Luminescent Peptide/Lanthanide(III) Complex Conjugates with Push-Pull Antennas: Application to One- and Two-Photon Microscopy Imaging.
Ji-Hyung ChoiGuillaume FremyThibault CharnayNour FayadJacques PécautSule ErbekNiko HildebrandtVéronique FrachetAlexei GrichineOlivier SénèquePublished in: Inorganic chemistry (2022)
Lanthanide(III) (Ln 3+ ) complexes feature desirable luminescence properties for cell microscopy imaging, but cytosolic delivery of Ln 3+ complexes and their use for 2P imaging of live cells are challenging. In this article, we describe the synthesis and spectroscopic characterizations of a series of Ln 3+ complexes based on two ligands, L1 and L2 , featuring extended picolinate push-pull antennas for longer wavelength absorption and 2P absorption properties as well as a free carboxylate function for conjugation to peptides. Several cell penetrating peptide/Ln 3+ complex conjugates were then prepared with the most interesting luminescent complexes, Tb( L1 ) and Eu( L2 ), and with two cell penetrating peptides (CPPs), ZF5.3 and TP2. A spectroscopic analysis demonstrates that the luminescence properties of the complexes are not affected by conjugation to the peptide. The conjugates were evaluated for one-photon (1P) time-gated microscopy imaging, which suppresses biological background fluorescence, and 2P confocal microscopy. Whereas TP2-based conjugates were unable to enter cells, successful 1P and 2P imaging was performed with ZF5.3[Tb(L1)] . 2P confocal imaging suggests proper internalization and cytosolic delivery as expected for this CPP. Noteworthy, 2P confocal microscopy also allowed characterization of the luminescence properties of the complex (spectrum, lifetime) within the cell, opening the way to functional luminescent probes for 2P confocal imaging of live cells.
Keyphrases
- high resolution
- single molecule
- quantum dots
- induced apoptosis
- single cell
- energy transfer
- cell therapy
- optical coherence tomography
- stem cells
- fluorescence imaging
- oxidative stress
- cell cycle arrest
- high throughput
- small molecule
- mass spectrometry
- metal organic framework
- drug delivery
- photodynamic therapy
- molecular docking
- living cells
- deep learning
- amino acid
- molecular dynamics simulations