scholarly journals NRP2 as an emerging angiogenic player; promoting endothelial cell adhesion and migration by regulating recycling of α5 integrin

2019 ◽  
Author(s):  
Abdullah AA Alghamdi ◽  
Christopher J Benwell ◽  
Samuel J Atkinson ◽  
Jordi Lambert ◽  
Stephen D Robinson
Keyword(s):  
Extracellular Matrix ◽  
Endothelial Cells ◽  
Vascular Networks ◽  
Wild Type ◽  
Integrin Receptors ◽  
Cell Adhesion And Migration ◽  
Β3 Integrin ◽  
And Migration ◽  
Endothelial Cell Adhesion

AbstractAngiogenesis relies on the ability of endothelial cells (ECs) to migrate over the extracellular matrix via integrin receptors to respond to an angiogenic stimulus. Of the two neuropilin (NRP) orthologs to be identified, both have been reported to be expressed on normal blood and lymphatic ECs, and to play roles in the formation of blood and lymphatic vascular networks during angiogenesis. Whilst the role of NRP1 and its interactions with integrins during angiogenesis has been widely studied, the role of NRP2 in ECs is poorly understood. Here we demonstrate that NRP2 promotes Rac-1 mediated EC adhesion and migration over fibronectin (FN) matrices in a mechanistically distinct fashion to NRP1, showing no dependence on β3 integrin (ITGB3) expression, or VEGF stimulation. Furthermore, we highlight evidence of a regulatory crosstalk between NRP2 and α5 integrin (ITGA5) in ECs, with NRP2 depletion eliciting an upregulation of ITGA5 expression and disruptions in ITGA5 cellular organisation. Finally, we propose a mechanism whereby NRP2 promotes ITGA5 recycling in ECs; NRP2 depleted ECs were found to exhibit reduced levels of total ITGA5 subunit recycling compared to wild-type (WT) ECs. Our findings expose NRP2 as a novel angiogenic player by promoting ITGA5-mediated EC adhesion and migration on FN.

scholarly journals Integrin signaling is critical for pathological angiogenesis

2006 ◽  
Vol 203 (11) ◽  
pp. 2495-2507 ◽  
Author(s):  
Ganapati H. Mahabeleshwar ◽  
Weiyi Feng ◽  
David R. Phillips ◽  
Tatiana V. Byzova
Keyword(s):  
Endothelial Cells ◽  
Tyrosine Phosphorylation ◽  
Ex Vivo ◽  
Regulatory Function ◽  
Vegf Receptor ◽  
Wild Type ◽  
Pathological Angiogenesis ◽  
Β3 Integrin ◽  
In Cells

The process of postnatal angiogenesis plays a crucial role in pathogenesis of numerous diseases, including but not limited to tumor growth/metastasis, diabetic retinopathy, and in tissue remodeling upon injury. However, the molecular events underlying this complex process are not well understood and numerous issues remain controversial, including the regulatory function of integrin receptors. To analyze the role of integrin phosphorylation and signaling in angiogenesis, we generated knock-in mice that express a mutant β3 integrin unable to undergo tyrosine phosphorylation. Two distinct models of pathological angiogenesis revealed that neovascularization is impaired in mutant β3 knock-in mice. In an ex vivo angiogenesis assay, mutant β3 knock-in endothelial cells did not form complete capillaries in response to vascular endothelial growth factor (VEGF) stimulation. At the cellular level, defective tyrosine phosphorylation in mutant β3 knock-in cells resulted in impaired adhesion, spreading, and migration of endothelial cells. At the molecular level, VEGF stimulated complex formation between VEGF receptor-2 and β3 integrin in wild-type but not in mutant β3 knock-in endothelial cells. Moreover, phosphorylation of VEGF receptor-2 was significantly reduced in cells expressing mutant β3 compared to wild type, leading to impaired integrin activation in these cells. These findings provide novel mechanistic insights into the role of integrin–VEGF axis in pathological angiogenesis.

scholarly journals Syndecans and Pancreatic Ductal Adenocarcinoma

Biomolecules ◽  
2021 ◽  
Vol 11 (3) ◽  
pp. 349
Author(s):  
Nausika Betriu ◽  
Juan Bertran-Mas ◽  
Anna Andreeva ◽  
Carlos E. Semino
Keyword(s):  
Extracellular Matrix ◽  
Pancreatic Ductal Adenocarcinoma ◽  
Cell Types ◽  
Ductal Adenocarcinoma ◽  
Physiological Processes ◽  
Extracellular Matrix Components ◽  
Detection And Diagnosis ◽  
And Migration ◽  
Early Detection And Diagnosis

Pancreatic Ductal Adenocarcinoma (PDAC) is a fatal disease with poor prognosis because patients rarely express symptoms in initial stages, which prevents early detection and diagnosis. Syndecans, a subfamily of proteoglycans, are involved in many physiological processes including cell proliferation, adhesion, and migration. Syndecans are physiologically found in many cell types and their interactions with other macromolecules enhance many pathways. In particular, extracellular matrix components, growth factors, and integrins collect the majority of syndecans associations acting as biochemical, physical, and mechanical transducers. Syndecans are transmembrane glycoproteins, but occasionally their extracellular domain can be released from the cell surface by the action of matrix metalloproteinases, converting them into soluble molecules that are capable of binding distant molecules such as extracellular matrix (ECM) components, growth factor receptors, and integrins from other cells. In this review, we explore the role of syndecans in tumorigenesis as well as their potential as therapeutic targets. Finally, this work reviews the contribution of syndecan-1 and syndecan-2 in PDAC progression and illustrates its potential to be targeted in future treatments for this devastating disease.

scholarly journals Suppressive Role of Bam32/DAPP1 in Chemokine-Induced Neutrophil Recruitment

2021 ◽  
Vol 22 (4) ◽  
pp. 1825
Author(s):  
Li Hao ◽  
Aaron J. Marshall ◽  
Lixin Liu
Keyword(s):  
Small Gtpases ◽  
Neutrophil Recruitment ◽  
Neutrophil Chemotaxis ◽  
Wild Type ◽  
Adaptor Molecule ◽  
Geranylgeranyltransferase I ◽  
And Migration ◽  
Rap1 Activation

Bam32 (B cell adaptor molecule of 32 kDa) functions in the immune responses of various leukocytes. However, the role of neutrophil Bam32 in inflammation is entirely unknown. Here, we determined the role of Bam32 in chemokine CXCL2-induced neutrophil chemotaxis in three mouse models of neutrophil recruitment. By using intravital microscopy in the mouse cremaster muscle, we found that transmigrated neutrophil number, neutrophil chemotaxis velocity, and total neutrophil chemotaxis distance were increased in Bam32−/− mice when compared with wild-type (WT) mice. In CXCL2-induced mouse peritonitis, the total emigrated neutrophils were increased in Bam32−/− mice at 2 but not 4 h. The CXCL2-induced chemotaxis distance and migration velocity of isolated Bam32−/− neutrophils in vitro were increased. We examined the activation of small GTPases Rac1, Rac2, and Rap1; the levels of phospho-Akt2 and total Akt2; and their crosstalk with Bam32 in neutrophils. The deficiency of Bam32 suppressed Rap1 activation without changing the activation of Rac1 and Rac2. The pharmacological inhibition of Rap1 by geranylgeranyltransferase I inhibitor (GGTI298) increased WT neutrophil chemotaxis. In addition, the deficiency of Bam32, as well as the inhibition of Rap1 activation, increased the levels of CXCL2-induced Akt1/2 phosphorylation at Thr308/309 in neutrophils. The inhibition of Akt by SH-5 attenuated CXCL2-induced adhesion and emigration in Bam32−/− mice. Together, our results reveal that Bam32 has a suppressive role in chemokine-induced neutrophil chemotaxis by regulating Rap1 activation and that this role of Bam32 in chemokine-induced neutrophil recruitment relies on the activation of PI3K effector Akt.

scholarly journals Microinjection of antibodies against talin inhibits the spreading and migration of fibroblasts

1992 ◽  
Vol 102 (4) ◽  
pp. 753-762
Author(s):  
G.H. Nuckolls ◽  
L.H. Romer ◽  
K. Burridge
Keyword(s):  
Extracellular Matrix ◽  
Tissue Culture ◽  
Actin Filaments ◽  
Focal Adhesions ◽  
Cell Spreading ◽  
And Migration ◽  
Extracellular Matrix Receptors

Talin is believed to be one of the key proteins involved in linking actin filaments to extracellular matrix receptors in focal adhesions. Our strategy for studying the function of talin has been to inactivate talin in living fibroblasts in tissue culture through the microinjection of affinity-purified, polyclonal anti-talin antibodies. The effect of the injected anti-talin antibodies on cell spreading was found to depend on how recently the cells had been plated. Cells that were in the process of spreading on a fibronectin substratum, and which had newly developed focal adhesions, were induced to round up and to disassemble many of the adhesions. However, if fibroblasts were allowed to spread completely before they were microinjected with the anti-talin antibody, focal adhesions remained intact and the flat morphology of the cells was unaffected. The percentage of cells that were able to maintain a spread morphology despite the injection of anti-talin antibodies increased during the first few hours after plating on fibronectin substrata. Fibroblasts that were allowed to spread completely before microinjection with the anti-talin antibody retained both intact focal adhesions and a flat, well-spread morphology, but failed to migrate effectively. Our experiments do not directly address the role of talin in mature focal adhesions, but they indicate that talin is essential for the spreading and migration of fibroblasts on fibronectin as well as for the development and initial maintenance of focal adhesions on this substratum.

Abstract 110: Thrombospondin Type-1 Domain-Containing Protein 1 (THSD1), an Intracranial Aneurysm Susceptibility Gene, Mediates Cell Adhesion in Human Umbilical Vein Endothelial Cells

Stroke ◽  
2015 ◽  
Vol 46 (suppl_1) ◽  
Author(s):  
Xiaoqian Fang ◽  
Dong H Kim ◽  
Teresa Santiago-Sim
Keyword(s):  
Endothelial Cells ◽  
Cell Adhesion ◽  
Focal Adhesion ◽  
Umbilical Vein ◽  
Adhesion Formation ◽  
Wild Type ◽  
Focal Adhesion Formation ◽  
Umbilical Vein Endothelial Cells

Introduction: An intracranial aneurysm (IA) is a weak spot in cerebral blood vessel wall that can lead to its abnormal bulging. Previously, we reported that mutations in THSD1 , encoding thrombospondin type-1 domain-containing protein 1, are associated with IA in a subset of patients. THSD1 is a transmembrane molecule with a thrombospondin type-1 repeat (TSR). Proteins with TSR domain have been implicated in a variety of processes including regulation of matrix organization, cell adhesion and migration. We have shown that in mouse brain Thsd1 is expressed in endothelial cells. Hypothesis: THSD1 plays an important role in maintaining the integrity of the endothelium by promoting adhesion of endothelial cells to the underlying basement membrane. Methods: Human umbilical vein endothelial cells are used to investigate the role of THSD1 in vitro . THSD1 expression was knocked-down by RNA interference. Cell adhesion assay was done on collagen I-coated plates and focal adhesion formation was visualized using immunofluorescence by paxillin and phosphorylated focal adhesion kinase (pFAK) staining. THSD1 re-expression is accomplished by transfection with a pCR3.1-THSD1-encoding plasmid. Results: Knockdown of THSD1 caused striking change in cell morphology and size. Compared to control siRNA-treated cells that exhibited typical cobblestone morphology, THSD1 knockdown cells were narrow and elongated, and were significantly smaller ( p <0.01). Cell adherence to collagen I-coated plates was also attenuated in THSD1 knockdown cells ( p <0.01). Consistent with this finding is the observation that the number and size of focal adhesions, based on paxillin and pFAK staining, were significantly reduced after THSD1 knockdown ( p <0.01). These defects in cell adhesion and focal adhesion formation were rescued by re-expression of wild type THSD1 ( p <0.05). In contrast, initial studies indicate that expression of mutated versions of THSD1 as seen in human patients (L5F, R450*, E466G, P639L) could not restore cell adhesion and focal adhesion formation to wild type levels. Conclusions: Our studies provide evidence for a role of THSD1 and THSD1 mutations in endothelial cell adhesion and suggest a possible mechanism underlying THSD1 -mediated aneurysm disease.

scholarly journals Role of mitogen-activated protein kinases in pulmonary endothelial cells exposed to cyclic strain

2000 ◽  
Vol 89 (6) ◽  
pp. 2391-2400 ◽  
Author(s):  
Hiroyuki Kito ◽  
Emery L. Chen ◽  
Xiujie Wang ◽  
Masataka Ikeda ◽  
Nobuyoshi Azuma ◽  
...  
Keyword(s):  
Endothelial Cells ◽  
Protein Kinases ◽  
Cyclic Strain ◽  
Cell Alignment ◽  
Mitogen Activated Protein Kinases ◽  
Mitogen Activated Protein ◽  
Pulmonary Arterial ◽  
And Migration ◽  
Sb 203580

The aim of this study was to examine the role of mitogen-activated protein kinases (MAPKs) activation in bovine pulmonary arterial endothelial cells (EC) exposed to cyclic strain. EC were subjected to 10% average strain at 60 cycles/min. Cyclic strain induced activation of extracellular signal-regulated kinase (ERK; 1.5-fold), c-Jun NH2-terminal protein kinase (JNK; 1.9-fold), and p38 (1.5-fold) with a peak at 30 min. To investigate the functional role of the activated MAPKs, we analyzed cells after treatment with PD-98059, a specific ERK kinase inhibitor, or SB-203580, a catalytic inhibitor for p38, and after transient transfection with JNK(K-R), and MEKK(K-M) the respective catalytically inactive mutants of JNK1 and MAPK kinase kinase-1. Cyclic strain increased activator protein-1 (AP-1) binding activity, which was blocked by PD-98059 and SB-203580. Activity of AP-1-dependent luciferase reporter driven by 12- O-tetradecanoyl-phorbol-13-acetate-responsive element (TRE) was induced by cyclic strain, and this was attenuated by PD-98059, MEKK(K-M), JNK(K-R), and SB-203580. PD-98059 and SB-203850 did not inhibit cell alignment and migration induced by cyclic strain. MEKK(K-M) and JNK(K-R) transfection did not block cyclic strain-induced cell alignment. In conclusion, cyclic strain activates ERK, JNK, and p38, and their activation plays a role in transcriptional activation of AP-1/TRE but not in cell alignment and migration changes in bovine pulmonary arterial EC.

scholarly journals BIM deficiency differentially impacts the function of kidney endothelial and epithelial cells through modulation of their local microenvironment

2012 ◽  
Vol 302 (7) ◽  
pp. F809-F819 ◽  
Author(s):  
Nader Sheibani ◽  
Margaret E. Morrison ◽  
Zafer Gurel ◽  
SunYoung Park ◽  
Christine M. Sorenson
Keyword(s):  
Nitric Oxide ◽  
Endothelial Cells ◽  
Epithelial Cells ◽  
Cell Types ◽  
Proper Function ◽  
Causative Role ◽  
Structural Support ◽  
Cell Adhesion And Migration ◽  
And Migration ◽  
Endothelial Nitric Oxide

The extracellular matrix (ECM) acts as a scaffold for kidney cellular organization. Local secretion of the ECM allows kidney cells to readily adapt to changes occurring within the kidney. In addition to providing structural support for cells, the ECM also modulates cell survival, migration, proliferation, and differentiation. Although aberrant regulation of ECM proteins can play a causative role in many diseases, it is not known whether ECM production, cell adhesion, and migration are regulated in a similar manner in kidney epithelial and endothelial cells. Here, we demonstrate that lack of BIM expression differentially impacts kidney endothelial and epithelial cell ECM production, migration, and adhesion, further emphasizing the specialized role of these cell types in kidney function . Bim −/− kidney epithelial cells demonstrated decreased migration, increased adhesion, and sustained expression of osteopontin and thrombospondin-1 (TSP1). In contrast, bim −/− kidney endothelial cells demonstrated increased cell migration, and decreased expression of osteopontin and TSP1. We also observed a fivefold increase in VEGF expression in bim −/− kidney endothelial cells consistent with their increased migration and capillary morphogenesis. These cells also had decreased endothelial nitric oxide synthase activity and nitric oxide bioavailability. Thus kidney endothelial and epithelial cells make unique contributions to the regulation of their ECM composition, with specific impact on adhesive and migratory properties that are essential for their proper function.

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