A new class of glycomimetic drugs to prevent free fatty acid-induced endothelial dysfunction

Background: Carbohydrates play a major role in cell signaling in many biological processes. We have developed a set of glycomimetic drugs that mimic the structure of carbohydrates and represent a novel source of therapeutics for endothelial dysfunction, a key initiating factor in cardiovascular complications. Purpose: Our objective was to determine the protective effects of small molecule glycomimetics against free fatty acid­induced endothelial dysfunction, focusing on nitric oxide (NO) and oxidative stress pathways. Methods: Four glycomimetics were synthesized by the stepwise transformation of 2,5­dihydroxybenzoic acid to a range of 2,5­substituted benzoic acid derivatives, incorporating the key sulfate groups to mimic the interactions of heparan sulfate. Endothelial function was assessed using acetylcholine­induced, endotheliumdependent relaxation in mouse thoracic aortic rings using wire myography. Human umbilical vein endothelial cell (HUVEC) behavior was evaluated in the presence or absence of the free fatty acid, palmitate, with or without glycomimetics (1µM). DAF­2 and H2DCF­DA assays were used to determine nitric oxide (NO) and reactive oxygen species (ROS) production, respectively. Lipid peroxidation colorimetric and antioxidant enzyme activity assays were also carried out. RT­PCR and western blotting were utilized to measure Akt, eNOS, Nrf­2, NQO­1 and HO­1 expression. Results: Ex vivo endothelium­dependent relaxation was significantly improved by the glycomimetics under palmitate­induced oxidative stress. In vitro studies showed that the glycomimetics protected HUVECs against the palmitate­induced oxidative stress and enhanced NO production. We demonstrate that the protective effects of pre­incubation with glycomimetics occurred via upregulation of Akt/eNOS signaling, activation of the Nrf2/ARE pathway, and suppression of ROS­induced lipid peroxidation. Conclusion: We have developed a novel set of small molecule glycomimetics that protect against free fatty acidinduced endothelial dysfunction and thus, represent a new category of therapeutic drugs to target endothelial damage, the first line of defense against cardiovascular disease

LIDOCAINE CONVERTS INDUCIBLE VENTRICULAR-FIBRILLATION INTO SUSTAINED VENTRICULAR-TACHYCARDIA IN CONSCIOUS DOGS WITH RECENT MYOCARDIAL-INFARCTION

The aim of the present study was to investigate the effect of lidocaine (L) on ventricular tachyarrhythmias with special reference to ventricular fibrillation (VF). Myocardial infarction (MI) was created in 39 dogs by doubly ligating the left anterior descending (LAD) coronary artery. Ah animals surviving the infarction (n = 33) were subjected to programmed ventricular stimulation 7.6 +/- 3.2 days later. Local electrical activity was recorded from the subepicardium of the left ventricular wall by means of a specially designed composite electrode. L (2 and 4 mg/kg i.v.) facilitated the induction of sustained monomorphic ventricular tachycardia (sVT) in 8 dogs with nonsustained polymorphic ventricular tachycardia (nsVT) in the control. In 13 dogs developing sVT during control stimulation, L slowed the rate of tachycardia in 8 animals (first-dose effect), while it abolished arrhythmia induction in 5 animals (second-dose effect). It was interesting that L (2 mg/kg) abolished reproduction of control VF in 12 animals by converting it into sVT. L significantly depressed conduction and prolonged ventricular refractoriness in the infarction zone. The results suggest that L facilitates induction of sVT in conscious dogs with recent MI, thereby decreasing susceptibility of infarcted myocardium to aggressive polymorphic nsVT or VF. The capability of L to exacerbate slow conduction in the infarction zone seems not to favor the development of VF during this stage of MI

Electropharmacology of the bradycardic agents alinidine and zatebradine (UL-FS 49) in a conscious canine ventricular arrhythmia model of permanent coronary artery occlusion

Myocardial infarction was produced in 27 anesthetized dogs by ligating the left anterior descending (LAD) coronary artery proximal to the septal branch. Nineteen of these animals survived the operation and were studied by programmed stimulation in a random sequence between the third and seventh days after the infarct. Complete electrophysiologic testing was implemented in each animal prior to and after single doses of either alinidine (1 mg/kg IV) or zatebradine (0.5 mg/kg IV). Alinidine prevented reinduction of sustained ventricular tachycardia (SVT) in only 2 of 9 dogs and zatebradine in 1 of 8 dogs. The SVT cycle length was not significantly changed in all cases in which it was still inducible despite drug administration (p>0.05). Alinidine lengthened the effective refractory period (ERP) in the AV node (p<0.01), whereas zatebradine did not induce a statistically significant prolongation. Conversely, zatebradine increased the left ventricular ERP, while alinidine left it almost unchanged. The rate-corrected QT interval (QTc) did not significantly differ from control values after the administration of either agents. Also, the duration and the ERP of infarctzone potentials, defined as late potentials, remained unaltered. The results indicate that the bradycardic agents alinidine and zatebradine do not exert antiarrhythmic efficacy against SVT induced during subacute myocardial infarction in conscious dogs. None of these drugs substantially changed ventricular electrophysiology or showed a drug-specific proarrhythmic effect. © 1995 Kluwer Academic Publishers

Assessment of local atrial repolarization in a porcine acetylcholine model of atrial flutter and fibrillation

Objectives: Progressive electrical alternans followed by conduction block and fibrillatory conduction have been suggested to precede disorganization of atrial flutter (Afl) to atrial fibrillation (AF). The purpose of the present study was to investigate patterns of local repolarization in the high and low right atrium to determine the site with pronounced propensity to action potential disorganization during Afl and AF. Methods: Combination pacing/recording contact monophasic action potential (MAP) catheters were utilized to evaluate repolarization from the upper and low atrial endocardium in 16 pigs.To induce sustained atrial flutter (Afl) or fibrillation (AF), programmed atrial stimulation was carried out prior to and during intravenous acetylcholine (ACh) infusion at a dosage rate of 2.7 mg/min.Atrial repolarization was measured at 30, 50, and 90% of total MAP duration. Results: Two main types of atrial MAPs were distinguished: MAPs originated from high atrial regions showing a prominent notch and longer duration and MAPs recorded from the lower atrium displaying a much slower slope of phase I repolarization and shorter duration. Control stimulation did not elicit any significant atrial tachyarrhythmias. After ACh all animals developed reproducibly induced sustained and non-sustained whole Afl or AF during programmed stimulation. A total of 40 sustained arrhythmia episodes were selected for evaluation: fourteen episodes of primary AF and 26 episodes of Afl.Whole Afl and AF in all animals were associated with MAPs of almost regular morphology in lower parts of atrium and disorganized activation in higher atrial regions. ACh significantly reduced (P<0.001) both high and low atrial effective refractory periods as well as MAP duration determined at 30, 50, and 90% repolarization. Conclusions: ACh facilitated the induction of Afl more than AF in this experimental model. MAPs recorded from high atrial regions revealed discordant repolarization during Afl or AF, whereas low atrial MAPs maintained their baseline regular morphology.These findings may help expand knowledge about mechanisms underlying instability and perpetuation of these arrhythmias

Elevated PaCO2 levels increase pulmonary artery pressure

Permissive hypercapnia is commonly used in mechanically ventilated patients to avoid lung injury but its effect on pulmonary artery pressure (PAP) is still unclear, particularly in combination with tidal volume (Vt). Therefore, an in vivo study was performed on adult rabbits ventilated with low (9 ml/Kg, LVt group) or high (15 ml/Kg, HVt group) tidal volume (Vt) and alterations in PAP were estimated. Both groups of animals initially were ventilated with FiO2 0.3 (Normocapnia-1) followed by inhalation of enriched CO2 gas mixture (FiCO2 0.10) to develop hypercapnia (Hypercapnia-1). After 30 min of hypercapnia, animals were re-ventilated with FiO2 0.3 to develop normocapnia (Normocapnia-2) again and then with FiCO2 0.10 to develop hypercapnia (Hypercapnia-2). Systolic, diastolic and mean PAP were assessed with a catheter in the pulmonary artery. In HP-1 and HP-2, PaCO2 increased (p < 0.0001) in both LVt and HVt animals compared to baseline values. pH decreased to ≈7.2 in HP-1 and ≈7.1 in HP −2. In normocapnia, the rise in Vt from 9 to 15 ml/Kg induced an increase in static compliance (Cstat), plateau airway pressure (Pplat) and PAP. Hypercapnia increased PAP in either LVt or HVt animals without significant effect on Cstat or Pplat. A two-way ANOVA revealed that there was not a statistically significant interaction between the effects of hypercapnia and tidal volume on mPAP (p = 0.76). In conclusion, increased Vt per se induced an increase in Cstat, Pplat and PAP in normocapnia. Hypercapnia increased PAP in rabbits ventilated with low or high Vt but this effect was not long-lasting. © The Author(s) 2022

Assessment of local atrial repolarization in a porcine acetylcholine model of atrial flutter and fibrillation

Objectives - Progressive electrical alternans followed by conduction block and fibrillatory conduction have been suggested to precede disorganization of atrial flutter (Afl) to atrial fibrillation (AF). The purpose of the present study was to investigate patterns of local repolarization in the high and low right atrium to determine the site with pronounced propensity to action potential disorganization during Afl and AF. Methods - Combination pacing/recording contact monophasic action potential (MAP) catheters were utilized to evaluate repolarization from the upper and low atrial endocardium in 16 pigs. To induce sustained atrial flutter (Afl) or fibrillation (AF), programmed atrial stimulation was carried out prior to and during intravenous acetylcholine (ACh) infusion at a dosage rate of 2.7 mg/min. Atrial repolarization was measured at 30, 50, and 90% of total MAP duration. Results - Two main types of atrial MAPs were distinguished: MAPs originated from high atrial regions showing a prominent notch and longer duration and MAPs recorded from the lower atrium displaying a much slower slope of phase I repolarization and shorter duration. Control stimulation did not elicit any significant atrial tachyarrhythmias. After ACh all animals developed reproducibly induced sustained and non-sustained whole Afl or AF during programmed stimulation. A total of 40 sustained arrhythmia episodes were selected for evaluation: fourteen episodes of primary AF and 26 episodes of Afl. Whole Afl and AF in all animals were associated with MAPs of almost regular morphology in lower parts of atrium and disorganized activation in higher atrial regions. ACh significantly reduced (P < 0.001) both high and low atrial effective refractory periods as well as MAP duration determined at 30, 50, and 90% repolarization. Conclusions - ACh facilitated the induction of Afl more than AF in this experimental model. MAPs recorded from high atrial regions revealed discordant repolarization during Afl or AF, whereas low atrial MAPs maintained their baseline regular morphology. These findings may help expand knowledge about mechanisms underlying instability and perpetuation of these arrhythmias

Ranolazine enhances nicardipine-induced relaxation of alpha1-adrenoceptor-mediated contraction on isolated rabbit aorta

Ranolazine (RAN) and nicardipine (NIC) have been studied for their vasorelaxing effects but the combination of these agents against adrenergic vasoconstriction has not been tested. The present study aimed at investigating the vasorelaxing effect by the combination of the two agents on alpha1-adrenoceptor-mediated contraction on isolated rabbit aorta. Aortic rings were mounted for isometric tension recording in organ baths containing Krebs-Henseleit solution. Concentration-response curves of RAN (10(-9) to 10(-4) M), NIC (10(-9) to 10(-5) M), and RAN + NIC (3 x 10(-6) M) were obtained in a cumulative manner using phenylephrine (PE, 2 x 10(-6) M) as constrictor agent. The effective concentration (EC)(50) values for RAN and NIC were 6.5 x 10(-6) M and 1.4 x 10(-5) M, respectively. The treatment of PE-precontracted aortic rings with either RAN or NIC up to 65 min revealed that both agents displayed a biphasic pattern of initial rising and late sustained phases of relaxation. At 35 min of incubation, RAN and NIC induced relaxation by 23 +/- 3% and 14 +/- 4%, respectively (N = 7, P = NS, RAN vs NIC); their combination resulted in a 34 +/- 4% relaxation (N = 7; P < 0.01, RAN + NIC vs NIC). At 65 min the effect of NIC prevailed and tended to be closer to the values of the combination treatment (P < 0.01, RAN + NIC vs RAN). The results indicate that RAN at therapeutic concentrations exerts a significant additive vasorelaxing effect when combined with NIC in rabbit aorta

Effects of ranolazine and its combination with amiodarone on rapid pacing-induced reentrant atrial tachycardia in rabbits

Ranolazine (RAN) has previously been shown to lower the onset of cholinergic atrial fibrillation in intact animals; however, its efficacy in the setting of atrial tachycardia (AT) is unknown. The purpose of this study was to investigate the effects of RAN alone or in combination with amiodarone (AMIO) on rapid pacing-evoked right AT in rabbit hearts. Right atrial monophasic action potentials (MAPs) were recorded in 11 anesthetized rabbits, using combination MAP pacing catheters. Vulnerability to AT was tested by employing consecutive trains of rapid burst pacing prior to and after 2.4 mg/kg of RAN alone delivered intravenously and then in combination with 3 mg/kg of AMIO as a 15-minute infusion. Primary endpoints were postdrug AT reproducibility as well as cycle length (CL) and tachycardia duration. MAP duration at 75% repolarization and the effective refractory period (ERP) were assessed during programmed pacing to calculate the atrial postrepolarization refractoriness (aPRR = ERP - MAPD75%). AT was elicited in eight out of 11 rabbits; only these animals were included for further investigation. RAN did not abolish the inducibility of AT in any experiment; however, it prolonged its CL (baseline vs. RAN: 120 ± 16 ms vs. 138 ± 18 ms; p = 0.053). Supplemental AMIO further increased the AT CL (baseline vs. RAN + AMIO: 120 ± 16 ms vs. 152 ± 23 ms; p = 0.006), without affecting arrhythmia reinducibility. Slowing of the tachycardia after RAN or RAN + AMIO was associated with spontaneous termination of the arrhythmia. RAN prolonged the aPRR significantly, while AMIO in addition to RAN potentiated this effect. Neither RAN alone nor its combination with AMIO abolished the elicitation of AT in this model. However, both agents synergistically prolonged the aPRR, resulting in the slowing of AT and promoting spontaneous termination of the arrhythmia. © 2021 Jurnal Ilmu Sosial dan Ilmu Politik. All rights reserved