Targeted drug delivery (TDD) is an efficient strategy for cancer treatment. However, the real‐time monitoring of drug delivery is still challenging because of a pronounced lack of TDD systems capable of providing a near‐infrared (NIR) fluorescence signal for the detection of drug‐release events. Herein, a new TDD system, comprising a turn‐on NIR fluorescent reporter attached to an anticancer drug and targeting peptide, is reported. This system provides both TDD and NIR fluorescence monitoring of drug‐release events in target tissue. In this TDD system, a new carboxy‐derivatized xanthene–cyanine (XCy) dye is attached to an anticancer drug, chlorambucil (CLB), through a hydrolytically cleavable ester linker and coupled to a targeting peptide, octreotide amide (OCTA), which is specific to somatostatin receptors SSTR‐2 and STTR‐5 overexpressed on many tumor cells. This OCTA‐G‐XCy‐CLB (G: γ‐aminobutyric acid) conjugate exhibits no detectable fluorescence, whereas, upon the hydrolytic cleavage of the ester linker, a bright NIR fluorescence appears at λ≈710 nm; this signals release of the drug. Real‐time TDD monitoring is demonstrated for the example of the human pancreatic cancer cell line overexpressing SSTR‐2 and STTR‐5, in comparison with the noncancerous Chinese hamster ovary cell line, which contains a reduced number of these receptors.
Novel theranostic system that first combines a cancer-targeting peptide with a long-wavelength dual fluorescent dye IRD in order to provide ratiometric monitoring of anticancer drug delivery is developed and evaluated in pancreatic cancer cell line.
Here we describe a simple fluorescent sensor based on intra molecular charge transfer to detect cyanide in aqueous media selectively with a very good detection limit and cascade recognition of aq. copper(ii) ions.
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