Ccdc94 protects cells from ionizing radiation by inhibiting the expression of p53.

Ccdc94 protects cells from ionizing radiation by inhibiting the expression of p53.

DNA double-strand breaks (DSBs) represent one of the most deleterious forms of DNA damage to a cell. In cancer therapy, induction of cell death by DNA DSBs by ionizing radiation (IR) and certain chemotherapies is thought to mediate the successful elimination of cancer cells. However, cancer cells of...

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Main Authors: Shelly Sorrells, Seth Carbonneau, Erik Harrington, Aye T Chen, Bridgid Hast, Brett Milash, Ujwal Pyati, Michael B Major, Yi Zhou, Leonard I Zon, Rodney A Stewart, A Thomas Look, Cicely Jette
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2012-01-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC3431329?pdf=render
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spelling doaj-1b9c52b106054d52a603a166423650ef2020-11-25T01:57:37ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042012-01-0188e100292210.1371/journal.pgen.1002922Ccdc94 protects cells from ionizing radiation by inhibiting the expression of p53.Shelly SorrellsSeth CarbonneauErik HarringtonAye T ChenBridgid HastBrett MilashUjwal PyatiMichael B MajorYi ZhouLeonard I ZonRodney A StewartA Thomas LookCicely JetteDNA double-strand breaks (DSBs) represent one of the most deleterious forms of DNA damage to a cell. In cancer therapy, induction of cell death by DNA DSBs by ionizing radiation (IR) and certain chemotherapies is thought to mediate the successful elimination of cancer cells. However, cancer cells often evolve to evade the cytotoxicity induced by DNA DSBs, thereby forming the basis for treatment resistance. As such, a better understanding of the DSB DNA damage response (DSB-DDR) pathway will facilitate the design of more effective strategies to overcome chemo- and radioresistance. To identify novel mechanisms that protect cells from the cytotoxic effects of DNA DSBs, we performed a forward genetic screen in zebrafish for recessive mutations that enhance the IR-induced apoptotic response. Here, we describe radiosensitizing mutation 7 (rs7), which causes a severe sensitivity of zebrafish embryonic neurons to IR-induced apoptosis and is required for the proper development of the central nervous system. The rs7 mutation disrupts the coding sequence of ccdc94, a highly conserved gene that has no previous links to the DSB-DDR pathway. We demonstrate that Ccdc94 is a functional member of the Prp19 complex and that genetic knockdown of core members of this complex causes increased sensitivity to IR-induced apoptosis. We further show that Ccdc94 and the Prp19 complex protect cells from IR-induced apoptosis by repressing the expression of p53 mRNA. In summary, we have identified a new gene regulating a dosage-sensitive response to DNA DSBs during embryonic development. Future studies in human cancer cells will determine whether pharmacological inactivation of CCDC94 reduces the threshold of the cancer cell apoptotic response.http://europepmc.org/articles/PMC3431329?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Shelly Sorrells
Seth Carbonneau
Erik Harrington
Aye T Chen
Bridgid Hast
Brett Milash
Ujwal Pyati
Michael B Major
Yi Zhou
Leonard I Zon
Rodney A Stewart
A Thomas Look
Cicely Jette
spellingShingle Shelly Sorrells
Seth Carbonneau
Erik Harrington
Aye T Chen
Bridgid Hast
Brett Milash
Ujwal Pyati
Michael B Major
Yi Zhou
Leonard I Zon
Rodney A Stewart
A Thomas Look
Cicely Jette
Ccdc94 protects cells from ionizing radiation by inhibiting the expression of p53.
PLoS Genetics
author_facet Shelly Sorrells
Seth Carbonneau
Erik Harrington
Aye T Chen
Bridgid Hast
Brett Milash
Ujwal Pyati
Michael B Major
Yi Zhou
Leonard I Zon
Rodney A Stewart
A Thomas Look
Cicely Jette
author_sort Shelly Sorrells
title Ccdc94 protects cells from ionizing radiation by inhibiting the expression of p53.
title_short Ccdc94 protects cells from ionizing radiation by inhibiting the expression of p53.
title_full Ccdc94 protects cells from ionizing radiation by inhibiting the expression of p53.
title_fullStr Ccdc94 protects cells from ionizing radiation by inhibiting the expression of p53.
title_full_unstemmed Ccdc94 protects cells from ionizing radiation by inhibiting the expression of p53.
title_sort ccdc94 protects cells from ionizing radiation by inhibiting the expression of p53.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2012-01-01
description DNA double-strand breaks (DSBs) represent one of the most deleterious forms of DNA damage to a cell. In cancer therapy, induction of cell death by DNA DSBs by ionizing radiation (IR) and certain chemotherapies is thought to mediate the successful elimination of cancer cells. However, cancer cells often evolve to evade the cytotoxicity induced by DNA DSBs, thereby forming the basis for treatment resistance. As such, a better understanding of the DSB DNA damage response (DSB-DDR) pathway will facilitate the design of more effective strategies to overcome chemo- and radioresistance. To identify novel mechanisms that protect cells from the cytotoxic effects of DNA DSBs, we performed a forward genetic screen in zebrafish for recessive mutations that enhance the IR-induced apoptotic response. Here, we describe radiosensitizing mutation 7 (rs7), which causes a severe sensitivity of zebrafish embryonic neurons to IR-induced apoptosis and is required for the proper development of the central nervous system. The rs7 mutation disrupts the coding sequence of ccdc94, a highly conserved gene that has no previous links to the DSB-DDR pathway. We demonstrate that Ccdc94 is a functional member of the Prp19 complex and that genetic knockdown of core members of this complex causes increased sensitivity to IR-induced apoptosis. We further show that Ccdc94 and the Prp19 complex protect cells from IR-induced apoptosis by repressing the expression of p53 mRNA. In summary, we have identified a new gene regulating a dosage-sensitive response to DNA DSBs during embryonic development. Future studies in human cancer cells will determine whether pharmacological inactivation of CCDC94 reduces the threshold of the cancer cell apoptotic response.
url http://europepmc.org/articles/PMC3431329?pdf=render
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