Literature DB >> 24610783

Nitric oxide induces ataxia telangiectasia mutated (ATM) protein-dependent γH2AX protein formation in pancreatic β cells.

Bryndon J Oleson1, Katarzyna A Broniowska, Katherine H Schreiber, Vera L Tarakanova, John A Corbett.   

Abstract

In this study, the effects of cytokines on the activation of the DNA double strand break repair factors histone H2AX (H2AX) and ataxia telangiectasia mutated (ATM) were examined in pancreatic β cells. We show that cytokines stimulate H2AX phosphorylation (γH2AX formation) in rat islets and insulinoma cells in a nitric oxide- and ATM-dependent manner. In contrast to the well documented role of ATM in DNA repair, ATM does not appear to participate in the repair of nitric oxide-induced DNA damage. Instead, nitric oxide-induced γH2AX formation correlates temporally with the onset of irreversible DNA damage and the induction of apoptosis. Furthermore, inhibition of ATM attenuates cytokine-induced caspase activation. These findings show that the formation of DNA double strand breaks correlates with ATM activation, irreversible DNA damage, and ATM-dependent induction of apoptosis in cytokine-treated β cells.

Entities:  

Keywords:  ATM; Apoptosis; Cytokine; DNA Repair; H2AX; Nitric Oxide; β Cell

Mesh:

Substances:

Year:  2014        PMID: 24610783      PMCID: PMC4036281          DOI: 10.1074/jbc.M113.531228

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  60 in total

1.  Interleukin 1 inhibits insulin secretion from isolated rat pancreatic islets by a process that requires gene transcription and mRNA translation.

Authors:  J H Hughes; J R Colca; R A Easom; J Turk; M L McDaniel
Journal:  J Clin Invest       Date:  1990-09       Impact factor: 14.808

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Authors:  R R Tice; P W Andrews; O Hirai; N P Singh
Journal:  Adv Exp Med Biol       Date:  1991       Impact factor: 2.622

3.  Inhibition of insulin secretion by interleukin-1 beta and tumour necrosis factor-alpha via an L-arginine-dependent nitric oxide generating mechanism.

Authors:  C Southern; D Schulster; I C Green
Journal:  FEBS Lett       Date:  1990-12-10       Impact factor: 4.124

4.  Interleukin-1 beta-induced nitric oxide production in isolated rat pancreatic islets requires gene transcription and may lead to inhibition of the Krebs cycle enzyme aconitase.

Authors:  N Welsh; D L Eizirik; K Bendtzen; S Sandler
Journal:  Endocrinology       Date:  1991-12       Impact factor: 4.736

5.  Affinity-purified human interleukin I is cytotoxic to isolated islets of Langerhans.

Authors:  T Mandrup-Poulsen; K Bendtzen; J Nerup; C A Dinarello; M Svenson; J H Nielsen
Journal:  Diabetologia       Date:  1986-01       Impact factor: 10.122

6.  Cytokines cause functional and structural damage to isolated islets of Langerhans.

Authors:  T Mandrup-Poulsen; K Bendtzen; J H Nielsen; G Bendixen; J Nerup
Journal:  Allergy       Date:  1985-08       Impact factor: 13.146

7.  Interleukin 1 beta induces the formation of nitric oxide by beta-cells purified from rodent islets of Langerhans. Evidence for the beta-cell as a source and site of action of nitric oxide.

Authors:  J A Corbett; J L Wang; M A Sweetland; J R Lancaster; M L McDaniel
Journal:  J Clin Invest       Date:  1992-12       Impact factor: 14.808

8.  Nitric oxide and cyclic GMP formation induced by interleukin 1 beta in islets of Langerhans. Evidence for an effector role of nitric oxide in islet dysfunction.

Authors:  J A Corbett; J L Wang; J H Hughes; B A Wolf; M A Sweetland; J R Lancaster; M L McDaniel
Journal:  Biochem J       Date:  1992-10-01       Impact factor: 3.857

9.  Interleukin-1 beta-induced formation of EPR-detectable iron-nitrosyl complexes in islets of Langerhans. Role of nitric oxide in interleukin-1 beta-induced inhibition of insulin secretion.

Authors:  J A Corbett; J R Lancaster; M A Sweetland; M L McDaniel
Journal:  J Biol Chem       Date:  1991-11-15       Impact factor: 5.157

10.  DNA deaminating ability and genotoxicity of nitric oxide and its progenitors.

Authors:  D A Wink; K S Kasprzak; C M Maragos; R K Elespuru; M Misra; T M Dunams; T A Cebula; W H Koch; A W Andrews; J S Allen
Journal:  Science       Date:  1991-11-15       Impact factor: 47.728
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  17 in total

1.  The Role of Metabolic Flexibility in the Regulation of the DNA Damage Response by Nitric Oxide.

Authors:  Bryndon J Oleson; Katarzyna A Broniowska; Chay Teng Yeo; Michael Flancher; Aaron Naatz; Neil Hogg; Vera L Tarakanova; John A Corbett
Journal:  Mol Cell Biol       Date:  2019-08-27       Impact factor: 4.272

2.  IL-1 Receptor-Knockout Mice Develop Epidermal Cysts and Show an Altered Innate Immune Response after Exposure to UVB Radiation.

Authors:  Nikhil N Kulkarni; Christopher A Adase; Ling-Juan Zhang; Andrew W Borkowski; Fengwu Li; James A Sanford; Daniel J Coleman; Carlos Aguilera; Arup K Indra; Richard L Gallo
Journal:  J Invest Dermatol       Date:  2017-07-25       Impact factor: 8.551

3.  Role of Protein Phosphatase 1 and Inhibitor of Protein Phosphatase 1 in Nitric Oxide-Dependent Inhibition of the DNA Damage Response in Pancreatic β-Cells.

Authors:  Bryndon J Oleson; Aaron Naatz; Sarah C Proudfoot; Chay Teng Yeo; John A Corbett
Journal:  Diabetes       Date:  2018-02-14       Impact factor: 9.461

4.  Nitric Oxide Suppresses β-Cell Apoptosis by Inhibiting the DNA Damage Response.

Authors:  Bryndon J Oleson; Katarzyna A Broniowska; Aaron Naatz; Neil Hogg; Vera L Tarakanova; John A Corbett
Journal:  Mol Cell Biol       Date:  2016-07-14       Impact factor: 4.272

Review 5.  Can insulin secreting pancreatic β-cells provide novel insights into the metabolic regulation of the DNA damage response?

Authors:  Bryndon J Oleson; John A Corbett
Journal:  Biochem Pharmacol       Date:  2020-03-12       Impact factor: 5.858

Review 6.  Dual Role of Nitric Oxide in Regulating the Response of β Cells to DNA Damage.

Authors:  Bryndon J Oleson; John A Corbett
Journal:  Antioxid Redox Signal       Date:  2017-11-10       Impact factor: 8.401

Review 7.  Molecular Mechanisms of Nitric Oxide in Cancer Progression, Signal Transduction, and Metabolism.

Authors:  Veena Somasundaram; Debashree Basudhar; Gaurav Bharadwaj; Jae Hong No; Lisa A Ridnour; Robert Y S Cheng; Mayumi Fujita; Douglas D Thomas; Stephen K Anderson; Daniel W McVicar; David A Wink
Journal:  Antioxid Redox Signal       Date:  2018-05-02       Impact factor: 8.401

8.  Silymarin Inhibits Cytokine-Stimulated Pancreatic Beta Cells by Blocking the ERK1/2 Pathway.

Authors:  Eun Jeong Kim; Jeeho Kim; Min Young Lee; Muddenahalli Srinivasa Sudhanva; Sundaravinayagam Devakumar; Young Jin Jeon
Journal:  Biomol Ther (Seoul)       Date:  2014-07       Impact factor: 4.634

9.  Exposure to chronic hyperglycemic conditions results in Ras-related C3 botulinum toxin substrate 1 (Rac1)-mediated activation of p53 and ATM kinase in pancreatic β-cells.

Authors:  Vaibhav Sidarala; Anjaneyulu Kowluru
Journal:  Apoptosis       Date:  2017-05       Impact factor: 4.677

10.  PAX4 preserves endoplasmic reticulum integrity preventing beta cell degeneration in a mouse model of type 1 diabetes mellitus.

Authors:  José Manuel Mellado-Gil; Carmen María Jiménez-Moreno; Alejandro Martin-Montalvo; Ana Isabel Alvarez-Mercado; Esther Fuente-Martin; Nadia Cobo-Vuilleumier; Petra Isabel Lorenzo; Eva Bru-Tari; Irene de Gracia Herrera-Gómez; Livia López-Noriega; Javier Pérez-Florido; Javier Santoyo-López; Andreas Spyrantis; Paolo Meda; Bernhard O Boehm; Ivan Quesada; Benoit R Gauthier
Journal:  Diabetologia       Date:  2016-01-26       Impact factor: 10.122
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