School Of Basic And Applied Sciences

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    Recent advances in understanding brain cancer metabolomics: a review
    (Springer, 2023-07-10T00:00:00) Mukherjee, Anirban Goutam; Gopalakrishnan, Abilash Valsala; Jayaraj, Rama; Ganesan, Raja; Renu, Kaviyarasi; Vellingiri, Balachandar; Dey, Abhijit; Parveen, Mohamudha
    Regardless of the significant progress made in surgical techniques and adjuvant therapies, brain tumors are a major contributor to cancer-related morbidity and mortality in both pediatric and adult populations. Gliomas represent a significant proportion of cerebral neoplasms, exhibiting diverse levels of malignancy. The etiology and mechanisms of resistance of this malignancy are inadequately comprehended, and the optimization of patient diagnosis and prognosis is a challenge due to the diversity of the disease and the restricted availability of therapeutic options. Metabolomics refers to the comprehensive analysis of endogenous and exogenous small molecules, both in a targeted and untargeted manner, that enables the characterization of an individual�s phenotype and offers valuable insights into cellular activity, particularly in the context of cancer biology, including brain tumor biology. Metabolomics has garnered attention in current years due to its potential to facilitate comprehension of the dynamic spatiotemporal regulatory network of enzymes and metabolites that enables cancer cells to adapt to their environment and foster the development of tumors. Metabolic changes are widely acknowledged as a significant characteristic for tracking the advancement of diseases, treatment efficacy, and identifying novel molecular targets for successful medical management. Metabolomics has emerged as an exciting area for personalized medicine and drug discovery, utilizing advanced analytical techniques such as nuclear magnetic resonance spectroscopy (MRS) and mass spectrometry (MS) to achieve high-throughput analysis. This review examines and highlights the latest developments in MRS, MS, and other technologies in studying human brain tumor metabolomics. � 2023, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
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    Dopamine, sleep, and neuronal excitability modulate amyloid-?-mediated forgetting in Drosophila
    (Public Library of Science, 2021-10-07T00:00:00) Kaldun, Jenifer C.; Lone, Shahnaz R.; Humbert Camps, Ana M.; Fritsch, Cornelia; Widmer, Yves F.; Stein, Jens V.; Tomchik, Seth M.; Sprecher, Simon G.
    Alzheimer disease (AD) is one of the main causes of age -related dementia and neurodegeneration. However, the onset of the disease and the mechanisms causing cognitive defects are not well understood. Aggregation of amyloidogenic peptides is a pathological hallmark of AD and is assumed to be a central component of the molecular disease pathways. Panneuronal expression of A?42 Arctic peptides in Drosophila melanogaster results in learning and memory defects. Surprisingly, targeted expression to the mushroom bodies, a center for olfactory memories in the fly brain, does not interfere with learning but accelerates forgetting. We show here that reducing neuronal excitability either by feeding Levetiracetam or silencing of neurons in the involved circuitry ameliorates the phenotype. Furthermore, inhibition of the Rac-regulated forgetting pathway could rescue the A?42 Arctic-mediated accelerated forgetting phenotype. Similar effects are achieved by increasing sleep, a critical regulator of neuronal homeostasis. Our results provide a functional framework connecting forgetting signaling and sleep, which are critical for regulating neuronal excitability and homeostasis and are therefore a promising mechanism to modulate forgetting caused by toxic A? peptides. � 2021 Kaldun et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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    Dysregulated miRNAs in Progression and Pathogenesis of Alzheimer�s Disease
    (Springer, 2022-07-22T00:00:00) Arora, Tania; Prashar, Vikash; Singh, Randeep; Barwal, Tushar Singh; Changotra, Harish; Sharma, Arti; Parkash, Jyoti
    Alzheimer�s disease (AD) is a progressive degeneration of neurons due to the accumulation of amyloid-? peptide (A?) and hyper-phosphorylation of tau protein in the neuronal milieu leading to increased oxidative stress and apoptosis. Numerous factors contribute towards the progression of AD, including miRNA, which are 22�24 nucleotides long sequence which acts as critical regulators of cellular processes by binding to 3? UTR of mRNA, regulating its expression post-transcriptionally. This review aims to determine the miRNA with the most significant dysregulation in the brain and cerebrospinal fluid (CSF) of human patients. A systemized inclusion/exclusion criterion has been utilized based on selected keywords followed by screening of those articles to conclude a list of 8 highly dysregulated miRNAs based on the fold change of AD vs control patients, which could be used in clinical testing as these miRNAs play central role in the pathophysiology of AD. Furthermore, a network study of highly dysregulated miRNA estimated the association of these miRNA in the mediation of A? generation and aggregation, inhibition of autophagy, reduction of A? clearance, microglial and astrocytic activation, neuro-inflammation, tau hyper-phosphorylation, and synaptic loss. � 2022, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.