillin signaling pathway.  相似文献   

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