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Insights into real-time chemical processes in a calcium sensor protein-directed dynamic library

Author

Listed:
  • Andrea Canal-Martín

    (Centro de Investigaciones Biológicas, CIB-CSIC
    Universidad Complutense de Madrid)

  • Javier Sastre

    (Centro de Investigaciones Biológicas, CIB-CSIC)

  • María José Sánchez-Barrena

    (Instituto de Química Física Rocasolano, IQFR-CSIC)

  • Angeles Canales

    (Universidad Complutense de Madrid)

  • Sara Baldominos

    (Centro de Investigaciones Biológicas, CIB-CSIC)

  • Naiara Pascual

    (Centro de Investigaciones Biológicas, CIB-CSIC)

  • Loreto Martínez-González

    (Centro de Investigaciones Biológicas, CIB-CSIC)

  • Dolores Molero

    (CAI de RMN, Universidad Complutense de Madrid)

  • Mª Encarnación Fernández-Valle

    (CAI de RMN, Universidad Complutense de Madrid)

  • Elena Sáez

    (CAI de RMN, Universidad Complutense de Madrid)

  • Patricia Blanco-Gabella

    (Instituto de Química Física Rocasolano, IQFR-CSIC)

  • Elena Gómez-Rubio

    (Centro de Investigaciones Biológicas, CIB-CSIC)

  • Sonsoles Martín-Santamaría

    (Centro de Investigaciones Biológicas, CIB-CSIC)

  • Almudena Sáiz

    (Instituto Ramón y Cajal de Investigación Sanitaria. Ctra. Colmenar Viejo, km. 9100)

  • Alicia Mansilla

    (Instituto Ramón y Cajal de Investigación Sanitaria. Ctra. Colmenar Viejo, km. 9100)

  • F. Javier Cañada

    (Centro de Investigaciones Biológicas, CIB-CSIC)

  • Jesús Jiménez-Barbero

    (CIC bioGUNE)

  • Ana Martínez

    (Centro de Investigaciones Biológicas, CIB-CSIC)

  • Ruth Pérez-Fernández

    (Centro de Investigaciones Biológicas, CIB-CSIC)

Abstract

Dynamic combinatorial chemistry (DCC) has proven its potential in drug discovery speeding the identification of modulators of biological targets. However, the exchange chemistries typically take place under specific reaction conditions, with limited tools capable of operating under physiological parameters. Here we report a catalyzed protein-directed DCC working at low temperatures that allows the calcium sensor NCS-1 to find the best ligands in situ. Ultrafast NMR identifies the reaction intermediates of the acylhydrazone exchange, tracing the molecular assemblies and getting a real-time insight into the essence of DCC processes at physiological pH. Additionally, NMR, X-ray crystallography and computational methods are employed to elucidate structural and mechanistic aspects of the molecular recognition event. The DCC approach leads us to the identification of a compound stabilizing the NCS-1/Ric8a complex and whose therapeutic potential is proven in a Drosophila model of disease with synaptic alterations.

Suggested Citation

  • Andrea Canal-Martín & Javier Sastre & María José Sánchez-Barrena & Angeles Canales & Sara Baldominos & Naiara Pascual & Loreto Martínez-González & Dolores Molero & Mª Encarnación Fernández-Valle & Ele, 2019. "Insights into real-time chemical processes in a calcium sensor protein-directed dynamic library," Nature Communications, Nature, vol. 10(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-10627-w
    DOI: 10.1038/s41467-019-10627-w
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