Cell Adhesion-dependent Serine 85 Phosphorylation of Paxillin Modulates Focal Adhesion Formation and Haptotactic Migration via Association with the C-terminal Tail Domain of Talin

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.

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Alteration of transbilayer phospholipid compositions is involved in cell adhesion, cell spreading, and focal adhesion formation

FEBS Letters ◽

10.1002/1873-3468.12247 ◽

2016 ◽

Vol 590 (14) ◽

pp. 2138-2145 ◽

Cited By ~ 7

Author(s):

Rie Miyano ◽

Takashi Matsumoto ◽

Hiroyuki Takatsu ◽

Kazuhisa Nakayama ◽

Hye-Won Shin

Keyword(s):

Cell Adhesion ◽

Focal Adhesion ◽

Adhesion Formation ◽

Cell Spreading ◽

Focal Adhesion Formation

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Cell adhesion to fibrillin-1: identification of an Arg-Gly-Asp-dependent synergy region and a heparin-binding site that regulates focal adhesion formation

Journal of Cell Science ◽

10.1242/jcs.003954 ◽

2007 ◽

Vol 120 (8) ◽

pp. 1383-1392 ◽

Cited By ~ 56

Author(s):

D. V. Bax ◽

Y. Mahalingam ◽

S. Cain ◽

K. Mellody ◽

L. Freeman ◽

...

Keyword(s):

Cell Adhesion ◽

Binding Site ◽

Focal Adhesion ◽

Adhesion Formation ◽

Heparin Binding ◽

Heparin Binding Site ◽

Focal Adhesion Formation ◽

Fibrillin 1

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Acacetin and Pinostrobin Inhibit Malignant Breast Epithelial Cell Adhesion and Focal Adhesion Formation to Attenuate Cell Migration

Integrative Cancer Therapies ◽

10.1177/1534735420918945 ◽

2020 ◽

Vol 19 ◽

pp. 153473542091894 ◽

Cited By ~ 2

Author(s):

Aaron A. Jones ◽

Scott Gehler

Keyword(s):

Cell Migration ◽

Cell Adhesion ◽

Focal Adhesion ◽

Adhesion Formation ◽

Breast Epithelial Cell ◽

Breast Epithelial Cells ◽

Focal Adhesion Formation ◽

Malignant Breast ◽

Breast Epithelial ◽

Mcf10a Cells

Naturally occurring flavonoids, such as acacetin and pinostrobin, disrupt a wide range of processes during tumor progression, such as cell proliferation, apoptosis, and angiogenesis. Although the antiproliferative and antiapoptotic effects of acacetin and pinostrobin have been studied using various cell lines, relatively little is known about the effects of acacetin and pinostrobin on cancer cell migration and metastasis. For instance, it is unclear whether acacetin or pinostrobin have any effect on breast cancer cell migration or adhesion. In this study, we assessed the effects of acacetin and pinostrobin on malignant MDA-MB-231 and T47D breast epithelial cells and non-tumorigenic MCF10A breast epithelial cells. Our results demonstrate that both acacetin and pinostrobin selectively inhibit the migration of both MDA-MB-231 and T47D cells in a dose-dependent manner while exhibiting blunted effects on MCF10A cells. Interestingly, neither compound had an effect on cell proliferation in any of the 3 cell lines. Furthermore, both acacetin and pinostrobin inhibit MDA-MB-231 and T47D cell adhesion, cell spreading, and focal adhesion formation, but have no significant effect on MCF10A cells. Collectively, these results suggest that both acacetin and pinostrobin selectively inhibit malignant breast epithelial cell migration through attenuation of cell adhesion and focal adhesion formation. These findings indicate that both acacetin and pinostrobin may serve as potential therapeutic options to target breast tumor cell migration during late-stage tumor progression.

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