Metabolic syndrome belongs to the most important risk factors of cardiovascular diseases. The aim of this study was to investigate changes in cardiovascular system induced by high cholesterol and high fat diet (HCHF) in HTG rats and their influence by a pyridoindole antioxidant – SMe1EC2 (S). The effects of S were compared with those of atorvastatin (A). Male HTG rats were fed HCHF (1% cholesterol + 7.5% lard) for 4 weeks. S and A were administered p.o., 50 mg/kg b.w. Following experimental groups were used: Wistar rats (W), hypertriglyceridemic rats (HTG), HTG rats fed HCHF (CHOL), HTG+S (S-HTG), CHOL+S (S-CHOL), and CHOL+A (A-CHOL). Values of blood pressure (BP) and selected ECG parameters were monitored in conscious animals, functions of the isolated heart and aorta were analyzed ex vivo. At the end of the experiment, systolic (sBP) and diastolic (dBP) blood pressure was increased in HTG and CHOL. S and A decreased BP in all treated groups. Accordingly with BP changes, the aortic endothelial function of CHOL was damaged. Both S and A administration ameliorated the endothelium-dependent relaxation to values of W. PQ and QTc intervals were prolonged in CHOL, while the treatment with S or A improved ECG findings. Prodysrhythmogenic threshold was decreased significantly in CHOL and both treatments returned it to the control values. In conclusion, HCHF increased BP, impaired endothelial relaxation of the aorta and potentiated susceptibility of myocardium to dysrhythmias. The effect of S on the changes induced by HCHF diet was more pronounced than that of A.
If the inline PDF is not rendering correctly, you can download the PDF file here.
Albarado-Ibañez A Avelino-Cruz JE Velasco M Torres-Jácome J Hiriart M. (2013). Metabolic syndrome remodels electrical activity of the sinoatrial node and produces arrhythmias in rats. PLoS One8: e76534.
Alberti KG Eckel RH Grungy SM Zimmet PZ Cleeman JI Donato KA Fruchart JC James WP Loria CM Smith SC Jr. (2009). Harmonizing the Metabolic Syndrome. A Joint Interim Statement of the International Diabetes Federation Task Force on Epidemiology and Prevention; National Heart Lung and Blood Institute; American Heart Association; World Heart Federation; International Atherosclerosis Society; and International Association for the Study of Obesity. Circulation120: 1640–1645.
Allesie MA Lammers WJEP Bonke IM Hollen J. (1984). Intra-atrial reentry as a mechanism for atrial flutter induced by acetylcholine and rapid pacing in dog. Circulation70: 123–135.
Bacharova L Krivosikova Z Wsolova L Gajdos M. (2012). Alterations in the QRS complex in the offspring of patients with metabolic syndrome and diabetes mellitus: early evidence of cardiovascular pathology. J Electrocardiol45: 244–251.
Benova T Knezl V Viczenczova C Bacova BS Radosinska J Tribulova N. (2015). Acute anti-fibrillating and defibrillating potential of atorvastatin melatonin eicosapentaenoic acid and docosahexaenoic acid demonstrated in isolated heart model. J Physiol Pharmacol66: 83–89.
Bezek Š Brnoliaková Z Sotníková R Knezl V Paulovičová E Navarová J Bauer V. (2017). Monotherapy of experimental metabolic syndrome: I. Efficacy and safety. Interdiscip Toxicol10(3): 100–105.
Broskova Z and Knezl V. (2011). Protective effect of novel pyridoindole derivatives on ischemia/reperfusion injury of the isolated rat heart. Pharmacol Rep63: 967–974.
Dougherty PJ and Arora RR. (2012). Utility of early high dose statins in acute coronary syndrome. Am J Ther19: 369–376.
Duflou J Virmani R Rabi I et al. (1995). Sudden death as a result of heart disease in morbid obese. Am Heart J130: 306–313.
Du Toit EF Nabben M Lochner A. (2005). A potential role of angiotensin II in obesity induced hypertrophy and ischaemic/reperfusion injury. Basic Res Cardiol100: 346–354.
Galajda P Mokáň M Prídavková D Tomásková V Sutarík L Krucinská L Bukovská A Rusnáková G. (2007). Prevalencia metabolického syndrómu na Slovensku. (Prevalence of metabolic syndrome in Slovakia. In Slovak). Int med7: 325–331.
Gray RA Pertsov AM Jalife J. (1998). Spatial and temporal organization during cardiac fibrillation. Nature392: 75–78.
Grundy SM. (2007). Controversy in Clinical Endocrinology. Metabolic Syndrome: A Multiplex Cardiovascular Risk Factor. J Clin Endocr Met92: 399–404.
Horwich TB MacLellan WR. (2007). Atorvastatin and statins in the treatment of heart failure. Expert Opin Pharmacother17: 3061–3068.
Huang JV Lu L Ye S Bergman BC Sparagna GC Sarraf M Reusch JE Greyson CR Schwartz GG. (2013.) Impaired contractile recovery after low-flow myocardial ischemia in a porcine model of metabolic syndrome. Am J Physiol Heart C304: H861–873.
Jain KS Kulkarni RR Jain DP. (2010). Current drug targets for antihyperlipidemic therapy. Mini Rev Med Chem10: 232–262.
Jouven X Charles MA Desnos M Ducimetière P. (2001). Circulating nonesterified fatty acid levels as a predictive risk factor for sudden death in the population. Circulation104: 756–761.
Liptak B Knezl V Gasparova Z. (2017). Metabolic disturbances induce malignant heart arrhythmias in rats. Bratisl Med J118: 539–543.
Liu C Zhou M-S Li Y Wang A Chadipiralla K Tian R Tian R Raij L. (2017). Oral nicotine aggravates endothelial dysfunction and vascular inflammation in diet-induced obese rats: Role of macrophage TNFα. PLoS ONE12: e0188439.
Kihara Y and Morgan JP. (1991). Intracellular calcium and ventricular fibrillation. Circ Res 68: 1378–1389.
Kurl S Laaksonen DE Jae SY Mäkikallio TH Zaccardi F Kauhanen J Ronkainen K Laukkanen JA. (2015). Metabolic syndrome and the risk of sudden cardiac death in middle-aged men. Int J Cardiol203: 792–797.
Lew EA and Garfinkel L. (1979). Variations in mortality by weight among 750 000 men and woman. J Chron Dis32: 563–576.
Luscher TF Creager MA Beckman JA Cosentino F. (2003). Diabetes and vascular disease: patophysiology clinical consequences and medical therapy: part II. Circulation108: 1655–1661.
Luu M Stevenson WG Stevenson LW Baron K Walden J. (1989). Diverse mechanisms of unexpected cardiac arrest in advanced heart failure. Circulation. 80: 1675–80.
Merrilat JC Lakatta EG Hano O Guarnieri T. (1990): Role of calcium and the calcium channel in the initiation and maintenance of ventricular fibrillation. Circ Res67: 115–1123.
Mikhin VP Zhilyaeva YA Gromnaky NI. (2016). Pleotropic effects of atorvastatin in patients with chronic ischemic heart disease. Kardiologiia56: 42–46.
Nduhirabandi F Du Toit EF Blackhurst D et al. (2011). Chronic melatonin consumption prevents obesity-related metabolic abnormalities and protects the heart against myocardial ischemia and reperfusion injury in a prediabetic model of diet-induced obesity. J Pineal Res50: 171–182.
Niedrig D Maechler S Hoppe L Corti N Kovari H Russmann S. (2016). Drug safety of macrolide and quinolone antibiotics in a tertiary care hospital: administration of interacting co-medication and QT prolongation. Eur J Clin Pharmacol72: 859–867.
Ooie T Kajimoto M Takahashi N Shinohara T Taniguchi Y Kouno H Wakisaka O Yoshimatsu H Saikawa T. (2005). Effects of insulin resistance on geranylgeranylacetone-induced expression of heart shock protein 72 and cardioprotection in high-fat diet rats. Life Sciences77: 869–881.
Plourde B Sarrazin J-F Nault I Poirier P. (2014). Sudden cardiac death and obesity. Expert Rev Cardiovasc Ther12: 1099–1110.
Raal FJ. (2009). Pathogenesis and managenemt of the dyslipidaemia of the metabolic syndrome. Metab Syndr Relat Disord7: 83–88.
Reule CA Goyvaerts B Schoen C. (2017). Effects of an L-arginine-based multi ingredient product on endothelial function in subjects with mild to moderate hypertension and hyperhomocysteinemia - a randomized double-blind placebo-controlled cross-over trial. BMC Complement Altern Med17: 92.
Silva MT Ribeiro FP Medeiros MA Sampaio PA Silva YM Silva MT Quintans JS Quintans-Júnior LJ Ribeiro LA. (2015). The vasorelaxant effect of p-cymene in rat aorta involves potassium channels. Sci World J2015: 458080.
Simões FV de Batista PR Botelho T Ribeiro-Júnior RF Padilha AS Vassallo DV. (2016). Treatment with high dose of atorvastatin reduces vascular injury in diabetic rats. Pharmacol Rep68: 865–873.
Simor T Lorand T Gaszner B Elgavish GA. (1997). The modulation of pacing-induced changes in intracellular sodium levels by extracellular Ca in isolated perfused rat hearts. J Mol Cell Cardiol29: 1225–1235.
Sotnikova R Bacova B Vlkovicova J Navarova J Tribulova N. (2012). Sex differences in endothelial function of aged hypertriglyceridemic rats – effect of atorvastatin treatment. Interdiscip Toxicol5: 155–158.
Soydinc S Davutoglu V Akcay M. (2006). Uncomplicated metabolic syndrome is associated with prolonged electrocardiographic QTc interval and QTc dispersion. Ann Noninvasive Electrocardiol11: 313–317.
Štolc S Šnirc V Májeková M Gáspárová Z Gajdošíková A Štvrtina S. (2006). Development of the new group of indole-derived neuroprotective drugs affecting oxidative stress. Cell Mol Neurobiol26: 1493–1502.
Tadic M Ivanovic B Cuspidi C. (2013) What do we currently know about metabolic syndrome and atrial fibrillation? Clin Cardiol36: 654–662.
Tribulová N Okruhlicová Ľ Nováková S Pancza D Bernátová I Pechanová O Weismann P Manoach M Seki S Mochizuki M. (2002). Hypertension-related intermyocyte junction remodeling is associated with higher incidence of low K+-induced lethal arrhythmias in isolated rat heart. Exp Physiol87: 195–205.
Tribulová N Fialová M Dlugošová K Knezl V Okruhlicová L Kristek F Zicha J Kuneš J. (2006). Myocardial gap junction remodelling in hypetriglyceridemic rat heart is associated with increased vulnerability to ventricular fibrillation. Cardiology15: 32S–33S.
Tribulova N Knezl V Okruhlicova L Slezak J. (2008). Myocardial gap junctions: targets for novel approaches in the prevention of life-threatening cardiac arrhythmias. Physiol Res57: S1–S13.
Watanabe H. Tanabe N Watanabe T Roden D M Sasaki S. (2008). Aizawa Y. Metabolic syndrome and risk of development of atrial fibrillation. Circulation117: 1255–1260.
Wensley I Salaveria K Bulmer AC Donner DG du Toit EF. (2013). Myocardial structure function and ischaemic tolerance in a rodent model of obesity with insulin resistance. Exp Physiol98: 1552–1564.
Witkowski FX Leon LJ Penkoske PA Giles WR Spano ML Ditto WL Wintre AT. (1998). Spatiotemporal evolution of ventricular fibrillation. Nature392: 78–82.
Xu XR Li KB Wang P Xu L Liu Y Yang ZS Yang XC. (2016). The impact of different doses of atorvastatin on plasma endothelin and platelet function in acute ST-segment elevation myocardial infarction after emergency percutaneous coronary intervention. Zhonghua Nei Ke Za Zhi55: 932–936.
Yilmaz H Özcan KS Sayar N Kemaloglu T Gungor B Erer B Yilmaz M Gurkan U Cakmak N Oz D Calik AN Bolca O. (2015). Metabolic syndrome is associated with atrial electrical and mechanical dysfunction. Med Princ Pract24: 147–152.
Zhang WL Yan WJ Sun B Zou ZP. (2014). Synergistic effects of atorvastatin and rosiglitazone on endothelium protection in rats with dyslipidemia. Lipids Health Dis13: 168.
Zúrová-Nedelčevová J Navarová J Drábiková K Jančinová V Petríková M Bernátová I Kristová V Šnirc V Nosáľová V Sotníková R. (2006). Participation of reactive oxygen species in diabetes induced endothelial dysfunction. Neuroendocrinol Lett27: 168–171.