KU124 (9,10,10-trioxo-N-(2-phenylphenyl)thioxanthene-3-carboxamide) as a novel inhibitor of TASK-1

Ana Dumani; Annette Jacob; Diego Chavez; Abena Amankwaa; Ramish Zahed; Martha Julemis; Hinaben Patel; Joana Lopez; Steven Almazan; Patrick Martins; Anthony Contreras; Sofiia Korotka; Gianna Kiszka; Alexander Aleynik; Justin Patino; David Graham; Megan Blaisdell; Youssef Elhowary; Shuayb Yousuf; Chelsea Pelley; Jenna Marciano; Jessica Best; Rhustie Valdizno; Nikki Mastrodomenico; Jonelle Brown; Sarah Schwartz; Irene Anin; Yara Farrag; Rinchu George; Gianna Medeiros; Sophia Lang; Marilyn Dennis; Oluwatoni Awoleye; Lamont Lee; Ericka Salgado; Diana Figueroa Chea; Thomas Walter Comollo

doi:10.3389/fphar.2025.1577171

KU124 (9,10,10-trioxo-N-(2-phenylphenyl)thioxanthene-3-carboxamide) as a novel inhibitor of TASK-1

Front Pharmacol. 2025 Jun 25:16:1577171. doi: 10.3389/fphar.2025.1577171. eCollection 2025.

Authors

Ana Dumani^#¹, Annette Jacob^#¹, Diego Chavez^#¹, Abena Amankwaa^#¹, Ramish Zahed^#¹, Martha Julemis^#¹, Hinaben Patel^#¹, Joana Lopez^#¹, Steven Almazan^#¹, Patrick Martins^#¹, Anthony Contreras^#¹, Sofiia Korotka¹, Gianna Kiszka¹, Alexander Aleynik¹, Justin Patino¹, David Graham¹, Megan Blaisdell¹, Youssef Elhowary¹, Shuayb Yousuf¹, Chelsea Pelley¹, Jenna Marciano¹, Jessica Best¹, Rhustie Valdizno¹, Nikki Mastrodomenico¹, Jonelle Brown¹, Sarah Schwartz², Irene Anin¹, Yara Farrag¹, Rinchu George¹, Gianna Medeiros¹, Sophia Lang¹, Marilyn Dennis¹, Oluwatoni Awoleye¹, Lamont Lee¹, Ericka Salgado¹, Diana Figueroa Chea¹, Thomas Walter Comollo^{1

2}

Affiliations

¹ Kean University, Union, NJ, United States.
² Touro University, New York, NY, United States.

^# Contributed equally.

Abstract

TASK-1 is a two-pore K⁺ leak channel. The name, TASK-1, stands for TWIK-related acid-sensitive potassium channel 1, and this channel is encoded by the KCNK3 gene. TASK-1 channels are expressed in humans and modulate cell excitability in excitable cells such as neurons, cardiomyocytes, and vascular smooth muscle cells. TASK-1 inhibition is a mechanism of action for some respiratory stimulants, such as doxapram. TASK-1 channels have also been suggested to play a role in circumventing cell apoptosis in a population of non-small-cell lung cancer cells. We propose that the inner vestibule of the TASK-1 channel, a known binding site of known TASK-1 inhibitors, BAY10000493 and BAY2341237, can be exploited via virtual screening to find other novel TASK-1 inhibitors. Our results show that by targeting the inner vestibule site, we found an active TASK-1 inhibitor. We suspect that this region of interest can be further exploited to discover additional TASK-1 inhibitors. Our initial success lends validity to our virtual screening methodology and parameters. In this study, we identified a novel TASK-1 inhibitor, KU124, which we verified using an in vitro assay.

Keywords: KU124; TWIK-related acid-sensitive potassium channel 1; inhibitor; ion channel; molecular dynamics; thallium flux; two-pore potassium channel; virtual screening.

Copyright © 2025 Dumani, Jacob, Chavez, Amankwaa, Zahed, Julemis, Patel, Lopez, Almazan, Martins, Contreras, Korotka, Kiszka, Aleynik, Patino, Graham, Blaisdell, Elhowary, Yousuf, Pelley, Marciano, Best, Valdizno, Mastrodomenico, Brown, Schwartz, Anin, Farrag, George, Medeiros, Lang, Dennis, Awoleye, Lee, Salgado, Figueroa Chea and Comollo.