Your search keyword '"Sunayana Baruah"' showing total 2 results

1. Multifunctional approach with LHRH-mediated PLGA nanoconjugate for site-specific codelivery of curcumin and BCL2 siRNA in mice lung cancer

Author

Madhuchandra Lahan, Trideep Saikia, Kalpajit Dutta, Rinku Baishya, Alakesh Bharali, Sunayana Baruah, Rituraj Bharadwaj, Subhash Medhi, and Bhanu P. Sahu

Subjects

Lung cancer, Targeted delivery, Curcumin, Drug resistance, Nanoconjugates, Therapeutics. Pharmacology, RM1-950, Pharmacy and materia medica, RS1-441

Abstract

Abstract Background Lung cancer remains a leading cancer type, but current chemotherapy is limited by issues including poor drug delivery, toxicity, and resistance. To address these challenges, we developed a novel PLGA-PEG-LHRH (PPL) nanoconjugate system for improved drug delivery. Curcumin, known for its anticancer and P-gp inhibition properties, was co-loaded with bcl2siRNA (bclsR) to inhibit the bcl2 protein, thus overcoming both resistance mechanisms. Results The PPL conjugate was successfully synthesized and characterized using FTIR, 1H NMR, XRD, XPS and BCA assay. Curcumin and bclsR-loaded PLGA nanoemulsions were prepared by double emulsion solvent evaporation method and characterized. The optimized nanoconjugate had size of 179 ± 16 nm, favorable zeta potential, high drug entrapment, and was confirmed via TEM. Controlled release studies indicated 83% drug release within 24 h. In vitro studies revealed significant cytotoxicity against A549 lung cancer cells, with the nanoconjugate showing IC50 of 8.24 µg/mL compared to 21.26 µg/mL for plain curcumin. Enhanced cellular uptake and effective targeting of A549 cells were observed. Molecular analyses demonstrated significant downregulation of MDR1 and Bcl2 RNA and protein expression, highlighting the nanoconjugates' ability to suppress resistance mechanisms. Pharmacokinetic studies in Wistar rats showed superior plasma drug concentrations, half-life, and AUC for the nanoconjugate versus pure drug suspension. Biodistribution studies showed increased drug accumulation in the lungs. In vivo efficacy studies in Balb/c mice demonstrated higher tumor inhibition ratios for CUR-siRNA PPL NPs (66.89%) and CUR-PPL NPs (59.84%) which was further confirmed with TNFα and p53 levels in blood. Histopathological studies showed good healing in the CUR-siRNA PPL NP- and CUR-PPL NP-treated mice compared to suspension. Conclusion From the study, it may be concluded that the PPL nanoconjugate system, loaded with curcumin and bcsR, can be potentially effective, multifunctional targeted approach for lung cancer therapy. Graphical Abstract

Published

2024

2. Hepatopathology of copper induced toxicity in ducks

Author

S. Goswami, Sunayana Baruah, D. Kalita, and Abdul Mukit

Subjects

medicine.medical_specialty, Pathology, Necrosis, Acid phosphatase, chemistry.chemical_element, Biology, Bone canaliculus, Group A, Copper, Group B, Endocrinology, chemistry, Internal medicine, Toxicity, medicine, biology.protein, Alkaline phosphatase, medicine.symptom

Abstract

The present work was designed to investigate the histological and histochemical changes in the liver of 3-month old domestic ducks following copper sulphate administration. Thirty ducks irrespective of sex were divided into three main groups. Group A (n=6) were administered 600mg/kg body weight of copper sulphate as single dose and Group B (n=18) were given a daily dose of 5mg/kg body weight for 12 weeks. Group C (n=6) served as control. The livers of the dead and sacrificed ducks of all the groups were processed for histological and histochemical study. Microscopically, liver of Group A and Group B ducks showed congestion, haemorrhages and necrosis of the hepatocytes with varying degrees of biliary epithelial cell proliferation. Enzymic activity of oxidoreductases showed decreased activity in the degenerated hepatocytes whereas increased activity in the proliferated biliary epithelial cells. Alkaline phosphatase showed increased activity in the bile canaliculi, sinusoids of the degenerated hepatocytes whereas decreased activity of acid phosphatase in the bile canaliculi of the degenerated hepatocytes. It was concluded the higher dose and repeated dosing of copper sulphate causes hepatic damage. This hepatotoxicity progressed with increasing cumulative doses of copper sulphate.

Published

2016