Ranolazine

Facilitation of Insulin Effects by Ranolazine in Astrocytes in Primary Culture

Ranolazine (Rn) is a drug used to treat persistent chronic coronary ischemia. It has also been shown to have therapeutic benefits on the central nervous system and an anti-diabetic effect by lowering blood glucose levels; however, no effects of Rn on cellular sensitivity to insulin (Ins) have been demonstrated yet. The present study aimed to investigate the permissive effects of Rn on the actions of Ins in astrocytes in primary culture. Ins (10−8 M), Rn (10−6 M), and Ins + Rn (10−8 M and 10−6 M, respectively) were added to astrocytes for 24 h. In comparison to control cells, Rn and/or Ins caused modifications in cell viability and proliferation. Rn increased protein expression of Cu/Zn-SOD and the pro-inflammatory protein COX-2 was upregulated by Ins. On the contrary, no significant changes were found in the protein expression of NF-κB and IκB. The presence of Rn produced an increase in p-ERK protein and a significant decrease in COX-2 protein expression. Furthermore, Rn significantly increased the effects of Ins on the expression of p-AKT, p-eNOS, p-ERK, Mn-SOD, and PPAR-γ. In addition, Rn + Ins produced a significant decrease in COX-2 expression. In conclusion, Rn facilitated the effects of insulin on the p-AKT, p-eNOS, p-ERK, Mn-SOD, and PPAR-γ signaling pathways, as well as on the anti-inflammatory and antioxidant effects of the hormone.

Pharmacokinetics and Safety of Extended-release Ranolazine in Korean and White Healthy Subjects

PURPOSE

Ranolazine, an inhibitor of late inward sodium current, is an antianginal agent. In this study, the pharmacokinetic (PK) properties and tolerability of single- and multiple-dose ranolazine were compared between healthy Korean and white subjects.

METHODS

An open-label, ascending single- and multiple-dose study was conducted with healthy male Korean and white subjects. Subjects were administered 375-750 mg of ranolazine once in a single-dose and twice daily in multiple-dose based on their dose groups. Blood samples for the PK assessment were collected up to 48 h after dosing. The geometric mean ratio and its 90% confidence interval in Korean to white subjects for C_max, C_max,ss, AUC_last, and AUC_0-12h,ss of ranolazine were calculated. A population PK analysis was also performed. Safety profiles were assessed throughout the study.

FINDINGS

A total of 70 Korean and 48 white subjects completed the study. Ranolazine exposure was similar between Korean and white subjects in all dose groups; however, ranolazine exposure at 750 mg was observed to increase by up to 29% in Korean subjects compared with that in white subjects. On the basis of previous studies, these differences in ranolazine exposure between the 2 ethnic groups may not result in any clinically significant difference. Furthermore, ethnicity was not significantly correlated with the PK properties of ranolazine in the ranolazine PK model. In addition, no significant difference was found in the safety profile of ranolazine between the 2 ethnic groups.

IMPLICATIONS

The PK properties of ranolazine had no clinically significant difference, and no difference was found in the safety profiles of ranolazine between Korean and white subjects. It is anticipated that ranolazine can be administered in Korean subjects without dose adjustment. ClinicalTrials.gov identifier: NCT02817932.

Newer Therapies for Management of Stable Ischemic Heart Disease With Focus on Refractory Angina

Ischemic heart disease remains a major public health problem nationally and internationally. Stable ischemic heart disease (SIHD) is one of the clinical manifestations of ischemic heart disease and is generally characterized by episodes of reversible myocardial demand/supply mismatch, related to ischemia or hypoxia, which are usually inducible by exercise, emotion, or other stress and reproducible-but which may also be occurring spontaneously. Improvements in the treatment of acute coronary syndromes along with increasing prevalence of cardiovascular risk factors, including diabetes and obesity, have led to increasing population of patients with SIHD. A significant number of these continue to have severe angina despite medical management and revascularization procedures performed and may progress to refractory angina. This article reviews the newer therapies in the treatment of SIHD with special focus in treating patients with refractory angina.

Effects of Ranolazine on Astrocytes and Neurons in Primary Culture

Ranolazine (Rn) is an antianginal agent used for the treatment of chronic angina pectoris when angina is not adequately controlled by other drugs. Rn also acts in the central nervous system and it has been proposed for the treatment of pain and epileptic disorders. Under the hypothesis that ranolazine could act as a neuroprotective drug, we studied its effects on astrocytes and neurons in primary culture. We incubated rat astrocytes and neurons in primary cultures for 24 hours with Rn (10-7, 10-6 and 10-5 M). Cell viability and proliferation were measured using trypan blue exclusion assay, MTT conversion assay and LDH release assay. Apoptosis was determined by Caspase 3 activity assay. The effects of Rn on pro-inflammatory mediators IL-β and TNF-α was determined by ELISA technique, and protein expression levels of Smac/Diablo, PPAR-γ, Mn-SOD and Cu/Zn-SOD by western blot technique. In cultured astrocytes, Rn significantly increased cell viability and proliferation at any concentration tested, and decreased LDH leakage, Smac/Diablo expression and Caspase 3 activity indicating less cell death. Rn also increased anti-inflammatory PPAR-γ protein expression and reduced pro-inflammatory proteins IL-1 β and TNFα levels. Furthermore, antioxidant proteins Cu/Zn-SOD and Mn-SOD significantly increased after Rn addition in cultured astrocytes. Conversely, Rn did not exert any effect on cultured neurons. In conclusion, Rn could act as a neuroprotective drug in the central nervous system by promoting astrocyte viability, preventing necrosis and apoptosis, inhibiting inflammatory phenomena and inducing anti-inflammatory and antioxidant agents.

Synthesis of ranolazine derivatives containing the (1S,4S)-2,5-diazabicyclo[2.2.1]heptane moiety and their evaluation as vasodilating agents

Two diazabicyclic analogues of ranolazine, (S,S,S)-5 and (S,S,R)-5, and their epimeric mixture were synthesized. Furthermore, their vasomotor effects on rat aorta rings precontracted with phenylephrine were analyzed. These compounds showed vasodilating effects significantly greater than ranolazine. The vasodilating activities of these analogues have two components, one that depends on the endothelium, due to the release of NO, and another one due to a direct effect on the vascular smooth muscle. The compounds [(S,S,S)(S,S,R)]-5 and (S,S,R)-5 induce, in a manner similar to ranolazine, the release of a prostanoid from the cyclooxygenase pathway, whose vasoconstrictor effect is masked by the predominant vasodilation induced by these compounds.

Extended-release ranolazine: critical evaluation of its use in stable angina

Coronary heart disease is the major cause of morbidity and mortality throughout the world, and is responsible for approximately one of every six deaths in the US. Angina pectoris is a clinical syndrome characterized by discomfort, typically in the chest, neck, chin, or left arm, induced by physical exertion, emotional stress, or cold, and relieved by rest or nitroglycerin. The main goals of treatment of stable angina pectoris are to improve quality of life by reducing the severity and/or frequency of symptoms, to increase functional capacity, and to improve prognosis. Ranolazine is a recently developed antianginal with unique methods of action. In this paper, we review the pharmacology of ranolazine, clinical trials supporting its approval for clinical use, and studies of its quality of life benefits. We conclude that ranolazine has been shown to be a reasonable and safe option for patients who have refractory ischemic symptoms despite the use of standard medications (for example, nitrates, beta-adrenergic receptor antagonists, and calcium channel antagonists) for treatment of anginal symptoms, and also provides a modestly improved quality of life.

Atrial-selective drugs for treatment of atrial fibrillation

Atrial fibrillation (AF) is accompanied by a high risk of thromboembolic complications necessitating anticoagulation therapy. Arrhythmias have a high tendency to become persistent. Catheter ablation techniques are highly effective in the treatment of AF; however, these procedures are far too costly and time-consuming for the routine treatment of large numbers of AF patients. Moreover, many patients prefer drug treatment although conventional antiarrhythmic drugs are moderately effective and are burdened with severe cardiac and noncardiac side effects. New antifibrillatory drugs developed for the treatment of AF include multichannel blockers with a high degree of atrial selectivity. The rationale of this approach is to induce antiarrhythmic actions only in the atria without conferring proarrhythmic effects in the ventricles.Atrial selective drug action is expected with ion channel blockers targeting ion channels that are expressed predominantly in the atria, i.e., Kv1.5 (I(Kur)), or Kir 3.1 and Kir 3.4 (I(K,ACh)). Na(+) channel blockers that dissociate rapidly may exert atrial selectivity because of subtle differences in atrial and ventricular action potentials. Finally, atrial-selective targets may evolve due to disease-specific processes (e.g., rate-dependent Na(+) channel blockers, selective drugs against constitutively active I(K,ACh) channels).

Conventional and novel drug therapeutics to relief myocardial ischemia

Effective management of stable angina usually includes drug therapy. There are several agents that are considered vasculoprotective such as aspirin, angiotensin converting enzyme inhibitors and statins. Conventional anti ischemic therapy includes nitrates, beta-blockers and calcium-channel blockers. In recent years, several other drugs with novel anti ischemic mechanisms have become available including ranolazine, ivabradine, nicorandil and many others. This article reviews drugs that alleviate the symptoms of chronic angina with emphasis on several novel pharmacological agents.

Therapeutic potential of adult progenitor cells in the management of chronic myocardial ischemia

Refractory angina as a result of chronic myocardial ischemia is a common and disabling condition. Adult progenitor cells have emerged as a potential revolutionary treatment for cardiovascular disease. Locally administered adult progenitor cells with particular vasculogenic potential may offer treatment hope for those with chronic ischemia; however, the optimal cell type, dose, delivery mode, and target patient population has not been defined. Preclinical cell therapy studies have shown safety and efficacy sufficient to warrant human trials. Early, small-scale human trials exploring various cell types and delivery modes have shown that most approaches are safe, with modest early efficacy. This overview discusses the rationale and early results for ongoing larger cardiovascular disease trials, with a special emphasis on refractory angina and chronic myocardial ischemia.

The Role of Ranolazine in the Management of Chronic Stable Angina

This continuing feature will update readers on recent developments in cardiovascular pharmacotherapy. Cardiovascular disease remains the number one killer in the United States, and more clinical outcome trials have been conducted in cardiology than in any other field of medicine. Given this rapidly expanding knowledge base, pharmacists can have a significant impact on prevention and treatment—if they keep current with developments in drug therapy.