Abstract
BODIPY dyes possess favorable optical properties for a variety of applications including in vivo and in vitro diagnostics. However, their utilization might be limited by their water insolubility and incompatibility with chemical modifications, resulting in low aggregation stability. Here, we outline the route for addressing this issue. We have demonstrated two approaches, based on dye entrapment in micellar coordination clusters (MCCs); this provides a general solution for water solubility as well as aggregation stability of the seven BODIPY derivatives. These derivatives have various bulky aromatic substituents in the 2,3,5,6- and meso-positions and can rotate relative to a dipyrrin core, which also provides molecular rotor properties. The molecular structural features and the presence of aromatic groups allows BODIPY dyes to be used as "supporting molecules", thus promoting micelle-micelle interaction and micellar network stabilization. In the second approach, self-micellization, following BODIPY use, leads to MCC formation without the use of any mediators, including chelators and/or metal ions. In both approaches, BODIPY exhibits an excellent optical response, at a concentration beyond its solubilization limit in aqueous media and without undesired crystallization. The suggested approaches represent systems used to encapsulate BODIPY in a capsule-based surfactant environment, enabling one to track the aggregation of BODIPY; these approaches represent an alternative system to study and apply BODIPY's molecular rotor properties. The stabilized compounds, i.e., the BODIPY-loaded MCCs, provide a unique feature of permeability to hydrophilic ligand-switching proteins such as BSA; they exhibit a bright “turn-on” fluorescence signal within the clusters via macromolecular complexation, thus expanding the possibilities of water-soluble BODIPY-loaded MCCs utilization for functional indicators.
Original language | English |
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Article number | 112532 |
Journal | Colloids and Surfaces B: Biointerfaces |
Volume | 216 |
DOIs | |
State | Published - Aug 2022 |
Externally published | Yes |
Bibliographical note
Publisher Copyright:© 2022 Elsevier B.V.
Funding
This work was supported by a Grant from the Government of the State of Israel No. 1504994 for research at Ariel University, Israel, 2014 ? 2015 (AS). The work was carried out with the partial financial support of the Russian Science Foundation project No. 19-73-10107 (acquiring BODIPY and spectral properties. BODIPY conjugation via clusterization. BODIPY aggregation in solution and clusters. YM, DM). US acknowledges financial support from the Gruber Foundation, the Nella and Leon Benoziyo Center for Neurological Diseases, Minerva Foundation, an Alon fellowship (Israeli Council for Higher Education). In addition, US thanks the Perlman family for funding the Shimanovich Lab at the Weizmann Institute of Science, Israel: "This research is made possible in part by the historic generosity of the Harold Perlman Family". This work was also supported by a research grant from the Anita James Rosen Foundation, Weizmann Institute of Science, Israel. The authors are grateful to Dr. Guy Patchornik (Department of Chemical Sciences, Ariel University, Israel) for his assistance, valuable comments, suggestions, and fruitful discussions. The authors are grateful to Steve Manch for editing the English in the manuscript. This work was supported by a Grant from the Government of the State of Israel No. 1504994 for research at Ariel University, Israel, 2014 – 2015 (AS). The work was carried out with the partial financial support of the Russian Science Foundation project No. 19-73-10107 (acquiring BODIPY and spectral properties. BODIPY conjugation via clusterization. BODIPY aggregation in solution and clusters. YM, DM). US acknowledges financial support from the Gruber Foundation, the Nella and Leon Benoziyo Center for Neurological Diseases, Minerva Foundation, an Alon fellowship (Israeli Council for Higher Education). In addition, US thanks the Perlman family for funding the Shimanovich Lab at the Weizmann Institute of Science, Israel: "This research is made possible in part by the historic generosity of the Harold Perlman Family". This work was also supported by a research grant from the Anita James Rosen Foundation, Weizmann Institute of Science, Israel. The authors are grateful to Dr. Guy Patchornik (Department of Chemical Sciences, Ariel University, Israel) for his assistance, valuable comments, suggestions, and fruitful discussions. The authors are grateful to Steve Manch for editing the English in the manuscript.
Funders | Funder number |
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Anita James Rosen Foundation | |
Department of Chemical Sciences | |
Government of the State of Israel | 1504994 |
Perlman family for funding the Shimanovich Lab | |
Weizmann Institute of Science, Israel | |
Gruber Foundation | |
Minerva Foundation | |
Council for Higher Education | |
Russian Science Foundation | 19-73-10107 |
Ariel University |
Keywords
- BODIPY dyes
- Encapsulation
- Micellar clusters
- Proteins
- Self-assembly
- Surfactants