Moniba Rahim scite author profile

Autophagy is a process essential for cellular energy consumption, survival, and defense mechanisms. The role of autophagy in several types of human cancers has been explicitly explained; however, the underlying molecular mechanism of autophagy in glioblastoma remains ambiguous. Autophagy is thought to be a “double-edged sword”, and its effect on tumorigenesis varies with cell type. On the other hand, autophagy may play a significant role in the resistance mechanisms against various therapies. Therefore, it is of the utmost importance to gain insight into the molecular mechanisms deriving the autophagy-mediated therapeutic resistance and designing improved treatment strategies for glioblastoma. In this review, we discuss autophagy mechanisms, specifically its pro-survival and growth-suppressing mechanisms in glioblastomas. In addition, we try to shed some light on the autophagy-mediated activation of the cellular mechanisms supporting radioresistance and chemoresistance in glioblastoma. This review also highlights autophagy’s involvement in glioma stem cell behavior, underlining its role as a potential molecular target for therapeutic interventions.

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Nutratherapeutics approach against cancer: tomato‐mediated synthesised gold nanoparticles

Rahim

Iram

Syed

et al. 2017

IET nanobiotechnol.

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In this study, an eco-friendly biosynthesis of stable gold nanoparticles (T-GNPs) was carried out using different concentrations of tomato juice (nutraceuticals) as a reducing agent and tetrachloroauric acid as a metal precursor to explore their potential application in cancer therapeutics. The synthesis of T-GNPs was monitored by UV-visible absorption spectroscopy, which unveiled their formation by exhibiting the typical surface plasmon absorption maxima at 522 nm. The size of T-GNPs was found to be 10.86 ± 0.6 nm. T-GNPs were characterised by dynamic light scattering, zeta potential, transmission electron microscopy analysis and Fourier transform infrared spectroscopy. T-GNPs were further investigated for their anti-cancer activity against human lung carcinoma cell line (A 549) and human cervical cancer cell line wherein the IC 50 values were found to be 0.286 and 0.200 mM, respectively. T-GNPs inhibited the growth of cancer cells by generating ROS and inducing apoptosis. T-GNPs were found highly effective by virtue of their size, metallic property and capping molecules. Thus, this study opens up the prospects of using nutraceutical (tomato juice) as nutratherapeutic agent (T-GNPs) against critical diseases like lung cancer and cervical cancer.

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Interaction of green nanoparticles with cells and organs

Rahim

Rizvi

Iram

et al. 2018

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Unbuttoning the impact of N501Y mutant RBD on viral entry mechanism: A computational insight

Sharma

Baig

Rahim

et al. 2021

Preprint

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The ongoing coronavirus disease 2019 (COVID-19) pandemic has become a serious global threat. Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2), the virus responsible for this pandemic has imposed a severe burden on the medical settings. The spike (S) protein of SARS-CoV-2 is an important structural protein playing a key role in the viral entry. This protein is responsible for the receptor recognition and cell membrane fusion process. The recent reports of the appearance and spread of new SARS-CoV-2 strain has raised alarms. It was reported that this new variant containing the prominent active site mutation in the RBD (N501Y) was rapidly spreading within the population. The reported N501Y mutation within the spike’s essential part, known as the ‘receptor-binding domain’ has raised several questions. Here in this study we have tried to explore the effect of N501Y mutation within the spike protein using several in silico approaches

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Moniba Rahim

Glycation-assisted synthesized gold nanoparticles inhibit growth of bone cancer cells

Deciphering the Role of Autophagy in Treatment of Resistance Mechanisms in Glioblastoma

Nutratherapeutics approach against cancer: tomato‐mediated synthesised gold nanoparticles

Interaction of green nanoparticles with cells and organs

Unbuttoning the impact of N501Y mutant RBD on viral entry mechanism: A computational insight

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