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find Keyword "Exosomes" 15 results
  • PROGRESS OF MESENCHYMAL STEM CELL-DERIVED Exosomes IN TISSUE REPAIR

    ObjectiveTo comprehensively analyze the recent advancements in the field of mesenchymal stem cells (MSCs) derived exosomes (MSCs-exosomes) in tissue repair. MethodsThe literature about MSCs-exosomes in tissue repair was reviewed and analyzed. ResultsExosomes are biologically active microvesicles released from MSCs which are loaded with functional proteins, RNA, and microRNA. Exosomes can inhibit apoptosis, stimulate proliferation, alter cell phenotype in tissue repair of several diseases through cell-to-cell communication. ConclusionMSCs-exosomes is a novel source for the treatment of tissue repair. Further research of MSCs-exosomes biofunction, paracellular transport, and treatment mechanism will help the transform to clinical application.

    Release date:2016-08-25 10:18 Export PDF Favorites Scan
  • RESEARCH PROGRESS OF MECHANISMS OF MESENCHYMAL STEM CELLS-DERIVED EXOSOMES IN TISSUE REPAIR

    ObjectiveTo review the mechanisms of bioactive substances of mesenchymal stem cells-derived exosomes (MEX) in tissue repair and analyze the therapeutic values of MEX. MethodRecent relevant literature about MEX for tissue repair was extensively reviewed and analyzed. ResultsThe diameter of exosomes ranges from 30 to 100 nm which contain an abundance of bioactive substances, such as mRNA, microRNA, and protein. The majority of the exact bioactive substances in MEX, which are therapeutically beneficial to a wide range of diseases, are still unclear. ConclusionsBioactive substances contained in the MEX have repairing effect in tissue injury, which could provide a new insight for the clinical treatment of tissue damage. However, further studies are required to investigate the individual differences of MEX and the possible risk of accelerating cancer progression of MEX.

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  • Effect of exosomes derived from human umbilical cord mesenchymal stem cells on the expression of vascular endothelial growth factor A in blue light injured human retinal pigment epithelial cells

    ObjectiveTo observe the effect of exosomes derived from human umbilical cord blood mesenchymal stem cells (hUCMSC) on the expression of vascular endothelial growth factor (VEGF) A in blue light injured human retinal pigment epithelial (RPE) cells. MethodshUCMSC were cultured with exo-free fetal bovine serum for 48 hours, and then the supernatants were collected to isolate and purify exosomes by gradient ultracentrifugation method. Transmission electron microscopy was used to identify the morphology of exosomes. Surface specific maker protein CD63 and CD90 were detected via Western blot. Cultured ARPE-19 cells were divided into normal control group, blue light injured group and hUCMSC exosomes treated group. Cells were exposed to the blue light at the intensity of (2000±500) Lux for 12 hours to establish the light injured models. The cells of hUCMSC exosomes treated group were treated by different concentrations of exosomes for 8, 16, 24 hours. The mRNA and protein of VEGF-A were determined by real time-polymerase chain reaction and Western blot. Immunofluorescence assay were used to detect the expression levels of VEGF-A. ResultshUCMSC exosomes were successfully isolated, they exhibited round or oval shape and their diameter ranged from 50 to 100 nm with membrane structure through electron microscope. hUCMSC exosomes expressed the common surface marker protein CD63 and the surface marker protein CD90 of hUCMSC. The protein and mRNA level of VEGF A in the blue light injured group increased significantly compared to that in normal control group (t=-16.553, -19.456; P < 0.05). After treating with low, middle and high concentration of hUCMSC exosomes for 8, 16 and 24 hours, the protein and mRNA level of VEGF A of injured RPE were significantly decreased (P < 0.05). With the treated time and concentration of hUCMSC exosomes improved, the protein and mRNA level of VEGF A of injured RPE gradually decreased (P < 0.05). Immunofluorescence assay showed the protein level of VEGF-A of injured RPE gradually decreased with the same concentration of hUCMSC exosomes treated over time. ConclusionhUCMSC exosomes can effectively down-regulate the mRNA and protein level of VEGF-A in blue light injured RPE, the effect depends on the concentration and treated time of hUCMSC exosomes.

    Release date:2016-11-25 01:11 Export PDF Favorites Scan
  • Influence of oxidative stress-induced exosomes on Akt and vascular endothelial growth factor-A of retinal pigment epithelium cells

    Objective To investigate the effects of exosomes from cultured human retinal pigment epithelium (ARPE-19) cells affected by oxidative stress on the proliferation and expression of vascular endothelial growth factor-A (VEGF-A) and Akt of ARPE-19 cells. Methods Culture ARPE-19 cells. The concentration of 2.5 μmol/L rotenone was selected to simulate oxidative stress and isolated ARPE-19-exosome. Exosomes were isolated by ExoQuick exosome precipitation solution. Transmission electron microscopy was used to identify the morphology of exosomes. Western blot was used to detect exosomes’ surface-specific maker protein CD63. ARPE-19 cells affected by oxidative stress were cultured with exosome as experimental group, normal ARPE-19 cells were cultured with exosome as control group. The cell proliferation was examined by methyl thiazolyl tetrazolium assay. Western blot and immunofluorescence assay were used to detect the expression levels of VEGF-A and Akt protein. Real-time quantitative polymerase chain reaction (RT-PCR) was used to detect the levels of VEGF-A mRNA and Akt mRNA. Results The diameter of normal ARPE-19-exosomes ranged from 50 to 150 nm. The isolated exosomes expressed CD63. AREP-19 cells were cultured with ARPE-19 (affected by rotenone)-exosome, the cell viability in experimental group was significantly reduced than in the control group. Green fluorescence was observed in the cytoplasm under fluorescence microscope. Compared with the control group, VEGF-A was up-regulated expressed and Akt was down-regulated expressed. Western blot results showed that, VEGF-A protein expression in the experimental group were higher than the control group. Akt protein expression in the experimental group were less than the control group. The difference was statically significant (t=3.822, 6.527;P<0.05). RT-PCR results showed that VEGF-A mRNA expression levels was higher in the experimental group than the control group. Akt mRNA expression levels was lower in the experimental group than the control group. The difference was statically significant (t=8.805, −7.823;P<0.05). Conclusions Exosomes from ARPE-19 cells affected by oxidative stress inhibit the proliferation of normal ARPE-19 cells, increase the expression of VEGF-A and reduce the expression of Akt.

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  • Blue light damaged-retinal pigment epithelial cell derived-exosomes activate nod-like receptor protein inflammasome

    ObjectiveTo observe the effect of exosomes secreted by retinal pigment epithelial (RPE) cells which damaged by blue light to Nod-like receptor protein (NLRP3).MethodsCultured ARPE-19 cells were divided into 2 groups; one group of RPE cells were exposed to blue light irradiation for 6 hours, the other group was cultured in routine environment. Total exosomes were extracted from the two groups by differential ultracentrifugation in low-temperature, and examined by transmission electron microscope to identify their forms. The exosomes were then incubated with normal ARPE-19 cells. The expression level of CD63, interleukin (IL)-1β, IL-18 and caspase-1 on the exosome surface were measured by Western blotting. The expressions of NLRP3 mRNA in RPE cells were detected by real-time fluorescence quantitative reverse transcription polymerase chain reaction (RT-PCR).ResultsBlue light damaged the cellular morphology. Transmission electron microscopy showed that the exosomes were 50-200nm in diameter and like double-concave disks. Blue light damaged cell-derived exosomes had significantly higher expression of IL-1β (t=18.04), IL-18 (t=12.55) and caspase-1 (t=14.70) than the control group (P<0.001). ARPE-19 cells cultured with blue light damaged cell-derived exosomes also had significantly higher expression of IL-1β (t=18.59), IL-18 (t=23.95) and caspase-1 (t=35.27) than control exosomes (P<0.001). RT-PCR showed that the relative expression of NLRP3 mRNA of PRE cells in experimental group and control group were 1.000±0.069 and 0.2±0.01, respectively, the difference was significant (t=12.20, P<0.001).ConclusionThe expression IL-1β, IL-18 and caspase-1 and NLRP3 mRNA were upregulated by exosomes secreted by blue light damaged-RPE cells.

    Release date:2017-09-19 03:09 Export PDF Favorites Scan
  • Effects of rat mesenchymal stem cell-derived exosomes on rat experimental autoimmune uveitis

    ObjectiveTo observe the effects of exosomes derived from rat mesenchymal stem cells (MSC-exosomes) on the rat experimental autoimmune uveitis (EAU) model.MethodsTwelve Lewis rats were randomly divided into experimental group and control group by random number table, with 6 rats in each group. Rats in the experimental group were established with EAU model, 100 μl of MSC-exosomes (50 μg) were periocular injected on the 9th day after modeling while the control rats were injected with the same volume of phosphate buffer. At different time points after modeling, the retinal structure was observed by hematoxylin and eosin (HE) staining, and the clinical and pathological manifestations were evaluated. T cells from the two groups were analyzed by flow cytometry. Immunohistochemical staining was used to observe the expression of macrophage surface marker CD68. The effect of MSC-exosomes on T cells was measured by lymphocyte proliferation assays. And flow cytometry was used to detect Th1, Th17 and regulatory T cells Variety. Electroretinogram (ERG) was used to evaluate the retinal function. Data were compared between the two groups using the t test.ResultsHE staining showed that the retina structure of the experimental group was more complete than that of the control group on the 15th day after modeling. Immunohistochemical staining showed that the positive expression of CD68 in the experimental group was significantly less than that in the control group. On the 15th day after modeling, the retinal pathological score of the experimental group was lower than that of the control group. On the 9th to 13th day after modeling, compared to the control group, the average clinical scores of the retina in the experimental group were lower, and the difference was statistically significant (t=3.665, 3.21, 3.181, 4.121, 3.227; P<0.01). The results of T cell proliferation assay showed that exosomes (1.0, 10.0 μg/ml) inhibited the proliferation of T cells under different concentrations of R16 (1, 10, 30 μg/ml), and the difference was statistically significant (F=11.630, 4.188, 6.011; P<0.05). The results of flow cytometry showed that the number of Th1, Th17 and Treg cell subsets in the experimental group was decreased compared with the control group, and the difference was statistically significant (t=7.374, 4.525, 6.910; P<0.01). There was no difference in the proportion of cells in the T cells and lymph nodes (t=1.126, 0.493, 0.178; P=0.286, 0.632, 0.862). The results of ERG showed that, compared with the control group, the amplitudes of 0.01, 3.0 cd/m2 a wave and b wave of the experiment group were all increased on the 15th day after modeling, and the differences were statistically significant (t=3.604, 4.178, 4.551, 2.566, P<0.05).ConclusionsMSC-exosomes can reduce the clinical and pathological manifestations of EAU, protect retinal function, reduce ocular macrophage infiltration, down-regulate the proportion of inflammatory cells in the eye, and inhibit T cell proliferation.

    Release date:2018-11-16 03:02 Export PDF Favorites Scan
  • The application progress of exosomes derived from mesenchymal stem cells in tissue regeneration of orthopedics

    Exosomes derived from mesenchymal stem cells are a class of discoid extracellular vesicles with a diameter of 40—100 nm discovered in recent years. They contain abundant nucleic acids, proteins and lipids, and have abundant biological information. Exosomes derived from mesenchymal stem cells regulate cell activities by acting on receptor cells, and promote regeneration of many tissues, such as bone, cartilage, skin, intervertebral disc, and spinal nerves. Studies have shown that exosomes derived from mesenchymal stem cells have similar biological functions as mesenchymal stem cells, and are more stable and easier to be preserved. Therefore, they have been increasingly applied in the field of orthopedic tissue repair in recent years. This paper reviews the application of exosomes derived from mesenchymal stem cells in orthopedics.

    Release date:2018-12-24 02:03 Export PDF Favorites Scan
  • Mesenchymal stem cells derived exosomes:an alternative drug carrier for eye disease

    Mesenchymal stem cells (MSCs) are considered as an ideal treatment for multiple diseases including ocular disease. Recent studies have demonstrated that MSCs-derived exosomes have similar functions with MSCs. Exosomes are nanovesicles surrounded by a phospholipid layer that shuttle active cargo between different cells. They are capable of passing the biological barrier and have potentials to be utilized as natural carrier for the ocular drug delivery.

    Release date:2019-03-18 02:49 Export PDF Favorites Scan
  • Circulating exosomal inflammation-related protein S100A8 as a potential biomarker for the severity of diabetic retinopathy

    ObjectiveTo observe the expression of S100A8 in plasma exosomes, microvesicles (MV), plasma and vitreous in patients with diabetic retinopathy (DR), and verify it in a diabetic rat model, and to preliminarily explore its role in the occurrence and development of DR.MethodsA case-control study. From September 2018 to December 2019, a total of 73 patients with type 2 diabetes, hospitalized patients undergoing vitrectomy, and healthy physical examinations in the Tianjin Medical University Eye Hospital were included in the study. Among them, plasma were collected from 32 patients and vitreous fluid were collected from 41 patients, which were divided into plasma sample research cohort and vitreous sample research cohort. The subjects were divided into simple diabetes group (DM group), non-proliferative DR group (NPDR group) and proliferative DR group (PDR group) without fundus changes; healthy subjects were regarded as normal control group (NC group). In the study cohort of vitreous samples, the control group was the vitreous humor of patients with epimacular membrane or macular hole. Plasma exosomes and microvesicles (MVs) were separated using ultracentrifugation. Transmission electron microscopy, nanometer particle size analyzer and Western blot (WB) were used to characterize exosomes and MVs. The mass concentration of S100A8 was determined by enzyme-linked immunosorbent assay. Eighteen healthy male Brown Norway rats were divided into normal control group and diabetic group with 9 rats in each group by random number table method. The rats of diabetes group were induced by streptozotocin to establish diabetic model. Five months after modeling, immunohistochemical staining and WB were used to detect the expression of S100A8 in the retina of rats in the normal control group and the diabetes group. t test was used for the comparison of measurement data between the two groups. Single-factor analysis of variance were used for the comparison of multiple groups of measurement data.parison of measurement data between the two groups. Single-factor analysis of variance were used for the comparison of multiple groups of measurement data.ResultsExosomes and MVs with their own characteristics were successfully separated from plasma. The concentrations of plasma exosomes and vitreous S100A8 in the PDR group were higher than those in the NPDR group, DM group, NC group, and the difference was statistically significant (P=0.039, 0.020, 0.002, 0.002, P<0.000,<0.000). In the plasma sample cohort study, It was not statistically significant that the overall comparison of the S100A8 mass concentrations of plasma and plasma MV in the four groups of subjects (F=0.283, 0.015; P=0.836, 0.996). Immunohistochemical staining showed that retinal ganglion cells, bipolar cells, cone rod cells and vascular endothelial cells in the diabetic group all expressed S100A8 protein. Compared with the normal control group, the expression level of S100A8 in the retina of the diabetic group increased, and the difference was statistically significant (t=8.028, P=0.001).ConclusionsThe level of S100A8 protein in circulating exosomes increases significantly with the severity of DR in patients with type 2 diabetes. S100A8 may be an influential factor in the inflammatory environment of DR and a potential anti-inflammatory therapeutic target.

    Release date:2021-02-05 03:22 Export PDF Favorites Scan
  • Research progress of exosomes in the treatment of retinal ischemia-reperfusion injury

    Exosomes are nanovesicles actively secreted by cells, which selectively encapsulate biologically active molecules such as proteins, RNA, and cytokines. They play an important role in intercellular communication, immune regulation, and maintenance of homeostasis, which can also be used as carriers for targeted drug delivery. Retinal ischemia-reperfusion injury (RIRI) is a retinopathy that seriously threatens human vision. At present, the clinical treatment of these diseases are symptomatic treatments, and some patients have poor efficacy or even blindness. As extracellular vesicles rich in functional proteins and RNAs, exosomes can not only be used as drugs for the treatment of RIRI, but also be used as carriers for drug delivery to play synergistic therapeutic effects. In the future, with the deepening of the research on the molecular structure, contents and biological functions of exosomes, as well as the continuous development of ophthalmic biology and genetic engineering technology, exosomes are expected to exert their great potential as therapeutic drugs and carriers, and become an important means of treating RIRI.

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