Sachin Chandran scite author profile

Polymeric nanoparticles represent a form of targeted therapy due to their ability to passively accumulate within the tumor interstitium via the enhanced permeability and retention (EPR) effect. We used a combined approach to decorate the surface of a nanoparticle with a urea-based small-molecule peptidomimetic inhibitor of prostate specific membrane antigen (PSMA). PSMA is expressed by normal and malignant prostate epithelial cells and by the neovasculature of almost all solid tumors. This strategy takes advantage of both the avidity of the functionalized nanoparticle for binding to PSMA and the ability of the nanoparticle to be retained for longer periods of time in the tumor due to enhanced leakage via EPR into the tumor interstitium. As an initial step to introducing the targeting moiety, the amino terminus of the small-molecule PSMA inhibitor was conjugated to PEG (M n 3400) bearing an activated carboxyl group to obtain a PEGylated inhibitor. Studies undertaken using a radiolabeled PSMA-substrate based assay established that the PEGylated inhibitor had an IC 50 value similar to the uncomplexed inhibitor. Subsequently, nanoparticles loaded with docetaxel were formulated using a mixture of poly(lactide-β-ethylene glycol-β-lactide) and PSMA-inhibitor bound α-amino-ω-hydroxy terminated poly (ethylene glycol-β-ε-caprolactone). In vitro studies using these nanoparticles demonstrated selective cytotoxicity against PSMA-producing cells. Binding of fluorescently labeled PSMA-targeted particles to PSMA-producing cells has also been directly observed using fluorescence microscopy and observed in secondary fashion using a PSMA substrate based enzyme inhibition assay. Ongoing in vivo studies address the localization, activity and toxicity of these targeted nanoparticles against PSMAproducing human prostate tumor xenografts.

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A prostate-specific antigen–activated N-(2-hydroxypropyl) methacrylamide copolymer prodrug as dual-targeted therapy for prostate cancer

Chandran

Nan

Rosen

et al. 2007

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Prostate cancer targeted peptide prodrugs that are activated by the serine protease activity of prostatespecific antigen (PSA) are under development in our laboratory. To enhance delivery and solubility of these prodrugs, macromolecular carriers consisting of N-(2-hydroxypropyl) methacrylamide (HPMA) -based copolymers were covalently coupled to a PSA-activated peptide prodrug. HPMA copolymers are water-soluble, nonimmunogenic synthetic carriers that exhibit promise for drug delivery applications. These macromolecular copolymers enter the interstitium of solid tumors by the enhanced permeability and retention effect. The PSA-activated peptide substrate imparts selectivity because it is specifically hydrolyzed to release a cytotoxin at the site of prostate tumor. Enzymatically active PSA is present in high amounts in the extracellular fluid of a tumor, but PSA is inactivated in blood by binding to serum protease inhibitors. As an initial proof of concept, the HPMA copolymer was synthesized with a peptide substrate (HSSKLQ) bound to a fluorophore, 7-amino-4-

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Extended‐release PEG–luciferin allows for long‐term imaging of firefly luciferase activity in vivo

2008

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Bioluminescence has gained favour in the last decade as an approach for observing tumours in vivo in a nondestructive manner. This very sensitive technique is based on light emission by the reaction of luciferin with the enzyme luciferase, as measured by a photodetector. Ever since the development of recombinant tumour cell lines that have been engineered to produce luciferase, a vast number of experiments have been carried out examining tumour growth, tumour metastasis and the effect of therapeutic regimens in such cases. A primary stumbling block, however, is the relatively short circulatory half-life of luciferin. In this paper, we propose the PEGylation of 6-amino-D-luciferin to extend its in vivo circulatory half-life, thus making the possibility of long-term observations in animals possible. The covalent attachment was through a carbamate linker that is known to hydrolyse in vivo, releasing the parent compound. Based on our studies, longer emission of the PEGylated luciferin was observed, as compared to free luciferin in mice bearing PC3 prostate tumours expressing luciferase. This result suggests that this reagent can be used in applications requiring extended monitoring of luciferase activation in vivo.

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A high-throughput spectrophotometric approach for evaluation of precipitation resistance

Chandran¹,

Gesenberg²,

Levons³

et al. 2011

Journal of Pharmaceutical and Biomedical Analysis

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Kerala Bird Atlas 2015–20: features, outcomes and implications of a citizen-science project

J¹,

Nameer²,

Jha³

et al. 2022

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Sachin Chandran

Characterization of a targeted nanoparticle functionalized with a urea-based inhibitor of prostate-specific membrane antigen (PSMA)

A prostate-specific antigen–activated N-(2-hydroxypropyl) methacrylamide copolymer prodrug as dual-targeted therapy for prostate cancer

Extended‐release PEG–luciferin allows for long‐term imaging of firefly luciferase activity in vivo

A high-throughput spectrophotometric approach for evaluation of precipitation resistance

Kerala Bird Atlas 2015–20: features, outcomes and implications of a citizen-science project

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