Direct coupling of the cell cycle and cell death machinery by E2F

Zaher Nahle; Julia Polakoff; Ramana V. Davuluri; Mila E. McCurrach; Matthew D. Jacobson; Masashi Narita; Michael Q. Zhang; Yuri Lazebnik; Dafna Bar-Sagi; Scott W. Lowe

doi:10.1038/ncb868

Direct coupling of the cell cycle and cell death machinery by E2F

Zaher Nahle
, Julia Polakoff
, Ramana V. Davuluri
, Mila E. McCurrach
, Matthew D. Jacobson
, Masashi Narita
, Michael Q. Zhang
, Yuri Lazebnik
, Dafna Bar-Sagi
, Scott W. Lowe

Biomedical Informatics

Cold Spring Harbor Laboratory
Stony Brook University

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

380 Scopus citations

Abstract

Unrestrained E2F activity forces S phase entry and promotes apoptosis through p53-dependent and -independent mechanisms. Here, we show that deregulation of E2F by adenovirus E1A, loss of Rb or enforced E2F-1 expression results in the accumulation of caspase proenzymes through a direct transcriptional mechanism. Increased caspase levels seem to potentiate cell death in the presence of p53-generated signals that trigger caspase activation. Our results demonstrate that mitogenic oncogenes engage a tumour suppressor network that functions at multiple levels to efficiently induce cell death. The data also underscore how cell cycle progression can be coupled to the apoptotic machinery.

Original language	English
Pages (from-to)	28-34
Number of pages	7
Journal	Nature Cell Biology
Volume	4
Issue number	11
DOIs	https://doi.org/10.1038/ncb868
State	Published - 2002

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title = "Direct coupling of the cell cycle and cell death machinery by E2F",

abstract = "Unrestrained E2F activity forces S phase entry and promotes apoptosis through p53-dependent and -independent mechanisms. Here, we show that deregulation of E2F by adenovirus E1A, loss of Rb or enforced E2F-1 expression results in the accumulation of caspase proenzymes through a direct transcriptional mechanism. Increased caspase levels seem to potentiate cell death in the presence of p53-generated signals that trigger caspase activation. Our results demonstrate that mitogenic oncogenes engage a tumour suppressor network that functions at multiple levels to efficiently induce cell death. The data also underscore how cell cycle progression can be coupled to the apoptotic machinery.",

author = "Zaher Nahle and Julia Polakoff and Davuluri, \{Ramana V.\} and McCurrach, \{Mila E.\} and Jacobson, \{Matthew D.\} and Masashi Narita and Zhang, \{Michael Q.\} and Yuri Lazebnik and Dafna Bar-Sagi and Lowe, \{Scott W.\}",

year = "2002",

doi = "10.1038/ncb868",

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AU - Nahle, Zaher

AU - Polakoff, Julia

AU - Davuluri, Ramana V.

AU - McCurrach, Mila E.

AU - Jacobson, Matthew D.

AU - Narita, Masashi

AU - Zhang, Michael Q.

AU - Lazebnik, Yuri

AU - Bar-Sagi, Dafna

AU - Lowe, Scott W.

PY - 2002

Y1 - 2002

N2 - Unrestrained E2F activity forces S phase entry and promotes apoptosis through p53-dependent and -independent mechanisms. Here, we show that deregulation of E2F by adenovirus E1A, loss of Rb or enforced E2F-1 expression results in the accumulation of caspase proenzymes through a direct transcriptional mechanism. Increased caspase levels seem to potentiate cell death in the presence of p53-generated signals that trigger caspase activation. Our results demonstrate that mitogenic oncogenes engage a tumour suppressor network that functions at multiple levels to efficiently induce cell death. The data also underscore how cell cycle progression can be coupled to the apoptotic machinery.

AB - Unrestrained E2F activity forces S phase entry and promotes apoptosis through p53-dependent and -independent mechanisms. Here, we show that deregulation of E2F by adenovirus E1A, loss of Rb or enforced E2F-1 expression results in the accumulation of caspase proenzymes through a direct transcriptional mechanism. Increased caspase levels seem to potentiate cell death in the presence of p53-generated signals that trigger caspase activation. Our results demonstrate that mitogenic oncogenes engage a tumour suppressor network that functions at multiple levels to efficiently induce cell death. The data also underscore how cell cycle progression can be coupled to the apoptotic machinery.

UR - https://www.scopus.com/pages/publications/85006277004

U2 - 10.1038/ncb868

DO - 10.1038/ncb868

M3 - Article

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AN - SCOPUS:85006277004

SN - 1465-7392

VL - 4

SP - 28

EP - 34

JO - Nature Cell Biology

JF - Nature Cell Biology

IS - 11

ER -

Direct coupling of the cell cycle and cell death machinery by E2F

Abstract

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