Maitreyi Rathod scite author profile

Since its first documentation, breast cancer (BC) has been a conundrum that ails millions of women every year. This cancer has been well studied by researchers all over the world, which has improved the patient outcome significantly. There are many diagnostic markers to identify the disease, but early detection and then subclassification of this cancer remain dubious. Even after the correct diagnosis, more than half the patients come back with a more aggressive and metastatic tumor. The underpinning mechanism that governs the resistance includes over-amplification of receptors, mutations in key gene targets, and activation of different signaling. A plethora of drugs have been devised that have shown promising results in clinical settings. However, in recent times, the role played by cancer stem cells in disease progression and their interaction in mediating the resistance to cellular insults have come into the limelight. As breast cancer stem cells (BCSCs) are dormant in nature, it is highly likely that they fail to directly respond to the cytotoxic drugs which are meant for ablating rapidly proliferating cells. Furthermore, the absence of well-characterized, drug-able surface markers to date, has limited the application of targeted therapies in complete eradication of the disease. In this review, our intent is to discuss versatile therapeutics in practice followed by discussing the upcoming therapy strategies in the pipeline for BC. Furthermore, we focus on the roles played by BCSCs in mediating the resistance, and therefore, the aspects of new therapeutics against BCSCs under development that may ease the burden in future has also been discussed.

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Intravitreal galactose conjugated polymeric nanoparticles of etoposide for retinoblastoma

Godse

Rathod

et al. 2021

Journal of Drug Delivery Science and Technology

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Reporter-Based BRET Sensors for Measuring Biological Functions In Vivo

Rathod

Mal

2018

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Genetic reporter systems provide a good alternative to monitor cellular functions in vitro and in vivo and are contributing immensely in experimental research. Reporters like fluorescence and bioluminescence genes, which support optical measurements, provide exquisite sensitivity to the assay systems. In recent years several activatable strategies have been developed, which can relay specialized molecular functions from inside the cells. The application of bioluminescence resonance energy transfer (BRET) is one such strategy that has been proved to be extremely valuable as an in vitro or in vivo assay to measure dynamic events such as protein-protein interactions (PPIs).The BRET assay using RLuc-YFP was introduced in biological research in the late 1990s and demonstrated the interaction of two proteins involved in circadian rhythm. Since then, BRET has become a popular genetic reporter-based assay for PPI studies due to several inherent attributes that facilitate high-throughput assay development such as rapid and fairly sensitive ratio-metric measurement, the assessment of PPI irrespective of protein location in cellular compartment and cost effectiveness. In BRET-based screening, within a defined proximity range of 10-100 Å, the excited energy state of the luminescent molecule excites the acceptor fluorophore in the form of resonance energy transfer, causing it to emit at its characteristic emission wavelength. Based on this principle, several such donor-acceptor pairs, using Renilla luciferase or its mutants as donor and either GFP2, YFP, mOrange, TagRFP or TurboFP as acceptor, have been reported for use.In recent years, the applicability of BRET has been greatly enhanced by the adaptation of the assay to multiple detection devices such as a luminescence plate reader, a bioluminescence microscope and a small animal optical imaging platform. Apart from quantitative measurement studies of PPIs and protein dimerization, molecular spectral imaging has expanded the scope for fast screening of pharmacological compounds that modulate PPIs by unifying in vitro, live cell and in vivo animal/plant measurement, all using one assay. Using examples from the literature, we will describe methods to perform in vitro and in vivo BRET imaging experiments and some of its applications.

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Maitreyi Rathod

<p>Targeting stem cells in the realm of drug-resistant breast cancer</p>

Intravitreal galactose conjugated polymeric nanoparticles of etoposide for retinoblastoma

Reporter-Based BRET Sensors for Measuring Biological Functions In Vivo

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