Nirvika Paul scite author profile

Type 2 diabetes mellitus (T2DM) predominantly considered a metabolic disease is now being considered an inflammatory disease as well due to the involvement of meta-inflammation. Obesity-induced adipose tissue inflammation (ATI) is one of the earliest phenomena in the case of meta-inflammation, leading to the advent of insulin resistance (IR) and T2DM. The key events of ATI are orchestrated by macrophages, which aggravate the inflammatory state in the tissue upon activation, ultimately leading to systemic chronic low-grade inflammation and Non-Alcoholic Steatohepatitis (NASH) through the involvement of proinflammatory cytokines. The CD44 receptor on macrophages is overexpressed in ATI, NASH, and IR. Therefore, we developed a CD44 targeted Hyaluronic Acid functionalized Graphene Oxide Quantum Dots (GOQD-HA) nanocomposite for tissue-specific delivery of metformin. Metformin-loaded GOQD-HA (GOQD-HA-Met) successfully downregulated the expression of proinflammatory cytokines and restored antioxidant status at lower doses than free metformin in both palmitic acid-induced RAW264.7 cells and diet induced obese mice. Our study revealed that the GOQD-HA nanocarrier enhanced the efficacy of Metformin primarily by acting as a therapeutic agent apart from being a drug delivery platform. The therapeutic properties of GOQD-HA stem from both HA and GOQD having anti-inflammatory and antioxidant properties respectively. This study unravels the function of GOQD-HA as a targeted drug delivery option for metformin in meta-inflammation where the nanocarrier itself acts as a therapeutic agent. Graphical Abstract

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Bifenthrin disrupts cytochrome c oxidase activity and reduces mitochondrial DNA copy number through oxidative damage in pool barb (Puntius sophore)

Das

Bank

Chatterjee

et al. 2023

Chemosphere

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Analysis of DNMT1 gene variants in progression of neural tube defects—an in silico to in vitro approach

Sadhukhan

Paul

Ghosh

et al. 2022

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Neural tube defects (NTDs) are significant congenital deformities of the central nervous system among which spina bifida is the most common form that occurs due to defect in the neurulation process of embryogenesis. NTDs are among the most common type of birth defects occurring at a range of 0.5–10 in every 1,000 live births worldwide and are thought to have multifactorial etiology, including multigenetic and epigenetic notions. Epigenetic regulations control differential gene expression in normal and disease phenotypes. DNA methylation is a significant epigenetic process, guided by DNMT1, one of the most important maintenance methylating agents. However, the relationship between DNMT1 and NTDs had always been inconclusive and poorly understood. In this study, by utilizing in silico methodologies we tried to figure out potent single nucleotide variants (SNVs) that could play roles in generating functional differences in DNMT1 expression and we also tried to check (by in vitro method) if there is any connection between DNMT1 expression and spina bifida condition. A number of coding and non-coding (both intragenic and intergenic) SNVs of DNMT1 were found (using the in silico methods) that have potentials to alter its expression. From the in vitro experimentations, differential DNMT1 RNA expressions were found between spina bifida affected newborns and their respective mothers when compared with controls. It is the first report of NTD from Eastern India precisely showing inverse correlation between DNMT1 expression and occurrence of NTD. The findings of this study could be further considered for early prognosis and future experimental designs.

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Nirvika Paul

An Overview of Endocrine Disrupting Chemical Paraben and Search for An Alternative – A Review

Hyaluronic acid-graphene oxide quantum dots nanoconjugate as dual purpose drug delivery and therapeutic agent in meta-inflammation

Bifenthrin disrupts cytochrome c oxidase activity and reduces mitochondrial DNA copy number through oxidative damage in pool barb (Puntius sophore)

Analysis of DNMT1 gene variants in progression of neural tube defects—an in silico to in vitro approach

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