David Gau scite author profile

Actin-based cell migration is a fundamental cellular activity that plays a crucial role in a wide range of physiological and pathological processes. An essential feature of the remodeling of actin cytoskeleton during cell motility is the de novo synthesis of factors involved in the regulation of the actin cytoskeleton and cell adhesion in response to growth-factor signaling, and this aspect of cell migration is critically regulated by serum-response factor (SRF)mediated gene transcription. Myocardin-related transcription factors (MRTFs) are key coactivators of SRF that link actin dynamics to SRF-mediated gene transcription. In this Review, we provide a comprehensive overview of the role of MRTF in both normal and cancer cell migration by discussing its canonical SRF-dependent as well as its recently emerged SRF-independent functions, exerted through its SAP domain, in the context of cell migration. We conclude by highlighting outstanding questions for future research in this field.

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Synthesis of a Stable Disilyne Bisphosphine Adduct and Its Non‐Metal‐Mediated CO₂ Reduction to CO

Gau

et al. 2010

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Reversible Binding of Ethylene to Silylene–Phosphine Complexes at Room Temperature

et al. 2011

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Stable Phosphonium Sila-ylide with Reactivity as a Sila-Wittig Reagent

et al. 2009

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The silicon congeners of well-known phosphonium ylides have been considered only as short-lived reactive intermediates. We successfully synthesized a remarkably stable phosphonium sila-ylide. Its X-ray structure reveals a long Si-P bond and a strongly pyramidalized silicon center, indicating a very weak P-Si pi interaction. In addition, it exhibits an alpha,beta-ambiphilic character with a nucleophilic silicon center, similar to its carbon-congener phosphonium ylides. This property of the phosphonium sila-ylide allows its use as a sila-Wittig reagent with carbonyl derivatives.

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Both actin and polyproline interactions of profilin-1 are required for migration, invasion and capillary morphogenesis of vascular endothelial cells

Ding

Gau

Deasy

et al. 2009

Experimental Cell Research

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The objective of the present study was to evaluate how different ligand interactions of profilin-1 (Pfn1), an actin-binding protein that is upregulated during capillary morphogenesis of vascular endothelial cells (VEC), contribute to migration and capillary forming ability of VEC. We adopted a knockdown-knockin experimental system to stably express either fully-functional or mutants of Pfn1 that are impaired in binding to two of its major ligands, actin (H119E mutant) and proteins containing polyproline domains (H133S mutant), in a human dermal microvascular cell line (HmVEC) against near-null endogenous Pfn1 background. We found that silencing endogenous Pfn1 expression in HmVEC leads to slower random migration, reduced velocity of membrane protrusion and a significant impairment in matrigel-induced cord formation. Only re-expression of fullyfunctional but not any of the two ligand-binding deficient mutants of Pfn1 rescues the above defects. We further show that loss of Pfn1 expression in VEC inhibits three-dimensional capillary morphogenesis, MMP2 secretion and ECM invasion. VEC invasion through ECM is also inhibited when actin and polyproline interactions of Pfn1 are disrupted. Together, these experimental data demonstrate that Pfn1 regulates VEC migration, invasion and capillary morphogenesis through its interaction with both actin and proline-rich ligands.

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Synthesis of a Phosphine‐Stabilized Silicon(II) Hydride and Its Addition to Olefins: A Catalyst‐Free Hydrosilylation Reaction

et al. 2011

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Synthesis and Structure of a Base‐Stabilized C‐Phosphino‐Si‐Amino Silyne

et al. 2010

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A silyne seeker: The synthesis of the first isolable silyne, which is stabilized by a phosphine ligand, has been achieved (see picture). An X‐ray diffraction study reveals a very short silicon–carbon bond, as predicted computationally for SiC bonds. This species has a certain degree of carbenic character, and this result shows that the phosphonium sila‐ylide fragment acts as a strong π‐donating and π‐accepting substituent.

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A Stable Monomeric SiO₂ Complex with Donor–Acceptor Ligands

et al. 2017

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Isolation of a monomeric SiO compound 3 as a stable donor-acceptor complex with two different ligands -a σ-donating ligand (pyridine, dimethylaminopyridine, N-heterocyclic carbene) and a donor-acceptor ligand (iminophosphorane)-is presented. The SiO complex 3 is soluble in ordinary organic solvents and is stable at room temperature in solution and in the solid state. Of particular interest, 3 remains reactive and can be used as a stable and soluble unimolecular SiO reagent.

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David Gau

SRF'ing and SAP'ing – the role of MRTF proteins in cell migration

Synthesis of a Stable Disilyne Bisphosphine Adduct and Its Non‐Metal‐Mediated CO₂ Reduction to CO

Reversible Binding of Ethylene to Silylene–Phosphine Complexes at Room Temperature

Stable Phosphonium Sila-ylide with Reactivity as a Sila-Wittig Reagent

Both actin and polyproline interactions of profilin-1 are required for migration, invasion and capillary morphogenesis of vascular endothelial cells

Synthesis of a Phosphine‐Stabilized Silicon(II) Hydride and Its Addition to Olefins: A Catalyst‐Free Hydrosilylation Reaction

Synthesis and Structure of a Base‐Stabilized C‐Phosphino‐Si‐Amino Silyne

A Stable Monomeric SiO₂ Complex with Donor–Acceptor Ligands

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David Gau

SRF'ing and SAP'ing – the role of MRTF proteins in cell migration

Synthesis of a Stable Disilyne Bisphosphine Adduct and Its Non‐Metal‐Mediated CO2 Reduction to CO

Reversible Binding of Ethylene to Silylene–Phosphine Complexes at Room Temperature

Stable Phosphonium Sila-ylide with Reactivity as a Sila-Wittig Reagent

Both actin and polyproline interactions of profilin-1 are required for migration, invasion and capillary morphogenesis of vascular endothelial cells

Synthesis of a Phosphine‐Stabilized Silicon(II) Hydride and Its Addition to Olefins: A Catalyst‐Free Hydrosilylation Reaction

Synthesis and Structure of a Base‐Stabilized C‐Phosphino‐Si‐Amino Silyne

A Stable Monomeric SiO2 Complex with Donor–Acceptor Ligands

Contact Info

Product

Resources

About

Synthesis of a Stable Disilyne Bisphosphine Adduct and Its Non‐Metal‐Mediated CO₂ Reduction to CO

A Stable Monomeric SiO₂ Complex with Donor–Acceptor Ligands