Two thulium-based ParaCEST responsive contrast agents, Tm-DOTAm-py and Tm-DOTAm-βAla-py, have been synthesized and evaluated for imaging copper and zinc. Unusual for responsive MRI contrast agents, both agents display a complete on/off response in the presence of transition metals. Both complexes function as paraCEST agents in the absence of copper and zinc, with the positively charged Tm-DOTAm-py being more sensitive than the neutrally charged Tm-DOTAm-βAla-py. In each case, the CEST signal arises from amide protons rather than from a water molecule coordinated to Tm3+ ions. Upon binding to Cu+, Cu2+, or Zn2+, the exchange rate of the amide protons increases substantially, resulting in a complete loss of the CEST signal. This efficient mode of action along with the lack of inner-sphere water molecules both in the presence and absence of transition metals was confirmed by 1/T1 NMRD profiles, 17O NMR measurements, and molecular modelling simulations. Neither complex is selective for copper over zinc. Both form either a 1 : 1 TmL : Cu+ or a 2 : 1 TmL : Cu2+ and TmL : Zn2+ complexes with binding affinities comparable to that of other responsive MRI contrast agents and sensitivity comparable to that of other CEST contrast agents.

Complete on/off responsive ParaCEST MRI contrast agents for copper and zinc

Botta, M;
2018-01-01

Abstract

Two thulium-based ParaCEST responsive contrast agents, Tm-DOTAm-py and Tm-DOTAm-βAla-py, have been synthesized and evaluated for imaging copper and zinc. Unusual for responsive MRI contrast agents, both agents display a complete on/off response in the presence of transition metals. Both complexes function as paraCEST agents in the absence of copper and zinc, with the positively charged Tm-DOTAm-py being more sensitive than the neutrally charged Tm-DOTAm-βAla-py. In each case, the CEST signal arises from amide protons rather than from a water molecule coordinated to Tm3+ ions. Upon binding to Cu+, Cu2+, or Zn2+, the exchange rate of the amide protons increases substantially, resulting in a complete loss of the CEST signal. This efficient mode of action along with the lack of inner-sphere water molecules both in the presence and absence of transition metals was confirmed by 1/T1 NMRD profiles, 17O NMR measurements, and molecular modelling simulations. Neither complex is selective for copper over zinc. Both form either a 1 : 1 TmL : Cu+ or a 2 : 1 TmL : Cu2+ and TmL : Zn2+ complexes with binding affinities comparable to that of other responsive MRI contrast agents and sensitivity comparable to that of other CEST contrast agents.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11579/97425
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