William Veon scite author profile

De novo synthesis of cytoskeleton-regulatory proteins triggered by the MKL (megakaryoblastic leukemia)/SRF (serum response factor) transcriptional system in response to pro-angiogenic growth factors lies at the heart of endothelial cell (EC) migration (a critical element of angiogenesis) and neovascularization. This study explores whether pharmacological intervention of MKL/SRF signaling axis by CCG-1423 is able to suppress angiogenesis. Our studies show that CCG-1423 inhibits migration and cord morphogenesis of EC in vitro and sprouting angiogenesis ex vivo and in vivo, suggesting CCG-1423 could be a novel anti-angiogenic agent. Kymography analyses of membrane dynamics of EC revealed that CCG-1423 treatment causes a major defect in membrane protrusion. CCG-1423 treatment led to attenuated expression of several actin-binding proteins that are important for driving membrane protrusion including ArpC2, VASP and profilin1 (Pfn1) with the most drastic effect seen on the expression of Pfn1. Finally, depletion of Pfn1 alone is also sufficient for a dramatic decrease in sprouting angiogenesis of EC in vitro and ex vivo, further suggesting that Pfn1 depletion may be one of the mechanisms of the anti-angiogenic action of CCG-1423.

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The VASP–profilin1 (Pfn1) interaction is critical for efficient cell migration and is regulated by cell–substrate adhesion in a PKA-dependent manner

Gau

Veon

Shroff

et al. 2019

Journal of Biological Chemistry

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Threonine 89 Is an Important Residue of Profilin-1 That Is Phosphorylatable by Protein Kinase A

et al. 2016

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ObjectiveDynamic regulation of actin cytoskeleton is at the heart of all actin-based cellular events. In this study, we sought to identify novel post-translational modifications of Profilin-1 (Pfn1), an important regulator of actin polymerization in cells.MethodologyWe performed in vitro protein kinase assay followed by mass-spectrometry to identify Protein Kinase A (PKA) phosphorylation sites of Pfn1. By two-dimensional gel electrophoresis (2D-GE) analysis, we further examined the changes in the isoelectric profile of ectopically expressed Pfn1 in HEK-293 cells in response to forskolin (FSK), an activator of cAMP/PKA pathway. Finally, we combined molecular dynamics simulations (MDS), GST pull-down assay and F-actin analyses of mammalian cells expressing site-specific phosphomimetic variants of Pfn1 to predict the potential consequences of phosphorylation of Pfn1.Results and SignificanceWe identified several PKA phosphorylation sites of Pfn1 including Threonine 89 (T89), a novel site. Consistent with PKA’s ability to phosphorylate Pfn1 in vitro, FSK stimulation increased the pool of the most negatively charged form of Pfn1 in HEK-293 cells which can be attenuated by PKA inhibitor H89. MDS predicted that T89 phosphorylation destabilizes an intramolecular interaction of Pfn1, potentially increasing its affinity for actin. The T89D phosphomimetic mutation of Pfn1 elicits several changes that are hallmarks of proteins folded into alternative three-dimensional conformations including detergent insolubility, protein aggregation and accelerated proteolysis, suggesting that T89 is a structurally important residue of Pfn1. Expression of T89D-Pfn1 induces actin:T89D-Pfn1 co-clusters and dramatically reduces overall actin polymerization in cells, indicating an actin-sequestering action of T89D-Pfn1. Finally, rendering T89 non-phosphorylatable causes a positive charge shift in the isoelectric profile of Pfn1 in a 2D gel electrophoresis analysis of cell extracts, a finding that is consistent with phosphorylation of a certain pool of intracellular Pfn1 on the T89 residue. In summary, we propose that T89 phosphorylation could have major functional consequences on Pfn1. This study paves the way for further investigation of the potential role of Pfn1 phosphorylation in PKA-mediated regulation of actin-dependent biological processes.

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Epithelial morphological reversion drives Profilin-1-induced elevation of p27^kip1in mesenchymal triple-negative human breast cancer cells through AMP-activated protein kinase activation

Jiang

Veon

et al. 2015

Cell Cycle

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Profilin-1 (Pfn1) is an important regulator of actin polymerization that is downregulated in human breast cancer. Previous studies have shown Pfn1 has a tumor-suppressive effect on mesenchymal-like triple-negative breast cancer cells, and Pfn1-induced growth suppression is partly mediated by upregulation of cell-cycle inhibitor p27(kip1) (p27). In this study, we demonstrate that Pfn1 overexpression leads to accumulation of p27 through promoting AMPK activation and AMPK-dependent phosphorylation of p27 on T198 residue, a post-translational modification that leads to increased protein stabilization of p27. This pathway is mediated by Pfn1-induced epithelial morphological reversion of mesenchymal breast cancer through cadherin-mediated restoration of adherens junctions. These findings not only elucidate a potential mechanism of how Pfn1 may inhibit proliferation of mesenchymal breast cancer cells, but also highlight a novel pathway of cadherin-mediated p27 induction and therefore cell-cycle control in cells.

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William Veon

Pharmacological intervention of MKL/SRF signaling by CCG-1423 impedes endothelial cell migration and angiogenesis

The VASP–profilin1 (Pfn1) interaction is critical for efficient cell migration and is regulated by cell–substrate adhesion in a PKA-dependent manner

Threonine 89 Is an Important Residue of Profilin-1 That Is Phosphorylatable by Protein Kinase A

Epithelial morphological reversion drives Profilin-1-induced elevation of p27^kip1in mesenchymal triple-negative human breast cancer cells through AMP-activated protein kinase activation

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William Veon

Pharmacological intervention of MKL/SRF signaling by CCG-1423 impedes endothelial cell migration and angiogenesis

The VASP–profilin1 (Pfn1) interaction is critical for efficient cell migration and is regulated by cell–substrate adhesion in a PKA-dependent manner

Threonine 89 Is an Important Residue of Profilin-1 That Is Phosphorylatable by Protein Kinase A

Epithelial morphological reversion drives Profilin-1-induced elevation of p27kip1in mesenchymal triple-negative human breast cancer cells through AMP-activated protein kinase activation

Contact Info

Product

Resources

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Epithelial morphological reversion drives Profilin-1-induced elevation of p27^kip1in mesenchymal triple-negative human breast cancer cells through AMP-activated protein kinase activation