Anti-Bronchospasmodic Effect of JME-173, a Novel Mexiletine Analog Endowed With Highly Attenuated Anesthetic Activity.

Katharinne Ingrid Moraes Carvalho,Humberto Cavalcante Joca,Jader Dos Santos Cruz,Marcus Vinícius Nora Souza,Emerson Teixeira Silva,Artur Santos Miranda,Marco Aurélio Martins,Jorge Carlos Santos Costa,Patricia Machado Rodrigues E Silva,Robson Xavier Faria,Diego De Sá Coutinho

doi:10.3389/fphar.2020.01159

Katharinne Ingrid Moraes Carvalho, Humberto Cavalcante Joca + Show 9 more

Open Access

https://doi.org/10.3389/fphar.2020.01159

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Abstract

Local anesthetics (LAs), such as lidocaine and mexiletine, inhibit bronchoconstriction in asthmatics, but adverse effects limit their use for this specific clinical application. In this study, we describe the anti-spasmodic properties of the mexiletine analog 2-(2-aminopropoxy)-3,5-dimethyl, 4-Br-benzene (JME-173), which was synthesized and screened for inducing reduced activity on Na+ channels. The effectiveness of JME-173 was assessed using rat tracheal rings, a GH3 cell line and mouse cardiomyocytes to access changes in smooth muscle contraction, and Na+, and Ca++ionic currents, respectively. Bronchospasm and airway hyper-reactivity (AHR) were studied using whole-body barometric plethysmography in A/J mice. We observed that the potency of JME-173 was 653-fold lower than mexiletine in inhibiting Na+ currents, but 12-fold higher in inhibiting L-type Ca++ currents. JME-173 was also more potent than mexiletine in inhibiting tracheal contraction by carbachol, allergen, extracellular Ca++, or sodium orthovanadate provocations. The effect of JME-173 on carbachol-induced tracheal contraction remained unaltered under conditions of de-epithelized rings, β2-receptor blockade or adenylate cyclase inhibition. When orally administered, JME-173 and theophylline inhibited methacholine-induced bronchospasm at time points of 1 and 3 h post-treatment, while only JME-173 remained active for at least 6 h. In addition, JME-173 also inhibited AHR in a mouse model of lipopolysaccharide (LPS)-induced lung inflammation. Thus, the mexiletine analog JME-173 shows highly attenuated activity on Na+ channels and optimized anti-spasmodic properties, in a mechanism that is at least in part mediated by regulation of Ca++ inflow toward the cytosol. Thus, JME-173 is a promising alternative for the treatment of clinical conditions marked by life-threatening bronchoconstriction.

Highlights

Respiratory smooth muscle plays a crucial role in airway tone and contractility (Rydell-Tormanen et al, 2013; Prakash, 2016)
We examined the effect of JME-173 on the carbachol-induced contraction of isolated rat tracheal rings compared to that of mexiletine
local anesthetics (LA) are primarily known for their ability to reversibly block Na+ channels in peripheral nerves, so temporarily inhibiting the impulse transmission and neuronal function in restricted areas of the body (Tetzlaff, 2000)

Summary

Introduction

Respiratory smooth muscle plays a crucial role in airway tone and contractility (Rydell-Tormanen et al, 2013; Prakash, 2016). Imbalances in contraction and relaxation processes have been well demonstrated to frequently cause persistent airways obstruction that may result in significant changes in lung tissue homeostasis, contributing to the development of respiratory tract dysfunctions (Gosens and Grainge, 2015). The available therapy for clinical conditions involving life-threatening bronchoconstriction, such as asthma and chronic obstructive pulmonary disease (COPD), consists of the use of drugs capable of relaxing the airway caliber. Short- or long-acting bronchodilators, steroidal anti-inflammatory drugs, and combinations of the two classes of medicines have emerged as the most commonly used alternative treatments for controlling asthma and COPD dysfunctions so far.

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