Your search keyword '"De, Archana"' showing total 4 results

1. pH-responsive targeted nanoparticles release ERK-inhibitor in the hypoxic zone and sensitize free gemcitabine in mutant K-Ras-addicted pancreatic cancer cells and mouse model.

Author

Dutta, Debasmita, Ray, Priyanka, De, Archana, Ghosh, Arnab, Hazra, Raj Shankar, Ghosh, Pratyusha, Banerjee, Snigdha, Diaz, Francisco J., Upadhyay, Sunil P., Quadir, Mohiuddin, and Banerjee, Sushanta K.

Subjects

PANCREATIC cancer, CANCER cells, LABORATORY mice, ANIMAL disease models, FREE ports & zones, OVALBUMINS, NANOMEDICINE

Abstract

Therapeutic options for managing Pancreatic ductal adenocarcinoma (PDAC), one of the deadliest types of aggressive malignancies, are limited and disappointing. Therefore, despite suboptimal clinical effects, gemcitabine (GEM) remains the first-line chemotherapeutic drug in the clinic for PDAC treatment. The therapeutic limitations of GEM are primarily due to poor bioavailability and the development of chemoresistance resulting from the addiction of mutant-K-RAS/AKT/ERK signaling-mediated desmoplastic barriers with a hypoxic microenvironment. Several new therapeutic approaches, including nanoparticle-assisted drug delivery, are being investigated by us and others. This study used pH-responsive nanoparticles encapsulated ERK inhibitor (SCH772984) and surface functionalized with tumor-penetrating peptide, iRGD, to target PDAC tumors. We used a small molecule, SCH772984, to target ERK1 and ERK2 in PDAC and other cancer cells. This nanocarrier efficiently released ERKi in hypoxic and low-pH environments. We also found that the free-GEM, which is functionally weak when combined with nanoencapsulated ERKi, led to significant synergistic treatment outcomes in vitro and in vivo. In particular, the combination approaches significantly enhanced the GEM effect in PDAC growth inhibition and prolonged survival of the animals in a genetically engineered KPC (LSL-KrasG12D/+/LSL-Trp53R172H/+/Pdx-1-Cre) pancreatic cancer mouse model, which is not observed in a single therapy. Mechanistically, we anticipate that the GEM efficacy was increased as ERKi blocks desmoplasia by impairing the production of desmoplastic regulatory factors in PDAC cells and KPC mouse tumors. Therefore, 2nd generation ERKi (SCH 772984)-iRGD-pHNPs are vital for the cellular response to GEM and denote a promising therapeutic target in PDAC with mutant K-RAS. [ABSTRACT FROM AUTHOR]

Published

2024

2. pH-responsive Targeted nanoparticles release ERK-inhibitor in the hypoxic zone Sensitizes Gemcitabine in Mutant K-Ras-addicted Pancreatic Cancer

Author

Dutta, Debasmita, primary, De, Archana, additional, Ghosh, Arnab, additional, Hazra, Raj Shankar, additional, Ghosh, Pratyusha, additional, Banerjee, Snigdha, additional, Diaz, Francisco J., additional, Upadhyay, Sunil P., additional, Quadir, Mohiuddin, additional, and Banerjee, Sushanta K, additional

Published

2023

3. Abstract 2701: pH-responsive targeted-nanoparticle releases encapsulated ERK-inhibitor effectively in the hypoxic microenvironment and sensitizes gemcitabine in pancreatic cancer cells

Author

Dutta, Debasmita, primary, De, Archana, additional, Hazra, Raj Shankar, additional, Ghosh, Pratyusha, additional, Quadir, Mohiuddin, additional, Banerjee, Snigdha, additional, and Banerjee, Sushanta K., additional

Published

2023

4. CCN5 Activation by free or encapsulated-EGCG is required to Render Triple-negative breast cancer cell Viability and Tumor Progression

Author

Das, Amlan, primary, Haque, Inamul, additional, Ray, Priyanka, additional, Ghosh, Arnab, additional, Dutta, Debasmita, additional, Quadir, Mohiuddin, additional, De, Archana, additional, Gunewardena, Sumedha, additional, Chatterjee, Indranil, additional, Banerjee, Snigdha, additional, Weir, Scott, additional, and Banerjee, Sushanta, additional

Published

2022