Dmitry V. Isakov scite author profile

The presence of high-avidity CTLs in the right compartment can greatly affect clearance of a virus infection (for example, AIDS viral infection of and dissemination from mucosa). Comparing mucosal vs systemic immunization, we observed a novel compartmentalization of CTL avidity and proportion of functionally active Ag-specific CD8+ T cells to tissues proximal to sites of immunization. Whereas both s.c. and intrarectal routes of immunization induced tetramer+ cells in the spleen and gut, the mucosal vaccine induced a higher percentage of functioning IFN-γ+ Ag-specific CD8+ T cells in the gut mucosa in mice. Translating to the CD8+ CTL avidity distribution in rhesus macaques, intrarectal vaccination induced more high-avidity mucosal CTL than s.c. vaccination and protection of mucosal CD4+ T cells from AIDS viral depletion, whereas systemic immunization induced higher avidity IFN-γ-secreting cells in the draining lymph nodes but no protection of mucosal CD4+ T cells, after mucosal challenge with pathogenic simian/human immunodeficiency virus. Mucosal CD4+ T cell loss is an early critical step in AIDS pathogenesis. The preservation of CD4+ T cells in colonic lamina propria and the reduction of virus in the intestine correlated better with high-avidity mucosal CTL induced by the mucosal AIDS vaccine. This preferential localization of high-avidity CTL may explain previous differences in vaccination results and may guide future vaccination strategy.

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Heterogeneity of the nucleic acid repertoire of plasma extracellular vesicles demonstrated using high‐sensitivity fluorescence‐activated sorting

Кондратов

Nikitin

Федоров

et al. 2020

J of Extracellular Vesicle

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The aim of this study was to investigate cell source-dependent nucleic acids repertoire of diverse subpopulations of plasma extracellular vesicles (EVs). Blood plasma from nine healthy volunteers was used for the analysis. Samples of EVs were obtained by differential centrifugation of plasma. The application of high-sensitivity fluorescence-activated vesicles sorting (hs-FAVS) using fluorophore-conjugated anti-CD41-FITC (Fluorescein isothiocyanate) and anti-CD235a-PE antibodies allowed the isolation of three subpopulations of EVs, namely CD41+ CD235a-, CD41-CD235a+ and CD41-CD235a dim. The high purity (>97%) of the sorted subpopulations was verified by highsensitivity flow cytometry. Presence of nanosized objects in sorted samples was confirmed by combination of low-voltage scanning electron microscopy and dynamic light scattering. The amount of material in sorted samples was enough to perform Quantitative polymerase chain reaction (qPCR)-based nucleic acid quantification. The most prominent differences in the nucleic acid repertoire were noted between CD41+ CD235-vs. CD41-CD235a+ vesicles: the former contained significantly (p = 0.004) higher amount of mitochondrial DNA, and platelet enriched miR-21-5p (4-fold), miR-223-3p (38-fold) and miR-199a-3p (187-fold), but lower amount of erythrocyte enriched miR-451a (90-fold). CD41-CD235a+ and CD41-CD235a dim vesicles differed in levels of miR-451a (p = 0.016) and miR-21-5p (p = 0.031). Nuclear DNA was below the limit of detection in all EV subpopulations. The hs-FCM-based determination of the number of sorted EVs allowed the calculation of per single-event miRNA concentrations. It was demonstrated that the most abundant marker in CD41+ CD235a-subpopulation was miR-223-3p, reaching 38.2 molecules per event. In the CD41-CD235+ subpopulation, the most abundant marker was miR-451a, reaching 24.7 molecules per event. Taken together, our findings indicate that erythrocyte-and platelet-derived EVs carry different repertoires of nucleic acids, which were similar to the composition of their cellular sources.

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Dmitry V. Isakov

A Novel Functional CTL Avidity/Activity Compartmentalization to the Site of Mucosal Immunization Contributes to Protection of Macaques against Simian/Human Immunodeficiency Viral Depletion of Mucosal CD4+ T Cells

Heterogeneity of the nucleic acid repertoire of plasma extracellular vesicles demonstrated using high‐sensitivity fluorescence‐activated sorting

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