Cryptosporidium parvum is a major cause of diarrheal illness and was recently potentially associated with digestive carcinogenesis. Despite its impact on human health, Cryptosporidium pathogenesis remains poorly known, mainly due to the lack of a long-term culture method for this parasite. Thus, the aim of the present study was to develop a three-dimensional (3D) culture model from adult murine colon allowing biological investigations of the host-parasite interactions in an in vivo-like environment and, in particular, the development of parasite-induced neoplasia. Colonic explants were cultured and preserved ex vivo for 35 days and co-culturing was performed with C. parvum. Strikingly, the resulting system allowed the reproduction of neoplastic lesions in vitro at 27 days post-infection (PI), providing new evidence of the role of the parasite in the induction of carcinogenesis. This promising model could facilitate the study of host-pathogen interactions and the investigation of the process involved in Cryptosporidium-induced cell transformation.
Coxsackieviruses B (CVB) (B1-B6), positive-strand RNA viruses, cause a variety of diseases. CVB4 may have a causal role in insulin-dependent diabetes mellitus. IFN-alpha inhibits CVB replication; however, the mechanism is not well known. The interferon-alpha-inducible human MxA protein exerts an antiviral activity against negative-strand RNA viruses and against Semliki Forest virus, a positive-strand RNA virus. To test the antiviral spectrum of MxA against CVB4, we took advantage of stably transfected Vero cells expressing MxA (Vero/MxA) in 98% of cells. Compared with control cells, in Vero/MxA cells, CVB4 yields were dramatically reduced and expression of the VP1 CVB protein analyzed by immunofluorescence was highly restricted. Furthermore, the accumulation of positive- and negative-strand CVB4 RNA was prevented as shown by in situ hybridization and RT-PCR. These results indicate that the antiviral activity of MxA extends to CVB4 and that its replication cycle is inhibited at an early step in Vero/MxA cells.
Capillary blood of febrile children was lysed by using a lysis buffer containing ascorbic acid. MxA quantitation was performed by an immunochemiluminescent assay. The MxA values were significantly higher in capillary blood of infants with viral infections due to adenovirus (n = 5), rotavirus (n = 15), or respiratory syncytial virus (n = 28), than in capillary whole blood from infants with bacterial infections (n = 6) and healthy control patients (n = 20). A strong correlation was found between the MxA values in capillary whole blood and peripheral whole blood (rЈ = 0.86, P < 0.0001, n = 48). The MxA values found at these two sites were compared with the levels of IFN-␣ obtained by a dissociation enhanced lanthanide fluoroimmunoassay. A correlation between these two values was found. The results show that the combination of collection of blood by finger prick and specific immunochemiluminescent assay for MxA protein measurement may be of value for the diagnosis of viral infections in children.
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