Amplification of Mdmx (or Mdm4) directly contributes to tumor formation by inhibiting p53 tumor suppressor activity

D Danovi; E Meulmeester; D Pasini; D Migliorini; M Capra; R Frenk; P de Graaf; S Francoz; P Gasparini; A Gobbi; K Helin; PG Pelicci; AG Jochemsen; JC Marine

doi:10.1128/MCB.24.13.5835-5843.2004

Amplification of Mdmx (or Mdm4) directly contributes to tumor formation by inhibiting p53 tumor suppressor activity

D Danovi, E Meulmeester, D Pasini, D Migliorini, M Capra, R Frenk, P de Graaf, S Francoz, P Gasparini, A Gobbi, K Helin, PG Pelicci, AG Jochemsen, JC Marine^*

^*Corresponding author for this work

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

Abstract

Human tumors are believed to harbor a disabled p53 tumor suppressor pathway, either through direct mutation of the p53 gene or through aberrant expression of proteins acting in the p53 pathway, such as p14(ARF) or Mdm2. A role for Mdmx (or Mdm4) as a key negative regulator of p53 function in vivo has been established. However, a direct contribution of Mdmx to tumor formation remains to be demonstrated. Here we show that retrovirus-mediated Mdmx overexpression allows primary mouse embryonic fibroblast immortalization and leads to neoplastic transformation in combination with HRas(V12). Furthermore, the human Mdmx ortholog, Hdmx, was found to be overexpressed in a significant percentage of various human tumors and amplified in 5% of primary breast tumors, all of which retained wild-type p53. Hdmx was also amplified and highly expressed in MCF-7, a breast cancer cell line harboring wild-type p53, and interfering RNA-mediated reduction of Hdmx markedly inhibited the growth potential of these cells in a p53-dependent manner. Together, these results make Hdmx a new putative drug target for cancer therapy.

Original language	English
Pages (from-to)	5835-5843
Number of pages	9
Journal	Molecular and Cellular Biology
Volume	24
Issue number	13
DOIs	https://doi.org/10.1128/MCB.24.13.5835-5843.2004
Publication status	Published - Jul 2004

Keywords

RING-FINGER DOMAIN
C-TERMINAL DOMAIN
GROWTH ARREST
MOUSE DEVELOPMENT
PROTEIN
ACETYLATION
HDM2
DEGRADATION
RECRUITMENT
EXPRESSION

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10.1128/MCB.24.13.5835-5843.2004

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Danovi, D., Meulmeester, E., Pasini, D., Migliorini, D., Capra, M., Frenk, R., de Graaf, P., Francoz, S., Gasparini, P., Gobbi, A., Helin, K., Pelicci, PG., Jochemsen, AG., & Marine, JC. (2004). Amplification of Mdmx (or Mdm4) directly contributes to tumor formation by inhibiting p53 tumor suppressor activity. Molecular and Cellular Biology, 24(13), 5835-5843. https://doi.org/10.1128/MCB.24.13.5835-5843.2004

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title = "Amplification of Mdmx (or Mdm4) directly contributes to tumor formation by inhibiting p53 tumor suppressor activity",

abstract = "Human tumors are believed to harbor a disabled p53 tumor suppressor pathway, either through direct mutation of the p53 gene or through aberrant expression of proteins acting in the p53 pathway, such as p14(ARF) or Mdm2. A role for Mdmx (or Mdm4) as a key negative regulator of p53 function in vivo has been established. However, a direct contribution of Mdmx to tumor formation remains to be demonstrated. Here we show that retrovirus-mediated Mdmx overexpression allows primary mouse embryonic fibroblast immortalization and leads to neoplastic transformation in combination with HRas(V12). Furthermore, the human Mdmx ortholog, Hdmx, was found to be overexpressed in a significant percentage of various human tumors and amplified in 5% of primary breast tumors, all of which retained wild-type p53. Hdmx was also amplified and highly expressed in MCF-7, a breast cancer cell line harboring wild-type p53, and interfering RNA-mediated reduction of Hdmx markedly inhibited the growth potential of these cells in a p53-dependent manner. Together, these results make Hdmx a new putative drug target for cancer therapy.",

keywords = "RING-FINGER DOMAIN, C-TERMINAL DOMAIN, GROWTH ARREST, MOUSE DEVELOPMENT, PROTEIN, ACETYLATION, HDM2, DEGRADATION, RECRUITMENT, EXPRESSION",

author = "D Danovi and E Meulmeester and D Pasini and D Migliorini and M Capra and R Frenk and {de Graaf}, P and S Francoz and P Gasparini and A Gobbi and K Helin and PG Pelicci and AG Jochemsen and JC Marine",

year = "2004",

month = jul,

doi = "10.1128/MCB.24.13.5835-5843.2004",

language = "English",

volume = "24",

pages = "5835--5843",

journal = "Molecular and Cellular Biology",

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Danovi, D, Meulmeester, E, Pasini, D, Migliorini, D, Capra, M, Frenk, R, de Graaf, P, Francoz, S, Gasparini, P, Gobbi, A, Helin, K, Pelicci, PG, Jochemsen, AG & Marine, JC 2004, 'Amplification of Mdmx (or Mdm4) directly contributes to tumor formation by inhibiting p53 tumor suppressor activity', Molecular and Cellular Biology, vol. 24, no. 13, pp. 5835-5843. https://doi.org/10.1128/MCB.24.13.5835-5843.2004

TY - JOUR

T1 - Amplification of Mdmx (or Mdm4) directly contributes to tumor formation by inhibiting p53 tumor suppressor activity

AU - Danovi, D

AU - Meulmeester, E

AU - Pasini, D

AU - Migliorini, D

AU - Capra, M

AU - Frenk, R

AU - de Graaf, P

AU - Francoz, S

AU - Gasparini, P

AU - Gobbi, A

AU - Helin, K

AU - Pelicci, PG

AU - Jochemsen, AG

AU - Marine, JC

PY - 2004/7

Y1 - 2004/7

N2 - Human tumors are believed to harbor a disabled p53 tumor suppressor pathway, either through direct mutation of the p53 gene or through aberrant expression of proteins acting in the p53 pathway, such as p14(ARF) or Mdm2. A role for Mdmx (or Mdm4) as a key negative regulator of p53 function in vivo has been established. However, a direct contribution of Mdmx to tumor formation remains to be demonstrated. Here we show that retrovirus-mediated Mdmx overexpression allows primary mouse embryonic fibroblast immortalization and leads to neoplastic transformation in combination with HRas(V12). Furthermore, the human Mdmx ortholog, Hdmx, was found to be overexpressed in a significant percentage of various human tumors and amplified in 5% of primary breast tumors, all of which retained wild-type p53. Hdmx was also amplified and highly expressed in MCF-7, a breast cancer cell line harboring wild-type p53, and interfering RNA-mediated reduction of Hdmx markedly inhibited the growth potential of these cells in a p53-dependent manner. Together, these results make Hdmx a new putative drug target for cancer therapy.

AB - Human tumors are believed to harbor a disabled p53 tumor suppressor pathway, either through direct mutation of the p53 gene or through aberrant expression of proteins acting in the p53 pathway, such as p14(ARF) or Mdm2. A role for Mdmx (or Mdm4) as a key negative regulator of p53 function in vivo has been established. However, a direct contribution of Mdmx to tumor formation remains to be demonstrated. Here we show that retrovirus-mediated Mdmx overexpression allows primary mouse embryonic fibroblast immortalization and leads to neoplastic transformation in combination with HRas(V12). Furthermore, the human Mdmx ortholog, Hdmx, was found to be overexpressed in a significant percentage of various human tumors and amplified in 5% of primary breast tumors, all of which retained wild-type p53. Hdmx was also amplified and highly expressed in MCF-7, a breast cancer cell line harboring wild-type p53, and interfering RNA-mediated reduction of Hdmx markedly inhibited the growth potential of these cells in a p53-dependent manner. Together, these results make Hdmx a new putative drug target for cancer therapy.

KW - RING-FINGER DOMAIN

KW - C-TERMINAL DOMAIN

KW - GROWTH ARREST

KW - MOUSE DEVELOPMENT

KW - PROTEIN

KW - ACETYLATION

KW - HDM2

KW - DEGRADATION

KW - RECRUITMENT

KW - EXPRESSION

U2 - 10.1128/MCB.24.13.5835-5843.2004

DO - 10.1128/MCB.24.13.5835-5843.2004

M3 - Article

C2 - 15199139

SN - 0270-7306

VL - 24

SP - 5835

EP - 5843

JO - Molecular and Cellular Biology

JF - Molecular and Cellular Biology

IS - 13

ER -

Amplification of Mdmx (or Mdm4) directly contributes to tumor formation by inhibiting p53 tumor suppressor activity

Abstract

Keywords

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