Clinical Theragnostic Signature of Extracellular Vesicles in Traumatic Brain Injury (TBI)

Dey, Anuvab; Ghosh, Subhrojyoti; Bhuniya, Tiyasa; Koley, Madhurima; Bera, Aishi; Guha, Sudeepta; Chakraborty, Kashmira; Muthu, Sathish; Gorai, Sukhamoy; Vorn, Rany; Vadivalagan, Chithravel; Anand, Krishnan

doi:10.1021/acschemneuro.3c00386

Cited by 5 publications

(3 citation statements)

References 124 publications

(274 reference statements)

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“…Notably, the exosomes from these cells are rich in miRNAs and proteins that support neuroregeneration, inhibit apoptosis and inflammation, provide antioxidant benefits, and repair the BBB [ 114 ]. Furthermore, these exosomes harbor miRNAs and proteins critical for synaptic plasticity and cognitive function enhancement [ 202 ], marking them as a potent strategy for cell-free regenerative medicine in CNS disorders.…”

Section: Applications Of Evs As Nanotheranostic Targets In Cnsmentioning

confidence: 99%

“…EVs present a natural and versatile option for this purpose. Because of the endogeneity of EVs, EV-based theranostics possess inherent biocompatibility and minimal immunogenicity compared to synthetic nanomaterials [202][203][204][205]. Their ability to cross the BBB and deliver a wide range of cargo, including proteins, lipids, nucleic acids, and drugs, makes them ideal for targeting CNS pathologies.…”

Section: Applications Of Evs As Nanotheranostic Targets In Cnsmentioning

confidence: 99%

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Extracellular vesicles as nanotheranostic platforms for targeted neurological disorder interventions

Choi,

Chen,

Goldston

et al. 2024

Nano Convergence

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Central Nervous System (CNS) disorders represent a profound public health challenge that affects millions of people around the world. Diseases such as Alzheimer’s disease (AD), Parkinson’s disease (PD), and traumatic brain injury (TBI) exemplify the complexities and diversities that complicate their early detection and the development of effective treatments. Amid these challenges, the emergence of nanotechnology and extracellular vesicles (EVs) signals a new dawn for treating and diagnosing CNS ailments. EVs are cellularly derived lipid bilayer nanosized particles that are pivotal in intercellular communication within the CNS and have the potential to revolutionize targeted therapeutic delivery and the identification of novel biomarkers. Integrating EVs with nanotechnology amplifies their diagnostic and therapeutic capabilities, opening new avenues for managing CNS diseases. This review focuses on examining the fascinating interplay between EVs and nanotechnology in CNS theranostics. Through highlighting the remarkable advancements and unique methodologies, we aim to offer valuable perspectives on how these approaches can bring about a revolutionary change in disease management. The objective is to harness the distinctive attributes of EVs and nanotechnology to forge personalized, efficient interventions for CNS disorders, thereby providing a beacon of hope for affected individuals. In short, the confluence of EVs and nanotechnology heralds a promising frontier for targeted and impactful treatments against CNS diseases, which continue to pose significant public health challenges. By focusing on personalized and powerful diagnostic and therapeutic methods, we might improve the quality of patients.

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Section: Applications Of Evs As Nanotheranostic Targets In Cnsmentioning

confidence: 99%

Section: Applications Of Evs As Nanotheranostic Targets In Cnsmentioning

confidence: 99%

Extracellular vesicles as nanotheranostic platforms for targeted neurological disorder interventions

Choi,

Chen,

Goldston

et al. 2024

Nano Convergence

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“…EVs, which are subdivided into three subtypes: microvesicles, exosomes, and apoptotic bodies, are a major constituent 2 of 23 of the cell secretome. EVs have the ability to circulate in the extracellular body fluid and modulate several biological processes and their associated pathways [4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Extracellular Vesicles in the Central Nervous System: A Novel Mechanism of Neuronal Cell Communication

Filannino,

Panaro,

Benameur

et al. 2024

IJMS

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Cell-to-cell communication is essential for the appropriate development and maintenance of homeostatic conditions in the central nervous system. Extracellular vesicles have recently come to the forefront of neuroscience as novel vehicles for the transfer of complex signals between neuronal cells. Extracellular vesicles are membrane-bound carriers packed with proteins, metabolites, and nucleic acids (including DNA, mRNA, and microRNAs) that contain the elements present in the cell they originate from. Since their discovery, extracellular vesicles have been studied extensively and have opened up new understanding of cell–cell communication; they may cross the blood–brain barrier in a bidirectional way from the bloodstream to the brain parenchyma and vice versa, and play a key role in brain–periphery communication in physiology as well as pathology. Neurons and glial cells in the central nervous system release extracellular vesicles to the interstitial fluid of the brain and spinal cord parenchyma. Extracellular vesicles contain proteins, nucleic acids, lipids, carbohydrates, and primary and secondary metabolites. that can be taken up by and modulate the behaviour of neighbouring recipient cells. The functions of extracellular vesicles have been extensively studied in the context of neurodegenerative diseases. The purpose of this review is to analyse the role extracellular vesicles extracellular vesicles in central nervous system cell communication, with particular emphasis on the contribution of extracellular vesicles from different central nervous system cell types in maintaining or altering central nervous system homeostasis.

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Emerging role and translational potential of small extracellular vesicles in neuroscience

Shanmugam,

Radhakrishnan,

Santosh

et al. 2024

Life Sciences

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Clinical Theragnostic Signature of Extracellular Vesicles in Traumatic Brain Injury (TBI)

Cited by 5 publications

References 124 publications

Extracellular vesicles as nanotheranostic platforms for targeted neurological disorder interventions

Extracellular vesicles as nanotheranostic platforms for targeted neurological disorder interventions

Extracellular Vesicles in the Central Nervous System: A Novel Mechanism of Neuronal Cell Communication

Emerging role and translational potential of small extracellular vesicles in neuroscience

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