At the functional level, rat splenocytes and IHLs have been shown to secrete IFN-γ and IL-4 in response to stimulation with α-GalCer [12, 13] in a CD1d-dependent fashion ([13] and this study). α-GalCer-loaded mouse or human CD1d tetramers bind very poorly to the rat iNKT-TCR [12] (Monzon-Casanova, Herrmann, unpublished data). This is in contrast to the mouse and the human, both of which show CD1d/iNKT-TCR cross-species reactivity
[1], but it explains why a discrete population was not observed among rat IHLs using mouse CD1d tetramers [12]. Furthermore, former attempts to identify rat iNKT cells using surrogate markers have also failed as no cell population has yet been found with the features predicted for iNKT cells based on their mouse counterparts. Instead, rat NKR-P1A/B-positive PD-0332991 mw T cells are found in the spleen and the liver at similar frequencies, show no BV8S2 or BV8S4 bias, produce IFN-γ but not IL-4, and most of them express CD8β [9, 12, 14-16]. In the present study, newly generated rat CD1d dimers allowed us to identify rat iNKT cells for the first time in the F344 inbred rat strain.
Importantly, these cells are more similar to human than mouse iNKT cells in terms of frequencies, CD8 expression, and expansion upon in vitro stimulation with α-GalCer. In addition, we found a nearly complete lack of iNKT cells in the widely used LEW rat strain. These findings identify the rat as a closely matching animal model to study the biology and the therapeutic use of iNKT cells in humans.
The negligible binding of rat iNKT-TCR to Enzalutamide datasheet α-GalCer-loaded mouse CD1d tetramers [14] prompted us to generate syngeneic CD1d dimers. Rat and mouse CD1d dimers were loaded with α-GalCer or vehicle only (DMSO) as a control and were used to stain IHLs derived from F344 rats and from C57BL/6 mice (Fig. 1). Rat α-GalCer-CD1d dimers Phospholipase D1 bound to a small but distinct population of F344 IHLs, which was missing when rat vehicle-CD1d dimers were used. As expected, very few rat cells were stained by mouse α-GalCer-CD1d dimers (when comparing with the vehicle control), but in contrast, a subpopulation of mouse iNKT cells was stained with rat α-GalCer-CD1d dimers. These results are consistent with our previous functional data [12]. The differences between the iNKT-cell frequencies of C57BL/6 mice and F344 rats are noteworthy. In C57BL/6 mice, more than 50% of all αβ T cells in the liver (30% of total IHLs) were detected with mouse α-GalCer-CD1d dimers, while in F344 rats, iNKT cells constituted only 1.05% of all αβ T cells (0.24% of total IHLs; Fig. 1 and Supporting Information Table 1). In both species positive α-GalCer-CD1d-dimer-stained T cells expressed low TCR levels, a feature of iNKT cells. In line with the particular homing preferences of iNKT cells, more iNKT cells were found in the liver (0.24%) as compared with what was found in the spleen (0.013%) of F344 inbred rats (Fig.