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      Benchmarking a Microfluidic-Based Filtration for Isolating Biological Particles

      1 , 2
      Langmuir
      American Chemical Society (ACS)

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          Biogenesis, secretion, and intercellular interactions of exosomes and other extracellular vesicles.

          In the 1980s, exosomes were described as vesicles of endosomal origin secreted from reticulocytes. Interest increased around these extracellular vesicles, as they appeared to participate in several cellular processes. Exosomes bear proteins, lipids, and RNAs, mediating intercellular communication between different cell types in the body, and thus affecting normal and pathological conditions. Only recently, scientists acknowledged the difficulty of separating exosomes from other types of extracellular vesicles, which precludes a clear attribution of a particular function to the different types of secreted vesicles. To shed light into this complex but expanding field of science, this review focuses on the definition of exosomes and other secreted extracellular vesicles. Their biogenesis, their secretion, and their subsequent fate are discussed, as their functions rely on these important processes.
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            New Technologies for Analysis of Extracellular Vesicles

            Extracellular vesicles (EVs) are diverse, nanoscale membrane vesicles actively released by cells. Similar sized vesicles can be further classified ( e.g. , exosomes, microvesicles) based on their biogenesis, size and biophysical properties. Although initially thought to be cellular debris, and thus under-appreciated, EVs are now increasingly recognized as important vehicles of intercellular communication and circulating biomarkers for disease diagnoses and prognosis. Despite their clinical potential, the lack of sensitive preparatory and analytical technologies for EVs poses a barrier to clinical translation. New analytical platforms including molecular ones are thus actively being developed to address these challenges. Recent advances in the field are expected to have far-reaching impact in both basic and translational studies. This article aims to present a comprehensive and critical overview of emerging analytical technologies for EV detection, and their clinical applications.
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              Is Open Access

              Standardization of sample collection, isolation and analysis methods in extracellular vesicle research

              The emergence of publications on extracellular RNA (exRNA) and extracellular vesicles (EV) has highlighted the potential of these molecules and vehicles as biomarkers of disease and therapeutic targets. These findings have created a paradigm shift, most prominently in the field of oncology, prompting expanded interest in the field and dedication of funds for EV research. At the same time, understanding of EV subtypes, biogenesis, cargo and mechanisms of shuttling remains incomplete. The techniques that can be harnessed to address the many gaps in our current knowledge were the subject of a special workshop of the International Society for Extracellular Vesicles (ISEV) in New York City in October 2012. As part of the “ISEV Research Seminar: Analysis and Function of RNA in Extracellular Vesicles (evRNA)”, 6 round-table discussions were held to provide an evidence-based framework for isolation and analysis of EV, purification and analysis of associated RNA molecules, and molecular engineering of EV for therapeutic intervention. This article arises from the discussion of EV isolation and analysis at that meeting. The conclusions of the round table are supplemented with a review of published materials and our experience. Controversies and outstanding questions are identified that may inform future research and funding priorities. While we emphasize the need for standardization of specimen handling, appropriate normative controls, and isolation and analysis techniques to facilitate comparison of results, we also recognize that continual development and evaluation of techniques will be necessary as new knowledge is amassed. On many points, consensus has not yet been achieved and must be built through the reporting of well-controlled experiments.
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                Author and article information

                Contributors
                Journal
                Langmuir
                Langmuir
                American Chemical Society (ACS)
                0743-7463
                1520-5827
                February 08 2022
                January 18 2022
                February 08 2022
                : 38
                : 5
                : 1897-1909
                Affiliations
                [1 ]UNAM − National Nanotechnology Research Center, Bilkent University, 06800 Ankara, Turkey
                [2 ]Institute of Materials Science and Nanotechnology, Bilkent University, 06800 Ankara, Turkey
                Article
                10.1021/acs.langmuir.1c03119
                35041413
                fe461e98-e4cb-43a2-b987-7af3acc1013e
                © 2022

                https://doi.org/10.15223/policy-029

                https://doi.org/10.15223/policy-037

                https://doi.org/10.15223/policy-045

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