FINICI Unveils Hidden Enzyme Activity, Revolutionizing Drug Targeting Through Spatial Cell Imaging

July 15, 2026
FINICI Unveils Hidden Enzyme Activity, Revolutionizing Drug Targeting Through Spatial Cell Imaging
  • Using FINICI, the researchers observed bursts of Src kinase activity in small membrane regions, including cholesterol-rich lipid rafts, revealing spatially distinct signaling patterns not captured in whole-cell measurements.

  • FINICI lets researchers reuse existing negative biosensors without redesign, enhancing real-time observation of where biochemical events happen inside cells.

  • The overall findings show that where a molecule acts inside the cell is crucial for signaling outcomes and drug efficacy, with location-dependent enzyme activity shaping how targets influence pathways and therapeutic targeting.

  • Therapeutic targeting may hinge on the spatial residency of targets and their partners inside cells, underscoring the importance of subcellular localization in drug development.

  • FINICI, short for Fluctuation Increase Negated by Intra-Chain, enables visualization of previously hidden enzyme activities with high spatial resolution across small regions of whole cells.

  • The technique maps live-cell enzyme activity by turning negative readouts into positive signals, allowing existing biosensors to be used without redesign.

  • The study’s findings were published in the Proceedings of the National Academy of Sciences, highlighting the credibility and reach of the work.

  • The method imaged Src kinase, Syk kinase, and cGMP, uncovering localized activity: transient and persistent Src activity at the membrane, clustered and fast-disappearing cGMP signals, and Syk peaking near internal scaffolding.

  • Src kinase activity appeared in lipid rafts and multiple brief microdomains, while cGMP formed small clusters that quickly get overwhelmed as signaling spreads; Syk activity concentrated near intracellular scaffolding rather than receptors.

  • Spatial localization of signaling events can influence drug efficacy, offering important implications for understanding drug behavior and improving targeted therapies.

  • University of Illinois Chicago researchers unveiled FINICI, a new imaging method that converts negative biosensor signals into positive ones to visualize enzyme activity across the entire cell.

  • FINICI addresses prior issues of dim, inverted signals by making previously hidden reactions visible, enabling clearer mapping of where cellular signaling occurs.

Summary based on 4 sources


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