The Cytoplasmic Tyrosine Kinase Pyk2 as a Novel Effector of Fibroblast Growth Factor Receptor 3 Activation

Meyer, April N.; Gastwirt, Randy F.; Schlaepfer, David D.; Donoghue, Daniel J.

doi:10.1074/jbc.m403335200

Cited by 29 publications

(21 citation statements)

References 57 publications

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“…This residue seems important in internalisation process as demonstrated by studying truncated receptors lacking Tyr-1173 and Tyr-1212. 61 This process occurs in ECs growing on native ECM, as demonstrated by the data showing that this phosphatase is also activated by VEGF-A 165 in ECs adherent to this ECM (Figures 2A, 2B, and 3) as well as in cells on collagen I. Here, we did not address the behavior of the internalized VEGFR-2 in EC adhering on collagen I. VEGFR-2 could either be accumulated in the endosomal compartment and degraded or recycled to the membrane, thus allowing a different degree of EC activation or a modified spatial regulation of the signal.…”

Section: Discussionmentioning

confidence: 99%

Type I Collagen Limits VEGFR-2 Signaling by a SHP2 Protein-Tyrosine Phosphatase–Dependent Mechanism 1

Mitola¹,

Brenchio²,

Piccinini³

et al. 2006

Circulation Research

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Abstract-During angiogenesis, a combined action between newly secreted extracellular matrix proteins and the repertoire of integrins expressed by endothelial cells contributes in the regulation of their biological functions. Extracellular matrix-engaged integrins influence tyrosine kinase receptors, thus promoting a regulatory cross-talk between adhesive and soluble stimuli. For instance, vitronectin has been reported to positively regulate VEGFR-2. Here, we show that collagen I downregulates VEGF-A-mediated VEGFR-2 activation. This activity requires the tyrosine phosphatase SHP2, which is recruited to the activated VEGFR-2 when cells are plated on collagen I, but not on vitronectin.Constitutive expression of SHP2 C459S mutant inhibits the negative role of collagen I on VEGFR-2 phosphorylation. VEGFR-2 undergoes internalisation, which is associated with dynamin II phosphorylation. Expression of SHP2 C459S impairs receptor internalisation suggesting that SHP2-dependent dephosphorylation regulates this process. These findings demonstrate that collagen I in provisional extracellular matrix surrounding nascent capillaries triggers a signaling pathway that negatively regulates angiogenesis. Key Words: endothelial cell Ⅲ extracellular matrix Ⅲ tyrosine kinase receptor Ⅲ tyrosine phosphatase A ngiogenesis takes place during development, tissue growth and repair, and aberrantly in several pathological settings. During angiogenesis, endothelial cells (ECs) modify their genetic program. The final consequences are the assumption of a migratory phenotype, cell cycle activation, and the secretion of proteases and proteins of the extracellular matrix (ECM). 1 Changes in ECM physico-chemical features are crucial for EC biological functions. 2,3 In the resting vasculature, ECM is mainly composed by collagens, laminin, tenascin, proteoglycans, and perleclan; 4 such environment favors cell-cell adhesion, survival, and inhibits cell proliferation and migration. 2,3 In contrast, provisional ECM surrounding angiogenic ECs include new proteins such as fibronectin, fibrin, vitronectin, collagen I, and thrombospondin. Furthermore, this ECM contains proteolytic cleavage products of laminin, fibronectin, and collagens generated by metalloproteinases released by activated ECs. 2,3 A balance between negative and positive cues triggered by provisional ECM is permissive for neovascularization. 2,3 For example, collagen I 5 and thrombospondin-1 6 prevent angiogenesis, whereas fibronectin shows opposite activities. 7 Furthermore, the proteolytic of laminin, collagen, and fibronectin generates pro-and antiangiogenic fragments. 2,3 Coordinated with these ECM modifications, ECs adapt their repertoire of integrins to allow adhesion to new ECM components and to receive instructive signals from surrounding microenvironment. 2,3 In particular, the induction of an angiogenic phenotype is associated with the expression of ␣ v ␤ 3, ␣ v ␤ 5 , and ␣ 5 ␤ 1 . 8 -10 Actually, vascular endothelial growth factor (VEGF)-A and fibroblast growth factor-2 ...

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Section: Discussionmentioning

confidence: 99%

Type I Collagen Limits VEGFR-2 Signaling by a SHP2 Protein-Tyrosine Phosphatase–Dependent Mechanism 1

Mitola¹,

Brenchio²,

Piccinini³

et al. 2006

Circulation Research

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“…It has also been shown that the FGFR3 juxtamembrane domain interacts with Pyk2, a focal adhesion kinase, whose activity is required for STAT5 phophorylation. However, FGFR3 (TDII) can override the requirement of Pyk2 for the activation of STAT5 [136]. STAT5, which is known to induce cyclin D1 expression, has been shown to be involved in cell proliferation and may represent a good candidate for downstream signalling in FGFR3-positive cancers [137].…”

Section: Fgfr3 Signalling and Transcriptional Consequencesmentioning

confidence: 99%

Cell responses to FGFR3 signalling: growth, differentiation and apoptosis

L’Hôte

Knowles

2005

Experimental Cell Research

195

153

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“…Since the cytoplasmic tyrosine kinase Pyk2 has been recently indicated as a novel effector of FGFR3 activation, 27 we investigated whether Pyk2 could play any role in the signaling pathway triggered by the SADDAN and TDII mutants. For this purpose, cell lysates from transiently transfected HEK293 cells were compared with cell lysates from the stable cell lines.…”

Section: Fgfr3 Derivatives Recruit Pyk2 From the Ermentioning

confidence: 99%

K644E/M FGFR3 Mutants Activate Erk1/2 from the Endoplasmic Reticulum through FRS2α and PLCγ-independent Pathways

Lievens

Roncador

Liboi

2006

Journal of Molecular Biology

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The Cytoplasmic Tyrosine Kinase Pyk2 as a Novel Effector of Fibroblast Growth Factor Receptor 3 Activation

Cited by 29 publications

References 57 publications

Type I Collagen Limits VEGFR-2 Signaling by a SHP2 Protein-Tyrosine Phosphatase–Dependent Mechanism 1

Type I Collagen Limits VEGFR-2 Signaling by a SHP2 Protein-Tyrosine Phosphatase–Dependent Mechanism 1

Cell responses to FGFR3 signalling: growth, differentiation and apoptosis

K644E/M FGFR3 Mutants Activate Erk1/2 from the Endoplasmic Reticulum through FRS2α and PLCγ-independent Pathways

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