HECT E3 Ubiquitin Ligase Nedd4 Is Required for Antifungal Innate Immunity.

Candida albicans is the most common cause of fungal infections in humans, and disseminated candidiasis has become one of the leading causes of hospital-acquired bloodstream infections with a high mortality rate. However, little is known about the host-pathogen interactions and the mechanisms of antifungal immunity. Here, we report that Nedd4 (neuronal precursor cell-expressed developmentally downregulated 4) is essential for signaling through Dectin-1 and Dectin-2/3. We showed that mice that lack Nedd4 globally or only in the myeloid compartment are highly susceptible to systemic C. albicans infection, which correlates with heightened organ fungal burden, defective inflammatory response, impaired leukocyte recruitment to the kidneys, and defective reactive oxygen species expression by granulocytes. At the molecular level, Nedd4 -/- macrophages displayed impaired activation of TGF-ß-activating kinase-1 and NF-κB, but normal activation of spleen tyrosine kinase and protein kinase C-δ on C. albicans yeast and hyphal infections. These data suggest that Nedd4 regulates signaling events downstream of protein kinase C-δ but upstream of or at TGF-ß-activating kinase-1.

Distinct roles for Blimp-1 in autoreactive CD4 T cells during priming and effector phase of autoimmune encephalomyelitis.

B lymphocyte-induced maturation protein (Blimp-1) is a transcription factor that regulates effector/memory B cells and CD8 T cells. Here we show that Blimp-1 is expressed in both Th1 and Th17 cells in vitro and highly expressed in effector/memory myelin-specific CD4 T cells in experimental autoimmune encephalomyelitis (EAE) mice. The immunized Blimp-1 conditional knockout mice have a significantly delayed disease onset but enhanced disease severity during the effector phase compared to their wild-type littermates, suggesting that Blimp-1 is a unique transcription factor with distinct roles in the regulation of myelin-specific CD4 T cells during priming and effector phase of EAE.

Regulation of effector function of CNS autoreactive CD4 T cells through inhibitory receptors and IL-7Rα.

BACKGROUND: Multiple sclerosis (MS) is a chronic CNS autoimmune disease characterized by inflammation, demyelination, and neuronal degeneration, where myelin-specific CD4 T cells play critical roles in the formation of acute MS lesions and disease progression. The suppression of IL-7Rα expression and the upregulation of inhibitory receptors (PD-1, etc.) are essential parts of the cell-intrinsic immunosuppressive program regulating T effector functions to prevent autoimmunity. However, little is known on the factors regulating IL-7Rα/PD-1 balance in myelin-specific CD4 T effector/memory cells during the development of CNS autoimmunity. METHODS: We analyzed the roles of the transcription factor T-bet in regulating the expression of IL-7Rα and inhibitory receptors in myelin-specific CD4 T cells. Furthermore, we compared the effects of different inflammatory cytokines that are crucial for Th1 and Th17 development in regulating the IL-7Rα/PD-1 balance. RESULTS: We discovered that T-bet suppresses the expression of inhibitory receptors (PD-1 and LAG-3) and promotes IL-7Rα expression in myelin-specific CD4 T cells in vitro and in vivo. As a result, T-bet skews IL-7Rα/PD-1 balance towards IL-7Rα and promotes enhanced effector function. Furthermore, IL-12 enhances IL-7Rα expression in a T-bet independent manner in myelin-specific Th1 cells. Meanwhile, IL-6, the cytokine inducing highly encephalitogenic Th17 differentiation, suppresses PD-1 while upregulating IL-7Rα, skewing IL-7Rα/PD-1 balance towards IL-7Rα, and promoting enhanced effector function. Moreover, blocking IL-7 signaling in myelin-specific CD4 T cells by αIL-7Rα significantly delays experimental autoimmune encephalomyelitis (EAE) onset and reduces disease severity. CONCLUSIONS: T-bet is a major transcription factor regulating IL-7Rα/PD-1 balance in myelin-specific CD4 T cells during EAE development, and there is a positive correlation between several major determinants promoting T cell encephalitogenicity (T-bet, IL-6, IL-12) and an IL-7Rα/PD-1 balance skewed towards IL-7Rα. Furthermore, IL-7 signaling inhibits PD-1 expression in myelin-specific CD4 T cells and blocking IL-7 signaling suppresses T cell encephalitogenicity. Therefore, interference with inhibitory pathways and IL-7Rα expression may suppress the encephalitogenic potential of myelin-specific CD4 T cells and have therapeutic benefits for MS patients.

Roles for SUMO in pre-mRNA processing.

When the small ubiquitin-like modifier (SUMO)-1 protein is localized on the genome, it is found on proteins bound to the promoters of the most highly active genes and on proteins bound to the DNA-encoding exons. Inhibition of the SUMO-1 modification leads to reductions in initiation of messenger RNA (mRNA) synthesis and splicing. In this review, we discuss what is known about the SUMOylation of factors involved in transcription initiation, pre-mRNA processing, and polyadenylation. We suggest a mechanism by which SUMO modifications of factors at the promoters of high-activity genes trigger the formation of an RNA polymerase II complex that coordinates and integrates the stimulatory signals for each process to catalyze an extremely high level of gene expression. WIREs RNA 2016, 7:105-112. doi: 10.1002/wrna.1318 For further resources related to this article, please visit the WIREs website.