Trafficking of integral membrane proteins to cilia is poorly understood. Badgandi et al. show that tubby family proteins TULP3 and TUB act as general adapters for ciliary trafficking of structurally diverse integral membrane cargo like GCPRs and the polycystin 1/2 complex.
Activation of Toll-like receptors (TLRs) by pathogens triggers cytokine production and T cell activation, immune defense mechanisms that are linked to immunopathology. Here we show that IFN-γ production by CD4+ TH1 cells during mucosal responses to the protozoan parasite Toxoplasma gondii results in dysbiosis and the elimination of Paneth cells. Paneth cell death led to loss of antimicrobial peptides and occurred in conjunction with uncontrolled expansion of the Enterobacteriaceae family of Gram-negative bacteria. The expanded intestinal bacteria were required for the parasite-induced intestinal pathology. The investigation of cell type-specific factors regulating TH1 polarization during T. gondii infection identified the T cell intrinsic TLR pathway as a major regulator of IFN-γ production in CD4+ T cells responsible for Paneth cell death, dysbiosis and intestinal immunopathology.
Pal et al. describe a two-step process determining removal of the cilia-localized GPCR, Gpr161, upon sonic hedgehog signaling. First, β-arrestins are recruited by the signaling-competent receptor in a smoothened-dependent manner. Second, clathrin-mediated endocytosis outside of the ciliary compartment coordinates removal.
Summary
The y-linked autoimmune accelerating (Yaa) locus drives the transition to fatal lupus nephritis when combined with B6.Sle1 in our B6-congenic model of systemic autoimmunity. We and others recently demonstrated that the translocation of a cluster of X-linked genes onto the Y chromosome is the genetic lesion underlying Yaa (Subramanian, S. et al., Proc Natl Acad Sci USA 2006. 103: 9970–9975; Pisitkun, P. et al., Science 2006. 312: 1669–1672). In male mice carrying Yaa, the transcription of several genes within the translocated segment is increased roughly 2-fold. Although the translocated X chromosome segment in Yaa may contain as many as 16 genes, the major candidate gene for causation of the Yaa-associated autoimmune phenotypes has been TLR7. To confirm the role of TLR7 in Yaa-mediated autoimmune phenotypes, we introgressed a targeted disruption of TLR7 (TLR7−) onto B6.Sle1Yaa to produce B6.Sle1YaaTLR7− and examined evidence of disease at 6 and 9 months of age. Our results demonstrate that the upregulation of TLR7 in the B6.Sle1Yaa strain is responsible for splenomegaly, glomerular nephritis and the majority of the cellular abnormalities of B, T and myeloid cells. The upregulation of TLR7 was also responsible for driving the infiltration and activation of leukocytes into the kidney, in which activated T cellswere a primary component. However, the resolution of TLR7 upregulation did not eliminate the enhanced humoral autoimmunity observed in B6.SleYaa, suggesting that additional elements in the translocation may contribute to the disease phenotype.
Systemic Lupus Erythematosus (SLE) is a chronic systemic autoimmune disease characterized by the production of anti-nuclear autoantibodies (ANA). ANA development is recognized as one of the initial stages of disease which often results in systemic inflammation, kidney disease and death. The etiology is complex, but it is clear that innate pathways may play an important role in disease progression. Recent data has highlighted an important role for the TLR family, particularly TLR7 in both human disease and murine models. In the studies presented here, we have presented a low copy conditional TLR7 transgenic (Tg7) mouse strain which does not develop spontaneous autoimmunity. When we combine Tg7 with the Sle1 lupus susceptibility locus, the mice develop severe disease. Using the CD19Cre-recombinase system, we normalized expression of TLR7 solely within the B cells. Using this method we demonstrated that overexpression of TLR7 within the B cell compartment reduces the marginal zone B cell compartment and increases B and T cell activation but not T follicular helper cell development. Moreover, this enhanced B-cell TLR7 expression permits the specific development of antibodies to RNA/protein complexes and exacerbates SLE disease.
Gpnmb is a glycosylated transmembrane protein implicated in development of glaucoma in mice and melanoma in humans. It shares significant amino acid sequence homology with the melanosome protein Pmel-17. Its extracellular domain contains a RGD motif for binding to integrin and its intracellular domain has a putative endosomal and/or melanosomal-sorting motif. These features led us to posit that Gpnmb is associated with melanosomes and involved in cell adhesion. We showed that human Gpnmb is expressed constitutively by melanoma cell lines, primary-cultured melanocytes, and epidermal melanocytes in situ, with most of it found intracellularly within melanosomes and to a lesser degree in lysosomes. Our newly developed monoclonal antibody revealed surface expression of Gpnmb on these pigment cells, albeit to a lesser degree than the intracellular fraction. Gpnmb expression was upregulated by UVA (but not UVB) irradiation and by α-MSH (but not β-MSH); its cell surface expression on melanocytes (but not on melanoma cells) was increased markedly by IFN-γ and TNF-α. PAM212 keratinocytes adhered to immobilized Gpnmb in a RGD-dependent manner. These results indicate that Gpnmb is a melanosome-associated glycoprotein that contributes to adhesion of melanocytes with keratinocytes.
Highlights d Nephron-specific Tulp3 knockouts develop cystic kidneys without disrupting cilia d Cystogenesis is intermediate between that caused by loss of polycystin-1 or cilia d Polycystin-2 and Arl13b are reduced in cilia of knockout collecting duct cells d Arl13b is the likely polycystin-independent ciliary factor repressing cystogenesis
Glomerulonephritis is a common and debilitating feature of systemic lupus erythematosus (SLE). The precise immune mechanisms that drive the progression from benign autoimmunity to glomerulonephritis are largely unknown. Previous investigations have shown that a moderate increase of the innate Toll-like receptor 7 (TLR7) is sufficient for the development of nephritis. In these systems normalization of B-cell TLR7 expression or temporal depletion of plasmacytoid dendritic cells (pDCs) slow progression; however, the critical cell that is responsible for driving full immunopathology remains unidentified. In this investigation we have shown that conventional DC expression of TLR7 is essential for severe autoimmunity in the Sle1Tg7 model of SLE. We show that a novel expanding CD11b+ conventional DC subpopulation dominates the infiltrating renal inflammatory milieu, localizing to the glomeruli. Moreover, exposure of human myeloid DCs to IFN-α or Flu increases TLR7 expression, suggesting they may have a role in self-RNA recognition pathways in clinical disease. To our knowledge, this study is the first to highlight the importance of conventional DC-TLR7 expression for kidney pathogenesis in a murine model of SLE.TLR7 | dendritic cells | SLE | nephritis | autoimmunity
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