miR-23b regulates cytoskeletal remodeling, motility and metastasis by directly targeting multiple transcripts

Loredana Pellegrino; Justin Stebbing; Vania M Braga; Adam E Frampton; Jimmy Jacob; Lakjaya Buluwela; Long R Jiao; Manikandan Periyasamy; Chris D Madsen; Matthew P Caley; Silvia Ottaviani; Laura Roca-Alonso; Mona El-Bahrawy; R Charles Coombes; Jonathan Krell; Leandro Castellano

doi:10.1093/nar/gkt245

miR-23b regulates cytoskeletal remodeling, motility and metastasis by directly targeting multiple transcripts

Loredana Pellegrino, Justin Stebbing, Vania M Braga, Adam E Frampton, Jimmy Jacob, Lakjaya Buluwela, Long R Jiao, Manikandan Periyasamy, Chris D Madsen, Matthew P Caley, Silvia Ottaviani, Laura Roca-Alonso, Mona El-Bahrawy, R Charles Coombes, Jonathan Krell, Leandro Castellano

Research output: Contribution to journal › Article › peer-review

Abstract

Uncontrolled cell proliferation and cytoskeletal remodeling are responsible for tumor development and ultimately metastasis. A number of studies have implicated microRNAs in the regulation of cancer cell invasion and migration. Here, we show that miR-23b regulates focal adhesion, cell spreading, cell-cell junctions and the formation of lamellipodia in breast cancer (BC), implicating a central role for it in cytoskeletal dynamics. Inhibition of miR-23b, using a specific sponge construct, leads to an increase of cell migration and metastatic spread in vivo, indicating it as a metastatic suppressor microRNA. Clinically, low miR-23b expression correlates with the development of metastases in BC patients. Mechanistically, miR-23b is able to directly inhibit a number of genes implicated in cytoskeletal remodeling in BC cells. Through intracellular signal transduction, growth factors activate the transcription factor AP-1, and we show that this in turn reduces miR-23b levels by direct binding to its promoter, releasing the pro-invasive genes from translational inhibition. In aggregate, miR-23b expression invokes a sophisticated interaction network that co-ordinates a wide range of cellular responses required to alter the cytoskeleton during cancer cell motility.

Original language	English
Pages (from-to)	5400-12
Number of pages	13
Journal	Nucleic Acids Research
Volume	41
Issue number	10
DOIs	https://doi.org/10.1093/nar/gkt245
Publication status	Published - 2013 May 1
Externally published	Yes

Subject classification (UKÄ)

Cancer and Oncology

Free keywords

Animals
Breast Neoplasms
Cardiac Myosins
Cell Adhesion
Cell Line
Cell Line, Tumor
Cell Movement
Cytoskeletal Proteins
Cytoskeleton
Female
Focal Adhesions
Gene Expression Regulation, Neoplastic
Humans
Mice
Mice, Nude
MicroRNAs
Myosin Light Chains
Neoplasm Metastasis
Phosphorylation
Promoter Regions, Genetic
Pseudopodia
Transcription Factor AP-1
Transcription, Genetic
p21-Activated Kinases
Journal Article
Research Support, Non-U.S. Gov't

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1093/nar/gkt245

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Pellegrino, L., Stebbing, J., Braga, V. M., Frampton, A. E., Jacob, J., Buluwela, L., Jiao, L. R., Periyasamy, M., Madsen, C. D., Caley, M. P., Ottaviani, S., Roca-Alonso, L., El-Bahrawy, M., Coombes, R. C., Krell, J., & Castellano, L. (2013). miR-23b regulates cytoskeletal remodeling, motility and metastasis by directly targeting multiple transcripts. Nucleic Acids Research, 41(10), 5400-12. https://doi.org/10.1093/nar/gkt245

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title = "miR-23b regulates cytoskeletal remodeling, motility and metastasis by directly targeting multiple transcripts",

abstract = "Uncontrolled cell proliferation and cytoskeletal remodeling are responsible for tumor development and ultimately metastasis. A number of studies have implicated microRNAs in the regulation of cancer cell invasion and migration. Here, we show that miR-23b regulates focal adhesion, cell spreading, cell-cell junctions and the formation of lamellipodia in breast cancer (BC), implicating a central role for it in cytoskeletal dynamics. Inhibition of miR-23b, using a specific sponge construct, leads to an increase of cell migration and metastatic spread in vivo, indicating it as a metastatic suppressor microRNA. Clinically, low miR-23b expression correlates with the development of metastases in BC patients. Mechanistically, miR-23b is able to directly inhibit a number of genes implicated in cytoskeletal remodeling in BC cells. Through intracellular signal transduction, growth factors activate the transcription factor AP-1, and we show that this in turn reduces miR-23b levels by direct binding to its promoter, releasing the pro-invasive genes from translational inhibition. In aggregate, miR-23b expression invokes a sophisticated interaction network that co-ordinates a wide range of cellular responses required to alter the cytoskeleton during cancer cell motility.",

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author = "Loredana Pellegrino and Justin Stebbing and Braga, {Vania M} and Frampton, {Adam E} and Jimmy Jacob and Lakjaya Buluwela and Jiao, {Long R} and Manikandan Periyasamy and Madsen, {Chris D} and Caley, {Matthew P} and Silvia Ottaviani and Laura Roca-Alonso and Mona El-Bahrawy and Coombes, {R Charles} and Jonathan Krell and Leandro Castellano",

year = "2013",

month = may,

day = "1",

doi = "10.1093/nar/gkt245",

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Pellegrino, L, Stebbing, J, Braga, VM, Frampton, AE, Jacob, J, Buluwela, L, Jiao, LR, Periyasamy, M, Madsen, CD, Caley, MP, Ottaviani, S, Roca-Alonso, L, El-Bahrawy, M, Coombes, RC, Krell, J & Castellano, L 2013, 'miR-23b regulates cytoskeletal remodeling, motility and metastasis by directly targeting multiple transcripts', Nucleic Acids Research, vol. 41, no. 10, pp. 5400-12. https://doi.org/10.1093/nar/gkt245

TY - JOUR

T1 - miR-23b regulates cytoskeletal remodeling, motility and metastasis by directly targeting multiple transcripts

AU - Pellegrino, Loredana

AU - Stebbing, Justin

AU - Braga, Vania M

AU - Frampton, Adam E

AU - Jacob, Jimmy

AU - Buluwela, Lakjaya

AU - Jiao, Long R

AU - Periyasamy, Manikandan

AU - Madsen, Chris D

AU - Caley, Matthew P

AU - Ottaviani, Silvia

AU - Roca-Alonso, Laura

AU - El-Bahrawy, Mona

AU - Coombes, R Charles

AU - Krell, Jonathan

AU - Castellano, Leandro

PY - 2013/5/1

Y1 - 2013/5/1

N2 - Uncontrolled cell proliferation and cytoskeletal remodeling are responsible for tumor development and ultimately metastasis. A number of studies have implicated microRNAs in the regulation of cancer cell invasion and migration. Here, we show that miR-23b regulates focal adhesion, cell spreading, cell-cell junctions and the formation of lamellipodia in breast cancer (BC), implicating a central role for it in cytoskeletal dynamics. Inhibition of miR-23b, using a specific sponge construct, leads to an increase of cell migration and metastatic spread in vivo, indicating it as a metastatic suppressor microRNA. Clinically, low miR-23b expression correlates with the development of metastases in BC patients. Mechanistically, miR-23b is able to directly inhibit a number of genes implicated in cytoskeletal remodeling in BC cells. Through intracellular signal transduction, growth factors activate the transcription factor AP-1, and we show that this in turn reduces miR-23b levels by direct binding to its promoter, releasing the pro-invasive genes from translational inhibition. In aggregate, miR-23b expression invokes a sophisticated interaction network that co-ordinates a wide range of cellular responses required to alter the cytoskeleton during cancer cell motility.

AB - Uncontrolled cell proliferation and cytoskeletal remodeling are responsible for tumor development and ultimately metastasis. A number of studies have implicated microRNAs in the regulation of cancer cell invasion and migration. Here, we show that miR-23b regulates focal adhesion, cell spreading, cell-cell junctions and the formation of lamellipodia in breast cancer (BC), implicating a central role for it in cytoskeletal dynamics. Inhibition of miR-23b, using a specific sponge construct, leads to an increase of cell migration and metastatic spread in vivo, indicating it as a metastatic suppressor microRNA. Clinically, low miR-23b expression correlates with the development of metastases in BC patients. Mechanistically, miR-23b is able to directly inhibit a number of genes implicated in cytoskeletal remodeling in BC cells. Through intracellular signal transduction, growth factors activate the transcription factor AP-1, and we show that this in turn reduces miR-23b levels by direct binding to its promoter, releasing the pro-invasive genes from translational inhibition. In aggregate, miR-23b expression invokes a sophisticated interaction network that co-ordinates a wide range of cellular responses required to alter the cytoskeleton during cancer cell motility.

KW - Animals

KW - Breast Neoplasms

KW - Cardiac Myosins

KW - Cell Adhesion

KW - Cell Line

KW - Cell Line, Tumor

KW - Cell Movement

KW - Cytoskeletal Proteins

KW - Cytoskeleton

KW - Female

KW - Focal Adhesions

KW - Gene Expression Regulation, Neoplastic

KW - Humans

KW - Mice

KW - Mice, Nude

KW - MicroRNAs

KW - Myosin Light Chains

KW - Neoplasm Metastasis

KW - Phosphorylation

KW - Promoter Regions, Genetic

KW - Pseudopodia

KW - Transcription Factor AP-1

KW - Transcription, Genetic

KW - p21-Activated Kinases

KW - Journal Article

KW - Research Support, Non-U.S. Gov't

U2 - 10.1093/nar/gkt245

DO - 10.1093/nar/gkt245

M3 - Article

C2 - 23580553

SN - 1362-4962

VL - 41

SP - 5400

EP - 5412

JO - Nucleic Acids Research

JF - Nucleic Acids Research

IS - 10

ER -

miR-23b regulates cytoskeletal remodeling, motility and metastasis by directly targeting multiple transcripts

Abstract

Subject classification (UKÄ)

Free keywords

UN SDGs

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