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Volume 72, Issue 2, Pages 182-192 (July 2007)
Different roles of TiR8/Sigirr on toll-like receptor signaling in intrarenal antigen- presenting cells and tubular epithelial cells M. Lech, C. Garlanda, A. Mantovani, C.J. Kirschning, D. Schlöndorff, H.-J. Anders Kidney International Volume 72, Issue 2, Pages (July 2007) DOI: /sj.ki Copyright © 2007 International Society of Nephrology Terms and Conditions
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Figure 1 TIR8/Sigirr expression in C57BL/6 mice. (a) mRNA was extracted from organs of C57BL/6 mice of different age as indicated (n=3–6). TIR8/Sigirr mRNA expression levels were determined by real-time RT–PCR and expressed as mean of the ratio TIR8/Sigirr /18s-rRNA±s.e.m.; *P<0.05 vs 1.5 weeks, #P<0.05 vs 6 weeks. (b) TIR8/Sigirr protein expression was determined by Western blot analysis. Proteins were prepared from kidneys of 6–week-old C57BL/6 wild-type mice or TIR8/Sigirr-deficient mice as indicated. (c) Primary cells were isolated from of 6-week-old C57BL/6 mice as described in Materials and Methods. TIR8/Sigirr mRNA levels were determined by real-time RT–PCR and expressed as mean of the ratio TIR8/Sigirr/18s-rRNA±s.e.m. N.d.=not detected. (d) F4/80 immunostaining for intrarenal antigen-presenting cells (black) in kidney cortex (left) and medulla (right). Original magnification × 200. Kidney International , DOI: ( /sj.ki ) Copyright © 2007 International Society of Nephrology Terms and Conditions
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Figure 2 TIR8/Sigirr expression in tubular epithelial cells. (a and b) Flow cytometry for TIR8/Sigirr was performed using primary tubular epithelial cells prepared from (a) wild-type mice and (b) Tir8/Sigirr-deficient mice as indicated. Surface expression of TIR8/Sigirr (black line) is indicated by a fluorescence shift compared to the isotype control antibody (red line). (c and d) TIR8/Sigirr immunostaining with phycoerythrin-labeled secondary antibody confirms TIR8/Sigirr expression on the cellular surface in confluent growing primary tubular epithelial cells prepared from wild-type mice (c). (d) Tubular epithelial cells from Tir8/Sigirr-deficient mice lack respective positive signal. 4,6-diamidino-2-phenylindole staining cell nuclei in blue (original magnification × 400). (e and f) Renal sections were prepared from 6-week-old C57BL/6 wild-type mice and Tir8/Sigirr-deficient mice and stained for TIR8/Sigirr with a phycoerythrin-labeled secondary antibody. Fluorescein isothiocyanate-phalloidin stains brush border in proximal tubular epithelial cells and cell–cell contacts in green. (e) A yellow signal is obtained at basolateral membranes (arrow heads) and brush border (*) as a result of colocalization of red TIR8/Sigirr staining and green phalloidin staining. (f) The TIR8/Sigirr signal is absent when renal sections taken from Tir8/Sigirr-deficient mice were stained accordingly, original magnification × 400). Kidney International , DOI: ( /sj.ki ) Copyright © 2007 International Society of Nephrology Terms and Conditions
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Figure 3 TIR8/Sigirr and LPS-induced Ccl2 and Cxcl2 production in mouse kidneys. (a) Kidney slices, freshly prepared from wild-type and Tir8/Sigirr-deficient mice, were placed in medium and exposed to 1 μg/ml ultrapure LPS. After 6 h, supernatants were harvested and Ccl2 (left) and Cxcl2 production (right) were measured by enzyme-linked immunosorbent assay. Data represent means±s.e.m. from three independent experiments; *P<0.05 vs medium, #P<0.05 vs TIR8/Sigirr+/+. (b and c) Intrarenal myeloid cells were prepared from 6-week-old wild-type and Tir8/Sigirr-deficient mice by CD11b magnetic bead isolation and cultured with granulocyte macrophage colony-stimulating factor as mentioned in Materials and Methods. Tubular epithelial cells were prepared as before. The cells were incubated with either 1 μg/ml ultrapure LPS in medium or medium alone for 24 h. Data represent means±s.e.m. from three independent experiments; *P<0.05 vs medium, #P<0.05 vs TIR8/Sigirr+/+. Kidney International , DOI: ( /sj.ki ) Copyright © 2007 International Society of Nephrology Terms and Conditions
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Figure 4 TIR8/Sigirr and TLR signaling. Monocytes and tubular epithelial cells were prepared from 6-week-old Tir8/Sigirr-deficient or wild-type mice as indicated. (a) After 1 h of stimulation with LPS (1 μg/ml), the cells were stained with a p50 antibody for detection of NF-κB activation as described in Materials and Methods. Data represent means±s.e.m. of positive nuclei per high power field (hpf); *P<0.05 vs medium, #P<0.05 vs TIR8/Sigirr+/+. (b and c) Cells were stimulated either with medium, Pam3Cys, pI:C RNA, LPS, or CpG-DNA for 24 h. Ccl2 production was determined in supernatants by enzyme-linked immunosorbent assay. Data represent means±s.e.m. from three independent experiments; *P<0.05 vs medium, #P<0.05 vs TIR8/Sigirr+/+. Kidney International , DOI: ( /sj.ki ) Copyright © 2007 International Society of Nephrology Terms and Conditions
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Figure 5 TIR8/Sigirr modulates TLR mRNA expression. (a) Monocytes and (b) tubular epithelial cells were prepared from 6-week-old Tir8/Sigirr-deficient or wild-type mice as indicated. Tlr1-9 mRNA expression levels were determined by real-time RT–PCR and expressed as mean of the ratio Tlr/18s-rRNA±s.e.m.; *P<0.05 vs TIR8/Sigirr+/+. Kidney International , DOI: ( /sj.ki ) Copyright © 2007 International Society of Nephrology Terms and Conditions
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Figure 6 Regulation of TIR8/Sigirr by IFN-γ and TNF. Monocytes and tubular epithelial cells were prepared from 6-week-old mice of different strains as indicated. (a) Cells were stimulated with either medium, Llp, or IFN-γ+TNF. TIR8/Sigirr mRNA expression levels were determined after 18 h by real-time RT–PCR and expressed as mean of the ratio Tlr/18s-rRNA±s.e.m. (b) Cells were stimulated with either medium, LPS (1 μg/ml), or IFN-γ (100U/ml)+TNF (500 U/ml). TIR8/Sigirr mRNA expression levels were determined after 6, 12, 18, or 24 h by real-time RT–PCR and expressed as mean of the ratio Tlr/18s-rRNA±s.e.m. Kidney International , DOI: ( /sj.ki ) Copyright © 2007 International Society of Nephrology Terms and Conditions
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Figure 7 TIR8/Sigirr transcripts and TIR8/Sigirr glycosylation. Tubular epithelial cells and spleen monocytes were prepared from 6-week-old Tir8/Sigirr-deficient or wild-type mice. (a) An expression level of TIR8/Sigirr mRNA was determined by using primers specific for either the extracellular (primer 1) or the intracellular domain (primer 2) of TIR8/Sigirr. (b) The respective mRNA expression levels using primer 1 and primer 2 were determined by real-time RT–PCR using cDNA prepared from splenocytes (black) and tubular epithelial cells (white) and expressed as mean of the ratio to 18s-rRNA±s.e.m. (c) Northern blot was performed on RNA isolates from spleens and kidneys of wild-type (WT) and Tir8/Sigirr-deficient mice (KO) as described in Materials and Methods. Note a single TIR8/Sigirr transcript of 3.5 kB in spleen and kidney of wild-type mice. (d–f) Western blot analysis was performed on protein isolates derived from total kidney or from renal cell suspensions separated by magnetic beads isolation for CD11b-positive and -negative cells, that is renal myeloid cells and mostly tubular epithelial cells. (d and e) Note that the smaller but predominant of the two TIR8/Sigirr-specific bands seen in total kidney isolates derives exclusively from CD11b-negative renal cells. The specificity of the bands is indicated by their absence in isolates from Tir8/Sigirr-deficient mice. (e) PNGase digests the TIR8/Sigirr glycoforms from both cell types to smaller but still different proteins indicative of cell-type specific N-glycosylation of TIR8/Sigirr. (f) Inhibiting O-glycosylation with benzyl-GalNAc reduces the size of the smaller glycoform of TIR8/Sigirr in renal CD11b cells but not the larger form of TIR8/Sigirr present in both cell types. Kidney International , DOI: ( /sj.ki ) Copyright © 2007 International Society of Nephrology Terms and Conditions
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