Haematopoietic development and immunological function in the absence of cathepsin D

Background: Cathepsin D is a well-characterized aspartic protease expressed ubiquitously in lysosomes. Cathepsin D deficiency is associated with a spectrum of pathologies leading ultimately to death. Cathepsin D is expressed at high levels in many cells of the immune system, but its role in immune function is not well understood. This study examines the reconstitution and function of the immune system in the absence of cathepsin D, using bone marrow radiation chimaeras in which all haematopoietic cells are derived from cathepsin D deficient mice.Results: Cathepsin D deficient bone marrow cells fully reconstitute the major cellular components of both the adaptive and innate immune systems. Spleen cells from cathepsin D deficient chimaeric mice contained an increased number of autofluorescent granules characteristic of lipofuscin positive lysosomal storage diseases. Biochemical and ultrastructural changes in cathepsin D deficient spleen are consistent with increased autolysosomal activity. Chimaeric mice were immunised with either soluble (dinitrophenylated bovine gamma globulin) or particulate (sheep red blood cells) antigens. Both antigens induced equivalent immune responses in wild type or cathepsin D deficient chimaeras.Conclusion: All the parameters of haematopoietic reconstitution and adaptive immunity which were measured in this study were found to be normal in the absence of cathepsin D, even though cathepsin D deficiency leads to dysregulation of lysosomal function

A cardinal role for cathepsin D in co-ordinating the host-mediated apoptosis of macrophages and killing of pneumococci

The bactericidal function of macrophages against pneumococci is enhanced by their apoptotic demise, which is controlled by the anti-apoptotic protein Mcl-1. Here, we show that lysosomal membrane permeabilization (LMP) and cytosolic translocation of activated cathepsin D occur prior to activation of a mitochondrial pathway of macrophage apoptosis. Pharmacological inhibition or knockout of cathepsin D during pneumococcal infection blocked macrophage apoptosis. As a result of cathepsin D activation, Mcl-1 interacted with its ubiquitin ligase Mule and expression declined. Inhibition of cathepsin D had no effect on early bacterial killing but inhibited the late phase of apoptosis-associated killing of pneumococci in vitro. Mice bearing a cathepsin D-/- hematopoietic system demonstrated reduced macrophage apoptosis in vivo, with decreased clearance of pneumococci and enhanced recruitment of neutrophils to control pulmonary infection. These findings establish an unexpected role for a cathepsin D-mediated lysosomal pathway of apoptosis in pulmonary host defense and underscore the importance of apoptosis-associated microbial killing to macrophage function

Transferred antigen-specific T(H)17 but not T(H)1 cells induce crescentic glomerulonephritis in mice

To explore the role of antigen-specific CD4(+) T cells in glomerulonephritis, we administered ovalbumin 323–339 peptide conjugated to glomerular-binding polyclonal antibody and induced disease in RAG1(−/−) mice with CD4(+) T cells from OT2 × RAG1(−/−) mice. These OT2 × RAG1(−/−) mice have a transgenic T-cell receptor specific for this peptide. When CD4(+) T cells were primed in vivo, crescentic glomerulonephritis developed after 21 days in mice given peptide-conjugated glomerular-binding antibody but not unconjugated antibody control. We then investigated the relative roles of T(H)1 and T(H)17 cells, using Fab(2) fragments of glomerular-binding antibody to exclude a role for antibody in this model. T cells from OT2 × RAG1(−/−) mice were polarized in vitro, and T(H)1 or T(H)17 cell lines were injected into mice that were also given peptide-conjugated Fab(2) or unconjugated Fab(2) control, giving four experimental groups. After 21 days crescentic glomerulonephritis was seen in mice receiving T(H)17 cells and peptide-conjugated Fab(2) but in none of the other three groups. These results suggest that T(H)17 but not T(H)1 cells can induce crescentic glomerulonephritis

Constitutive Inositol Phosphate Formation in Cytomegalovirus-Infected Human Fibroblasts Is due to Expression of the Chemokine Receptor Homologue pUS28

An open reading frame (ORF), US28, with homology to mammalian chemokine receptors has been identified in the genome of human cytomegalovirus (HCMV). Its protein product, pUS28, has been shown to bind several human CC chemokines, including RANTES, MCP-1, and MIP-1α, and the CX(3)C chemokine fractalkine with high affinity. Addition of CC chemokines to cells expressing pUS28 was reported to cause a pertussis toxin-sensitive increase in the concentration of cytosolic free Ca(2+). Recently, pUS28 was shown to mediate constitutive, ligand-independent, and pertussis toxin-insensitive activation of phospholipase C via G(q/11)-dependent signaling pathways in transiently transfected COS-7 cells. Since these findings are not easily reconciled with the former observations, we analyzed the role of pUS28 in mediating CC chemokine activation of pertussis toxin-sensitive G proteins in cell membranes and phospholipase C in intact cells. The transmembrane signaling functions of pUS28 were studied in HCMV-infected cells rather than in cDNA-transfected cells. Since DNA sequence analysis of ORF US28 of different laboratory and clinical strains had revealed amino acid sequence differences in the amino-terminal portion of pUS28, we compared two laboratory HCMV strains, AD169 and Toledo, and one clinical strain, TB40/E. The results showed that infection of human fibroblasts with all three HCMV strains led to a vigorous, constitutively enhanced formation of inositol phosphates which was insensitive to pertussis toxin. This effect was critically dependent on the presence of the US28 ORF in the HCMV genome but was independent of the amino acid sequence divergence of the three HCMV strains investigated. The constitutive activity of pUS28 is not explained by expression of pUS28 at high density in HCMV-infected cells. The pUS28 ligands RANTES and MCP-1 failed to stimulate binding of guanosine 5′-O-(3-[(35)S]thiotriphosphate to membranes of HCMV-infected cells and did not enhance constitutive activation of phospholipase C in intact HCMV-infected cells. These findings raise the possibility that the effects of CC chemokines and pertussis toxin on G protein-mediated transmembrane signaling previously observed in HCMV-infected cells are either independent of or not directly mediated by the protein product of ORF US28

Toll-Like Receptor 2 or Toll-Like Receptor 4 Deficiency Does Not Modify Lupus in MRLlpr Mice

Systemic lupus erythematosus is an autoimmune disease with a high morbidity and nephritis is a common manifestation. Previous studies in murine lupus models have suggest a role for Toll-like receptor 2 and 4. We examined the role of these molecules in MRL lpr mice which is one of the most established and robust murine models. We compared disease parameters in Toll-like receptor 2 or Toll-like receptor 4 deficient mice with their littermate controls. We found no difference in the severity of glomerulonephritis as assessed by histology, serum creatinine and albuminuria when Toll-like receptor 2 or Toll-like receptor 4 deficient MRLlpr mice were compared with Toll-like receptor sufficient controls. We also found similar levels of anti-dsDNA and anti-ssDNA antibodies. These results show that Toll-like receptor 2 and Toll-like receptor 4 do not play a significant role in MRLlpr mice, and therefore they may not be important in human lupus

The effect of TLR2 or TLR4 deficiency on survival.

<p><b>A</b>. Survival data for MRLlpr mice and TLR4 deficient littermate controls. <b>B</b>. Survival data for MRLlpr mice and TLR2 deficient littermate controls. There were no significant differences in either case.</p

Absence of CTSD impairs the ability of DC to process erythrocytes infected with <i>P. chabaudi</i> merozoites in vitro.

<p>A) DC (10³) from CTSD −/− and CTSD +/+ donor chimeras were co-cultured with B7 T hybridoma cells (2×10⁴) and different numbers of iRBC. IL-2 release was measured after 24 hours using the indicator cell line CTLL. B) DC from CTSD −/− and CTSD +/+ donor chimeras were cocultured with iRBC (5 erythrocytes/DC) for three hours, and then different numbers of DC were co-cultured with B7 or B5 hybridoma cells as in A. C) DC (10³) from CTSD −/− and CTSD +/+ donor chimeras were co-cultured with B7 T hybridoma cells (2×10⁴) and different concentrations of MSP1 protein or a peptide coding for the B7 epitope at different concentrations. IL2 was release was measured as above. An additional intermediate concentration of MSP1 (50 µg/ml) was also tested in additional experiments with similar results. P values show the difference between CTSD +/+ and CTSD −/− analysed by Anova. One of four experiments.</p

Normal numbers and class II MHC expression of DC isolated from spleens of <i>P. chabaudi</i> infected CTSD −/− and CTSD +/+ donor chimeras.

<p>DC were isolated from spleens of CTSD −/− and CTSD +/+ donor chimeras using magnetic CD11c beads, and stained for CD11c, CD8 and I-A^d using flow cytometry. Total numbers of cells isolated were similar in both sets of chimeras (3.83×10⁶ in CTSD +/+, and 4.5×10⁶ in CTSD −/− for experiment shown, one representative of two).</p