Epidemiological studies have clearly shown an association between enterovirus infections, especially CV-B and T1D, and strongly support the role of these viruses as potential triggers of GSK126 mw that disease in genetically predisposed individuals [7–10]. Experimental investigations suggest that several pathogenic mechanisms of CV-B4 infection may be involved in the impairment of pancreatic β cells [7–10]. Our group has investigated the hypothesis of virus-induced disturbance of thymus in the development of autoimmunity against these cells (see Fig. 1). It was observed that both CV-B4 diabetogenic
(E2) and prototype (JVB) strains can replicate and persist in human TEC in vitro with increased production of interleukin (IL)-6, leucocyte migration inhibition factor (LIF) and granulocyte–macrophage colony-stimulating factor (GM-CSF) [71]. In fragments of human fetal thymus, the virus principally infects CD4+CD8+ immature thymocytes and induces increased expression of MHC class APO866 in vivo I molecules and a severe thymocyte depletion [72]. Because CV-B4 was also able to infect TEC and immature thymocytes, it was hypothesized that the virus was potentially susceptible to modulate the thymic function. To explore this hypothesis more effectively, and due to the difficulty of undertaking
experiments in the human system, further studies were performed in a murine model. It was demonstrated that the diabetogenic strain CV-B4 E2 can reach the thymus in vivo in the course of a systemic infection of outbred Swiss albino mice inoculated through the oral route, the natural contamination route in humans [73]. The infection was characterized by a prolonged detection [until 70
days post-infection (p.i.)] of viral RNA by reverse transcription–polymerase chain reaction (RT–PCR) Nintedanib molecular weight in the thymus. When primary cultures of total murine thymic cells were inoculated with CV-B4 E2 and CV-B4 JVB, both viral strains infected and replicated in these cells, as attested by the detection of intracellular negative-strand viral RNA and release of infectious particles in culture supernatants [74]. These findings suggest that thymic cells can play a role in virus dissemination, and therefore in the pathophysiology of CV-B4 infections. The infection of murine fetal thymus organ cultures was then investigated [75]. It was shown that CV-B4 E2 could replicate within this system, as attested by the detection of intracellular negative-stranded viral RNA by real-time quantitative RT–PCR and infectious particles in culture supernatants. As evidenced by flow cytometry analysis, CV-B4 E2 lead to abnormal patterns of thymocyte populations: a marked increase in the percentages of CD4-CD8-, CD4+ and CD8+ cells and a decrease in the percentage of CD4+CD8+ cells.