Translational research : the journal of laboratory and clinical medicine
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Tunneling nanotubes (TnTs) represent a novel mechanism by which intercellular components such as proteins, Golgi vesicles, and mitochondria can be transferred from cell to cell in the complex tumor microenvironment. Here, we report data showing that microRNAs (miRNAs) are transferred through TnTs in osteosarcoma (OS) and ovarian cancer as in vitro model systems. miRNA array analysis demonstrated significant upregulation of miR-19a in OS tumors resected from human patients, and differential expression of miR-199a in ovarian cancer cell lines resistant or sensitive to platinum chemotherapy. K7M2 murine OS cells were transfected with miR-19a and cultured with nontransfected K7M2 cells in low-serum, hyperglycemic medium for up to 72 hours to induce TnT formation. miRNA transfer via TnTs was detected by time-lapse microscopic imaging. miR-19a was also transported via TnTs connecting transfected K7M2 cells and nontransfected stromal MC3T3 murine osteoblast cells. ⋯ To quantify TnT-mediated transport of miRNAs, we used modified Boyden chambers to separate miR-19a-transfected K7M2 cells (top chamber) and DiI-labeled MC3T3 cells (bottom chamber) compared with open culture of these cells. Fluorescence-activated cell sorting analysis of cells collected after 48 hours of culture indicated that miR-19a-positive MC3T3 cells were 3-fold higher in open culture; this finding suggests that miR-19a transfer occurred via TnTs, exclusive of other forms of cell-cell communication. These studies demonstrate that TnTs mediate direct transfer of genetic material between tumor and stromal cells.
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We have shown that Goto-Kakizaki (GK) rats, a lean model of type 2 diabetes, develop significant cerebrovascular remodeling by the age of 18 weeks, which is characterized by increased media thickness and matrix deposition. Although early glycemic control prevents diabetes-mediated remodeling of the cerebrovasculature, whether the remodeling can be reversed is unknown. Given that angiotensin II type 1 receptor blockers reverse pathologic vascular remodeling and function independent of changes in blood pressure in other vascular beds, we hypothesized that azilsartan medoxomil, a new angiotensin II type 1 receptor blocker, is vasculoprotective by preventing and reversing cerebrovascular remodeling in diabetes. ⋯ Azilsartan treatment lowered blood glucose in diabetic animals with no effect on blood pressure. Diabetic animals exhibited lower myogenic tone, increased wall thickness, and cross-sectional area compared with control group animals, which were corrected by azilsartan treatment when started at the onset of diabetes or later after vascular remodeling is established. Azilsartan medoxomil offers preventive and therapeutic vasculoprotection in diabetes-induced cerebrovascular remodeling and myogenic dysfunction and this is independent of blood pressure.
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C-terminal agrin fragment (CAF, 22 kDa) has been shown to be a promising new rapid biomarker for kidney function. This study evaluated the influence of hemodialysis (HD) and hemodiafiltration (HDF) treatment on serum CAF concentrations in patients with end-stage renal disease (ESRD). A total of 36 patients with ESRD undergoing chronic HD/HDF treatment were enrolled (21 high-flux-HD/Fx60 membrane, 7 high-flux-HD/Elisio19H membrane, and 8 HDF/Elisio19H membrane). ⋯ In the HD/Fx60 group, the RR of CAF was significantly lower compared with cystatin C, urea, and creatinine, in which significant removal was detected (37.9 ± 14.8%, 65.0 ± 10.7%, and 56.0 ± 9.8%, respectively, P < 0.001). CAF is a new biomarker for kidney function whose serum concentration is not influenced by conventional high-flux HD using Fx60 membrane. It might therefore represent a promising dialysis-independent biomarker for evaluation of kidney function, for example, in acute kidney failure.