Immunology
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Interleukin-8 (IL-8) elaborated by monocytes and endothelial cells is a cytokine which is responsible for adhesion of leucocytes to vascular endothelium and migration of neutrophils into the cerebrospinal fluid (CSF) from the intravascular space. The inflammation in meningitis is elicited by the cytokine release from leucocytes which encounter micro-organisms in the arachnoid or subarachnoid space. In bacterial meningitis, tumour necrosis factor (TNF), IL-1 and IL-6 are produced vigorously, and initiate and augment the inflammation in the central nervous system. ⋯ The IL-8 concentration was markedly higher in the CSF of patients with bacterial meningitis (224 +/- 2.57 pg/ml; mean +/- SD) than in the CSF of patients with aseptic meningitis (less than 30 pg/ml). The IL-8 level in the CSF of patients with aseptic meningitis did not differ from that in the CSF of the patients with gastroenteritis (less than 30 pg/ml). The augmented production of IL-8 in CSF may account for the inflammation in bacterial meningitis being more severe than that in aseptic meningitis.
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Collagenase digestion of perfused, lavaged rat lung yields a large population of CD5+ T cells, which on current evidence appear to be recently derived from the peripheral blood pool. Two-colour cytofluorographic analysis indicates that approximately 65% are CD4+ T cells, which are predominantly of the activated/memory phenotype. ⋯ However, intratracheal inoculation of liposomes containing dichloro-methylene-diphosphonate at a dosage shown to eliminate the majority of resident alveolar macrophages (AM) rapidly restores the immunocompetence of these lung T-cell populations. These results are discussed in relation to recent reports that in vivo elimination of AM from rats and mice greatly amplifies immune responses to inhaled antigens, in particular T-memory cell-dependent secondary antibody responses.
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Short-lived SAMP-P/1 mice are low responders in in vitro antibody responses because of a selectively impaired helper T(Th)-cell activity. After crossing with high responders (B10. BR mice), about 12% of (B10. ⋯ Low responders in the F2 generation showed a significantly higher incidence of SAM-P/1 genotype at the Gpi-1 as well as c locus on chromosome 7 (Chr.7). However, no linkage of low responsiveness to the Hbb locus was evident, an area present at a more distal site to the centromere on the same chromosome. These results suggest that one of the genes controlling the hypo-responsiveness of SAM-P/1 mice is linked to both Gpi-1 and c loci and that it locates at a more proximal site on Chr.7.
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Immune activities of newly developed, short-lived SAM-P/1 mice declined sharply after a few months of age. As early as 2 months of age, the activity of T-helper (Th) cells ('Th2'-like) in the in vitro primary antibody response was profoundly impaired, in contrast to normal activity of Th cells ('Th1'-like) engaged in cell-mediated immune responses. Thus, young SAM-P/1 mice show a functional heterogeneity of Th cells. ⋯ Further linkage analyses suggest that one of the genes is closely linked to albino coat-colour (c) locus on chromosome 7. The putative two genes are likely to control 'differentiation' or 'maturation' of Th2-like cells defectively, but the defect is not refractory, because in vivo-primed Th cells function in vitro as do those in ordinary strains of mice. Possible mechanisms and biological significance in relation to loss of immune activity with ageing are discussed.
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New short-lived strains of mice (SAM-P), which have been developed by Takeda et al. (1981), shows a defective antibody response to T dependent (TD) antigen in vitro, as demonstrated in the accompanying paper (see page 419). In the present study, we investigated the cellular site of the defect, using a cell culture system. ⋯ These two functions of the T-helper subset are apparently regulated in a different manner. The SAM-P strains of mice may thus serve as an appropriate model for studying functional heterogeneity in T-helper/inducer cell subsets.