Neil3-dependent base excision repair regulates lipid metabolism and prevents atherosclerosis in Apoe-deficient mice

A possible role for proinflammatory activation via cGAS-STING pathway in atherosclerosis induced by accumulation of DNA double-strand breaks

Chiemi Sakai
Keitaro Ueda
Kohei Goda
Rikuto Fujita
Junji Maeda
Shinya Nakayama
Yusuke Sotomaru
Satoshi Tashiro
Masao Yoshizumi
Takafumi Ishida
Mari Ishida

September 2023

Abstract DNA damage contributes to atherosclerosis. However, causative links between DNA double-stra...

Loss of Neil3, the major DNA glycosylase activity for removal of hydantoins in single stranded DNA, reduces cellular proliferation and sensitizes cells to genotoxic stress

Rolseth, Veslemøy
Krokeide, Silje Zandstra
Kunke, David
Neurauter, Christine Gran
Suganthan, Rajikala
Sejersted, Yngve
Hildrestrand, Gunn Annette
Bjørås, Magnar
Luna, Luisa

May 2013

Abstract7,8-Dihydro-8-oxoguanine (8-oxoG) is one of the most common oxidative base lesions in normal...

Mitochondrial DNA damage can promote atherosclerosis independently of reactive oxygen species through effects on smooth muscle cells and monocytes, and correlates with higher risk plaques in humans

Yu, E.
Calvert, P.A.
Mercer, J.R.
Harrison, J.
Baker, L.
Figg, N.L.
Kumar, S.
Wang, J.J.
Hurst, L.A.
Obaid, D.R.
Logan, A.
West, N.E.J.
Clarke, M.C.H.
Vidal-Puig, A.
Murphy, M.P.
Bennett, M.R.

August 2013

Background—Mitochondrial DNA (mtDNA) damage occurs in both circulating cells and the vessel wall in ...

Neil3-dependent base excision repair regulates lipid metabolism and prevents atherosclerosis in Apoe-deficient mice

Skarpengland, Tonje
Holm, Sverre
Scheffler, Katja
Gregersen, Ida
Dahl, Tuva B.
Suganthan, Rajikala
Segers, Filip M.
Ostlie, Ingunn
Otten, Jeroen J. T.
Luna, Luisa
Ketelhuth, Daniel F. J.
Lundberg, Anna M.
Neurauter, Christine G.
Hildrestrand, Gunn
Skjelland, Mona
Bjorndal, Bodil
Svardal, Asbjorn M.
Iversen, Per O.
Hedin, Ulf
Nygard, Stale
Olstad, Ole K.
Krohg-Sorensen, Kirsten
Slupphaug, Geir
Eide, Lars
Kusnierczyk, Anna
Folkersen, Lasse
Ueland, Thor
Berge, Rolf K.
Hansson, Goran K.
Biessen, Erik A. L.
Halvorsen, Bente
Bjoras, Magnar
Aukrust, Pal

June 2016

Increasing evidence suggests that oxidative DNA damage accumulates in atherosclerosis. Recently, we ...

NEIL3-deficiency increases gut permeability and contributes to a pro-atherogenic metabolic phenotype

Karlsen, Tom Rune
Kong, Xiang Yi
Holm, Sverre
Quiles-Jiménez, Ana M T
Dahl, Tuva Børresdatter
Yang, Kuan
Sagen, Ellen Lund
Skarpengland, Tonje
Øgaard, Jonas
Holm, Kristian
Vestad, Beate
Olsen, Maria Belland
Aukrust, Pål
Bjørås, Magnar
Hov, Johannes Espolin Roksund
Halvorsen, Bente
Gregersen, Ida

January 2021

Abstract Atherosclerosis and its consequences cause considerable morbidity and mortality world-wide....

DNA glycosylase Neil3 regulates vascular smooth muscle cell biology during atherosclerosis development

Quiles-Jimenez, Ana
Gregersen, Ida
Segers, Filip M.
Skarpengland, Tonje
Kroustallaki, Penelope
Yang, Kuan
Kong, Xiang Yi
Lauritzen, Knut H.
Olsen, Maria B.
Karlsen, Tom Rune
Nyman, Tuula A.
Sagen, Ellen L.
Bjerkeli, Vigdis
Suganthan, Rajikala
Nygard, Stale
Scheffler, Katja
Prins, Jurrien
Van der Veer, Eric
Ogaard, Jonas D. S.
Floisand, Yngvar
Jorgensen, Helle F.
Holven, Kirsten B.
Biessen, Erik A.
Nilsen, Hilde
Dahl, Tuva B.
Holm, Sverre
Bennett, Martin R.
Aukrust, Pal
Bjoras, Magnar
Halvorsen, Bente

May 2021

Background and aims: Atherogenesis involves a complex interaction between immune cells and lipids, p...

Molecular mechanisms of atherosclerotic disease: Studies on the role of the DNA glycosylase NEIL3 and the epitranscriptome in the development of atherosclerosis

Quiles-Jiménez, Ana María

January 2020

Cardiovascular diseases are one of the top causes of mortality worldwide, and the main underlying ca...

NEIL3-Dependent Regulation of Cardiac Fibroblast Proliferation Prevents Myocardial Rupture

Olsen, Maria Belland
Hildrestrand, Gunn Annette
Scheffler, Katja
Vinge, Leif Erik
Alfsnes, Katrine
Palibrk, Vuk
Wang, Junbai
Neurauter, Christine Gran
Gomez, Luisa Fernanda Luna
Johansen, Jostein
Øgaard, Jonas
Ohm, Ingrid Kristine
Slupphaug, Geir
Kusnierczyk, Anna
Fiane, Arnt E
Brorson, Sverre Henning
Zhang, Lili
Gullestad, Lars
Louch, William Edward
Iversen, Per Ole
Østlie, Ingunn
Klungland, Arne
Christensen, Geir Arve
Sjaastad, Ivar
Sætrom, Pål
Yndestad, Arne
Aukrust, Pål
Bjørås, Magnar
Finsen, Alexandra

January 2017

Myocardial infarction (MI) triggers a reparative response involving fibroblast proliferation and dif...

NEIL3-deficient bone marrow displays decreased hematopoietic capacity and reduced telomere length

Karlsen, Tom Rune
Olsen, Maria Belland
Kong, Xiang Yi
Yang, Kuan
Quiles-Jiménez, Ana M T
Kroustallaki, Pinelopi
Holm, Sverre
Lines, Glenn Terje
Aukrust, Pål
Skarpengland, Tonje
Bjørås, Magnar
Dahl, Tuva Børresdatter
Nilsen, Hilde
Gregersen, Ida
Halvorsen, Bente

January 2022

Deficiency of NEIL3, a DNA repair enzyme, has significant impact on mouse physiology, including vasc...

DNA damage links mitochondrial dysfunction to atherosclerosis and the metabolic syndrome

Mercer, J.R.
Cheng, K.-K.
Figg, N.
Gorenne, I.
Mahmoudi, M.
Griffin, J.
Vidal-Puig, A.
Logan, A.
Murphy, M.P.
Bennett, M.

October 2010

Rationale: DNA damage is present in both genomic and mitochondrial DNA in atherosclerosis. However, ...

NEIL1 Deficiency Modulates the Effects of High Fat, High Carb, and Pro/Anti-oxidative Treatments in Mice

June 2012

Metabolic disorders affect much of the population, and it is widely believed that they have a geneti...

Decreased levels of lipid peroxidation-induced DNA damage in the onset of atherogenesis in apolipoprotein E deficient mice

Godschalk, R.W.
Albrecht, C.
Curfs, D.M.
Schins, R.P.
Bartsch, H.
van Schooten, F.J.
Nair, J.

January 2007

Increased oxidative stress and subsequent lipid peroxidation (LPO) are thought to be critical events...

Ogg1-Dependent DNA Repair Regulates NLRP3 Inflammasome and Prevents Atherosclerosis

Tumurkhuu, Gantsetseg
Shimada, Kenichi
Dagvadorj, Jargalsaikhan
Crother, Timothy R
Zhang, Wenxuan
Luthringer, Daniel
Gottlieb, Roberta A
Chen, Shuang
Arditi, Moshe

September 2016

RationaleActivation of NLRP3 (nucleotide-binding domain and leucine-rich repeat pyrin domain contain...

Defective Base Excision Repair of Oxidative DNA Damage in Vascular Smooth Muscle Cells Promotes Atherosclerosis.

Shah, Aarti
Gray, Kelly
Figg, Nichola
Finigan, Alison
Starks, Lakshi
Bennett, Martin

October 2018

BACKGROUND: Atherosclerotic plaques demonstrate extensive accumulation of oxidative DNA damage, pred...

Complex Roles of NEIL1 and OGG1: Insights Gained from Murine Knockouts and Human Polymorphic Variants

R. Stephen Lloyd

December 2022

DNA glycosylases promote genomic stability by initiating base excision repair (BER) in both the nucl...

A possible role for proinflammatory activation via cGAS-STING pathway in atherosclerosis induced by accumulation of DNA double-strand breaks

Chiemi Sakai
Keitaro Ueda
Kohei Goda
Rikuto Fujita
Junji Maeda
Shinya Nakayama
Yusuke Sotomaru
Satoshi Tashiro
Masao Yoshizumi
Takafumi Ishida
Mari Ishida

September 2023

Abstract DNA damage contributes to atherosclerosis. However, causative links between DNA double-stra...

Loss of Neil3, the major DNA glycosylase activity for removal of hydantoins in single stranded DNA, reduces cellular proliferation and sensitizes cells to genotoxic stress

Rolseth, Veslemøy
Krokeide, Silje Zandstra
Kunke, David
Neurauter, Christine Gran
Suganthan, Rajikala
Sejersted, Yngve
Hildrestrand, Gunn Annette
Bjørås, Magnar
Luna, Luisa

May 2013

Abstract7,8-Dihydro-8-oxoguanine (8-oxoG) is one of the most common oxidative base lesions in normal...

Mitochondrial DNA damage can promote atherosclerosis independently of reactive oxygen species through effects on smooth muscle cells and monocytes, and correlates with higher risk plaques in humans

Yu, E.
Calvert, P.A.
Mercer, J.R.
Harrison, J.
Baker, L.
Figg, N.L.
Kumar, S.
Wang, J.J.
Hurst, L.A.
Obaid, D.R.
Logan, A.
West, N.E.J.
Clarke, M.C.H.
Vidal-Puig, A.
Murphy, M.P.
Bennett, M.R.

August 2013

Background—Mitochondrial DNA (mtDNA) damage occurs in both circulating cells and the vessel wall in ...

Neil3-dependent base excision repair regulates lipid metabolism and prevents atherosclerosis in Apoe-deficient mice

Skarpengland, Tonje
Holm, Sverre
Scheffler, Katja
Gregersen, Ida
Dahl, Tuva B.
Suganthan, Rajikala
Segers, Filip M.
Ostlie, Ingunn
Otten, Jeroen J. T.
Luna, Luisa
Ketelhuth, Daniel F. J.
Lundberg, Anna M.
Neurauter, Christine G.
Hildrestrand, Gunn
Skjelland, Mona
Bjorndal, Bodil
Svardal, Asbjorn M.
Iversen, Per O.
Hedin, Ulf
Nygard, Stale
Olstad, Ole K.
Krohg-Sorensen, Kirsten
Slupphaug, Geir
Eide, Lars
Kusnierczyk, Anna
Folkersen, Lasse
Ueland, Thor
Berge, Rolf K.
Hansson, Goran K.
Biessen, Erik A. L.
Halvorsen, Bente
Bjoras, Magnar
Aukrust, Pal

June 2016

Increasing evidence suggests that oxidative DNA damage accumulates in atherosclerosis. Recently, we ...

NEIL3-deficiency increases gut permeability and contributes to a pro-atherogenic metabolic phenotype

Karlsen, Tom Rune
Kong, Xiang Yi
Holm, Sverre
Quiles-Jiménez, Ana M T
Dahl, Tuva Børresdatter
Yang, Kuan
Sagen, Ellen Lund
Skarpengland, Tonje
Øgaard, Jonas
Holm, Kristian
Vestad, Beate
Olsen, Maria Belland
Aukrust, Pål
Bjørås, Magnar
Hov, Johannes Espolin Roksund
Halvorsen, Bente
Gregersen, Ida

January 2021

Abstract Atherosclerosis and its consequences cause considerable morbidity and mortality world-wide....

DNA glycosylase Neil3 regulates vascular smooth muscle cell biology during atherosclerosis development

Quiles-Jimenez, Ana
Gregersen, Ida
Segers, Filip M.
Skarpengland, Tonje
Kroustallaki, Penelope
Yang, Kuan
Kong, Xiang Yi
Lauritzen, Knut H.
Olsen, Maria B.
Karlsen, Tom Rune
Nyman, Tuula A.
Sagen, Ellen L.
Bjerkeli, Vigdis
Suganthan, Rajikala
Nygard, Stale
Scheffler, Katja
Prins, Jurrien
Van der Veer, Eric
Ogaard, Jonas D. S.
Floisand, Yngvar
Jorgensen, Helle F.
Holven, Kirsten B.
Biessen, Erik A.
Nilsen, Hilde
Dahl, Tuva B.
Holm, Sverre
Bennett, Martin R.
Aukrust, Pal
Bjoras, Magnar
Halvorsen, Bente

May 2021

Background and aims: Atherogenesis involves a complex interaction between immune cells and lipids, p...

Molecular mechanisms of atherosclerotic disease: Studies on the role of the DNA glycosylase NEIL3 and the epitranscriptome in the development of atherosclerosis

Quiles-Jiménez, Ana María

January 2020

Cardiovascular diseases are one of the top causes of mortality worldwide, and the main underlying ca...

NEIL3-Dependent Regulation of Cardiac Fibroblast Proliferation Prevents Myocardial Rupture

Olsen, Maria Belland
Hildrestrand, Gunn Annette
Scheffler, Katja
Vinge, Leif Erik
Alfsnes, Katrine
Palibrk, Vuk
Wang, Junbai
Neurauter, Christine Gran
Gomez, Luisa Fernanda Luna
Johansen, Jostein
Øgaard, Jonas
Ohm, Ingrid Kristine
Slupphaug, Geir
Kusnierczyk, Anna
Fiane, Arnt E
Brorson, Sverre Henning
Zhang, Lili
Gullestad, Lars
Louch, William Edward
Iversen, Per Ole
Østlie, Ingunn
Klungland, Arne
Christensen, Geir Arve
Sjaastad, Ivar
Sætrom, Pål
Yndestad, Arne
Aukrust, Pål
Bjørås, Magnar
Finsen, Alexandra

January 2017

Myocardial infarction (MI) triggers a reparative response involving fibroblast proliferation and dif...

NEIL3-deficient bone marrow displays decreased hematopoietic capacity and reduced telomere length

Karlsen, Tom Rune
Olsen, Maria Belland
Kong, Xiang Yi
Yang, Kuan
Quiles-Jiménez, Ana M T
Kroustallaki, Pinelopi
Holm, Sverre
Lines, Glenn Terje
Aukrust, Pål
Skarpengland, Tonje
Bjørås, Magnar
Dahl, Tuva Børresdatter
Nilsen, Hilde
Gregersen, Ida
Halvorsen, Bente

January 2022

Deficiency of NEIL3, a DNA repair enzyme, has significant impact on mouse physiology, including vasc...

DNA damage links mitochondrial dysfunction to atherosclerosis and the metabolic syndrome

Mercer, J.R.
Cheng, K.-K.
Figg, N.
Gorenne, I.
Mahmoudi, M.
Griffin, J.
Vidal-Puig, A.
Logan, A.
Murphy, M.P.
Bennett, M.

October 2010

Rationale: DNA damage is present in both genomic and mitochondrial DNA in atherosclerosis. However, ...

NEIL1 Deficiency Modulates the Effects of High Fat, High Carb, and Pro/Anti-oxidative Treatments in Mice

June 2012

Metabolic disorders affect much of the population, and it is widely believed that they have a geneti...

Decreased levels of lipid peroxidation-induced DNA damage in the onset of atherogenesis in apolipoprotein E deficient mice

Godschalk, R.W.
Albrecht, C.
Curfs, D.M.
Schins, R.P.
Bartsch, H.
van Schooten, F.J.
Nair, J.

January 2007

Increased oxidative stress and subsequent lipid peroxidation (LPO) are thought to be critical events...

Ogg1-Dependent DNA Repair Regulates NLRP3 Inflammasome and Prevents Atherosclerosis

Tumurkhuu, Gantsetseg
Shimada, Kenichi
Dagvadorj, Jargalsaikhan
Crother, Timothy R
Zhang, Wenxuan
Luthringer, Daniel
Gottlieb, Roberta A
Chen, Shuang
Arditi, Moshe

September 2016

RationaleActivation of NLRP3 (nucleotide-binding domain and leucine-rich repeat pyrin domain contain...

Defective Base Excision Repair of Oxidative DNA Damage in Vascular Smooth Muscle Cells Promotes Atherosclerosis.

Shah, Aarti
Gray, Kelly
Figg, Nichola
Finigan, Alison
Starks, Lakshi
Bennett, Martin

October 2018

BACKGROUND: Atherosclerotic plaques demonstrate extensive accumulation of oxidative DNA damage, pred...

Complex Roles of NEIL1 and OGG1: Insights Gained from Murine Knockouts and Human Polymorphic Variants

R. Stephen Lloyd

December 2022

DNA glycosylases promote genomic stability by initiating base excision repair (BER) in both the nucl...

A possible role for proinflammatory activation via cGAS-STING pathway in atherosclerosis induced by accumulation of DNA double-strand breaks

Chiemi Sakai
Keitaro Ueda
Kohei Goda
Rikuto Fujita
Junji Maeda
Shinya Nakayama
Yusuke Sotomaru
Satoshi Tashiro
Masao Yoshizumi
Takafumi Ishida
Mari Ishida

September 2023

Abstract DNA damage contributes to atherosclerosis. However, causative links between DNA double-stra...

Loss of Neil3, the major DNA glycosylase activity for removal of hydantoins in single stranded DNA, reduces cellular proliferation and sensitizes cells to genotoxic stress

Rolseth, Veslemøy
Krokeide, Silje Zandstra
Kunke, David
Neurauter, Christine Gran
Suganthan, Rajikala
Sejersted, Yngve
Hildrestrand, Gunn Annette
Bjørås, Magnar
Luna, Luisa

May 2013

Abstract7,8-Dihydro-8-oxoguanine (8-oxoG) is one of the most common oxidative base lesions in normal...

Mitochondrial DNA damage can promote atherosclerosis independently of reactive oxygen species through effects on smooth muscle cells and monocytes, and correlates with higher risk plaques in humans

Yu, E.
Calvert, P.A.
Mercer, J.R.
Harrison, J.
Baker, L.
Figg, N.L.
Kumar, S.
Wang, J.J.
Hurst, L.A.
Obaid, D.R.
Logan, A.
West, N.E.J.
Clarke, M.C.H.
Vidal-Puig, A.
Murphy, M.P.
Bennett, M.R.

August 2013

Background—Mitochondrial DNA (mtDNA) damage occurs in both circulating cells and the vessel wall in ...

Neil3-dependent base excision repair regulates lipid metabolism and prevents atherosclerosis in Apoe-deficient mice

Abstract

Extracted data

Neil3-dependent base excision repair regulates lipid metabolism and prevents atherosclerosis in Apoe-deficient mice

Abstract

Extracted data

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