Cell-cell interaction with APC, not IL-23, is required for naive CD4 cells to acquire pathogenicity during Th17 lineage commitment.

Subpopulations of pathogenic or nonpathogenic Th17 cells were reported to develop when presensitized CD4 cells were activated with their target Ag during polarization by either IL-23 or IL-6 and TGF-ß, respectively. In this study, we generated two Th17 subpopulations by using a system in which naive CD4 cells from TCR transgenic mice specific to hen egg lysozyme (HEL) are polarized with IL-6/TGF-ß and, concurrently, are activated either with HEL presented by APCs, or with anti-CD3/CD28 Abs. Only the former cells were pathogenic, inducing inflammation in eyes expressing HEL. Naive CD4 cells activated by the anti-CD3/CD28 Abs acquired pathogenicity, however, when cocultured with HEL/APC. Importantly, the naive CD4 cells did not acquire pathogenicity when cocultured with APCs stimulated with LPS or when separated from the HEL-presenting cells by a semipermeable membrane. Unlike with presensitized Th17, soluble IL-23 does not participate in pathogenicity acquisition by naive CD4 cells; no pathogenicity was induced by adding IL-23 to cultures activated with anti-CD3/CD28 Abs. Furthermore, Abs against IL-23 or IL-23R did not inhibit acquisition of pathogenicity in cultures of naive CD4 cells activated by HEL/APC. Our data thus show that, unlike presensitized CD4 cells, naive CD4 cells polarized toward Th17 phenotype acquire pathogenicity only by direct interaction with APCs presenting the Ag, with no apparent involvement of soluble IL-23. We suggest that the Th17 lymphocytes derived from naive CD4 cells participate in pathogenic and other immune processes, along with the IL-23-dependent Th17 cells.

Antigen-specific Th9 cells exhibit uniqueness in their kinetics of cytokine production and short retention at the inflammatory site.

Recently reported lines of Th9 cells, producing IL-9 and IL-10, were generated by polarization with IL-4 and TGF-ß and activation with Abs against CD3 and CD28. In this paper, we analyzed features of Th9 lines similarly polarized but activated by the "natural mode" (i.e., exposure of CD4 cells to their target Ag, hen egg lysozyme [HEL] and APCs). Main observations are the following: 1) both IL-9 and IL-10 were expressed by the line cells, but with strikingly different kinetics, with IL-9 being produced rapidly, reaching a peak on day 3 in culture and declining sharply thereafter, whereas IL-10 production increased gradually, resembling IL-4 and IL-17 production by their corresponding lineage cells; 2) reactivation of Th9, following expansion, triggered faster and higher production of both IL-9 and IL-10; 3) incubating Th9 cells in polarizing media specific for other phenotypes stimulated moderate levels of phenotype switching to Th1 or Th17 but a massive switching to Th2; 4) Th9 cells induced moderate inflammation in HEL-expressing recipient eyes but only when producing high levels of IL-9; and 5) IL-9-producing donor cells were detected in the blood of Th9 recipients but not in their inflamed eyes, suggesting that similar to findings in culture, exposure to HEL in these eyes arrested the IL-9 production in Th9 cells. Collectively, these data provide new information concerning Th9 cells and reveal their uniqueness, in particular with regard to the unusual production kinetics of IL-9 and the short retention of these cells in affected target tissues.

Evidence of early ultrastructural photoreceptor abnormalities in light-induced retinal degeneration using spectral domain optical coherence tomography.

BACKGROUND: To study spatiotemporal in vivo changes in retinal morphology and quantify thickness of retinal layers in a mouse model of light-induced retinal degeneration using spectral domain optical coherence tomography (SD-OCT). METHODS: BALB/c mice were exposed to 5000 lux of constant light for 3 h. SD-OCT images were taken 3 h, 24 h, 3 days, 1 week and 1 month after light exposure and were compared with histology at the same time points. SD-OCT images were also taken at 0, 1 and 2 h after light exposure in order to analyse retinal changes at the earliest time points. The thickness of retinal layers was measured using the Bioptigen software InVivoVue Diver. RESULTS: SD-OCT demonstrated progressive outer retinal thinning. 3 h after light exposure, the outer nuclear layer converted from hyporeflective to hyper-reflective. At 24 h, outer retinal bands and nuclear layer demonstrated similar levels of hyper-reflectivity. Significant variations in outer retinal thickness, vitreous opacities and retinal detachments occurred within days of injury. Thinning of the retina was observed at 1 month after injury. It was also determined that outer nuclear layer changes precede photoreceptor segment structure disintegration and the greatest change in segment structure occurs between 1 and 2 h after light exposure. CONCLUSIONS: Longitudinal SD-OCT reveals intraretinal changes that cannot be observed by histopathology at early time points in the light injury model.