Andleeb Khan scite author profile

Exosomes are membrane-bound vesicles derived from multivesicular bodies that are externalized by cells through fusion with the plasma membrane. Exosomes have been implicated in cell-to-cell signaling, and those derived from immunologic cells may be involved in both direct and cross-presentation of antigens to T cells. The research presented here evaluated their efficacy as a prophylactic cancer vaccine in a mouse plasmacytoma model. Plasmacytoma cells were shown to release exosomes in vitro, and vaccination with a single dose (5 microg) of exosome protein protected 80% of mice against challenge with wild-type tumors. Protection could be linked to the immune system since vaccinated mice generated specific cytotoxic T lymphocytes, the effects were not seen in SCID mice, and immunity was tumor-specific. Several proteins involved in immunity, including two potential tumor antigens (P1A and intracisternal A particle protein) as well as Hsp70, were demonstrated to be present in exosomes. The authors conclude that exosomes can induce tumor-specific immunity and prevent tumor development and are a potential strategy for future therapeutic tumor vaccination.

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Neurological Manifestation of SARS-CoV-2 Induced Inflammation and Possible Therapeutic Strategies Against COVID-19

Kumar

Jahan

Khan

et al. 2021

Mol Neurobiol

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There are regular reports of extrapulmonary infections and manifestations related to the ongoing COVID-19 pandemic. Coronaviruses are potentially neurotropic, which renders neuronal tissue vulnerable to infection, especially in elderly individuals or in those with neuro-comorbid conditions. Complaints of ageusia, anosmia, myalgia, and headache; reports of diseases such as stroke, encephalopathy, seizure, and encephalitis; and loss of consciousness in patients with COVID-19 confirm the neuropathophysiological aspect of this disease. The brain is linked to pulmonary organs, physiologically through blood circulation, and functionally through the nervous system. The interdependence of these vital organs may further aggravate the pathophysiological aspects of COVID-19. The induction of a cytokine storm in systemic circulation can trigger a neuroinflammatory cascade, which can subsequently compromise the blood-brain barrier and activate microglia- and astrocyte-borne Toll-like receptors, thereby leading to neuronal tissue damage. Hence, a holistic approach should be adopted by healthcare professionals while treating COVID-19 patients with a history of neurodegenerative disorders, neuropsychological complications, or any other neuro-compromised conditions. Imperatively, vaccines are being developed at top priority to contain the spread of the severe acute respiratory syndrome coronavirus 2, and different vaccines are at different stages of development globally. This review discusses the concerns regarding the neuronal complications of COVID-19 and the possible mechanisms of amelioration.

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Phytotherapeutic agents for neurodegenerative disorders: A neuropharmacological review

Khan

Jahan

Alshahrani

et al. 2021

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Current nano-therapeutic approaches ameliorating inflammation in cancer progression

Rehman

Khan

Imtiyaz

et al. 2022

Seminars in Cancer Biology

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Treatment of Autism Spectrum Disorders by Mitochondrial-targeted Drug: Future of Neurological Diseases Therapeutics

Nabi

Rehman

Arafah

et al. 2023

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Abstracts: Autism is a neurodevelopmental disorder with a complex etiology that might involve environmental and genetic variables. Recently, some epidemiological studies conducted in various parts of the world have estimated a significant increase in the prevalence of autism, with 1 in every 59 children having some degree of autism. Since autism has been associated with other clinical abnormalities, there is every possibility that a sub-cellular component may be involved in the progression of autism. The organelle remains a focus based on mitochondria's functionality and metabolic role in cells. Furthermore, the mitochondrial genome is inherited maternally and has its DNA and organelle that remain actively involved during embryonic development; these characteristics have linked mitochondrial dysfunction to autism. Although rapid stride has been made in autism research, there are limited studies that have made particular emphasis on mitochondrial dysfunction and autism. Accumulating evidence from studies conducted at cellular and sub-cellular levels has indicated that mitochondrial dysfunction's role in autism is more than expected. The present review has attempted to describe the risk factors of autism, the role of mitochondria in the progression of the disease, oxidative damage as a trigger point to initiate mitochondrial damage, which manifests as Autism Spectrum Disorders (ASD), genetic determinants of the disease, possible pathogenic pathways and therapeutic regimen in vogue and the developmental stage. Furthermore, in the present review, an attempt has been made to include the novel therapeutic regimens under investigation at different clinical trial stages and their potential possibility to emerge as promising drugs against ASD.

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Andleeb Khan

Exosomes from Plasmacytoma Cells as a Tumor Vaccine

Neurological Manifestation of SARS-CoV-2 Induced Inflammation and Possible Therapeutic Strategies Against COVID-19

Phytotherapeutic agents for neurodegenerative disorders: A neuropharmacological review

Current nano-therapeutic approaches ameliorating inflammation in cancer progression

Treatment of Autism Spectrum Disorders by Mitochondrial-targeted Drug: Future of Neurological Diseases Therapeutics

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