Whole transcriptome analysis reveals a role for OGG1-initiated DNA repair signaling in airway remodeling

Aguilera-Aguirre, Leopoldo; Hosoki, Koa; Bácsi, Attila; Radák, Zsolt; Sur, Sanjiv; Hegde, Muralidhar L.; Tian, Bing; Saavedra‐Molina, Alfredo; Brasier, Allan R.; Ba, Xueqing; Boldogh, István

doi:10.1016/j.freeradbiomed.2015.07.007

Cited by 31 publications

(34 citation statements)

References 60 publications

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“…Next whether 8-oxoG challenge-induced KRAS signaling in airways resembles that of aging-associated gene expression was also queried. RNAs were isolated at 0, 30, 60 and 120 min after challenge and subjected to RNA-sequencing and gene ontology analysis (Materials and Methods) (Aguilera-Aguirre et al, 2015; Aguilera-Aguirre, 2015). …”

Section: Resultsmentioning

confidence: 99%

“…Utilizing gene identification programs and NCBI’s mouse data base (Materials and Methods) we identified 3252 differentially expressed transcripts (2435 up- and 817 down-regulated) including 2080 protein-coding mRNAs, 144 microRNAs, and 326 non-coding, full-length RNAs as we published previously (Aguilera-Aguirre, 2015). To identify genes associated with lung aging, a ranked list was generated from the GeneCards gene data base based on the key words “lung” and “aging.” The search generated a 4956-gene-ranked list.…”

Section: Resultsmentioning

confidence: 99%

“…Activation of these kinases were prerequisite events in induction of biological processes including positive/negative regulation of signal transduction, intracellular signal transduction, cell communication and others (Aguilera-Aguirre et al, 2015). Studies have also shown that OGG1·8-oxoG → small GTPases significantly upregulated signaling pathways including cadherin, integrin, Rho GTPase, transforming growth factor beta (TGFβ), and those modulated by wingless type (Wnt) family growth factors as well as cytokines/chemokines ( P values are between 7.61E-04 and P = 7.61E-09) (Aguilera-Aguirre, 2015). These signaling pathways have previously been related to airway remodeling --well characterized changes in aged and diseased lungs (Chilosi et al, 2013; Ijaz et al, 2014).…”

Section: Discussionmentioning

confidence: 99%

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8-Oxoguanine DNA glycosylase1–driven DNA repair—A paradoxical role in lung aging

Germán

Saenz

Szaniszlo

et al. 2017

Mechanisms of Ageing and Development

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Age-associated changes in lung structure and function are some of the most important predictors of overall health, cognitive activities and longevity. Common to all aging cells is an increase in oxidatively modified DNA bases, primarily 8-oxo-7,8-dihydroguanine (8-oxoG). It is repaired via DNA base excision repair pathway driven by 8-oxoguanine DNA glycosylase-1 (OGG1-BER), whose role in aging has been the focus of many studies. This study hypothesizes that signaling and consequent gene expression during cellular response to OGG1-BER “wires” senescence/aging processes. To test OGG1-BER was mimicked by repeatedly exposing diploid lung fibroblasts cells and airways of mice to 8-oxoG base. Results showed that repeated exposures led to G1 cell cycle arrest and pre-matured senescence of cultured cells in which over 1000 genes were differentially expressed --86% of them been identical to those in naturally senesced cells. Gene ontology analysis of gene expression displayed biological processes driven by small GTPases, phosphoinositide 3-kinase and mitogen activated kinase cascades both in cultured cells and lungs. These results together, points to a new paradigm about the role of DNA damage and repair by OGG1 in aging and age-associated disease processes.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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8-Oxoguanine DNA glycosylase1–driven DNA repair—A paradoxical role in lung aging

Germán

Saenz

Szaniszlo

et al. 2017

Mechanisms of Ageing and Development

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“…RNAs were isolated after the last challenge at 0, 30, 60 and 120 min (Fig. 2A) [78**,79**]. In controls, lungs were challenged once and RNAs were isolated at the same time points (Fig.…”

Section: 8-oxoguanine Dna Glycosylase1-base Excision Repair–dependmentioning

confidence: 99%

“…Changes in gene expression were determined by RNA sequencing (RNA-Seq; GEO Series accession number: GSE61095 and GSE65031), and the data were analyzed by gene ontology (GO) and statistical tools. A single exposure of airways to 8-oxoG induced gene expressions primarily related to the immune system; macrophage activation, mediated by chemokines, cytokines, and integrin; and interleukin signaling pathways [79**]. In contrast, repeated challenge induced gene expression potentially involved in modulation of the actin family cytoskeleton, extracellular matrix, cell adhesion, cell junction, and cell communication.…”

Section: 8-oxoguanine Dna Glycosylase1-base Excision Repair–dependmentioning

confidence: 99%

Pathophysiology of bronchoconstriction

Bácsi

Pan

et al. 2016

Current Opinion in Allergy &Amp; Clinical Immunology

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Purpose of review To provide an overview on the present understanding of roles of oxidative DNA damage repair in cell signaling underlying bronchoconstriction common to, but not restricted to various forms of asthma and chronic obstructive pulmonary disease Recent findings Bronchoconstriction is a tightening of smooth muscle surrounding the bronchi and bronchioles with consequent wheezing and shortness of breath. Key stimuli include air pollutants, viral infections, allergens, thermal and osmotic changes, and shear stress of mucosal epithelium, triggering a wide range of cellular, vascular and neural events. Although activation of nerve fibers, the role of G-proteins, protein kinases and Ca++, and molecular interaction within contracting filaments of muscle are well defined, the overarching mechanisms by which a wide range of stimuli initiate these events are not fully understood. Many, if not all, stimuli increase levels of reactive oxygen species (ROS), which are signaling and oxidatively modifying macromolecules, including DNA. The primary ROS target in DNA is guanine, and 8-oxoguanine is one of the most abundant base lesions. It is repaired by 8-oxoguanine DNA glycosylase1 (OGG1) during base excision repair processes. The product, free 8-oxoG base, is bound by OGG1 with high affinity, and the complex then functions as an activator of small GTPases, triggering pathways for inducing gene expression and contraction of intracellular filaments in mast and smooth muscle cells. Summary Oxidative DNA damage repair-mediated cell activation signaling result in gene expression that “primes” the mucosal epithelium and submucosal tissues to generate mediators of airway smooth muscle contractions.

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The roles of base excision repair enzyme OGG1 in gene expression

Wang

Hao

Pan

et al. 2018

Cell. Mol. Life Sci.

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Modifications of DNA strands and nucleobases—both induced and accidental—are associated with unfavorable consequences including loss or gain in genetic information and mutations. Therefore, DNA repair proteins have essential roles in keeping genome fidelity. Recently, mounting evidence supports that 8-oxoguanine (8-oxoG), one of the most abundant genomic base modifications generated by reactive oxygen and nitrogen species, along with its cognate repair protein 8-oxoguanine DNA glycosylase1 (OGG1), has distinct roles in gene expression through transcription modulation or signal transduction. Binding to 8-oxoG located in gene regulatory regions, OGG1 acts as a transcription modulator, which can control transcription factor homing, induce allosteric transition of G-quadruplex structure, or recruit chromatin remodelers. In addition, post-repair complex formed between OGG1 and its repair product-free 8-oxoG increases the levels of active small GTPases and induces downstream signaling cascades to trigger gene expressions. The present review discusses how cells exploit damaged guanine base(s) and the authentic repair protein to orchestrate a profile of various transcriptomes in redox-regulated biological processes.

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Whole transcriptome analysis reveals a role for OGG1-initiated DNA repair signaling in airway remodeling

Cited by 31 publications

References 60 publications

8-Oxoguanine DNA glycosylase1–driven DNA repair—A paradoxical role in lung aging

8-Oxoguanine DNA glycosylase1–driven DNA repair—A paradoxical role in lung aging

Pathophysiology of bronchoconstriction

The roles of base excision repair enzyme OGG1 in gene expression

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