Abstract
Fluorescent dyes absorbing and emitting in the visible and near-IR regions are promising for the development of fluorescent probes for labeling and bio-visualization of body cells. The ability to absorb and emit in the long-wavelength region increases the efficiency of recording the spectral signals of the probes due to the higher permeability of the skin layers. Compared to other fluorescent dyes, BODIPYs are attractive due to their excellent photophysical properties–narrow absorption and emission, intense fluorescence, simple signal modulation for the practical applications. As part of conjugates with biomolecules, BODIPY could act as a biomarker, but as therapeutic agent, which allows solving several problems at once-labeling or bioimaging and treatment based on the suppression of pathogenic microflora and cancer cells, which provides a huge potential for practical application of BODIPY conjugates in medicine. The review is devoted to the discussion of the recent, promising directions of BODIPY application in the field of conjugation with biomolecules. The first direction is associated with the development of BODIPY conjugates with drugs, including compounds of platinum, paclitaxel, chlorambucil, isoxazole, capsaicin, etc. The second direction is devoted to the labeling of vitamins, hormones, lipids, and other biomolecules to control the processes of their transport, localization in target cells, and metabolism. Within the framework of the third direction, the problem of obtaining functional optically active materials by conjugating BODIPY with other colored and fluorescent particles, in particular, phthalocyanines, is being solved.
Highlights
Research on the development and creation of theranostic drugs, that can perform two or more functions in living organisms: a colorimetric or fluorescent imager, marker, sensor, diagnostic, therapeutic, or transport agent are actively developed
Much less results were obtained for boron(III) dipyrromethenates (BODIPYs) bio-conjugates, which suppress the development of pathogenic microorganisms
The results indicate the practical potential of aza-BODIPY-antibody conjugates as promising fluorescent NIR-probes for visualizing in vivo with promising applications in surgery under fluorescence control
Summary
Research on the development and creation of theranostic drugs, that can perform two or more functions in living organisms: a colorimetric or fluorescent imager, marker, sensor, diagnostic, therapeutic, or transport agent are actively developed. The luminophor itself can perform the functions of a drug, for example, taking part in the destruction of cancer cells, acting as a PDT agent of I or II types This increases the effectiveness of an antitumor drug based on bio-conjugates in vitro and in vivo. One can control the most important properties of BODIPYs derivatives: high extinction coefficients and intense fluorescence in the visible and NIR spectral regions, high photo- and thermal stability. Due to their low cytotoxicity, alkyl-substituted BODIPYs are ideal agents for cell imaging and sensing. The review discusses the main examples of using BODIPY bio-conjugates with drugs, vitamins, hormones, steroids, lipids, and some other bioactive compounds, demonstrating broad prospects for using BODIPY conjugates in various fields of medicine and biochemistry
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
