Santangelo Maria Chiara, Lucchesi Leonardo, Papa Leonardo, Rossi Annachiara, Egizzo Gaia, Fratello Giusy Laura, Favero Lucilla, Pineschi Mauro, Di Bussolo Valeria, Di Pietro Sebastiano
Dipartimento di Farmacia, Università di Pisa, Via Bonanno 33, Pisa, 56126, Italia.
Dipartimento di Biotecnologie, Chimica e Farmacia, dell'Università di Siena, Via Aldo Moro 2, 53100, Siena, Italia.
Mini Rev Med Chem. 2025;25(7):505-520. doi: 10.2174/0113895575350677250101060606.
Luminescent Lanthanide (III) (Ln (III)) bioprobes (LLBs) have been extensively used in the last two decades as intracellular molecular probes in bio-imaging for the efficient revelation of analytes, to signal intracellular events (enzymes/protein activity, antigen-antibody interaction), target specific organelles, and determine parameters of particular biophysical interest, to gain important insights on pathologies or diseases. The choice of using a luminescent Ln (III) coordination compound with respect to a common organic fluorophore is intimately connected to how their photophysical sensitization (antenna effect) can be finely tuned and especially triggered to respond (even quantitatively) to a certain biophysical event, condition or analyte. While there are other reviews focused on how to design chromophoric ligands for an efficient sensitization of Ln (III) ions, both in the visible and NIR region, this mini-review is application-driven: it is a small collection of particularly interesting examples where the LLB's emissive information is acquired by imaging the emission intensity and/or the fluorescence lifetime (fluorescence lifetime imaging microscopy, FLIM).
在过去二十年中,发光镧系元素(III)(Ln(III))生物探针(LLBs)作为细胞内分子探针广泛应用于生物成像,用于有效揭示分析物、标记细胞内事件(酶/蛋白质活性、抗原-抗体相互作用)、靶向特定细胞器以及确定具有特定生物物理意义的参数,以深入了解病理学或疾病。相对于普通有机荧光团,选择使用发光Ln(III)配位化合物与如何精细调节其光物理敏化(天线效应)密切相关,特别是如何触发其对特定生物物理事件、条件或分析物做出响应(甚至定量响应)。虽然有其他综述关注如何设计发色配体以在可见光和近红外区域有效敏化Ln(III)离子,但本综述是应用驱动型的:它收集了一些特别有趣的例子,其中通过对发射强度和/或荧光寿命进行成像(荧光寿命成像显微镜,FLIM)来获取LLB的发射信息。
