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Special AT-rich sequence-binding protein 2 suppresses invadopodia formation in HCT116 cells via palladin inhibition

Special AT-rich sequence-binding protein 2 suppresses invadopodia formation in HCT116 cells via palladin inhibition
Special AT-rich sequence-binding protein 2 suppresses invadopodia formation in HCT116 cells via palladin inhibition
Invadopodia are specialized actin-based microdomains of the plasma membrane that combine adhesive properties with matrix degrading activities. Proper functioning of the bone, immune, and vascular systems depend on these organelles, and their relevance in cancer cells is linked to tumor metastasis. The elucidation of the mechanisms driving invadopodia formation is a prerequisite to understanding their role and ultimately to controlling their functions. Special AT-rich sequence-binding protein 2 (SATB2) was reported to suppress tumor cell migration and metastasis. However, the mechanism of action of SATB2 is unknown. Here, we show that SATB2 inhibits invadopodia formation in HCT116 cells and that the molecular scaffold palladin is inhibited by exogenous expression of SATB2. To confirm this association, we elucidated the function of palladin in HCT116 using a knock down strategy. Palladin knock down reduced cell migration and invasion and inhibited invadopodia formation. This phenotype was confirmed by a rescue experiment. We then demonstrated that palladin expression in SATB2-expressing cells restored invasion and invadopodia formation. Our results showed that SATB2 action is mediated by palladin inhibition and the SATB2/palladin pathway is associated with invadopodia formation in colorectal cancer cells.
0014-4827
78-88
Mansour, Mohammed
03d901e1-959e-4c7d-acc6-33c6a4b129f7
Asano, Eri
ebc3d41e-dbcb-4d22-94a6-2b5818672545
Hyodo, Toshinori
d7721c0c-bfff-4899-b244-2686bfadd145
Akter, K.A.
158fdaf8-1b26-4513-b123-f0e1729578b0
Takahashi, Masahide
7d1f756d-569e-4432-862b-2af69c2b7276
Hamaguchi, Michinari
06844604-afac-4532-b1ef-11bcae9c5104
Senga, Takeshi
46e44e0d-98bf-459e-8afb-ee692cf14279
Mansour, Mohammed
03d901e1-959e-4c7d-acc6-33c6a4b129f7
Asano, Eri
ebc3d41e-dbcb-4d22-94a6-2b5818672545
Hyodo, Toshinori
d7721c0c-bfff-4899-b244-2686bfadd145
Akter, K.A.
158fdaf8-1b26-4513-b123-f0e1729578b0
Takahashi, Masahide
7d1f756d-569e-4432-862b-2af69c2b7276
Hamaguchi, Michinari
06844604-afac-4532-b1ef-11bcae9c5104
Senga, Takeshi
46e44e0d-98bf-459e-8afb-ee692cf14279

Mansour, Mohammed, Asano, Eri, Hyodo, Toshinori, Akter, K.A., Takahashi, Masahide, Hamaguchi, Michinari and Senga, Takeshi (2015) Special AT-rich sequence-binding protein 2 suppresses invadopodia formation in HCT116 cells via palladin inhibition. Experimental Cell Research, 332 (1), 78-88. (doi:10.1016/j.yexcr.2014.12.003).

Record type: Article

Abstract

Invadopodia are specialized actin-based microdomains of the plasma membrane that combine adhesive properties with matrix degrading activities. Proper functioning of the bone, immune, and vascular systems depend on these organelles, and their relevance in cancer cells is linked to tumor metastasis. The elucidation of the mechanisms driving invadopodia formation is a prerequisite to understanding their role and ultimately to controlling their functions. Special AT-rich sequence-binding protein 2 (SATB2) was reported to suppress tumor cell migration and metastasis. However, the mechanism of action of SATB2 is unknown. Here, we show that SATB2 inhibits invadopodia formation in HCT116 cells and that the molecular scaffold palladin is inhibited by exogenous expression of SATB2. To confirm this association, we elucidated the function of palladin in HCT116 using a knock down strategy. Palladin knock down reduced cell migration and invasion and inhibited invadopodia formation. This phenotype was confirmed by a rescue experiment. We then demonstrated that palladin expression in SATB2-expressing cells restored invasion and invadopodia formation. Our results showed that SATB2 action is mediated by palladin inhibition and the SATB2/palladin pathway is associated with invadopodia formation in colorectal cancer cells.

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More information

Accepted/In Press date: 5 December 2014
e-pub ahead of print date: 15 December 2014
Published date: 1 March 2015

Identifiers

Local EPrints ID: 432622
URI: http://eprints.soton.ac.uk/id/eprint/432622
ISSN: 0014-4827
PURE UUID: 95bbb269-9617-4a1f-aa96-567e1b78a08c

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Date deposited: 22 Jul 2019 16:30
Last modified: 16 Mar 2024 02:51

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Contributors

Author: Mohammed Mansour
Author: Eri Asano
Author: Toshinori Hyodo
Author: K.A. Akter
Author: Masahide Takahashi
Author: Michinari Hamaguchi
Author: Takeshi Senga

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