Discovery of Potent Antiallodynic Agents for Neuropathic Pain Targeting P2X3 Receptors

Authors
Jung, Young-HwanKim, Yeo OkLin, HaiCho, Joong-HeuiPark, Jin-HeeLee, So-DeokBae, JinsuKang, Koon MookKim, Moon-GyoonPae, Ae NimKo, HyojinPark, Chul-SeungYoon, Myung HaKim, Yong-Chul
Issue Date
2017-07
Publisher
AMER CHEMICAL SOC
Citation
ACS CHEMICAL NEUROSCIENCE, v.8, no.7, pp.1465 - 1478
Abstract
Antagonism of the P2X3 receptor is one of the potential therapeutic strategies for the management of neuropathic pain because P2X3 receptors are predominantly localized on small to medium diameter C- and A delta-fiber primary afferent neurons, which are related to the pain-sensing system. In this study, 5-hydroxy pyridine derivatives were designed, synthesized, and evaluated for their in vitro biological activities by two-electrode voltage clamp assay at hP2X3 receptors. Among the novel hP2X3 receptor antagonists, intrathecal treatment of compound 29 showed parallel efficacy with pregabalin (calcium channel modulator) and higher efficacy than AF353 (P2X3 receptor antagonist) in the evaluation of its antiallodynic effects in spinal nerve ligation rats. However, because compound 29 was inactive by intraperitoneal administration in neuropathic pain animal models due to low cell permeability, the corresponding methyl ester analogue, 28, which could be converted to compound 29 in vivo, was investigated as a prodrug concept. Intravenous injection of compound 28 resulted in potent antiallodynic effects, with ED50 values of 2.62 and 2.93 mg/kg in spinal nerve ligation and chemotherapy-induced peripheral neuropathy rats, respectively, indicating that new drug development targeting the P2X3 receptor could be promising for neuropathic pain, a disease with high unmet medical needs.
Keywords
DIELS-ALDER REACTIONS; SENSORY NEURONS; PYRIDINE-DERIVATIVES; RAT MODEL; P2X(3); ANTAGONIST; ATP; SENSITIZATION; ANALGESICS; ALLODYNIA; DIELS-ALDER REACTIONS; SENSORY NEURONS; PYRIDINE-DERIVATIVES; RAT MODEL; P2X(3); ANTAGONIST; ATP; SENSITIZATION; ANALGESICS; ALLODYNIA; Neuropathic pain; antiallodynic effect; P2X3 receptor; adenosine 5 ' -triphosphate; antagonist; structure-activity relationship
ISSN
1948-7193
URI
https://pubs.kist.re.kr/handle/201004/122583
DOI
10.1021/acschemneuro.6b00401
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KIST Article > 2017
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