P21CIP1 mediates reciprocal switching between proliferation and invasion during metastasis

X. Qian; J. Hulit; K. Suyama; E. A. Eugenin; T. J. Belbin; O. Loudig; T. Smirnova; Z. N. Zhou; J. Segall; J. Locker; G. R. Phillips; L. Norton; R. B. Hazan

doi:10.1038/onc.2012.249

P21CIP1 mediates reciprocal switching between proliferation and invasion during metastasis

X. Qian, J. Hulit, K. Suyama, E. A. Eugenin, T. J. Belbin, O. Loudig, T. Smirnova, Z. N. Zhou, J. Segall, J. Locker, G. R. Phillips, L. Norton, R. B. Hazan

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

38 Scopus citations

Abstract

Cell proliferation and invasion are critical for malignant progression, yet how these processes relate to each other and whether they regulate one another during metastasis is unknown. We show that invasiveness of breast cancer cells is associated with growth arrest due to p21CIP1 upregulation. Knockdown of p21CIP1 increases cell proliferation and suppresses invasion. Since p21CIP1 acts to inhibit cyclin E during cell-cycle progression, we demonstrated that a constitutively active form of cyclin E had similar effects to p21CIP1 inhibition resulting in enhanced cell growth and suppressed invasiveness. We tested these findings in vivo in the Polyoma middle T mammary tumor model in which p21CIP1 was deleted. p21CIP1 knockout mice exhibited dramatic suppression of metastasis, independent of tumor growth, which was rescued by p21CIP1. Metastasis suppression by p21CIP1 ablation was associated with striking cytoskeletal reorganization leading to a non-invasive and highly proliferative state. Thus, p21CIP1 regulates metastasis by mediating reciprocal switching between invasion and proliferation.

Original language	English (US)
Pages (from-to)	2292-2303
Number of pages	12
Journal	Oncogene
Volume	32
Issue number	18
DOIs	https://doi.org/10.1038/onc.2012.249
State	Published - May 2 2013

Keywords

breast cancer
cell cycle
cyclin E
cytoskeleton
invasion
metastasis
p21CIP1

ASJC Scopus subject areas

Molecular Biology
Genetics
Cancer Research

UN SDGs

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

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10.1038/onc.2012.249

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title = "P21CIP1 mediates reciprocal switching between proliferation and invasion during metastasis",

abstract = "Cell proliferation and invasion are critical for malignant progression, yet how these processes relate to each other and whether they regulate one another during metastasis is unknown. We show that invasiveness of breast cancer cells is associated with growth arrest due to p21CIP1 upregulation. Knockdown of p21CIP1 increases cell proliferation and suppresses invasion. Since p21CIP1 acts to inhibit cyclin E during cell-cycle progression, we demonstrated that a constitutively active form of cyclin E had similar effects to p21CIP1 inhibition resulting in enhanced cell growth and suppressed invasiveness. We tested these findings in vivo in the Polyoma middle T mammary tumor model in which p21CIP1 was deleted. p21CIP1 knockout mice exhibited dramatic suppression of metastasis, independent of tumor growth, which was rescued by p21CIP1. Metastasis suppression by p21CIP1 ablation was associated with striking cytoskeletal reorganization leading to a non-invasive and highly proliferative state. Thus, p21CIP1 regulates metastasis by mediating reciprocal switching between invasion and proliferation.",

keywords = "breast cancer, cell cycle, cyclin E, cytoskeleton, invasion, metastasis, p21CIP1",

author = "X. Qian and J. Hulit and K. Suyama and Eugenin, {E. A.} and Belbin, {T. J.} and O. Loudig and T. Smirnova and Zhou, {Z. N.} and J. Segall and J. Locker and Phillips, {G. R.} and L. Norton and Hazan, {R. B.}",

note = "Funding Information: We thank Dr Larry Herbst for his expert advice on animal studies. We thank the analytical imaging facility at AECOM for assistance with imaging. This work was supported by grants from National Cancer Institute grant (1R01 CA135061-01A1) and the Breast Cancer Research Foundation (RB Hazan). James Hulit was supported by the Susan G Komen foundation.",

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month = may,

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doi = "10.1038/onc.2012.249",

language = "English (US)",

volume = "32",

pages = "2292--2303",

journal = "Oncogene",

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T1 - P21CIP1 mediates reciprocal switching between proliferation and invasion during metastasis

AU - Qian, X.

AU - Hulit, J.

AU - Suyama, K.

AU - Eugenin, E. A.

AU - Belbin, T. J.

AU - Loudig, O.

AU - Smirnova, T.

AU - Zhou, Z. N.

AU - Segall, J.

AU - Locker, J.

AU - Phillips, G. R.

AU - Norton, L.

AU - Hazan, R. B.

N1 - Funding Information: We thank Dr Larry Herbst for his expert advice on animal studies. We thank the analytical imaging facility at AECOM for assistance with imaging. This work was supported by grants from National Cancer Institute grant (1R01 CA135061-01A1) and the Breast Cancer Research Foundation (RB Hazan). James Hulit was supported by the Susan G Komen foundation.

PY - 2013/5/2

Y1 - 2013/5/2

N2 - Cell proliferation and invasion are critical for malignant progression, yet how these processes relate to each other and whether they regulate one another during metastasis is unknown. We show that invasiveness of breast cancer cells is associated with growth arrest due to p21CIP1 upregulation. Knockdown of p21CIP1 increases cell proliferation and suppresses invasion. Since p21CIP1 acts to inhibit cyclin E during cell-cycle progression, we demonstrated that a constitutively active form of cyclin E had similar effects to p21CIP1 inhibition resulting in enhanced cell growth and suppressed invasiveness. We tested these findings in vivo in the Polyoma middle T mammary tumor model in which p21CIP1 was deleted. p21CIP1 knockout mice exhibited dramatic suppression of metastasis, independent of tumor growth, which was rescued by p21CIP1. Metastasis suppression by p21CIP1 ablation was associated with striking cytoskeletal reorganization leading to a non-invasive and highly proliferative state. Thus, p21CIP1 regulates metastasis by mediating reciprocal switching between invasion and proliferation.

AB - Cell proliferation and invasion are critical for malignant progression, yet how these processes relate to each other and whether they regulate one another during metastasis is unknown. We show that invasiveness of breast cancer cells is associated with growth arrest due to p21CIP1 upregulation. Knockdown of p21CIP1 increases cell proliferation and suppresses invasion. Since p21CIP1 acts to inhibit cyclin E during cell-cycle progression, we demonstrated that a constitutively active form of cyclin E had similar effects to p21CIP1 inhibition resulting in enhanced cell growth and suppressed invasiveness. We tested these findings in vivo in the Polyoma middle T mammary tumor model in which p21CIP1 was deleted. p21CIP1 knockout mice exhibited dramatic suppression of metastasis, independent of tumor growth, which was rescued by p21CIP1. Metastasis suppression by p21CIP1 ablation was associated with striking cytoskeletal reorganization leading to a non-invasive and highly proliferative state. Thus, p21CIP1 regulates metastasis by mediating reciprocal switching between invasion and proliferation.

KW - breast cancer

KW - cell cycle

KW - cyclin E

KW - cytoskeleton

KW - invasion

KW - metastasis

KW - p21CIP1

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P21CIP1 mediates reciprocal switching between proliferation and invasion during metastasis

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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