Abstract
Exosomes are membrane-bound nanovesicles that are shed by cells of various lineages under normal as well as pathological conditions. Previously thought to be ‘extracellular debris’, exosomes have recently generated immense interest following their discovery as mediators of intercellular communication by delivering functional proteins, mRNA transcripts as well as miRNAs to recipient cells. Although suggested to primarily serve as signaling organelles which also remove unwanted cellular components in the brain, accumulating evidence suggests that exosomes can also significantly contribute to the development of several neuropathologies. Toxic forms of aggregated proteins such as α-synuclein, amyloid β and prions, that are responsible for the development of Parkinson’s disease, Alzheimer’s disease and Creutzfeldt-Jacob disease (CJD) respectively, have been shown to get effectively packaged into exosomes and spread from one cell to another, initiating an inflammatory cascade. In addition, exosomes secreted by resident brain cells in response to pathogenic stimuli such as viral proteins can also influence bystander cells by the transfer of dysregulated miRNAs that suppress the expression of essential genes in the recipient cells. Given the relevance of exosomes in brain communication and neuropathogenesis, novel therapeutic strategies are now being developed that exploit the biology of these vesicles to deliver anti-inflammatory molecules to the CNS. Exosomes may alter the way we think about brain disorders and their treatments.
Highlights
Disorders of the central nervous system (CNS) can arise from a variety of etiologies including neurodegeneration, autoimmunity and infection
Thought to be waste bags that carried unwanted proteins shed by cells, exosomes were only recently discovered to contain cellular proteins and mRNA transcripts as well as miRNA from the host cell
This review focuses on the current knowledge of exosomes in the pathogenesis of various CNS disorders, their potential to serve as therapeutic agents to treat neuroinflammation as well as biomarkers to diagnose various brain diseases
Summary
Disorders of the central nervous system (CNS) can arise from a variety of etiologies including neurodegeneration, autoimmunity and infection. Another significant observation in regard to the role of exosomes in the pathogenesis of prion disease was made by Bellingham and colleagues [19] They demonstrated that exosomes secreted by prion-infected neuronal cells have significantly altered miRNA content including elevated expression of several miRNAs associated with neurological disorders such as miRs-29b, 128a and 146a. Exosomes as biomarkers for neuroinflammation Changes in the cellular environment often impact the content of exosomes shed by the cell This phenomenon has the potential to extend the application of these nanovesicles as biomarkers for various pathological conditions wherein specific proteins/mRNAs and/or miRNAs that are altered in a diseased state can be detected in exosomes for early diagnosis. This variant of EGFR is specific to tumors and its specific detection only in vesicles isolated from cancer patients makes this transcript a good biomarker candidate
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