The present study was carried out to further examine the mechanisms underlying the beneficial effects of hyperbaric oxygen (HBO(2)) on experimental spinal cord injury (SCI). Rats were divided into three major groups: (1) sham operation (laminectomy only); (2) laminectomy + SCI + normobaric air (NBA; 21% oxygen at 1 ATA); and (3) laminectomy + SCI + HBO(2) (100% oxygen at 2.5 ATA for 2 h). Spinal cord injury was induced by compressing the spinal cord for 1 min with an aneurysm clip calibrated to a closing pressure of 55 g. HBO(2) therapy was begun immediately after SCI. Behavioral tests of hindlimb motor function as measured by the Basso, Beattie, and Bresnahan (BBB) locomotor scale was conducted on days 1-7 post-SCI. The triphenyltetrazolium chloride staining assay and terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate biotin nick-end labeling assay were also conducted after SCI to evaluate spinal cord infarction and apoptosis, respectively. Cells positive for glial cell line-derived neurotrophic nerve growth factor (GDNF) and vascular endothelial growth factor (VEGF) and cytokines in the injured spinal cord were assayed by immunofluorescence and commercial kits, respectively. It was found that HBO(2) therapy significantly attenuated SCI-induced hindlimb dysfunction, and spinal cord infarction and apoptosis, as well as overproduction of spinal cord interleukin-1beta and tumor necrosis factor-alpha. In contrast, the numbers of both GDNF-positive and VEGF-positive cells and production of spinal cord interleukin-10 after SCI were all significantly increased by HBO(2). These data suggest that HBO(2) may attenuate experimental SCI by stimulating production of GDNF, VEGF, and interleukin-10.
Colorectal cancer (CRC) has high recurrence rate.Effective biomarkers for the detection of colon cancer are still unavailable. MicroRNA (miRNA) is an epigenetic factor that regulates cell proliferation, tumor cell growth, cancer formation, and metastasis by regulating tumor suppressor genes or oncogenes. miRNA has the potential to be used as a biomarker for the diagnosis of diverse cancers. Previously, we revealed that miR-139-3 p is downregulated and miR-338-5 p is upregulated in recurrent CRC patients. The present study further reveals that the miR-139-3 p expression level is inversely correlated with increased metastatic status in three colon cancer cell lines (SW480, SW620, and colo201), as determined using real-time polymerase chain reaction. Furthermore, in 51 pairs of CRC clinical specimens, the expression level of mir-139-3 p was significantly lower in the tumor sections than in the adjacent normal tissues (p < 0.0001), indicating that they are tumor-suppressive miRNAs. Furthermore, the expression level of mir-338-5 p in the tumor tissues of metastatic patients was significantly higher than in the tumor tissues of nonmetastatic patients (p < 0.05), indicating that mir-338-5 p is positively correlated with metastasis. All together, mir-139-3 p and mir-338-5 p
The aims of the present paper were to ascertain whether the heat-induced ischemia and oxidative damage to the hypothalamus and lethality in mice could be ameliorated by hyperbaric oxygen therapy. When normobaric air-treated mice underwent heat treatment, the fractional survival and core temperature at 4 hours after heat stress were found to be 0 of 12 and 34°C ± 0.3°C, respectively. In hyperbaric oxygen-treated mice, when exposed to the same treatment, both fractional survival and core temperature values were significantly increased to new values of 12/12 and 37.3°C ± 0.3°C, respectively. Compared to normobaric air-treated heatstroke mice, hyperbaric oxygen-treated mice displayed lower hypothalamic values of cellular ischemia and damage markers, prooxidant enzymes, proinflammatory cytokines, inducible nitric oxide synthase-dependent nitric oxide, and neuronal damage score. The data indicate that hyperbaric oxygen may improve outcomes of heatstroke by normalization of hypothalamic and thermoregulatory function in mice.
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