PARPs and ADP-ribosylation: recent advances linking molecular functions to biological outcomes

Gupte, Rebecca; Liu, Ziying; Kraus, W. Lee

doi:10.1101/gad.291518.116

Cited by 538 publications

(555 citation statements)

References 222 publications

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“…PARP is an abundant enzyme present throughout the phylogenetic spectrum. Although it is primarily studied in the nucleus Jagtap and Szabó, 2005;Gibson and Kraus, 2012;Gupte et al, 2017), emerging evidence also demonstrates its localization and multiple roles in mitochondria (see Brunyanszki et al, 2016). PARP plays a variety of important physiological roles in DNA repair, chromatin remodelling, cell differentiation, transcriptional regulation, cell cycle control and programmed cell death (reviewed in Virág and Szabó, 2002;Jagtap and Szabó, 2005;Gibson and Kraus, 2012;Gupte et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

Olaparib protects cardiomyocytes against oxidative stress and improves graft contractility during the early phase after heart transplantation in rats

Korkmaz‐Icöz

Szczesny

Marcatti

et al. 2017

British J Pharmacology

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*Equally contributed. BACKGROUND AND PURPOSEOlaparib, rucaparib and niraparib, potent inhibitors of poly(ADP-ribose) polymerase (PARP) are approved as anti-cancer drugs in humans. Considering the previously demonstrated role of PARP in various forms of acute and chronic myocardial injury, we tested the effects of olaparib in in-vitro models of oxidative stress in cardiomyocytes, and in an in vivo model of cardiac transplantation. EXPERIMENTAL APPROACHH9c2-embryonic rat heart-derived myoblasts pretreated with vehicle or olaparib (10μM) were challenged with either hydrogen peroxide (H 2 O 2 ) or with glucose oxidase (GOx, which generates H 2 O 2 in the tissue culture medium). Cell viability assays (MTT, lactate dehydrogenase) and Western blotting for PARP and its product, PAR was performed. Heterotopic heart transplantation was performed in Lewis rats; recipients were treated either with vehicle or olaparib (10 mg kg -1 ). Left ventricular function of transplanted hearts was monitored via a Millar catheter. Multiple gene expression in the graft was measured by qPCR. KEY RESULTSOlaparib blocked autoPARylation of PARP1 and attenuated the rapid onset of death in H9c2 cells, induced by H 2 O 2 , but did not affect cell death following chronic, prolonged oxidative stress induced by GOx. In rats, after transplantation, left ventricular systolic and diastolic function were improved by olaparib. In the transplanted hearts, olaparib also reduced gene expression for c-jun, caspase-12, catalase, and NADPH oxidase-2. CONCLUSIONS AND IMPLICATIONSOlaparib protected cardiomyocytes against oxidative stress and improved graft contractility in a rat model of heart transplantation. These findings raise the possibility of repurposing this clinically approved oncology drug, to be used in heart transplantation. LINKED ARTICLES

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Section: Discussionmentioning

confidence: 99%

Olaparib protects cardiomyocytes against oxidative stress and improves graft contractility during the early phase after heart transplantation in rats

Korkmaz‐Icöz

Szczesny

Marcatti

et al. 2017

British J Pharmacology

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“…In addition, PARPs play vital roles in regulating cellular stress responses related to the quality control of DNA, RNA and protein—specifically, the DNA damage response, the cytoplasmic stress response, and the unfolded protein response, respectively 12,19,21,46 . PARPs also play roles in the general, nonstress, nondefense pathways in cells by modulating gene expression, telomere length, transcriptional regulation, translation, mRNA stability, cell signaling, cell division and cell motility 17,20,21,33,34,47–49 . Furthermore, they also play important roles in regulating protein stability by targeting proteins for ubiquitylation by directly PARylating them 13–16 .…”

Section: Art Functionsmentioning

confidence: 99%

“…Three high-affinity PAR binding domains have been identified: the tryptophan–tryptophan–-glutamate (WWE) domain, the poly(ADP-ribose)-binding zinc finger (PBZ) domain, and ‘macro’ domains. In addition, a lower affinity PAR-binding domain was identified called the PAR binding motif 49 . Macro domains also bind MAR, and examples have been found in bacterial MAR hydrolases that utilize Macro domains to bind and hydrolyze ADP-ribosylated proteins 26 .…”

Section: Art Functionsmentioning

confidence: 99%

“…For example, the duration of the cellular effects of bacterial toxins on their host proteins depends on the sustained modification of the target proteins 29 , and the DNA damage repair signal sent by PARP1 is dependent on a balance of sustained PARP1 activation and the regulation of PARG, the hydrolase that degrades PAR and reverses the ADPr signal 49 . Many factors affect the turnover of ADPR modifications, and most of these are likely dependent on the specific biology of the targets and the pathways affected.…”

Section: The Importance Of Turnovermentioning

confidence: 99%

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Insights into the biogenesis, function, and regulation of ADP-ribosylation

2018

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ADP-ribosylation—the transfer of ADP-ribose (ADPr) from NAD+ onto target molecules—is catalyzed by members of the ADP-ribosyltransferase (ART) superfamily of proteins, found in all kingdoms of life. Modification of amino acids in protein targets by ADPr regulates critical cellular pathways in eukaryotes and underlies the pathogenicity of certain bacteria. Several members of the ART superfamily are highly relevant for disease; these include the poly(ADP-ribose) polymerases (PARPs), recently shown to be important cancer targets, and the bacterial toxins diphtheria toxin and cholera toxin, long known to be responsible for the symptoms of diphtheria and cholera that result in morbidity. In this Review, we discuss the functions of amino acid ADPr modifications and the ART proteins that make them, the nature of the chemical linkage between ADPr and its targets and how this impacts function and stability, and the way that ARTs select specific amino acids in targets to modify.

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“…Increased PARP activity can deplete cellular NAD levels, leading to neurotoxicity (Gupte et al 2017;Narne et al 2017). This was confirmed in mice with XRCC1 deleted in the brain , in which the characteristic loss of cerebellar interneurons was rescued by coincident deletion of PARP1 (Hoch et al 2017).…”

Section: Ber Is Critical In the Nervous Systemmentioning

confidence: 99%