Photoactivatable prodrug for simultaneous release of mertansine and CO along with a BODIPY derivative as a luminescent marker in mitochondria: a proof of concept for NIR image-guided cancer therapy.
Rajeshwari TiwariPrashant S ShindeSreejesh SreedharanAnik Kumar DeyKatherine A VallisSantosh B MhaskeSumit Kumar PramanikAmitava DasPublished in: Chemical science (2020)
Controlled and efficient activation is the crucial aspect of designing an effective prodrug. Herein we demonstrate a proof of concept for a light activatable prodrug with desired organelle specificity. Mertansine, a benzoansamacrolide, is an efficient microtubule-targeting compound that binds at or near the vinblastine-binding site in the mitochondrial region to induce mitotic arrest and cell death through apoptosis. Despite its efficacy even in the nanomolar level, this has failed in stage 2 of human clinical trials owing to the lack of drug specificity and the deleterious systemic toxicity. To get around this problem, a recent trend is to develop an antibody-conjugatable maytansinoid with improved tumor/organelle-specificity and lesser systematic toxicity. Endogenous CO is recognized as a regulator of cellular function and for its obligatory role in cell apoptosis. CO blocks the proliferation of cancer cells and effector T cells, and the primary target is reported to be the mitochondria. We report herein a new mitochondria-specific prodrug conjugate (Pro-DC) that undergoes a photocleavage reaction on irradiation with a 400 nm source (1.0 mW cm-2) to induce a simultaneous release of the therapeutic components mertansine and CO along with a BODIPY derivative (BODIPY(PPH3)2) as a luminescent marker in the mitochondrial matrix. The efficacy of the process is demonstrated using MCF-7 cells and could effectively be visualized by probing the intracellular luminescence of BODIPY(PPH3)2. This provides a proof-of-concept for designing a prodrug for image-guided combination therapy for mainstream treatment of cancer.
Keyphrases
- cancer therapy
- cell death
- fluorescent probe
- cell cycle arrest
- oxidative stress
- drug delivery
- living cells
- quantum dots
- clinical trial
- drug release
- reactive oxygen species
- induced apoptosis
- dendritic cells
- photodynamic therapy
- endothelial cells
- endoplasmic reticulum
- single molecule
- sensitive detection
- endoplasmic reticulum stress
- cell proliferation
- squamous cell carcinoma
- study protocol
- light emitting
- regulatory t cells
- anti inflammatory
- energy transfer
- signaling pathway
- immune response
- young adults
- metal organic framework
- radiation therapy
- molecular dynamics simulations
- breast cancer cells
- structural basis
- squamous cell
- adverse drug