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63 research outputs found

The relevance of tissue angiotensin-converting enzyme: manifestations in mechanistic and endpoint data

Angiotensin-converting enzyme (ACE) is primarily localized (>90%) in various tissues and organs, most notably on the endothelium but also within parenchyma and inflammatory cells. Tissue ACE is now recognized as a key factor in cardiovascular and renal diseases. Endothelial dysfunction, in response to a number of risk factors or injury such as hypertension, diabetes mellitus, hypercholesteremia, and cigarette smoking, disrupts the balance of vasodilation and vasoconstriction, vascular smooth muscle cell growth, the inflammatory and oxidative state of the vessel wall, and is associated with activation of tissue ACE. Pathologic activation of local ACE can have deleterious effects on the heart, vasculature, and the kidneys. The imbalance resulting from increased local formation of angiotensin II and increased bradykinin degradation favors cardiovascular disease. Indeed, ACE inhibitors effectively reduce high blood pressure and exert cardio- and renoprotective actions. Recent evidence suggests that a principal target of ACE inhibitor action is at the tissue sites. Pharmacokinetic properties of various ACE inhibitors indicate that there are differences in their binding characteristics for tissue ACE. Clinical studies comparing the effects of antihypertensives (especially ACE inhibitors) on endothelial function suggest differences. More comparative experimental and clinical studies should address the significance of these drug differences and their impact on clinical events

Universidad de Navarra

Dadun, University of Navarra

In Search of the High Road: Meaning and Evidence

This article is the first in a series to celebrate the 70th anniversary of the ILR Review. We will be highlighting important research themes that have been featured in the journal over its many years of publication. In this article, Paul Osterman reviews research on the quality of jobs and recent debates over “High Road” and “Low Road” approaches to employment practices. Scholars and policy advocates frequently utilize the distinction between High Road and Low Road firms as a framework for efforts to improve the quality of work in low-wage employers. This article assesses the logic and evidence that underlies this construct. The author provides a definition of the concept and examines the evidence behind the assumption that firms have a choice in how they design their employment policies. He then takes up the assertion that firms that adopt a High Road model can “do well by doing good” and adds precision to this claim by reviewing the evidence that a profit-maximizing firm would benefit from following the High Road path. The article concludes by suggesting a research agenda and providing a framework for policy that flows from the conclusions drawn from the existing research base

DSpace@MIT

Crossref

Serving up harm: Systemic Violence, Transitions to Adulthood and the Service Economy

Crossref

Teeside University's Research Repository

Genome-wide association meta-analyses and fine-mapping elucidate pathways influencing albuminuria

Author: Akilesh Shreeram
Bakker Stephan J. L.
Bansal Nisha
Baptista Daniela
Biggs Mary L.
Bochud Murielle
Boerwinkle Eric
Brenner Hermann
Burkhardt Ralph
Butterworth Adam S.
Böger Carsten A.
Carroll Robert J.
Chai Jin-Fang
Chee Miao-Li
Chee Miao-Ling
Chen Mengmeng
Cheng Ching-Yu
Chu Audrey Y.
Cocca Massimiliano
Connell Jeffrey O’
Cook James P.
Coresh Josef
Corre Tanguy
Danesh John
de Borst Martin H.
De Grandi Alessandro
de Mutsert Renée
de Vries Aiko P. J.
Degenhardt Frauke
Devuyst Olivier
Dittrich Katalin
Divers Jasmin
Eckardt Kai-Uwe
Edwards Todd L.
Ehret Georg
Endlich Karlhans
Feitosa Mary F.
Felix Janine F.
Foo Valencia Hui Xian
Franco Oscar H.
Franke Andre
Freedman Barry I.
Freitag-Wolf Sandra
Fuchsberger Christian
Gansevoort Ron T.
Gerstner Lea
Ghasemi Sahar
Giedraitis Vilmantas
Giri Ayush
Gorski Mathias
Grundner-Culemann Franziska
Gudbjartsson Daniel F.
Gudnason Vilmundur
Gögele Martin
Hamet Pavel
Harris Tamara B.
Heid Iris M.
Hermle Tobias
Hicks Andrew A.
Ho Kevin
Holm Hilma
Hoppmann Anselm
Horn Katrin
Hung Adriana M.
Hwang Shih-Jen
Ikram M. Arfan
Ingelsson Erik
Jaddoe Vincent W. V.
Jakobsdottir Johanna
Josyula Navya Shilpa
Jung Bettina
Khor Chiea-Chuen
Kiess Wieland
Kirsten Holger
Koenig Wolfgang
Kovacs Peter
Kramer Holly
Kronenberg Florian
Krämer Bernhard K.
Kähönen Mika
Körner Antje
Köttgen Anna
Lange Leslie A.
Langefeld Carl D.
Lee Jeannette Jen-Mai
Lehtimäki Terho
Li Man
Li Yong
Lieb Wolfgang
Lim Su-Chi
Lind Lars
Lindgren Cecilia M.
Liu Jianjun
Loeffler Markus
Lyytikäinen Leo-Pekka
Mahajan Anubha
Maranville Joseph C.
Marten Jonathan
Mascalzoni Deborah
McMullen Barbara
Meisinger Christa
Meitinger Thomas
Miliku Kozeta
Mook-Kanamori Dennis O.
Morris Andrew P.
Mychaleckyj Josyf C.
Müller-Nurasyid Martina
Nauck Matthias
Nikus Kjell
Ning Boting
Noce Damia
Noordam Raymond
Nutile Teresa
Olafsson Isleifur
Palmer Nicholette D.
Parsa Afshin
Pattaro Cristian
Pendergrass Sarah A.
Peters Annette
Podgornaia Anna I.
Ponte Belen
Poulain Tanja
Pramstaller Peter P.
Prins Bram P.
Psaty Bruce M.
Qiu Chengxiang
Rabelink Ton J.
Raffield Laura M.
Reilly Dermot F.
Rettig Rainer
Rheinberger Myriam
Rice Kenneth M.
Rivadeneira Fernando
Rotter Jerome I.
Runz Heiko
Ryan Kathleen A.
Sabanayagam Charumathi
Saum Kai-Uwe
Scholz Markus
Schöttker Ben
Sedaghat Sanaz
Shaffer Christian M.
Shi Yuan
Sieber Karsten B.
Smith Albert V.
Snieder Harold
Stefansson Kari
Strauch Konstantin
Stumvoll Michael
Sun Benjamin B.
Susztak Katalin
Sveinbjornsson Gardar
Szymczak Silke
Tai E-Shyong
Tan Nicholas Y. Q.
Taylor Kent D.
Tayo Bamidele O.
Teren Andrej
Teumer Alexander
Tham Yih-Chung
Thiery Joachim
Thio Chris H. L.
Thomsen Hauke
Thorsteinsdottir Unnur
Tin Adrienne
Tremblay Johanne
Tönjes Anke
Uitterlinden André G.
van der Harst Pim
van der Most Peter J.
Verweij Niek
Vogelezang Suzanne
Völker Uwe
Waldenberger Melanie
Wang Chaolong
Wang Lihua
Wilson James G.
Wilson Otis D.
Wong Charlene
Wong Tien-Yin
Wuttke Matthias
Xu Yizhe
Yang Qiong
Yasuda Masayuki
Yu Zhi
Ärnlöv Johan
Publication venue: Nature Communications
Publication date: 01/01/2019
Field of study

Abstract: Increased levels of the urinary albumin-to-creatinine ratio (UACR) are associated with higher risk of kidney disease progression and cardiovascular events, but underlying mechanisms are incompletely understood. Here, we conduct trans-ethnic (n = 564,257) and European-ancestry specific meta-analyses of genome-wide association studies of UACR, including ancestry- and diabetes-specific analyses, and identify 68 UACR-associated loci. Genetic correlation analyses and risk score associations in an independent electronic medical records database (n = 192,868) reveal connections with proteinuria, hyperlipidemia, gout, and hypertension. Fine-mapping and trans-Omics analyses with gene expression in 47 tissues and plasma protein levels implicate genes potentially operating through differential expression in kidney (including TGFB1, MUC1, PRKCI, and OAF), and allow coupling of UACR associations to altered plasma OAF concentrations. Knockdown of OAF and PRKCI orthologs in Drosophila nephrocytes reduces albumin endocytosis. Silencing fly PRKCI further impairs slit diaphragm formation. These results generate a priority list of genes and pathways for translational research to reduce albuminuria

University of Liverpool Repository

University of Groningen

Open Access LMU

Digitala Vetenskapliga Arkivet - Academic Archive On-line

The University of Manchester - Institutional Repository

Archive ouverte UNIGE

Landspítali University Hospital Research Archive

Lund University Publications

Proceedings - University of Groningen

University of Regensburg Publication Server

Opin visindi

ARTS repository - University of Groningen

Publikationer från Uppsala Universitet

Apollo (Cambridge)

Bern Open Repository and Information System (BORIS)

Dissertations of the University of Groningen

Genome-wide association meta-analyses and fine-mapping elucidate pathways influencing albuminuria

Author: Akilesh Shreeram
Bakker Stephan J.L.
Bansal Nisha
Baptista Daniela
Biggs Mary L.
Bochud Murielle
Boerwinkle Eric
Brenner Hermann
Burkhardt Ralph
Butterworth Adam S.
Böger Carsten A.
Carroll Robert J.
Chai Jin Fang
Chee Miao Li
Chee Miao Ling
Chen Mengmeng
Cheng Ching Yu
Chu Audrey Y.
Cocca Massimiliano
Connell Jeffrey O’
Cook James P.
Coresh Josef
Corre Tanguy
Danesh John
de Borst Martin H.
De Grandi Alessandro
de Mutsert Renée
de Vries Aiko P.J.
Degenhardt Frauke
Devuyst Olivier
Dittrich Katalin
Divers Jasmin
Eckardt Kai Uwe
Edwards Todd L.
Ehret Georg
Endlich Karlhans
Feitosa Mary F.
Felix Janine F.
Foo Valencia Hui Xian
Franco Oscar H.
Franke Andre
Freedman Barry I.
Freitag-Wolf Sandra
Fuchsberger Christian
Gansevoort Ron T.
Gerstner Lea
Ghasemi Sahar
Giedraitis Vilmantas
Giri Ayush
Gorski Mathias
Grundner-Culemann Franziska
Gudbjartsson Daniel F.
Gudnason Vilmundur
Gögele Martin
Hamet Pavel
Harris Tamara B.
Heid Iris M.
Hermle Tobias
Hicks Andrew A.
Ho Kevin
Holm Hilma
Hoppmann Anselm
Horn Katrin
Hung Adriana M.
Hwang Shih Jen
Ikram M. Arfan
Ingelsson Erik
Jaddoe Vincent W.V.
Jakobsdottir Johanna
Josyula Navya Shilpa
Jung Bettina
Khor Chiea Chuen
Kiess Wieland
Kirsten Holger
Koenig Wolfgang
Kovacs Peter
Kramer Holly
Kronenberg Florian
Krämer Bernhard K.
Kähönen Mika
Körner Antje
Köttgen Anna
Lange Leslie A.
Langefeld Carl D.
Lee Jeannette Jen Mai
Lehtimäki Terho
Li Man
Li Yong
Lieb Wolfgang
Lim Su Chi
Lind Lars
Lindgren Cecilia M.
Liu Jianjun
Loeffler Markus
Lyytikäinen Leo Pekka
Mahajan Anubha
Maranville Joseph C.
Marten Jonathan
Mascalzoni Deborah
McMullen Barbara
Meisinger Christa
Meitinger Thomas
Miliku Kozeta
Mook-Kanamori Dennis O.
Morris Andrew P.
Mychaleckyj Josyf C.
Müller-Nurasyid Martina
Nauck Matthias
Nikus Kjell
Ning Boting
Noce Damia
Noordam Raymond
Nutile Teresa
Olafsson Isleifur
Palmer Nicholette D.
Parsa Afshin
Pattaro Cristian
Pendergrass Sarah A.
Peters Annette
Podgornaia Anna I.
Ponte Belen
Poulain Tanja
Pramstaller Peter P.
Prins Bram P.
Psaty Bruce M.
Qiu Chengxiang
Rabelink Ton J.
Raffield Laura M.
Reilly Dermot F.
Rettig Rainer
Rheinberger Myriam
Rice Kenneth M.
Rivadeneira Fernando
Rotter Jerome I.
Runz Heiko
Ryan Kathleen A.
Sabanayagam Charumathi
Saum Kai Uwe
Scholz Markus
Schöttker Ben
Sedaghat Sanaz
Shaffer Christian M.
Shi Yuan
Sieber Karsten B.
Smith Albert V.
Snieder Harold
Stefansson Kari
Strauch Konstantin
Stumvoll Michael
Sun Benjamin B.
Susztak Katalin
Sveinbjornsson Gardar
Szymczak Silke
Tai E. Shyong
Tan Nicholas Y.Q.
Taylor Kent D.
Tayo Bamidele O.
Teren Andrej
Teumer Alexander
Tham Yih Chung
Thiery Joachim
Thio Chris H.L.
Thomsen Hauke
Thorsteinsdottir Unnur
Tin Adrienne
Tremblay Johanne
Tönjes Anke
Uitterlinden André G.
van der Harst Pim
van der Most Peter J.
Verweij Niek
Vogelezang Suzanne
Völker Uwe
Waldenberger Melanie
Wang Chaolong
Wang Lihua
Wilson James G.
Wilson Otis D.
Wong Charlene
Wong Tien Yin
Wuttke Matthias
Xu Yizhe
Yang Qiong
Yasuda Masayuki
Yu Zhi
Ärnlöv Johan
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 01/12/2019
Field of study

Publisher Copyright: © 2019, The Author(s).Increased levels of the urinary albumin-to-creatinine ratio (UACR) are associated with higher risk of kidney disease progression and cardiovascular events, but underlying mechanisms are incompletely understood. Here, we conduct trans-ethnic (n = 564,257) and European-ancestry specific meta-analyses of genome-wide association studies of UACR, including ancestry- and diabetes-specific analyses, and identify 68 UACR-associated loci. Genetic correlation analyses and risk score associations in an independent electronic medical records database (n = 192,868) reveal connections with proteinuria, hyperlipidemia, gout, and hypertension. Fine-mapping and trans-Omics analyses with gene expression in 47 tissues and plasma protein levels implicate genes potentially operating through differential expression in kidney (including TGFB1, MUC1, PRKCI, and OAF), and allow coupling of UACR associations to altered plasma OAF concentrations. Knockdown of OAF and PRKCI orthologs in Drosophila nephrocytes reduces albumin endocytosis. Silencing fly PRKCI further impairs slit diaphragm formation. These results generate a priority list of genes and pathways for translational research to reduce albuminuria.Peer reviewe

Opin visindi

Genome-wide association meta-analyses and fine-mapping elucidate pathways influencing albuminuria

Author: Akilesh S. (Shreeram)
Bakker S.J.L. (Stephan)
Bansal N. (Nisha)
Baptista D. (Daniela)
Biggs M.L. (M.)
Bochud M. (Murielle)
Boerwinkle E.A. (Eric)
Brenner H. (Hermann)
Burkhardt R. (Ralph)
Butterworth A.S. (Adam S.)
Böger C.A. (Carsten)
Carroll R.J. (Robert J.)
Chai J.-F. (Jin-Fang)
Chee M.-L. (Miao-Li)
Chee M.-L. (Miao-Ling)
Chen M. (Mengmeng)
Cheng C.-Y. (Ching-Yu)
Chu A.Y. (Audrey Y)
Cocca M. (Massimiliano)
Connell J.O. (Jeffrey O')
Cook J.P. (James P.)
Coresh J. (Josef)
Corre T. (Tanguy)
Danesh J. (John)
de Borst M.H. (Martin H.)
de Vries A.P.J. (Aiko P J)
Degenhardt F. (Frauke)
Devuyst O. (Olivier)
Dittrich K. (Katalin)
Divers J. (Jasmin)
Eckardt K.-U. (Kai-Uwe)
Edwards T.L. (Todd L.)
Ehret G.B. (Georg)
Endlich K. (Karlhans)
Feitosa M.F. (Mary Furlan)
Felix J.F. (Janine)
Foo V.H.X. (Valencia Hui Xian)
Franco O.H. (Oscar)
Franke A. (Andre)
Freedman B.I. (Barry)
Freitag-Wolf S. (Sandra)
Fuchsberger C. (Christian)
Gansevoort R.T. (Ron)
Gerstner L. (Lea)
Ghasemi S. (Sahar)
Giedraitis V. (Vilmantas)
Giri A. (Ayush)
Gorski M. (Mathias)
Grandi A. (Alessandro) de
Grundner-Culemann F. (Franziska)
Gudbjartsson D.F. (Daniel)
Gudnason V. (Vilmundur)
Gögele M. (Martin)
Hamet P. (Pavel)
Harris T.B. (Tamara)
Harst P. (Pim) van der
Heid I.M. (Iris)
Hermle T. (Tobias)
Hicks A.A. (Andrew A.)
Ho K. (Kevin)
Holm H. (Hilma)
Hoppmann A. (Anselm)
Horn K. (Katrin)
Hung A.M. (Adriana M.)
Hwang S.-J. (Shih-Jen)
Ikram M.A. (Arfan)
Ingelsson E. (Erik)
Jaddoe V.W.V. (Vincent)
Jakobsdottir M. (Margret)
Josyula N.S. (Navya Shilpa)
Jung B. (Bettina)
Kao W.H.L. (Wen)
Khor C.C.
Kieß W. (Wieland)
Kirsten H. (Holger)
Koenig W. (Wolfgang)
Kovacs P. (Peter)
Kramer H. (Holly)
Kronenberg F. (Florian)
Krämer B.K. (Bernhard)
Kähönen M. (Mika)
Körner A. (Antje)
Köttgen A. (Anna)
Lange L.A. (Leslie)
Langefeld C.D. (Carl)
Lee J.J.-M. (Jeannette Jen-Mai)
Lehtimäki T. (Terho)
Li M. (Man)
Li Y. (Yong)
Lieb W. (Wolfgang)
Lim S.-C. (Su-Chi)
Lindgren C.M. (Cecilia M.)
Liu J. (Jianjun)
Loeffler M. (Markus)
Lyytikäinen L.-P. (Leo-Pekka)
Mahajan A. (Anubha)
Maranville J.C. (Joseph C.)
Marten J. (Jonathan)
Mascalzoni D. (Deborah)
McMullen B. (Barbara)
Meisinger C. (Christa)
Meitinger T. (Thomas)
Miliku K. (Kozeta)
Mook-Kanamori D.O. (Dennis O.)
Morris A.P. (Andrew)
Most P.J. (Peter) van der
Mutsert R. (Reneé) de
Mychaleckyj J.C. (Josyf)
Müller-Nurasyid M. (Martina)
Nauck M. (Matthias)
Nikus K. (Kjell)
Ning B. (Boting)
Noce D. (Damia)
Noordam R. (Raymond)
Nutile T. (Teresa)
Olafsson I. (Isleifur)
Palmer N.D. (Nicholette)
Parsa A. (Afshin)
Pendergrass S.A. (Sarah)
Penninx B.W.J.H.
Peters A. (Annette)
Podgornaia A.I. (Anna I.)
Ponte B. (Belen)
Poulain T. (Tanja)
Pramstaller P.P. (Peter Paul)
Prins B.P. (Bram Peter)
Psaty B.M. (Bruce)
Qiu C. (Chengxiang)
Rabelink T. (Ton)
Raffield L.M. (Laura M.)
Reilly D.F. (Dermot F.)
Rettig R. (Rainer)
Rheinberger M. (Myriam)
Rice K.M. (Kenneth)
Rivadeneira F. (Fernando)
Rotter J.I. (Jerome I.)
Runz H. (Heiko)
Ryan K.A. (Kathleen A.)
Sabanayagam C. (Charumathi)
Saum K.-U. (Kai-Uwe)
Scholz M. (Markus)
Schöttker B. (Ben)
Sedaghat S. (Sanaz)
Shaffer C.M. (Christian M.)
Shi Y. (Yuan)
Sieber K.B. (Karsten B.)
Smith A.V. (Albert)
Snieder H. (Harold)
Strauch K. (Konstantin)
Stumvoll M. (Michael)
Sun B.B. (Benjamin B.)
Susztak K. (Katalin)
Sveinbjornsson G. (Gardar)
Szymczak S. (Silke)
Tai E.-S. (E-Shyong)
Tan N.Y.Q. (Nicholas Y Q)
Taylor K.D. (Kent)
Tayo B. (Bamidele)
Teren A. (Andrej)
Teumer A. (Alexander)
Tham Y.-C. (Yih-Chung)
Thiery J. (Joachim)
Thio C.H.L. (Chris H L)
Thomsen H. (Hauke)
Thorsteinsdottir U. (Unnur)
Tin A. (Adrienne)
Tremblay J. (Johanne)
Tönjes A. (Anke)
Uitterlinden A.G. (André)
Verweij N. (Niek)
Vogelezang S.
Völker U. (Uwe)
Waldenberger M. (Melanie)
Wang C. (Chunliang)
Wang L. (Lihua)
Wilson J.F. (James)
Wilson O.D. (Otis D.)
Wong C. (Charlene)
Wong T.-Y. (Tien-Yin)
Wuttke M. (Matthias)
Xu Y. (Yizhe)
Yang Q. (Qiong)
Yasuda M. (Masayuki)
Yu Z. (Zhi)
Zwart J-A. (John-Anker)
Ärnlöv J. (Johan)
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 11/09/2019
Field of study

Increased levels of the urinary albumin-to-creatinine ratio (UACR) are associated with higher risk of kidney disease progression and cardiovascular events, but underlying mechanisms are incompletely understood. Here, we conduct trans-ethnic (n = 564,257) and European-ancestry specific meta-analyses of genome-wide association studies of UACR, including ancestry- and diabetes-specific analyses, and identify 68 UACR-associated loci. Genetic correlation analyses and risk score associations in an independent electronic medical records database (n = 192,868) reveal connections with proteinuria, hyperlipidemia, gout, and hypertension. Fine-mapping and trans-Omics analyses with gene expression in 47 tissues and plasma protein levels implicate genes potentially operating through differential expression in kidney (including TGFB1, MUC1, PRKCI, and OAF), and allow coupling of UACR associations to altered plasma OAF concentrations. Knockdown of OAF and PRKCI orthologs in Drosophila nephrocytes reduces albumin endocytosis. Silencing fly PRKCI further impairs slit diaphragm formation. These results generate a priority list of genes and pathways for translational research to reduce albuminuria

Erasmus University Digital Repository