Ionic pyridinium-oxazole dyads: design, synthesis, and application in mitochondrial imaging
Title | Ionic pyridinium-oxazole dyads: design, synthesis, and application in mitochondrial imaging |
Publication Type | Journal Article |
Year of Publication | 2019 |
Authors | Shaikh, AC, Varma, ME, Mule, RD, Banerjee, S, Kulkarni, PP, Patil, NT |
Journal | Journal of Organic Chemistry |
Volume | 84 |
Issue | 4 |
Pagination | 1766-1777 |
Date Published | FEB |
Type of Article | Article |
ISSN | 0022-3263 |
Abstract | We recently developed an oxidative intramolecular 1,2-amino-oxygenation reaction, combining gold(I)/gold(III) catalysis, for accessing structurally unique ionic pyridinium-oxazole dyads (PODs) with tunable emission wavelengths. On further investigation, these fluorophores turned out to be potential biomarkers; in particular, the one containing -NMe2 functionality (NMe2-POD) was highly selective for mitochondrial imaging. Of note, because of mitochondria's involvement in early-stage apoptosis and degenerative conditions, tracking the dynamics of mitochondrial morphology with such imaging technology has attracted much interest. Along this line, we wanted to build a library of such PODs which are potential mitochondria trackers. However, Au/Selecfluor, our first-generation catalyst system, suffers from undesired fluorination of electronically rich PODs resulting in an inseparable mixture (1:1) of the PODs and their fluorinated derivatives. In our attempt to search for a better alternative to circumvent this issue, we developed a second-generation approach for the synthesis of PODs by employing Cu(II)/PhI(OAC)(2)-mediated oxidative 1,2-amino-oxygenation of alkynes. Thes newly synthesized PODs exhibit tunable emissions as well as excellent quantum efficiency up to 0.96. Further, this powerful process gives rapid access to a library of NMe2-PODs which are potential mitochondrial imaging agents. Out of the library, the randomly chosen POD-3g was studied for cell-imaging experiments which showed high mitochondrial specificity, superior photostability, and appreciable tolerance to microenvironment changes with respect to commercially available MitoTracker green. |
DOI | 10.1021/acs.joc.8b02528 |
Type of Journal (Indian or Foreign) | Foreign |
Impact Factor (IF) | 4.745 |
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