Cell-mediated immune responses in owl monkeys (Aotus trivirgatus) with trachoma to soluble antigens of Chlamydia trachomatis.
(25/8759)
The first temporal study of the cell-mediated immune responses (CMI) following ocular infections with Chlamydia trachomatis is presented. We examined the CMI of owl monkeys infected with trachoma to soluble antigens of C. trachomatis by leucocyte migration inhibition (LIF) and delayed hypersensitivity skin testing. Delayed hypersensitivity of a systemic nature developed after a local eye infection in owl monkeys; clearance of inclusions from conjunctival cells coincided with the onset of this response. The association of eye secretion and circulating antibodies with recovery from primary infection was not so striking. Both cellular and humoral immune responses persisted for at least 2 months, at which time all test animals were completely resistant to re-infection. The elicitation of cell-mediated immune reactions with solubilized chlamydial antigens may permit the isolation of specific antigens involved in the generation of protective immunity in the owl monkey model. (+info)
Adjuvant effect of a peptidoglycan attached covalently to a synthetic antigen provoking anti-phage antibodies.
(26/8759)
The synthetic antigen denoted P2-A--L, comprising the fragment P2 of the coat protein of MS-2 coliphage attached to multichain poly-DL-alanine, served for the immunization of guinea-pigs. Immunization was carried out either in phosphate buffered saline (PBS) or in Freund's incomplete adjuvant (FIA) in the presence or absence of a small molecular weight peptidoglycan prepared from Bacillus megaterium, which was checked for its adjuvant effect. The various antisera were assessed by their capacity to neutralize MS-2 bacteriophage viability. When injected in PBS or FIA, P2-A--L did not elicit any measurable anti-phage activity. Addition of the peptidoglycan by simple mixing did not bring about a significant increase in antibody production. However, when the peptidoglycan was chemically linked to the P2-A--L conjugate, it had a marked adjuvant effect when the material was administered in FIA, almost identical to the extent of the effect of Freund's complete adjuvant. (+info)
Antigenicity of purified glutaraldehyde-treated cholera toxoid administered orally.
(27/8759)
The antigenicity of orally administered glutaraldehyde-treated cholera toxoid was investigated in healthy volunteers. Fourteen volunteers ingested two or three 2-mg doses of toxoid with saline, with the doses spaced at 28-day intervals. Thirteen other volunteers received comparable toxoid doses with NaHCO3 and milk to neutralize gastric acid. Increments in circulating antitoxin levels were used to assay the antigenicity of oral toxoid. Antitoxin was measured by adrenal cell, rabbit skin permeability factor, and passive hemagglutination assays in sera collected on days 0, 28, 35, 56, 63, and 84 after primary immunization. Adrenal cell and rabbit skin assays exhibited identical sensitivity in detecting antitoxin rises in the 27 vaccinees (19/27) and were significantly more sensitive than passive hemagglutination (11/27) (P less than 0.03). Volunteers who ingested toxoid with NaHCO3 and milk had a higher rate of seroconversion (77%) than those who received toxoid with saline (64%); they also had earlier rises in antitoxin titer and consistently higher geometric mean titers on all days tested. These studies demonstrate that purified cholera toxoid is antigenic in humans after oral administration. The possible role of oral toxoid in enhancing the protective effect of killed whole-cell vaccines can now be investigated. (+info)
Expression of NG2/human melanoma proteoglycan in human adult articular chondrocytes.
(28/8759)
OBJECTIVE: NG2 is a transmembrane chondroitin sulfate (CS) rich proteoglycan originally identified in rats. It has recently been shown to be identical to human melanoma proteoglycan (HMPG). In rats NG2 has a limited distribution in adult tissues, being expressed predominantly by neuronal and glial cells whereas during development it is also expressed in developing mesenchyme including cartilage. NG2/HMPG has putative roles in interactions between glial and melanoma cells with extracellular matrix (ECM) molecules. This study was undertaken to assess whether NG2/HMPG was expressed by normal and osteoarthritic human articular chondrocytes. DESIGN: Cryostat sections of human fetal knee joints and normal and osteoarthritic articular cartilage were immunostained with antibodies against rat NG2 (N143.8) and HMPG (M28B5, 9.2.27). Immunoprecipitation and Western blotting was carried out on protein extracts of chondrocytes from normal and osteoarthritic cartilage. Immunofluorescence of NG2 and potential ligands was carried out in vitro on cells from normal and osteoarthritic cartilage. RESULTS: Fetal and both normal and osteoarthritic adult cartilage showed strong immunoreactivity for NG2/HMPG. Western blotting showed a smeared component of molecular weight greater than 400 kDa and a faint band at 250 kDa which became predominant upon digestion with chondroitinase ABC. Immunofluorescence of chondrocytes in vitro showed NG2 to be distributed in a punctate pattern without co-localization of actin or several ECM proteins including fibronectin and type VI collagen. CONCLUSION: NG2/HMPG is expressed by human fetal and adult chondrocytes and in adult articular chondrocytes the core protein is chondroitin sulfated. The function of this molecular in human articular cartilage remains to be defined. (+info)
Tissue factor pathway inhibitor expression in human crescentic glomerulonephritis.
(29/8759)
BACKGROUND: Tissue factor (TF) pathway inhibitor (TFPI), the major endogenous inhibitor of extrinsic coagulation pathway activation, protects renal function in experimental crescentic glomerulonephritis (GN). Its glomerular expression and relationship to TF expression and fibrin deposition in human crescentic GN have not been reported. METHODS: Glomerular TFPI, TF, and fibrin-related antigen (FRA) expression were correlated in renal biopsies from 11 patients with crescentic GN. Biopsies from 11 patients with thin basement membrane disease and two normal kidneys were used as controls. RESULTS: TFPI was undetectable in control glomeruli but was detectable in interstitial microvessels. In crescentic biopsies, TFPI was detected in cellular crescents and was more prominent in fibrous/fibrocellular crescents, indicating a correlation with the chronicity of crescentic lesions. TFPI appeared to be associated with macrophages but not endothelial or epithelial cells. TFPI was generally undetectable in regions of the glomerular tuft with minimal damage. In contrast, TF and FRA were strongly expressed in regions of minimal injury, as well as in more advanced proliferative and necrotizing lesions. Despite prominent TF expression, FRA was less prominent in fibrous/fibrocellular crescents in which TFPI expression was maximal. CONCLUSIONS: These data suggest that TFPI is strongly expressed in the later stages of crescent formation and is inversely correlated with the presence of FRA in human crescentic GN. This late induction of TFPI may inhibit TF activity and favor reduced fibrin deposition in the chronic stages of crescent formation. (+info)
Cutting edge: LFA-1 is required for liver NK1.1+TCR alpha beta+ cell development: evidence that liver NK1.1+TCR alpha beta+ cells originate from multiple pathways.
(30/8759)
Using mice deficient for LFA-1, CD44, and ICAM-1, we examined the role of these adhesion molecules in NK1.1+TCR alpha beta+ (NKT) cell development. Although no defect in NKT cell development was observed in CD44-/- and ICAM-1-/- mice, a dramatic reduction of liver NKT cells was observed in LFA-1-/- mice. Normal numbers of NKT cells were present in other lymphoid organs in LFA-1-/- mice. When LFA-1-/- splenocytes were injected i.v. into wild-type mice, the frequency of NKT cells among donor-derived cells in the recipient liver was normal. In contrast, when LFA-1-/- bone marrow (BM) cells were injected i.v. into irradiated wild-type mice, the frequency of liver NKT cells was significantly lower than that of mice injected with wild-type BM cells. Collectively, these data indicate that LFA-1 is required for the development of liver NKT cells, rather than the migration to and/or subsequent establishment of mature NKT cells in the liver. (+info)
Negative selection of immature B cells by receptor editing or deletion is determined by site of antigen encounter.
(31/8759)
Immature B cells that encounter self-antigen are eliminated from the immune repertoire by negative selection. Negative selection has been proposed to take place by two distinct mechanisms: deletion by apoptosis or alteration of the antigen receptor specificity by receptor editing. While convincing evidence exists for each, the two models are inherently contradictory. In this paper, we propose a resolution to this contradiction by demonstrating that the site of first antigen encounter dictates which mechanism of negative selection is utilized. We demonstrate that the bone marrow microenvironment provides signals that block antigen-induced deletion and promote RAG reinduction. In the periphery, the absence of these signals allows the immature B cell to default to apoptosis as a result of BCR engagement. (+info)
Critical role of leukocyte function-associated antigen-1 in liver accumulation of CD4+NKT cells.
(32/8759)
In contrast to peripheral lymphoid organs, a high percentage of T cells in the liver are CD4+NKT cells. We asked whether adhesion molecules play any role in the accumulation of CD4+NKT cells in the liver. Liver CD4+NKT cells expressed ICAM-1 and high levels of LFA-1. In the livers of LFA-1-deficient mice, the number of CD4+NKT cells was markedly decreased. This reduction was restricted to the liver, and no reduction was found in the other organs analyzed. In contrast, the number of liver CD4+NKT cells in ICAM-1-deficient mice was only marginally reduced. In a reciprocal radiation thymocyte reconstitution system with LFA-1-deficient and wild-type mice, LFA-1 expressed on liver cells other than CD4+NKT cells was required for an accumulation of CD4+NKT cells in the liver. These results demonstrate a crucial role for LFA-1 in the accumulation of CD4+NKT cells in the liver. (+info)