Your search keyword '"Goldberg, Yp"' showing total 3 results

1. Letter to the editor.

Author

Goldberg YP, Cohen CJ, Namdari R, Price N, Cadieux JA, Young C, Sherrington R, and Pimstone SN

Subjects

Female, Humans, Male, Erythromelalgia drug therapy, Sodium Channel Blockers therapeutic use, Sodium Channels genetics

Published

2014

2. Human Mendelian pain disorders: a key to discovery and validation of novel analgesics.

Author

Goldberg YP, Pimstone SN, Namdari R, Price N, Cohen C, Sherrington RP, and Hayden MR

Subjects

Analgesics metabolism, Drug Discovery methods, Humans, Mutation genetics, NAV1.7 Voltage-Gated Sodium Channel metabolism, Voltage-Gated Sodium Channel Blockers, Analgesics therapeutic use, Erythromelalgia genetics, NAV1.7 Voltage-Gated Sodium Channel genetics, Pain Insensitivity, Congenital drug therapy, Pain Insensitivity, Congenital genetics

Abstract

We have utilized a novel application of human genetics, illuminating the important role that rare genetic disorders can play in the development of novel drugs that may be of relevance for the treatment of both rare and common diseases. By studying a very rare Mendelian disorder of absent pain perception, congenital indifference to pain, we have defined Nav1.7 (endocded by SCN9A) as a critical and novel target for analgesic development. Strong human validation has emerged with SCN9A gain-of-function mutations causing inherited erythromelalgia (IEM) and paroxysmal extreme pain disorder, both Mendelian disorder of spontaneous or easily evoked pain. Furthermore, variations in the Nav1.7 channel also modulate pain perception in healthy subjects as well as in painful conditions such as osteoarthritis and Parkinson disease. On the basis of this, we have developed a novel compound (XEN402) that exhibits potent, voltage-dependent block of Nav1.7. In a small pilot study, we showed that XEN402 blocks Nav1.7 mediated pain associated with IEM thereby demonstrating the use of rare genetic disorders with mutant target channels as a novel approach to rapid proof-of-concept. Our approach underscores the critical role that human genetics can play by illuminating novel and critical pathways pertinent for drug discovery., (© 2012 John Wiley & Sons A/S.)

Published

2012

3. Treatment of Na(v)1.7-mediated pain in inherited erythromelalgia using a novel sodium channel blocker.

Author

Goldberg YP, Price N, Namdari R, Cohen CJ, Lamers MH, Winters C, Price J, Young CE, Verschoof H, Sherrington R, Pimstone SN, and Hayden MR

Subjects

Adult, Double-Blind Method, Erythromelalgia genetics, Female, Humans, Male, Middle Aged, NAV1.7 Voltage-Gated Sodium Channel, Pain Measurement, Pilot Projects, Treatment Outcome, Erythromelalgia drug therapy, Sodium Channel Blockers therapeutic use, Sodium Channels genetics

Abstract

Mutations in the SCN9A gene leading to deficiency of its protein product, Na(v)1.7, cause congenital indifference to pain (CIP). CIP is characterized by the absence of the ability to sense pain associated with noxious stimuli. In contrast, the opposite phenotype to CIP, inherited erythromelalgia (IEM), is a disorder of spontaneous pain caused by missense mutations resulting in gain-of-function in Na(v)1.7 that promote neuronal hyperexcitability. The primary aim of this study was to demonstrate that Na(v)1.7 antagonism could alleviate the pain of IEM, thereby demonstrating the utility of this opposite phenotype model as a tool for rapid proof-of-concept for novel analgesics. An exploratory, randomized, double-blind, 2-period crossover study was conducted in 4 SCN9A mutation-proven IEM patients. In each treatment period (2days), separated by a 2-day washout period, patients were orally administered XEN402 (400mg twice daily) or matching placebo. In 3 patients, pain was induced by heat or exercise during each treatment arm. A fourth patient, in constant severe pain, required no induction. Patient-reported outcomes of pain intensity and/or relief were recorded, and the time taken to induce pain was measured. The ability to induce pain in IEM patients was significantly attenuated by XEN402 compared with placebo. XEN402 increased the time to maximal pain induction and significantly reduced the amount of pain (42% less) after induction (P=.014). This pilot study showed that XEN402 blocks Na(v)1.7-mediated pain associated with IEM, thereby demonstrating target engagement in humans and underscoring the use of rare genetic disorders with mutant target channels as a novel approach to rapid proof-of-concept., (Copyright © 2011 International Association for the Study of Pain. Published by Elsevier B.V. All rights reserved.)

Published

2012