Investigating the role of DNA damage signaling events in the cellular interference with Adenovirus replication

Mathew, Shomita S.

02 August 2007

No description available.

Adenovirus

DNA replication

DNA damage response

foci

MRN complex

Mdc1

DNA binding

Investigating Cellular DNA Damage Responses Induced During Adenovirus Early Region 4 Mutant Infection and Their Impact on Viral DNA Replication

Clark, Jason P.

13 August 2010

No description available.

Biology

Cellular Biology

Microbiology

Molecular Biology

Virology

DNA damage response

ATM

MDC1

E4 mutant

adenovirus

Investigating The Triggers For Activating The Cellular DNA Damage Response During Adenovirus Infection

Prakash, Anand

10 July 2014

No description available.

Microbiology

Adenovirus

E4orf3

E4 11kDa

E4orf6

E4 34kDa

ATM

Mdc1

foci

phosphorylation

DDR

arrest

replication

Investigating the role of DNA damage signaling events in the cellular interference with adenovirus DNA replication

Mathew, Shomita S.

January 2007

Thesis (Ph. D.)--Miami University, Dept. of Microbiology, 2007. / Title from second page of PDF document. Includes bibliographical references (p. 91-102).

Proteomic analysis of leukaemogenic protein tyrosine kinase action

Griaud, François

January 2012

Introduction: Chronic myeloid leukaemia is a blood cancer which progresses from a chronic phase to an acute blast crisis if untreated. Disease progression and treatment resistance may be precipitated by the mutator action of BCR/ABL protein tyrosine kinase (PTK), but only few protein phosphosites involved in the DNA damage response have been investigated with respect to BCR/ABL action. Aim: The aim of this PhD project was to demonstrate that BCR/ABL PTK expression can affect the response to genotoxic stress signalling at the protein phosphorylation level. Methodology: Etoposide-induced DNA damage response has been studied in control and BCR/ABL PTK-expressing Ba/F3 cells using apoptosis and γH2AX assays. Quantitative phosphoproteomics was performed with iTRAQ peptide labelling to discover putative modulated phosphorylation sites. Absolute quantification (AQUA ) performed with selected reaction monitoring was used to validate discovery phosphoproteomics. The effect of genotoxic stress on the THO complex protein Thoc5/Fmip was studied using western blots. Results: The expression of BCR/ABL PTK induced γH2AX phosphorylation after etoposide exposure. This was associated with the modulation of H2AX tyrosine 142 phosphorylation, MDC1 (serines 595 and 1053) and Hemogen serine 380 phosphorylation among proteins regulated by both BCR/ABL PTK and etoposide. We identified that leukaemogenic PTKs mediate Thoc5/Fmip phosphorylation on tyrosine 225 via Src proto-oncogene and oxidative stress, while ATM and MEK1/2 may control its phosphorylation. Human CD34+ CD38- leukaemic stem cells showed pronounced level of THOC5/FMIP tyrosine phosphorylation. Expression of phosphomutant Thoc5/Fmip Y225F might reduce apoptosis mediated by etoposide and H2O2. Conclusion: BCR/ABL PTK can sustain, create, block and change the intensity of protein phosphorylation related to genotoxic stress. Modulation of H2AX, MDC1, Hemogen and Thoc5/Fmip post-translational modifications by BCR/ABL PTK might promote unfaithful DNA repair, genomic instability, anti-apoptotic signalling or abnormal cell differentiation, resulting in leukaemia progression.

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