Explorations of Agonist Selectivity for the α9* nAChR with Novel Substituted Carbamoyl/Amido/Heteroaryl Dialkylpiperazinium Salts and Their Therapeutic Implications in Pain and Inflammation.
Hina AndleebRoger L PapkeClare StokesKatrin RichterSara M HerzKa ChiangSiva R Raju KanumuriAbhisheak SharmaM Imad DamajVeronika GrauNicole A HorensteinGanesh A ThakurPublished in: Journal of medicinal chemistry (2024)
There is an urgent need for nonopioid treatments for chronic and neuropathic pain to provide effective alternatives amid the escalating opioid crisis. This study introduces novel compounds targeting the α9 nicotinic acetylcholine receptor (nAChR) subunit, which is crucial for pain regulation, inflammation, and inner ear functions. Specifically, it identifies novel substituted carbamoyl/amido/heteroaryl dialkylpiperazinium iodides as potent agonists selective for human α9 and α9α10 over α7 nAChRs, particularly compounds 3f , 3h , and 3j . Compound 3h (GAT2711) demonstrated a 230 nM potency as a full agonist at α9 nAChRs, being 340-fold selective over α7. Compound 3c was 10-fold selective for α9α10 over α9 nAChR. Compounds 2 , 3f , and 3h inhibited ATP-induced interleukin-1β release in THP-1 cells. The analgesic activity of 3h was fully retained in α7 knockout mice, suggesting that analgesic effects were potentially mediated through α9* nAChRs. Our findings provide a blueprint for developing α9*-specific therapeutics for pain.
Keyphrases
- neuropathic pain
- spinal cord
- spinal cord injury
- chronic pain
- pain management
- oxidative stress
- induced apoptosis
- endothelial cells
- molecular docking
- public health
- genome wide
- gene expression
- diabetic rats
- small molecule
- photodynamic therapy
- cell cycle arrest
- signaling pathway
- molecular dynamics simulations
- cancer therapy
- dna methylation
- cell proliferation
- binding protein