Debasmita Dutta scite author profile

Gingivo-buccal oral squamous cell carcinoma (OSCC-GB), an anatomical and clinical subtype of head and neck squamous cell carcinoma (HNSCC), is prevalent in regions where tobacco-chewing is common. Exome sequencing (n=50) and recurrence testing (n=60) reveals that some significantly and frequently altered genes are specific to OSCC-GB (USP9X, MLL4, ARID2, UNC13C and TRPM3), while some others are shared with HNSCC (for example, TP53, FAT1, CASP8, HRAS and NOTCH1). We also find new genes with recurrent amplifications (for example, DROSHA, YAP1) or homozygous deletions (for example, DDX3X) in OSCC-GB. We find a high proportion of C>G transversions among tobacco users with high numbers of mutations. Many pathways that are enriched for genomic alterations are specific to OSCC-GB. Our work reveals molecular subtypes with distinctive mutational profiles such as patients predominantly harbouring mutations in CASP8 with or without mutations in FAT1. Mean duration of disease-free survival is significantly elevated in some molecular subgroups. These findings open new avenues for biological characterization and exploration of therapies.

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A low temperature hydrogen sensor based on palladium nanoparticles

Gupta

Dutta

Kumar

et al. 2014

Sensors and Actuators B: Chemical

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pH-Sensitive Nanodrug Carriers for Codelivery of ERK Inhibitor and Gemcitabine Enhance the Inhibition of Tumor Growth in Pancreatic Cancer

et al. 2020

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Pancreatic ductal adenocarcinoma (PDAC), a metabolic disorder, remains one of the leading cancer mortality sources worldwide. An initial response to treatments, such as gemcitabine (GEM), is often followed by emergent resistance reflecting an urgent need for alternate therapies. The PDAC resistance to GEM could be due to ERK1/2 activity. However, successful ERKi therapy is hindered due to low ligand efficiency, poor drug delivery, and toxicity. In this study, to overcome these limitations, we have designed pH-responsive nanoparticles (pHNPs) with a size range of 100–150 nm for the simultaneous delivery of ERKi (SCH 772984) and GEM with tolerable doses. These pHNPs are polyethylene glycol (PEG)-containing amphiphilic polycarbonate block copolymers with tertiary amine side chains. They are systemically stable and capable of improving in vitro and in vivo drug delivery at the cellular environment’s acidic pH. The functional analysis indicates that the nanomolar doses of ERKi or GEM significantly decreased the 50% growth inhibition (IC50) of PDAC cells when encapsulated in pHNPs compared to free drugs. The combination of ERKi with GEM displayed a synergistic inhibitory effect. Unexpectedly, we uncover that the minimum effective dose of ERKi significantly promotes GEM activities on PDAC cells. Furthermore, we found that pHNP-encapsulated combination therapy of ERKi with GEM was superior to unencapsulated combination drug therapy. Our findings, thus, reveal a simple, yet efficient, drug delivery approach to overcome the limitations of ERKi for clinical applications and present a new model of sensitization of GEM by ERKi with no or minimal toxicity.

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Synthesis and biological evaluation of a novel betulinic acid derivative as an inducer of apoptosis in human colon carcinoma cells (HT-29)

Chakraborty

Dutta

Mukherjee

et al. 2015

European Journal of Medicinal Chemistry

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Aptamer-Conjugated Apigenin Nanoparticles To Target Colorectal Carcinoma: A Promising Safe Alternative of Colorectal Cancer Chemotherapy

Dutta

Chakraborty

Mukherjee

et al. 2018

ACS Appl. Bio Mater.

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Apigenin has gained interest recently among researchers as a potential chemotherapeutic agent in cancer, including colorectal cancer, due to its established antiproliferative activity in vitro. Despite its impressive anticancer activity in vitro, poor water solubility and nonspecific distribution in vivo make it difficult for its emergence as a drug candidate. To overcome these problems, we formulated an aptamer-conjugated apigenin-loaded nanoparticle (apt-ANP) to target against the overexpressed colorectal cancer cell surface biomarker epithelial cell adhesion molecule (EpCAM). Aptamer conjugation was conducted on the prepared nanoparticle, characterized (by SEM, TEM, and AFM) and evaluated for its antiproliferative activity toward in vitro colon carcinoma cells and in vivo colorectal cancer model. The aptamer-conjugated nanoformulation had an average size about 226 nm, smooth surface, satisfactory drug loading 17.5 ± 1.3%, and sustained drug-release pattern. The pharmacokinetic profile as well as the biodistribution study demonstrated a maximum retention of apt-ANP in the colon as compared to free drug and aptamer-free apigenin-loaded nanoparticle (ANP). Apt-ANP enhanced therapeutic efficacy to colorectal cancer cells, whereas it minimized off-target cytotoxicity to normal cells.

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Debasmita Dutta

Mutational landscape of gingivo-buccal oral squamous cell carcinoma reveals new recurrently-mutated genes and molecular subgroups

A low temperature hydrogen sensor based on palladium nanoparticles

pH-Sensitive Nanodrug Carriers for Codelivery of ERK Inhibitor and Gemcitabine Enhance the Inhibition of Tumor Growth in Pancreatic Cancer

Synthesis and biological evaluation of a novel betulinic acid derivative as an inducer of apoptosis in human colon carcinoma cells (HT-29)

Aptamer-Conjugated Apigenin Nanoparticles To Target Colorectal Carcinoma: A Promising Safe Alternative of Colorectal Cancer Chemotherapy

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