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<\/a><\/p>\n Microglia-Derived\u00a0NLRP3<\/strong>\u00a0Activation Mediates the Pressor Effect of Prorenin in the Rostral Ventrolateral Medulla of Stress-Induced Hypertensive Rats Apelin\/APJ system: an emerging therapeutic target for respiratory diseases. Contribution of TGF-Beta-Mediated\u00a0NLRP3<\/strong>-HMGB1 Activation to Tubulointerstitial Fibrosis in Rat With Angiotensin II-Induced Chronic Kidney Disease. Neurological manifestations of autoinflammatory diseases in Chinese adult patients. Sulforaphane prevents right ventricular injury and reduces pulmonary vascular remodeling in pulmonary arterial\u00a0hypertension<\/strong>. [Mechanism of microglia promoting retinal ganglion cell death\u00a0in vitro<\/em>]. SOD2 ameliorates pulmonary\u00a0hypertension<\/strong>\u00a0in a murine model of sleep apnea via suppressing expression of\u00a0NLRP3<\/strong>\u00a0in CD11b+<\/sub>\u00a0cells. Apolipoprotein C3 induces inflammation and organ damage by alternative inflammasome activation. NLRP3<\/strong>\u00a0Inflammasome and Mineralocorticoid Receptors Are Associated with Vascular Dysfunction in Type 2 Diabetes Mellitus. A new strategy for the treatment of atherothrombosis – inhibition of inflammation. Elevated Uric Acid Levels Promote Vascular Smooth Muscle Cells (VSMC) Proliferation via an Nod-Like Receptor Protein 3 (NLRP3<\/strong>)-Inflammasome-Dependent Mechanism. The Role of Inflammasome-Dependent and Inflammasome-Independent\u00a0NLRP3<\/strong>\u00a0in the Kidney. Inhibition of IL-1\u03b2 by Aliskiren Improved Renal AQP2 Expression and Urinary Concentration Defect in Ureteral Obstruction and Release. Curcumin attenuates migration of vascular smooth muscle cells via inhibiting NF\u03baB-mediated\u00a0NLRP3<\/strong>expression in spontaneously hypertensive rats. Activation of P2X7<\/sub>R-\u00a0NLRP3<\/strong>\u00a0pathway in Retinal microglia contribute to Retinal Ganglion Cells death in chronic ocular\u00a0hypertension<\/strong>\u00a0(COH). Activation of the\u00a0NLRP3<\/strong>\u00a0and AIM2 inflammasomes in a mouse model of\u00a0Schistosoma mansoni<\/em>infection. Pathogenic role of innate immunity in a model of chronic NO inhibition associated with salt overload. Ginsenoside Rg1 ameliorates cardiac oxidative stress and inflammation in streptozotocin-induced diabetic rats. Osmotic induction of cyclooxygenase-2 in RPE cells: Stimulation of inflammasome activation. Role of Pyroptosis in Cardiovascular Diseases and its Therapeutic Implications. Nebivolol improves obesity-induced vascular remodelling by suppressing\u00a0NLRP3<\/strong>\u00a0activation. Nebivolol Improves Obesity-Induced Vascular Remodeling by Suppressing\u00a0NLRP3<\/strong>\u00a0Activation. Hydrogen sulfide improves endothelial dysfunction by inhibiting the vicious cycle of\u00a0NLRP3<\/strong>inflammasome and oxidative stress in spontaneously hypertensive rats. Chrysanthemum indicum extract inhibits\u00a0NLRP3<\/strong>\u00a0and AIM2 inflammasome activation via regulating ASC phosphorylation. Inflammasome Activation Induces Pyroptosis in the Retina Exposed to Ocular\u00a0Hypertension<\/strong>\u00a0Injury. IL-1\u03b2 Plays an Important Role in Pressure Overload-Induced Atrial Fibrillation in Mice. Obesity and Cardioprotection. NLRP3<\/strong>\u00a0Inflammasome Is Involved in Calcium-Sensing Receptor-Induced Aortic Remodeling in SHRs. Activation of Nicotinic Acetylcholine \u03b17 Receptor Attenuates Progression of Monocrotaline-Induced Pulmonary\u00a0Hypertension<\/strong>\u00a0in Rats by Downregulating the\u00a0NLRP3<\/strong>\u00a0Inflammasome. Catheter-based renal sympathetic denervation induces acute renal inflammation through activation of caspase-1 and\u00a0NLRP3<\/strong>\u00a0inflammasome. circARF3 Alleviates Mitophagy-Mediated Inflammation by Targeting miR-103\/TRAF3 in Mouse Adipose Tissue. The renal immune-inflammatory component of arterial\u00a0hypertension<\/strong>: emerging therapeutic strategies. Cathepsin B-Mediated\u00a0NLRP3<\/strong>\u00a0Inflammasome Formation and Activation in Angiotensin II -Induced Hypertensive Mice: Role of Macrophage Digestion Dysfunction. Pharmacological inhibition of the\u00a0NLRP3<\/strong>\u00a0inflammasome reduces blood pressure, renal damage, and dysfunction in salt-sensitive\u00a0hypertension<\/strong>. Salt-Responsive Metabolite, \u03b2-Hydroxybutyrate, Attenuates\u00a0Hypertension<\/strong>. The eNOS-NO pathway attenuates kidney dysfunction via suppression of inflammasome activation in aldosterone-induced renal injury model mice. Role of NLRP-3 Inflammasome in\u00a0Hypertension<\/strong>: A Potential Therapeutic Target. Osmotic and hypoxic induction of the complement factor C9 in cultured human retinal pigment epithelial cells: Regulation of VEGF and\u00a0NLRP3<\/strong>\u00a0expression. New mitochondrial DNA synthesis enables\u00a0NLRP3<\/strong>\u00a0inflammasome activation. Rehydration with fructose worsens dehydration-induced renal damage. Angiotensin II Stimulates the\u00a0NLRP3<\/strong>\u00a0Inflammasome to Induce Podocyte Injury and Mitochondrial Dysfunction. Pathogenesis of NASH: How Metabolic Complications of Overnutrition Favour Lipotoxicity and Pro-Inflammatory Fatty Liver Disease. Anti-Inflammatory Action of Sitagliptin and Linagliptin in Doxorubicin Nephropathy. NLRP3<\/strong>: A Novel Mediator in Cardiovascular Disease. Combination exposure of melamine and cyanuric acid is associated with polyuria and activation of\u00a0NLRP3<\/strong>\u00a0inflammasome in rats. Central blockade of\u00a0NLRP3<\/strong>\u00a0reduces blood pressure via regulating inflammation microenvironment and neurohormonal excitation in salt-induced prehypertensive rats. Pterostilbene Decreases Cardiac Oxidative Stress and Inflammation via Activation of AMPK\/Nrf2\/HO-1 Pathway in Fructose-Fed Diabetic Rats. Indoxyl Sulfate Promotes Macrophage IL-1\u03b2 Production by Activating Aryl Hydrocarbon Receptor\/NF-\u03ba\/MAPK Cascades, but the\u00a0NLRP3<\/strong>\u00a0inflammasome Was Not Activated. RIP3-deficience attenuates potassium oxonate-induced hyperuricemia and kidney injury. NLRP3<\/strong>\u00a0inflammasome inhibition ameliorates tubulointerstitial injury in the remnant kidney model. Role of Brain Neuroinflammatory Factors on\u00a0Hypertension<\/strong>\u00a0in the Spontaneously Hypertensive Rat. The\u00a0NLRP3<\/strong>\u00a0rs10754558 polymorphism is a risk factor for preeclampsia in a Chinese Han population. Fibronectin type III domain containing 5 attenuates\u00a0NLRP3<\/strong>\u00a0inflammasome activation and phenotypic transformation of adventitial fibroblasts in spontaneously hypertensive rats. Sirtuin 3-induced macrophage autophagy in regulating\u00a0NLRP3<\/strong>\u00a0inflammasome activation. NLRP3<\/strong>\u00a0Gene Deletion Attenuates Angiotensin II-Induced Phenotypic Transformation of Vascular Smooth Muscle Cells and Vascular Remodeling. Lithium + Colchicine: A Potential Strategy to Reduce Pro-inflammatory Effects of Lithium Treatment. Role of\u00a0NLRP3<\/strong>\u00a0inflammasome in the pathogenesis of cardiovascular diseases. BCL6 attenuates renal inflammation via negative regulation of\u00a0NLRP3<\/strong>\u00a0transcription. The SGK1 inhibitor EMD638683, prevents Angiotensin II-induced cardiac inflammation and fibrosis by blocking\u00a0NLRP3<\/strong>\u00a0inflammasome activation. NLRP3<\/strong>\u00a0inflammasome activation contributes to VSMC phenotypic transformation and proliferation in\u00a0hypertension<\/strong>. Infiltration of M1, but not M2, macrophages is impaired after unilateral ureter obstruction in Nrf2-deficient mice. T-lymphocyte Kv<\/sub>1.3 channel activation triggers the\u00a0NLRP3<\/strong>\u00a0inflammasome signaling pathway in hypertensive patients. Pressor response to angiotensin II is enhanced in aged mice and associated with inflammation, vasoconstriction and oxidative stress. Role of P2X7<\/sub>R in the development and progression of pulmonary\u00a0hypertension<\/strong>. Expression of TLR2, NOD1, and NOD2 and the\u00a0NLRP3<\/strong>\u00a0Inflammasome in Renal Tubular Epithelial Cells of Male versus Female Mice. Innate And Adaptive Immunity are Progressively Activated in Parallel with Renal Injury in the 5\/6 Renal Ablation Model. Metabolic injury-induced\u00a0NLRP3<\/strong>\u00a0inflammasome activation dampens phospholipid degradation. Endothelial Dysfunction in Obesity. Mineralocorticoid receptor associates with pro-inflammatory bias in the hippocampus of spontaneously hypertensive rats. Metaflammation: Tissue-Specific Alterations of the\u00a0NLRP3<\/strong>\u00a0Inflammasome Platform in Metabolic Syndrome. Triptolide attenuates pressure overload-induced myocardial remodeling in mice via the inhibition of\u00a0NLRP3<\/strong>\u00a0inflammasome expression. Are the innate and adaptive immune systems setting\u00a0hypertension<\/strong>\u00a0on fire? NLRP3<\/strong>\u00a0inflammasome: A therapeutic option for kidney disease? Intake of dietary salt and drinking water: Implications for the development of age-related macular degeneration. Early PQQ supplementation has persistent long-term protective effects on developmental programming of hepatic lipotoxicity and inflammation in obese mice. Suppression of\u00a0NLRP3<\/strong>\u00a0Inflammasome Activation Ameliorates Chronic Kidney Disease-Induced Cardiac Fibrosis and Diastolic Dysfunction. P2Y1 Receptor Signaling Contributes to High Salt-Induced Priming of the\u00a0NLRP3<\/strong>\u00a0Inflammasome in Retinal Pigment Epithelial Cells. Deficiency of mPGES-1 exacerbates renal fibrosis and inflammation in mice with unilateral ureteral obstruction. Stabilization of endogenous Nrf2 by minocycline protects against\u00a0Nlrp3<\/strong>-inflammasome induced diabetic nephropathy. Enhancement of endothelial permeability by free fatty acid through lysosomal cathepsin B-mediated\u00a0Nlrp3<\/strong>\u00a0inflammasome activation. Nebivolol Ameliorates Cardiac\u00a0NLRP3<\/strong>\u00a0Inflammasome Activation in a Juvenile-Adolescent Animal Model of Diet-Induced Obesity. Inflammasomes link vascular disease with neuroinflammation and brain disorders. NALP3-Inflammasome-Related Gene Polymorphisms in Patients with Prehypertension and Coronary Atherosclerosis. Muckle-Wells Syndrome: A Case Report with an\u00a0NLRP3<\/strong>\u00a0T348M Mutation. Oxalate, inflammasome, and progression of kidney disease. NLRP3<\/strong>\u00a0deletion protects against renal fibrosis and attenuates mitochondrial abnormality in mouse with 5\/6 nephrectomy. Targeting HO-1 by Epigallocatechin-3-Gallate Reduces Contrast-Induced Renal Injury via Anti-Oxidative Stress and Anti-Inflammation Pathways. Thalidomide Improves the Intestinal Mucosal Injury and Suppresses Mesenteric Angiogenesis and Vasodilatation by Down-Regulating Inflammasomes-Related Cascades in Cirrhotic Rats. Cytotoxicity of crystals involves RIPK3-MLKL-mediated necroptosis.
<\/a>Hu L, Zhang S, Ooi K, Wu X, Wu J, Cai J, Sun Y, Wang J, Zhu D, Chen F, Xia C.
Neurosci Bull. 2020 Apr 3. doi: 10.1007\/s12264-020-00484-9. [Epub ahead of print]<\/p>\n
<\/a>Yan J, Wang A, Cao J, Chen L.
Cell Mol Life Sci. 2020 Mar 3. doi: 10.1007\/s00018-020-03461-7. [Epub ahead of print] Review.<\/p>\n
<\/a>Zhang K, Fan C, Cai D, Zhang Y, Zuo R, Zhu L, Cao Y, Zhang J, Liu C, Chen Y, Liang H.
Front Cell Dev Biol. 2020 Feb 5;8:1. doi: 10.3389\/fcell.2020.00001. eCollection 2020.<\/p>\n
<\/a>Qin W, Wu D, Luo Y, Zhao M, Wang Y, Shi X, Zhou L, Yu W, Sun Y, Wang R, Zhang W, Liu M, Shen M.
Semin Arthritis Rheum. 2020 Feb 3. pii: S0049-0172(20)30012-3. doi: 10.1016\/j.semarthrit.2019.12.003. [Epub ahead of print]<\/p>\n
<\/a>Kang Y, Zhang G, Huang EC, Huang J, Cai J, Cai L, Wang S, Keller BB.
Am J Physiol Heart Circ Physiol. 2020 Apr 1;318(4):H853-H866. doi: 10.1152\/ajpheart.00321.2019. Epub 2020 Feb 28.<\/p>\n
<\/a>Li F, Jiang N, Zhu YT, Su WR, Zhuo YH.
Zhonghua Yan Ke Za Zhi. 2020 Jan 11;56(1):32-40. doi: 10.3760\/cma.j.issn.0412-4081.2020.01.010. Chinese.\u00a0<\/p>\n
<\/a>Fu C, Hao S, Liu Z, Xie L, Wu X, Wu X, Li S.
Respir Res. 2020 Jan 8;21(1):9. doi: 10.1186\/s12931-019-1270-0.<\/p>\n
<\/a>Zewinger S, Reiser J, Jankowski V, Alansary D, Hahm E, Triem S, Klug M, Schunk SJ, Schmit D, Kramann R, K\u00f6rbel C, Ampofo E, Laschke MW, Selejan SR, Paschen A, Herter T, Schuster S, Silbernagel G, Sester M, Sester U, A\u00dfmann G, Bals R, Kostner G, Jahnen-Dechent W, Menger MD, Rohrer L, M\u00e4rz W, B\u00f6hm M, Jankowski J, Kopf M, Latz E, Niemeyer BA, Fliser D, Laufs U, Speer T.
Nat Immunol. 2020 Jan;21(1):30-41. doi: 10.1038\/s41590-019-0548-1. Epub 2019 Dec 9.<\/p>\n
<\/a>Ferreira NS, Bruder-Nascimento T, Pereira CA, Zanotto CZ, Prado DS, Silva JF, Rassi DM, Foss-Freitas MC, Alves-Filho JC, Carlos D, Tostes RC.
Cells. 2019 Dec 8;8(12). pii: E1595. doi: 10.3390\/cells8121595.<\/p>\n
<\/a>Sl\u00edva J, Charalambous C, Bultas J, Karetov\u00e1 D.
Physiol Res. 2019 Nov 22;68(Suppl 1):S17-S30.<\/p>\n
<\/a>Li H, Qian F, Liu H, Zhang Z.
Med Sci Monit. 2019 Nov 10;25:8457-8464. doi: 10.12659\/MSM.916667.<\/p>\n
<\/a>Kim YG, Kim SM, Kim KP, Lee SH, Moon JY.
Cells. 2019 Nov 5;8(11). pii: E1389. doi: 10.3390\/cells8111389. Review.<\/p>\n
<\/a>Hu S, Xie H, Luo R, Feng P, Liu Q, Han M, Kong Y, Zou X, Wang W, Li C.
Front Physiol. 2019 Sep 13;10:1157. doi: 10.3389\/fphys.2019.01157. eCollection 2019.<\/p>\n
<\/a>Han Y, Sun HJ, Tong Y, Chen YZ, Ye C, Qiu Y, Zhang F, Chen AD, Qi XH, Chen Q, Li YH, Kang YM, Zhu GQ.
J Nutr Biochem. 2019 Oct;72:108212. doi: 10.1016\/j.jnutbio.2019.07.003. Epub 2019 Jul 8.<\/p>\n
<\/a>Zhang Y, Xu Y, Sun Q, Xue S, Guan H, Ji M.
Exp Eye Res. 2019 Nov;188:107771. doi: 10.1016\/j.exer.2019.107771. Epub 2019 Aug 22.<\/p>\n
<\/a>Chen TTW, Cheng PC, Chang KC, Cao JP, Feng JL, Chen CC, Lam HYP, Peng SY.
J Helminthol. 2019 Aug 15;94:e72. doi: 10.1017\/S0022149X19000622.<\/p>\n
<\/a>Zambom FFF, Oliveira KC, Foresto-Neto O, Faustino VD, \u00c1vila VF, Albino AH, Arias SCA, Volpini RA, Malheiros DMAC, Saraiva Camara NO, Zatz R, Fujihara CK.
Am J Physiol Renal Physiol. 2019 Oct 1;317(4):F1058-F1067. doi: 10.1152\/ajprenal.00251.2019. Epub 2019 Aug 14.<\/p>\n
<\/a>Qin Q, Lin N, Huang H, Zhang X, Cao X, Wang Y, Li P.
Diabetes Metab Syndr Obes. 2019 Jul 10;12:1091-1103. doi: 10.2147\/DMSO.S208989. eCollection 2019.<\/p>\n
<\/a>Messerschmidt L, Fischer S, Wiedemann P, Bringmann A, Hollborn M.
Mol Vis. 2019 Jun 30;25:329-344. eCollection 2019.<\/p>\n
<\/a>Zeng C, Wang R, Tan H.
Int J Biol Sci. 2019 May 20;15(7):1345-1357. doi: 10.7150\/ijbs.33568. eCollection 2019. Review.<\/p>\n
<\/a>Gao J, Xie Q, Wei T, Huang C, Zhou W, Shen W.
J Cardiovasc Pharmacol. 2019 Mar 14. doi: 10.1097\/FJC.0000000000000667. [Epub ahead of print]<\/p>\n
<\/a>Gao J, Xie Q, Wei T, Huang C, Zhou W, Shen W.
J Cardiovasc Pharmacol. 2019 May;73(5):326-333. doi: 10.1097\/FJC.0000000000000667.<\/p>\n
<\/a>Li J, Teng X, Jin S, Dong J, Guo Q, Tian D, Wu Y.
J Hypertens. 2019 Aug;37(8):1633-1643. doi: 10.1097\/HJH.0000000000002101.<\/p>\n
<\/a>Yu SH, Sun X, Kim MK, Akther M, Han JH, Kim TY, Jiang J, Kang TB, Lee KH.
J Ethnopharmacol. 2019 Jul 15;239:111917. doi: 10.1016\/j.jep.2019.111917. Epub 2019 Apr 25.<\/p>\n
<\/a>Pronin A, Pham D, An W, Dvoriantchikova G, Reshetnikova G, Qiao J, Kozhekbaeva Z, Reiser AE, Slepak VZ, Shestopalov VI.
Front Mol Neurosci. 2019 Mar 13;12:36. doi: 10.3389\/fnmol.2019.00036. eCollection 2019.<\/p>\n
<\/a>Matsushita N, Ishida N, Ibi M, Saito M, Takahashi M, Taniguchi S, Iwakura Y, Morino Y, Taira E, Sawa Y, Hirose M.
Biol Pharm Bull. 2019;42(4):543-546. doi: 10.1248\/bpb.b18-00363.<\/p>\n
<\/a>Femmin\u00f2 S, Pagliaro P, Penna C.
Curr Med Chem. 2020;27(2):230-239. doi: 10.2174\/0929867326666190325094453.<\/p>\n
<\/a>Zhang X, Hong S, Qi S, Liu W, Zhang X, Shi Z, Chen W, Zhao M, Yin X.
Mediators Inflamm. 2019 Feb 13;2019:6847087. doi: 10.1155\/2019\/6847087. eCollection 2019.<\/p>\n
<\/a>Deng Y, Guo SL, Wei B, Gao XC, Zhou YC, Li JQ.
Front Pharmacol. 2019 Feb 26;10:128. doi: 10.3389\/fphar.2019.00128. eCollection 2019.<\/p>\n
<\/a>Lee DW, Kim JS, Kim IY, Kim HS, Kim JY, Rhee H, Seong EY, Song SH, Lee SB, Edelstein CL, Kwak IS.
Anatol J Cardiol. 2019 Mar;21(3):134-141. doi: 10.14744\/AnatolJCardiol.2018.62257.<\/p>\n
<\/a>Zhang Z, Zhang T, Feng R, Huang H, Xia T, Sun C.
Mol Ther Nucleic Acids. 2019 Mar 1;14:192-203. doi: 10.1016\/j.omtn.2018.11.014. Epub 2018 Dec 1.<\/p>\n
<\/a>Garcia-Fernandez N, Beaumont J, Moreno MU, San Jos\u00e9 G, Gonz\u00e1lez A, D\u00edez J.
Cardiovasc Res. 2019 Mar 15;115(4):696-698. doi: 10.1093\/cvr\/cvy280. No abstract available.\u00a0<\/p>\n
<\/a>Lian D, Lai J, Wu Y, Wang L, Chen Y, Zhang Y, Boini KM, Huang Y, Chen Y.
Cell Physiol Biochem. 2018;50(4):1585-1600. doi: 10.1159\/000494656. Epub 2018 Oct 25.<\/p>\n
<\/a>Krishnan SM, Ling YH, Huuskes BM, Ferens DM, Saini N, Chan CT, Diep H, Kett MM, Samuel CS, Kemp-Harper BK, Robertson AAB, Cooper MA, Peter K, Latz E, Mansell
AS, Sobey CG, Drummond GR, Vinh A.
Cardiovasc Res. 2019 Mar 15;115(4):776-787. doi: 10.1093\/cvr\/cvy252.<\/p>\n
<\/a>Chakraborty S, Galla S, Cheng X, Yeo JY, Mell B, Singh V, Yeoh B, Saha P, Mathew AV, Vijay-Kumar M, Joe B.
Cell Rep. 2018 Oct 16;25(3):677-689.e4. doi: 10.1016\/j.celrep.2018.09.058.<\/p>\n
<\/a>Sogawa Y, Nagasu H, Itano S, Kidokoro K, Taniguchi S, Takahashi M, Kadoya H, Satoh M, Sasaki T, Kashihara N.
PLoS One. 2018 Oct 3;13(10):e0203823. doi: 10.1371\/journal.pone.0203823. eCollection 2018.<\/p>\n
<\/a>Pasqua T, Pagliaro P, Rocca C, Angelone T, Penna C.
Curr Pharm Biotechnol. 2018;19(9):708-714. doi: 10.2174\/1389201019666180808162011. Review.<\/p>\n
<\/a>Hollborn M, Ackmann C, Kuhrt H, Doktor F, Kohen L, Wiedemann P, Bringmann A.
Mol Vis. 2018 Jul 28;24:518-535. eCollection 2018.<\/p>\n
<\/a>Zhong Z, Liang S, Sanchez-Lopez E, He F, Shalapour S, Lin XJ, Wong J, Ding S, Seki E, Schnabl B, Hevener AL, Greenberg HB, Kisseleva T, Karin M.
Nature. 2018 Aug;560(7717):198-203. doi: 10.1038\/s41586-018-0372-z. Epub 2018 Jul 25.<\/p>\n
<\/a>Milagres T, Garc\u00eda-Arroyo FE, Lanaspa MA, Garcia G, Ishimoto T, Andres-Hernando A, Kuwabara M, Jensen T, Sato Y, Glaser J, S\u00e1nchez-Lozada LG, Johnson RJ, Roncal
Jimenez C.
BMC Nephrol. 2018 Jul 13;19(1):180. doi: 10.1186\/s12882-018-0963-9.<\/p>\n
<\/a>Zhao M, Bai M, Ding G, Zhang Y, Huang S, Jia Z, Zhang A.
Kidney Dis (Basel). 2018 Jun;4(2):83-94. doi: 10.1159\/000488242. Epub 2018 May 22.<\/p>\n
<\/a>Farrell GC, Haczeyni F, Chitturi S.
Adv Exp Med Biol. 2018;1061:19-44. doi: 10.1007\/978-981-10-8684-7_3. Review.<\/p>\n
<\/a>Jo CH, Kim S, Park JS, Kim GH.
Kidney Blood Press Res. 2018;43(3):987-999. doi: 10.1159\/000490688. Epub 2018 Jun 15.<\/p>\n
<\/a>Zhou W, Chen C, Chen Z, Liu L, Jiang J, Wu Z, Zhao M, Chen Y.
J Immunol Res. 2018 Apr 8;2018:5702103. doi: 10.1155\/2018\/5702103. eCollection 2018. Review.<\/p>\n
<\/a>Wang F, Liu Q, Jin L, Hu S, Luo R, Han M, Zhai Y, Wang W, Li C.
Am J Physiol Renal Physiol. 2018 Aug 1;315(2):F199-F210. doi: 10.1152\/ajprenal.00609.2017. Epub 2018 Mar 28.<\/p>\n
<\/a>Wang ML, Kang YM, Li XG, Su Q, Li HB, Liu KL, Fu LY, Saahene RO, Li Y, Tan H, Yu XJ.
J Neuroinflammation. 2018 Mar 24;15(1):95. doi: 10.1186\/s12974-018-1131-7.<\/p>\n
<\/a>Kosuru R, Kandula V, Rai U, Prakash S, Xia Z, Singh S.
Cardiovasc Drugs Ther. 2018 Apr;32(2):147-163. doi: 10.1007\/s10557-018-6780-3.<\/p>\n
<\/a>Wakamatsu T, Yamamoto S, Ito T, Sato Y, Matsuo K, Takahashi Y, Kaneko Y, Goto S, Kazama JJ, Gejyo F, Narita I.
Toxins (Basel). 2018 Mar 15;10(3). pii: E124. doi: 10.3390\/toxins10030124.<\/p>\n
<\/a>Wang K, Hu L, Chen JK.
Biomed Pharmacother. 2018 May;101:617-626. doi: 10.1016\/j.biopha.2018.02.010. Epub 2018 Mar 22.<\/p>\n
<\/a>Foresto-Neto O, \u00c1vila VF, Arias SCA, Zambom FFF, Rempel LCT, Faustino VD, Machado FG, Malheiros DMAC, Abensur H, Camara NOS, Zatz R, Fujihara CK.
Lab Invest. 2018 Jun;98(6):773-782. doi: 10.1038\/s41374-018-0029-4. Epub 2018 Mar 6.<\/p>\n
<\/a>Avolio E, Pasqua T, Di Vito A, Fazzari G, Cardillo G, Al\u00f2 R, Cerra MC, Barni T, Angelone T, Canonaco M.
Neuroscience. 2018 Apr 1;375:158-168. doi: 10.1016\/j.neuroscience.2018.01.067. Epub 2018 Feb 9.<\/p>\n
<\/a>Xu L, Li S, Liu Z, Jiang S, Wang J, Guo M, Zhao X, Song W, Liu S.
J Matern Fetal Neonatal Med. 2019 Jun;32(11):1792-1799. doi: 10.1080\/14767058.2017.1418313. Epub 2018 Jan 31.<\/p>\n
<\/a>Ling L, Chen D, Tong Y, Zang YH, Ren XS, Zhou H, Qi XH, Chen Q, Li YH, Kang YM, Zhu GQ.
J Hypertens. 2018 May;36(5):1104-1114. doi: 10.1097\/HJH.0000000000001654.<\/p>\n
<\/a>Liu P, Huang G, Wei T, Gao J, Huang C, Sun M, Zhu L, Shen W.
Biochim Biophys Acta Mol Basis Dis. 2018 Mar;1864(3):764-777. doi: 10.1016\/j.bbadis.2017.12.027. Epub 2017 Dec 20.<\/p>\n
<\/a>Ren XS, Tong Y, Ling L, Chen D, Sun HJ, Zhou H, Qi XH, Chen Q, Li YH, Kang YM, Zhu GQ.
Cell Physiol Biochem. 2017;44(6):2269-2280. doi: 10.1159\/000486061. Epub 2017 Dec 14.<\/p>\n
<\/a>Mooney JJ, Brady RO.
J Clin Psychopharmacol. 2018 Feb;38(1):80-85. doi: 10.1097\/JCP.0000000000000830. Review.<\/p>\n
<\/a>Liu D, Zeng X, Li X, Mehta JL, Wang X.
Basic Res Cardiol. 2017 Dec 9;113(1):5. doi: 10.1007\/s00395-017-0663-9. Print 2018 Jan 8. Review.<\/p>\n
<\/a>Cell Death Dis. 2017 Oct 26;8(10):e3156. doi: 10.1038\/cddis.2017.567.Chen D, Xiong XQ, Zang YH, Tong Y, Zhou B, Chen Q, Li YH, Gao XY, Kang YM, Zhu GQ.<\/p>\n
<\/a>Gan W, Ren J, Li T, Lv S, Li C, Liu Z, Yang M.
Biochim Biophys Acta Mol Basis Dis. 2018 Jan;1864(1):1-10. doi: 10.1016\/j.bbadis.2017.10.001. Epub 2017 Oct 3.<\/p>\n
<\/a>Sun HJ, Ren XS, Xiong XQ, Chen YZ, Zhao MX, Wang JJ, Zhou YB, Han Y, Chen Q, Li YH, Kang YM, Zhu GQ.
Cell Death Dis. 2017 Oct 5;8(10):e3074. doi: 10.1038\/cddis.2017.470.<\/p>\n
<\/a>Sogawa Y, Nagasu H, Iwase S, Ihoriya C, Itano S, Uchida A, Kidokoro K, Taniguchi S, Takahashi M, Satoh M, Sasaki T, Suzuki T, Yamamoto M, Horng T, Kashihara N.
Sci Rep. 2017 Aug 18;7(1):8801. doi: 10.1038\/s41598-017-08054-2.<\/p>\n
<\/a>Zhu J, Yang Y, Hu SG, Zhang QB, Yu J, Zhang YM.
Exp Ther Med. 2017 Jul;14(1):147-154. doi: 10.3892\/etm.2017.4490. Epub 2017 May 22.<\/p>\n
<\/a>Dinh QN, Drummond GR, Kemp-Harper BK, Diep H, De Silva TM, Kim HA, Vinh A, Robertson AAB, Cooper MA, Mansell A, Chrissobolis S, Sobey CG.
Aging (Albany NY). 2017 Jun 28;9(6):1595-1606. doi: 10.18632\/aging.101255.<\/p>\n
<\/a>Yin J, You S, Liu H, Chen L, Zhang C, Hu H, Xue M, Cheng W, Wang Y, Li X, Shi Y, Li N, Yan S, Li X.
Respir Res. 2017 Jun 24;18(1):127. doi: 10.1186\/s12931-017-0603-0.<\/p>\n
<\/a>DeWolf SE, Shigeoka AA, Scheinok A, Kasimsetty SG, Welch AK, McKay DB.
Nephron. 2017;137(1):68-76. doi: 10.1159\/000456016. Epub 2017 Jun 15.<\/p>\n
<\/a>Fanelli C, Arias SCA, Machado FG, Okuma JK, Malheiros DMAC, Azevedo H, Moreira-Filho CA, Camara NOS, Fujihara CK, Zatz R.
Sci Rep. 2017 Jun 9;7(1):3192. doi: 10.1038\/s41598-017-02915-6.<\/p>\n
<\/a>Rampanelli E, Ors\u00f3 E, Ochodnicky P, Liebisch G, Bakker PJ, Claessen N, Butter LM, van den Bergh Weerman MA, Florquin S, Schmitz G, Leemans JC.
Sci Rep. 2017 Jun 6;7(1):2861. doi: 10.1038\/s41598-017-01994-9.<\/p>\n
<\/a>Engin A.
Adv Exp Med Biol. 2017;960:345-379. doi: 10.1007\/978-3-319-48382-5_15. Review.<\/p>\n
<\/a>Brocca ME, Pietranera L, Meyer M, Lima A, Roig P, de Kloet ER, De Nicola AF.
J Neuroendocrinol. 2017 Jul;29(7). doi: 10.1111\/jne.12489.<\/p>\n
<\/a>Mastrocola R, Aragno M, Alloatti G, Collino M, Penna C, Pagliaro P.
Curr Med Chem. 2018;25(11):1294-1310. doi: 10.2174\/0929867324666170407123522. Review.<\/p>\n
<\/a>Li R, Lu K, Wang Y, Chen M, Zhang F, Shen H, Yao D, Gong K, Zhang Z.
Biochem Biophys Res Commun. 2017 Mar 25;485(1):69-75. doi: 10.1016\/j.bbrc.2017.02.021. Epub 2017 Feb 12.<\/p>\n
<\/a>Bomfim GF, Rodrigues FL, Carneiro FS.
Pharmacol Res. 2017 Mar;117:377-393. doi: 10.1016\/j.phrs.2017.01.010. Epub 2017 Jan 16. Review.<\/p>\n
<\/a>Buelvas-Jim\u00e9nez N, Su\u00e1rez-Useche RJ, Vielma-Guevara JR.
Rev Salud Publica (Bogota). 2017 Jan-Feb;19(1):118-122. doi: 10.15446\/rsap.v19n1.54415.<\/p>\n
<\/a>Bringmann A, Hollborn M, Kohen L, Wiedemann P.
Mol Vis. 2016 Dec 22;22:1437-1454. eCollection 2016. Review.<\/p>\n
<\/a>Jonscher KR, Stewart MS, Alfonso-Garcia A, DeFelice BC, Wang XX, Luo Y, Levi M, Heerwagen MJ, Janssen RC, de la Houssaye BA, Wiitala E, Florey G, Jonscher RL, Potma EO, Fiehn O, Friedman JE.
FASEB J. 2017 Apr;31(4):1434-1448. doi: 10.1096\/fj.201600906R. Epub 2016 Dec 22.<\/p>\n
<\/a>Bugyei-Twum A, Abadeh A, Thai K, Zhang Y, Mitchell M, Kabir G, Connelly KA.
Sci Rep. 2016 Dec 21;6:39551. doi: 10.1038\/srep39551.<\/p>\n
<\/a>Prager P, Hollborn M, Steffen A, Wiedemann P, Kohen L, Bringmann A.
PLoS One. 2016 Oct 27;11(10):e0165653. doi: 10.1371\/journal.pone.0165653. eCollection 2016.<\/p>\n
<\/a>Luo R, Kakizoe Y, Wang F, Fan X, Hu S, Yang T, Wang W, Li C.
Am J Physiol Renal Physiol. 2017 Jan 1;312(1):F121-F133. doi: 10.1152\/ajprenal.00231.2016. Epub 2016 Oct 26.<\/p>\n
<\/a>Shahzad K, Bock F, Al-Dabet MM, Gadi I, Nazir S, Wang H, Kohli S, Ranjan S, Mertens PR, Nawroth PP, Isermann B.
Sci Rep. 2016 Oct 10;6:34228. doi: 10.1038\/srep34228.<\/p>\n
<\/a>Wang L, Chen Y, Li X, Zhang Y, Gulbins E, Zhang Y.
Oncotarget. 2016 Nov 8;7(45):73229-73241. doi: 10.18632\/oncotarget.12302.<\/p>\n
<\/a>Xie Q, Wei T, Huang C, Liu P, Sun M, Shen W, Gao P.
Sci Rep. 2016 Sep 30;6:34326. doi: 10.1038\/srep34326.<\/p>\n
<\/a>L\u00e9n\u00e1rt N, Brough D, D\u00e9nes \u00c1.
J Cereb Blood Flow Metab. 2016 Oct;36(10):1668-1685. Epub 2016 Aug 2. Review.<\/p>\n
<\/a>Zhao X, Gu C, Yan C, Zhang X, Li Y, Wang L, Ren L, Zhang Y, Peng J, Zhu Z, Han Y.
Biomed Res Int. 2016;2016:7395627. doi: 10.1155\/2016\/7395627. Epub 2016 Jun 30.<\/p>\n
<\/a>Naz Villalba E, Gomez de la Fuente E, Caro Gutierrez D, Pinedo Moraleda F, Yanguela Rodilla J, Mazagatos Angulo D, L\u00f3pez Estebaranz JL.
Pediatr Dermatol. 2016 Sep;33(5):e311-4. doi: 10.1111\/pde.12905. Epub 2016 Jul 19.<\/p>\n
<\/a>Ermer T, Eckardt KU, Aronson PS, Knauf F.
Curr Opin Nephrol Hypertens. 2016 Jul;25(4):363-71. doi: 10.1097\/MNH.0000000000000229. Review.<\/p>\n
<\/a>Gong W, Mao S, Yu J, Song J, Jia Z, Huang S, Zhang A.
Am J Physiol Renal Physiol. 2016 May 15;310(10):F1081-8. doi: 10.1152\/ajprenal.00534.2015. Epub 2016 Feb 17.<\/p>\n
<\/a>Gao Z, Han Y, Hu Y, Wu X, Wang Y, Zhang X, Fu J, Zou X, Zhang J, Chen X, Jose PA, Lu X, Zeng C.
PLoS One. 2016 Feb 11;11(2):e0149032. doi: 10.1371\/journal.pone.0149032. eCollection 2016.<\/p>\n
<\/a>Li TH, Huang CC, Yang YY, Lee KC, Hsieh SL, Hsieh YC, Alan L, Lin HC, Lee SD, Tsai CY.
PLoS One. 2016 Jan 28;11(1):e0147212. doi: 10.1371\/journal.pone.0147212. eCollection 2016.<\/p>\n