Bioelectrosynthesis of Signaling Molecules for Selective Modulation of Cell Signaling
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2025-08-12 14:18:41|
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ㅇ [Title] Bioelectrosynthesis of Signaling Molecules for Selective Modulation of Cell Signaling
ㅇ [Journal]Angewandte Chemie
ㅇ [Author] Myeongeun Lee+, Jaewoong Lee+, Yongha Kim, Changho Lee, Sang Yeon Oh, Jihan Kim, and Jimin Park*
ㅇ [Abstrct]
Bioelectrosynthesis holds great potential for studying and regulating biological systems through the in situ synthesis and delivery of cell signaling molecules with high spatiotemporal
precision. Despite recent advancements, precise control over multiple signaling molecules within a single platform remains challenging. Here, we introduce a bioelectrosynthesis
approach capable of selectively producing two types of signaling molecules from a single precursor. This system leverages multi-metal sulfide electrocatalysts inspired by denitrifying
enzymes, which generate signaling molecules, nitric oxide (NO), and ammonia (NH3) from nitrite ions. By controlling catalytic active sites, NO or NH3can be selectively produced under
mild electric fields in physiologically relevant conditions. In situ product analyses and first-principles calculations reveal that NO intermediate binding affinity determines product
selectivity. These electrocatalysts integrate seamlessly with biological systems, allowing precise, on-demand modulation of NO- or NH3-mediated signaling pathways in human cell lines.
By combining electrochemical precision with selective cell control, this strategy may advance the study and regulation of biological systems.
