The novel quinoline derivative SKA-346 as a K Ca 3.1 channel selective activator

The novel quinoline derivative SKA-346 as a K Ca 3.1 channel selective activator

The calcium-activated K 3.1 channel plays a crucial role in T-cell immune response. Genetic manipulation of T-cells to upregulate the expression of K channels has been shown to boost T-cell cytotoxicity in cancer. Here, we aimed to identify and characterize an activator that would augment K 3.1 curr...

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Veröffentlicht in:RSC advances 2024-12, Vol.14 (52), p.38364
Hauptverfasser: Wong, Brandon Han Siang, Shim, Heesung, Goay, Stephanie Shee Min, Ong, Seow Theng, Muhammad Taib, Nur Ayuni Binte, Chai, Kelila Xin Ye, Lim, Kerry, Huang, Dachuan, Ong, Choon Kiat, Vaiyapuri, Thamil Selvan, Cheah, Yeong Cheng, Wang, Yulan, Wulff, Heike, Webster, Richard D, Shelat, Vishalkumar G, Verma, Navin Kumar
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container_end_page
container_issue 52
container_start_page 38364
container_title RSC advances
container_volume 14
creator Wong, Brandon Han Siang
Shim, Heesung
Goay, Stephanie Shee Min
Ong, Seow Theng
Muhammad Taib, Nur Ayuni Binte
Chai, Kelila Xin Ye
Lim, Kerry
Huang, Dachuan
Ong, Choon Kiat
Vaiyapuri, Thamil Selvan
Cheah, Yeong Cheng
Wang, Yulan
Wulff, Heike
Webster, Richard D
Shelat, Vishalkumar G
Verma, Navin Kumar
description The calcium-activated K 3.1 channel plays a crucial role in T-cell immune response. Genetic manipulation of T-cells to upregulate the expression of K channels has been shown to boost T-cell cytotoxicity in cancer. Here, we aimed to identify and characterize an activator that would augment K 3.1 currents without affecting other channels. We synthesized five quinoline derivatives and used electrophysiology to screen them on K 3.1 and a panel of 14 other ion channels. One quinoline derivative, SKA-346, activated K 3.1 with an EC of 1.9 μM and showed selectivity against the other channels. analysis using RosettaLigand and GLIDE demonstrated a well-converged pose of SKA-346 in a binding pocket at the interface between the calmodulin N-lobe and the S A helix in the S4-S5 linker of the K 3.1 channel. SKA-346 (30 mg kg ), tolerated by mice after intra-peritoneal administration, exhibited a peak plasma concentration of 6.29 μg mL (29.2 μM) at 15 min and a circulating half-life ( ) of 2.8 h. SKA-346 could serve as a template for the development of more potent K 3.1 activators to enhance T-cell cytotoxicity in cancer.
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Genetic manipulation of T-cells to upregulate the expression of K channels has been shown to boost T-cell cytotoxicity in cancer. Here, we aimed to identify and characterize an activator that would augment K 3.1 currents without affecting other channels. We synthesized five quinoline derivatives and used electrophysiology to screen them on K 3.1 and a panel of 14 other ion channels. One quinoline derivative, SKA-346, activated K 3.1 with an EC of 1.9 μM and showed selectivity against the other channels. analysis using RosettaLigand and GLIDE demonstrated a well-converged pose of SKA-346 in a binding pocket at the interface between the calmodulin N-lobe and the S A helix in the S4-S5 linker of the K 3.1 channel. SKA-346 (30 mg kg ), tolerated by mice after intra-peritoneal administration, exhibited a peak plasma concentration of 6.29 μg mL (29.2 μM) at 15 min and a circulating half-life ( ) of 2.8 h. 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title The novel quinoline derivative SKA-346 as a K Ca 3.1 channel selective activator
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