Sapelovirus A (SV-A), formerly known as porcine sapelovirus as a member of a new genus Sapelovirus, is known to cause enteritis, pneumonia, polioencephalomyelitis and reproductive disorders in pigs. We have recently identified α2,3-linked sialic acid on GD1a ganglioside as a functional SV-A receptor rich in the cells of pigs and chickens. However, the role of GD1a in viral pathogenesis remains elusive. Here, we demonstrated that a Korean SV-A strain could induce diarrhoea and intestinal pathology in piglets but not in chicks. Moreover, this Korean SV-A strain had mild extra-intestinal tropisms appearing as mild, non-suppurative myelitis, encephalitis and pneumonia in piglets, but not in chicks. By real-time reverse transcription (RT) PCR, higher viral RNA levels were detected in faecal samples than in sera or extra-intestinal organs from virus-inoculated piglets. Immunohistochemistry confirmed that high viral antigens were detected in the epithelial cells of intestines from virus-inoculated piglets but not from chicks. This Korean SV-A strain could bind the cultured cell lines originated from various species, but replication occurred only in cells of porcine origin. These data indicated that this Korean SV-A strain could replicate and induce pathology in piglets but not in chicks, suggesting that additional porcine-specific factors are required for virus entry and replication. In addition, this Korean SV-A strain is enteropathogenic, but could spread to the bloodstream from the gut and disseminate to extra-intestinal organs and tissues. These results will contribute to our understanding of SV-A pathogenesis so that efficient anti-sapelovirus drugs and vaccines could be developed in the future.
This study compared crosslinked dextrans in hydroxylpropyl methycellulose (DiHMs, pH 5 or 7) with polymethylmethacrylate in bovine collagen (PMMA) and hyaluronic acid (HA) fillers on soft tissue augmentation and safety in rats. HA tended to maintain its size throughout the experimental period but was moveable and friable because of a lack of thick fibroconnective tissue formation. Although, PMMA induced moderately thick fibroconnective tissue formation, its size was decreased markedly from 3-week postimplantation (PI) and became the smallest at 24-month PI. DiHM (pH 7) elicited strong fibrous encapsulation around the filler. Its size decreased slowly but was still considerably maintained at 24-month PI. In contrast, the rate of the DiHM (pH 5) size decrease was slower than that of PMMA, faster DiHM (pH 7), but comparable to HA. Immunohistochemically, types I and III collagens were deposited inside and outside DiHMs (pH 5 and 7). DiHMs (pH 5 and 7), PMMA, and HA showed no adverse reactions. These results suggest that DiHM (pH 7) assures efficacy and safety and is a good candidate for soft tissue augmentation in both humans and animals.
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