Place de l'AMP-activated protein kinase dans le preconditionnement ischemique renal.

AMP-activated protein kinase; Ischemic preconditioning; Kidney transplantation; Metformin; Metformine; Préconditionnement ischémique; Transplantation rénale

Abstract :

[en] Kidney transplantation represents the best treatment of end-stage renal disease. In addition to the degree of human leukocyte antigen matching, long-term graft survival is influenced by the quality of the graft before its transplantation. Quality criteria include the level of ischemic damage caused by the transplantation per se. Renal ischemic preconditioning (IP) consists of different approaches to prevent ischemia/reperfusion (I/R) damage induced by the interruption and recovery of renal circulation, as observed during transplantation. Distinct animal models show promising results regarding the efficiency of PCI to preserve kidney structure and function in I/R conditions. Characterizing the cellular cascades involved in I/R led to the identification of putative targets of renal IP, including the adenosine monophosphate-activated protein kinase (AMPK). AMPK is a ubiquitous energy sensor, which has been implicated in the maintenance of epithelial cell polarization under energy deprivation. Among others, the anti-diabetic drug, metformin, is a potent activator of AMPK. Here, we summarize the in vitro and in vivo data about the role of AMPK in renal IP. Defining the pharmacological conditions of IP would help to improve the quality of the renal graft before its transplantation, thereby increasing its long-term survival.

Disciplines :

Urology & nephrology

Author, co-author :

ERPICUM, Pauline

Krzesinski, Jean-Marie ; Université de Liège - ULiège > Département des sciences cliniques > Néphrologie

Jouret, François ; Université de Liège - ULiège > Département des sciences cliniques > Néphrologie

Language :

French

Title :

Place de l'AMP-activated protein kinase dans le preconditionnement ischemique renal.

Alternative titles :

[en] Role of AMP-activated protein kinase in renal ischemic preconditioning.

Publication date :

2014

Journal title :

Néphrologie et Thérapeutique

ISSN :

1769-7255

eISSN :

1872-9177

Publisher :

Elsevier Masson, Netherlands

Peer reviewed :

Peer Reviewed verified by ORBi

Commentary :

Available on ORBi :

since 10 January 2014

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Bibliography

D. Bon, N. Chatauret, S. Giraud, R. Thuillier, F. Favreau, and T. Hauet New strategies to optimize kidney recovery and preservation in transplantation Nat Rev Nephrol 8 2012 339 347
H.R. Bouma, M.E. Ketelaar, B.A. Yard, R.J. Ploeg, and R.H. Henning AMP-activated protein kinase as a target for preconditioning in transplantation medicine Transplantation 90 2010 353 358
C.E. Murry, R.B. Jennings, and K.A. Reimer Preconditioning with ischemia: A delay of lethal cell injury in ischemic myocardium Circulation 74 1986 1124 1136
J.V. Bonventre Kidney ischemic preconditioning Curr Opin Nephrol Hypertens 11 2002 43 48
D.G. Hardie, F.A. Ross, and S.A. Hawley AMPK: A nutrient and energy sensor that maintains energy homeostasis Nat Rev Mol Cell Biol 13 2012 251 262
B. Viollet, Y. Athea, R. Mounier, B. Guigas, E. Zarrinpashneh, and S. Horman et al. AMPK: lessons from transgenic and knockout animals Front Biosci 14 2009 19 44
R.W. Schrier, W. Wang, B. Poole, and A. Mitra Acute renal failure: definitions, diagnosis, pathogenesis, and therapy J Clin Invest 114 2004 5 14
H.R. Bouma, R.J. Ploeg, and T.A. Schuurs Signal transduction pathways involved in brain death-induced renal injury Am J Transplant 9 2009 989
S. Bagnasco, D. Good, R. Balaban, and M. Burg Lactate production in isolated segments of the rat nephron Am J Physiol 248 1985 F522 F526
P.W. Seo-Mayer, G. Thulin, L. Zhang, D.S. Alves, T. Ardito, and M. Kashgarian et al. Preactivation of AMPK by metformin may ameliorate the epithelial cell damage caused by renal ischemia Am J Physiol Renal Physiol 301 2011 F1346 F1357
F. Favreau, S. Giraud, D. Bon, N. Chatauret, R. Thuillier, and T. Hauet Ischemia reperfusion control: the key of kidney graft outcome Med Sci (Paris) 29 2013 183 188
Y. Liu, S. Yan, C. Ji, W. Dai, W. Hu, and W. Zhang et al. Metabolomic changes and protective effect of (L)-carnitine in rat kidney ischemia/reperfusion injury Kidney Blood Press Res 35 2012 373 381
H. Vlassara Advanced glycation in health and disease: role of the modern environment Ann N Y Acad Sci 1043 2005 452 460
C. Li, and R.M. Jackson Reactive species mechanisms of cellular hypoxia-reoxygenation injury Am J Physiol Cell Physiol 282 2002 C227 C241
J.O. Defraigne, J. Pincemail, C. Franssen, M. Meurisse, T. Defechereux, and C. Philippart et al. In vivo free radical production after cross-clamping and reperfusion of the renal artery in the rabbit Cardiovasc Surg 1 1993 343 349
C.T. Chien, P.H. Lee, C.F. Chen, M.C. Ma, M.K. Lai, and S.M. Hsu De novo demonstration and co-localization of free-radical production and apoptosis formation in rat kidney subjected to ischemia/reperfusion J Am Soc Nephrol 12 2001 973 982
J. Pincemail, J.O. Defraigne, C. Franssen, P. Bonnet, G. Deby-Dupont, and J. Pirenne et al. Evidence for free radical formation during human kidney transplantation Free Radic Biol Med 15 1993 343 348
W. Wang, V. Koka, and H.Y. Lan Transforming growth factor-beta and Smad signalling in kidney diseases Nephrology 10 2005 48 56
K.M. Park, A. Chen, and J.V. Bonventre Prevention of kidney ischemia/reperfusion-induced functional injury and JNK, p38, and MAPK kinase activation by remote ischemic pretreatment J Biol Chem 276 2001 11870 11876
J.M. Pitcher, M. Wang, B.M. Tsai, A. Kher, M.W. Turrentine, and J.W. Brown et al. Preconditioning: gender effects J Surg Res 129 2005 202 220
K.M. Park, J.Y. Byun, C. Kramers, J.I. Kim, P.L. Huang, and J.V. Bonventre Inducible nitric-oxide synthase is an important contributor to prolonged protective effects of ischemic preconditioning in the mouse kidney J Biol Chem 278 2003 27256 27266
S. Soullier, N. Gayrard, C. Méjean, I. Swarcz, G. Mourad, and A. Argilés Molecular mechanisms involved in kidney ischemia-reperfusion Nephrol Ther 1 2005 315 321
K.E. Wever, T.P. Menting, M. Rovers, J.A. van der Vliet, G.A. Rongen, and R. Masereeuw et al. Ischemic preconditioning in the animal kidney, a systematic review and meta-analysis PLoS One 7 2012 e32296
N. Tapuria, Y. Kumar, and M.M. Habib Remote ischemic preconditioning: A novel protective method from ischemia reperfusion injury - a review J Surg Res 2 2008 304 330
K.E. Wever, R. Masereeuw, F.A. Wagener, V.G. Verweij, J.G. Peters, and J.C. Pertijs et al. Humoral signalling compounds in remote ischaemic preconditioning of the kidney, a role for the opioid receptor Nephrol Dial Transplant 28 2013 1721 1732
D.J. Hausenloy, and D.M. Yellon The therapeutic potential of ischemic conditioning: an update Nat Rev Cardiol 8 2011 619 629
N.M. Pastor-Soler, and K.R. Hallows AMP-activated protein kinase regulation of kidney tubular transport Curr Opin Nephrol Hypertens 21 2012 523 533
B. Viollet, F. Andreelli, S.B. Jørgensen, C. Perrin, A. Geloen, and D. Flamez et al. The AMP-activated protein kinase alpha2 catalytic subunit controls whole-body insulin sensitivity J Clin Invest 111 2003 91 98
G.A. Gusarova, H.E. Trejo, L.A. Dada, A. Briva, L.C. Welch, and R.B. Hamanaka et al. Hypoxia leads to Na,K-ATPase downregulation via Ca2p release-activated Ca2p channels and AMPK activation Mol Cell Biol 31 2011 3546 3556
C.D. Tan, R.T. Smolenski, M.I. Harhun, H.K. Patel, S.G. Ahmed, and K. Wanisch et al. AMP-activated protein kinase (AMPK)-dependent and -independent pathways regulate hypoxic inhibition of transepithelial Na+ transport across human airway epithelial cells Br J Pharmacol 167 2012 368 382
D.S. Alves, G.A. Farr, P. Seo-Mayer, and M.J. Caplan AS160 associates with the Na+,K+-ATPase and mediates the adenosine monophosphate-stimulated protein kinase-dependent regulation of sodium pump surface expression Mol Biol Cell 21 2010 4400 4408
M.J. Caplan, P. Seo-Mayer, and L. Zhang Epithelial junctions and polarity: complexes and kinases Curr Opin Nephrol Hypertens 17 2008 506 512
L. Zhang, J. Li, L.H. Young, and M.J. Caplan AMP-activated protein kinase regulates the assembly of epithelial tight junctions Proc Natl Acad Sci U S A 103 2006 17272 17277
L. Zhang, F. Jouret, J. Rinehart, J. Sfakianos, I. Mellman, and R.P. Lifton et al. AMP-activated protein kinase (AMPK) activation and glycogen synthase kinase-3β (GSK-3β) inhibition induce Ca2+-independent deposition of tight junction components at the plasma membrane J Biol Chem 286 2011 16879 16890
R.R. Russell 3rd., J. Li, D. Coven, M. Pypaert, C. Zechner, and M. Palmeri et al. AMP-activated protein kinase mediates ischemic glucose uptake and prevents postischemic cardiac dysfunction, apoptosis, and injury J Clin Invest 114 2004 495 503
A.S. Kim, E.J. Miller, T.M. Wright, J. Li, D. Qi, and K. Atsina et al. A small molecule AMPK activator protects the heart against ischemia-reperfusion injury J Mol Cell Cardiol 51 2011 24 32
X. Zhao, J. Zmijewski, E. Lorne, G. Liu, Y. Park, and Y. Tsuruta et al. Activation of AMPK attenuates neutrophil proinflammatory activity and decreases the severity of acute lung injury Am J Physiol Lung Cell Mol Physiol 295 2008 L497 L504
P.F. Mount, R.E. Hill, S.A. Fraser, V. Levidiotis, F. Katsis, and B.E. Kemp et al. Acute renal ischemia rapidly activates the energy sensor AMPK but does not increase phosphorylation of eNOS-Ser1177 Am J Physiol Renal Physiol 289 2005 F1103 F1115
J. Lempiäinen, P. Finckenberg, J. Levijoki, and E. Mervaala AMPK activator AICAR ameliorates ischaemia reperfusion injury in the rat kidney Br J Pharmacol 166 2012 1905 1915
P.F. Mount, K. Gleich, S. Tam, S.A. Fraser, S.W. Choy, and K.M. Dwyer et al. The outcome of renal ischemia-reperfusion injury is unchanged in AMPK-β1 deficient mice PLoS One 7 2012 e29887
A. Lin, C. Sekhon, B. Sekhon, A. Smith, K. Chavin, and J. Orak et al. Attenuation of ischemia-reperfusion injury in a canine model of autologous renal transplantation Transplantation 78 2004 654 659
A. Peairs, A. Radjavi, S. Davis, L. Li, A. Ahmed, and S. Giri et al. Activation of AMPK inhibits inflammation in MRL/lpr mouse mesangial cells Clin Exp Immunol 156 2009 542 551
M. Riordan, R. Sreedharan, S. Wang, G. Thulin, A. Mann, and M. Stankewich et al. HSP70 binding modulates detachment of Na-K-ATPase following energy deprivation in renal epithelial cells Am J Physiol Renal Physiol 288 2005 F1236 F1242