Abstract
Current therapies for gastroparesis metoclopramide and domperidone carry risks of extrapyramidal symptoms and life-threatening cardiac arrhythmias. Trazpiroben, a novel, potent dopamine D2/D3 receptor antagonist, has low brain permeation and very low affinity for human ether-à-go-go-related gene (hERG) channel inhibition, potentially improving on safety profiles of existing therapies. Trazpiroben demonstrated the following receptor affinities: high for D2 and D3, moderate for D4, and minimal for D1 and D5 It demonstrated moderate affinity for adrenergic α 1B (α 1B) and 5-hydroxytryptamine (5HT) 2A receptors and low potential for off-target adverse events (AEs). Trazpiroben potently inhibited dopamine-activated D2L receptor activation of cognate G-proteins in human embryonic kidney 293 cell membranes and was a neutral D2L receptor antagonist. In vivo, trazpiroben dose-dependently increased prolactin release in orally dosed rat (0.1-1 mg/kg). Additionally, multiple oral doses in the rat (100 mg/kg) and dog (50 mg/kg) for 3 days produced robust plasma exposures and prolactin increases in both species. Trazpiroben inhibited retching/vomiting in the dog with apomorphine-induced emesis with a potency (0.1-1 mg/kg) like that of trazpiroben-mediated prolactin increases in rat. Oral trazpiroben (1, 10, and 30 mg/kg) did not affect rat rotarod performance, suggesting low brain penetration. Trazpiroben concentrations were low in cerebrospinal fluid versus plasma after multiple oral doses for 4 days in rat and dog. Trazpiroben weakly inhibited the hERG channel current (concentration causing half-maximal inhibition of control-specific binding of 15.6 µM), indicating little potential for disrupting cardiac rhythm. Overall, trazpiroben is a potent D2/D3 receptor antagonist designed to avoid the serious potential AEs associated with current gastroparesis therapies. SIGNIFICANCE STATEMENT: Trazpiroben is a novel, potent dopamine D2/D3 selective receptor antagonist designed to avoid adverse effects associated with the current pharmacological therapies metoclopramide and domperidone. Preclinical studies have demonstrated low brain penetration and weak affinity for the hERG channel, indicating that trazpiroben is not expected to be associated with central nervous system or cardiovascular safety issues. With these pharmacological properties, trazpiroben may represent a viable new treatment option for gastroparesis because of a potentially improved safety profile relative to existing therapies.
Highlights
Gastroparesis may stem from a number of different etiologies, including idiopathic, diabetic, or ABBREVIATIONS: AE, adverse event; BBB, blood-brain barrier; CNS, central nervous system; CSF, cerebrospinal fluid; CTZ, chemoreceptor trigger zone; EPS, extrapyramidal side effect; 5-HT, 5-hydroxytryptamine; HEK, human embryonic kidney; hERG, human ether-a-go-go–related gene; ICH, International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use; IKr, rapidly activating delayed rectifier cardiac potassium current; Ki, inhibition constant; LC-MS/MS, liquid chromatography–tandem mass spectrometry; nH, Hill coefficient
In good laboratory practice manual patch clamp electrophysiology studies of mammalian cells, trazpiroben only weakly blocked the hERG potassium channel current (Table 3; when fitted to a curve, the IC50 was 15.6 mM with an nH of Gastroparesis is a gastric motility disorder typified by gastric dysrhythmia and slow gastric emptying without mechanical obstruction (Koch, 2014; Camilleri et al, 2018; Gharibans et al, 2019)
Trazpiroben, a selective D2/D3 receptor antagonist developed for the chronic treatment of gastroparesis, was designed to avoid the safety issues present with current therapies
Summary
Gastroparesis, a chronic gastric motility disorder, is distinguished by delayed gastric emptying and gastric dysrhythmia with diminished peristaltic coordination in the absence of mechanical obstruction of the gastric outlet (Camilleri et al, 2018; Gharibans et al, 2019; Grover et al, 2019). In addition to challenges in identifying and diagnosing gastroparesis, the current therapeutic landscape remains limited and includes a patient-guided combination of conservative, medical, or surgical treatment options, such as dietary control, gastric electrical stimulation, and pharmacological therapies (Camilleri et al, 2018; Tack and Camilleri, 2018) These pharmacological therapies include dopamine receptor antagonists, which can reduce gastroparesis symptoms and are effective at establishing normal gastric myoelectric activity and resolving gastric dysrhythmias (Koch et al, 1989; Acosta and Camilleri, 2015; Gharibans et al, 2019). Dopamine receptor antagonists offer antiemetic benefits through preventing D2 receptor activation in the chemoreceptor trigger zone (CTZ) (Lee and Kuo, 2010)
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