Exploiting Synthetic Lethal Interactions Between DNA Damage Signaling, Checkpoint Control, and p53 for Targeted Cancer Therapy - Progress in Molecular Biology

Biology Reference

In-Depth Information

128. Fan J, Yang X, Wang W, Wood 3rd WH, Becker KG, Gorospe M. Global analysis of stress-

regulated mRNA turnover by using cDNA arrays. Proc Natl Acad Sci U S A 2002;

:10611-6.

129. Abdelmohsen K, Kuwano Y, Kim HH, Gorospe M. Posttranscriptional gene regulation by

RNA-binding proteins during oxidative stress: implications for cellular senescence. Biol Chem

2008;

:243-55.

130. Lunde BM, Moore C, Varani G. RNA-binding proteins: modular design for efficient function.

Nat Rev Mol Cell Biol 2007;

389

:479-90.

131. Mazan-Mamczarz K, Galban S, Lopez de Silanes I, Martindale JL, Atasoy U, Keene JD, et al.

RNA-binding protein HuR enhances p53 translation in response to ultraviolet light irradia-

tion. Proc Natl Acad Sci U S A 2003;

:8354-9.

132. Wang W, Furneaux H, Cheng H, Caldwell MC, Hutter D, Liu Y, et al. HuR regulates p21

mRNA stabilization by UV light. Mol Cell Biol 2000;

100

:760-9.

133. Matsuoka S, Ballif BA, Smogorzewska A, McDonald 3rd ER, Hurov KE, Luo J, et al. ATM

and ATR substrate analysis reveals extensive protein networks responsive to DNA damage.

Science 2007;

:1160-6.

134. Paulsen RD, Soni DV, Wollman R, Hahn AT, Yee MC, Guan A, et al. A genome-wide siRNA

screen reveals diverse cellular processes and pathways that mediate genome stability. Mol Cell

2009;

316

:228-39.

135. Hurov KE, Cotta-Ramusino C, Elledge SJ. A genetic screen identifies the Triple T complex

required for DNA damage signaling and ATM and ATR stability. Genes Dev 2010;

:1939-50.

136. Hildesheim J, Bulavin DV, Anver MR, Alvord WG, Hollander MC, Vardanian L, et al.

Gadd45a protects against UV irradiation-induced skin tumors, and promotes apoptosis and

stress signaling via MAPK and p53. Cancer Res 2002;

:7305-15.

137. Wang XW, Zhan Q, Coursen JD, Khan MA, Kontny HU, Yu L, et al. GADD45 induction of a

G2/M cell cycle checkpoint. Proc Natl Acad Sci U S A 1999;

:3706-11.

138. Jackman J, Alamo Jr. I, Fornace Jr. AJ. Genotoxic stress confers preferential and coordinate

messenger RNA stability on the five gadd genes. Cancer Res 1994;

:5656-62.

139. Lal A, Abdelmohsen K, Pullmann R, Kawai T, Galban S, Yang X, et al. Posttranscriptional

derepression of GADD45alpha by genotoxic stress. Mol Cell 2006;

:117-28.

140. Rousseau S, Morrice N, Peggie M, Campbell DG, Gaestel M, Cohen P. Inhibition of SAPK2a/

p38 prevents hnRNP A0 phosphorylation by MAPKAP-K2 and its interaction with cytokine

mRNAs. EMBO J 2002;

:6505-14.

141. Reinhardt HC, Cannell IG, Morandell S, Yaffe MB. Is post-transcriptional stabilization,

splicing and translation of selective mRNAs a key to the DNA damage response? Cell Cycle

2011;

:23-7.

142. Brosh R, Rotter V. When mutants gain new powers: news from the mutant p53 field. Nat Rev

Cancer 2009;

:701-13.

143. Guo F, Zheng Y. Rho family GTPases cooperate with p53 deletion to promote primary mouse

embryonic fibroblast cell invasion. Oncogene 2004;

:5577-85.

144. Mizuarai S, Yamanaka K, Kotani H. Mutant p53 induces the GEF-H1 oncogene, a guanine

nucleotide exchange factor-H1 for RhoA, resulting in accelerated cell proliferation in tumor

cells. Cancer Res 2006;

:6319-26.

145. Luo J, Emanuele MJ, Li D, Creighton CJ, Schlabach MR, Westbrook TF, et al. A genome-

wide RNAi screen identifies multiple synthetic lethal interactions with the Ras oncogene. Cell

2009;

:835-48.

146. Scholl C, Frohling S, Dunn IF, Schinzel AC, Barbie DA, Kim SY, et al. Synthetic lethal

interaction between oncogenic KRAS dependency and STK33 suppression in human cancer

cells. Cell 2009;

137

:821-34.

137