SummaryLigands for the cysteine-nch (CR) domain of the mannose receptor (MR) were detected by incubating murine tissues with a chimeric protein containing CR fused to the Fc region of human IgG1 (CR-Fc). In naive mice, CR-Fc bound to sialoadhesin +, F4/80 l°w/ , macrosialin + macrophages (Mo) in spleen marginal zone (metallophilic Mo) and lymph node subcapsular sinus. Labeling was also observed in B cell areas of splenic white pulp. Western blotting analysis of spleen and lymph nodes lysates revealed a restricted number of molecules that interacted specifically with CR-Fc. In immunized mice, labeling was upregulated on germinal centers in splenic white pulp and follicular areas of lymph nodes. Kinetic analysis of the pattern of CR-Fc labeling in lymph nodes during a secondary immune response to ovalbumin showed that CR ligand expression migrated towards B cell areas, associated with cells displaying distincnve dendritic morphology, and accumulated in developing germinal centers. These studies suggest that MR + cells or MR-carbohydrate-containing antigen complexes could be directed towards areas where humoral immune responses take place, through the interaction of the MR CR domain with molecules expressed in specialized macrophage populations and antigen transporting cells,
We have described a mutant mouse, C57BL/Ola, in which Wallerian degeneration following peripheral nerve transection is very slow. Our previous results suggested that recruited monocytes play a role in rapid Wallerian degeneration. The nature of the mutation in C57BL/Ola mice is not known and we have investigated whether the defect is intrinsic to the nerve or due to a defect in the circulating monocytes. We have made chimaeric mice in which bone marrow from histocompatible mice, with rapidly degenerating nerves and normal monocyte recruitment, was used to reconstitute irradiated C57BL/Ola mice and vice-versa. A substantial degree of donor repopulation of the hosts was confirmed by measures of the levels of glucose-phosphate isomerase alloenzymes in blood and tissue samples from the two different strains. The rate of degeneration of the transected sciatic nerve was found to be host-dependent, providing evidence that the mutation affects cell populations intrinsic to the nerve and not the circulating monocytes. We provide additional evidence that the peripheral nerves of C57BL/Ola mice are different from those of other mice as they degenerate at a slower rate in vitro.
Murine models of invasive candidiasis were used to study the in vivo importance of gamma interferon (IFN-γ) and interleukin-4 (IL-4) in host defense against Candida albicans and to characterize the tissue inflammatory reactions, with special reference to macrophages (Mφ). Knockout (KO) IFN-γ-deficient (GKO) and IL-4-deficient (IL-4 KO) and C57BL/6 parental mouse strains were challenged intraperitoneally with 108 C. albicans blastoconidia. Survival of GKO mice was significantly lower (16.7%) than that of C57BL/6 control (55.5%) and IL-4 KO (61.1%) animals, but was not correlated with the extent of organ colonization. Immunohistological analysis with a panel of myeloid and lymphoid markers revealed multiple renal abscesses, myocarditis, hepatitis, meningoencephalitis, and pneumonia in each strain, with a dominant presence of Mφ. In the absence of IFN-γ, C. albicans induced striking changes in the phenotype of alveolar Mφ and extensive perivascular lymphoid infiltrates in the lung. Impairment in nitric oxide production by peritoneal Mφ was shown only in GKO mice, and they produced Candida-specific immunoglobulin G (IgG), IgM, IgA, and IgG subclasses in lower titers. Our in vivo studies with KO mice elucidate a critical role for IFN-γ, but not IL-4, in host defense against C. albicans.
The 5' region of the human lysozyme gene from -3500 to +25 was fused to a chloramphenicol acetyltransferase (CAT) reporter gene and three transgenic founder mice were obtained. All three transgenic lines showed the same pattern of CAT enzyme expression in adult mouse tissues that was consistent with the targeting of elicited, activated macrophages in tissues and developing and elicited granulocytes. In normal mice high CAT enzyme activity was found in the spleen, lung, and thymus, tissues rich in phagocytically active cells, but not in many other tissues, such as the gut and muscle, which contain resident macrophages. Cultured resident peritoneal macrophages and cells elicited 18 hr (granulocytes) and 4 days (macrophages) after injection of sterile thioglycollate broth expressed CAT activity. Bacillus Calmette-Guérin infection of transgenic mice resulted in CAT enzyme expression in the liver, which contained macrophage-rich granulomas, whereas the liver of uninfected mice did not have any detectable CAT enzyme activity. Although the Paneth cells of the small intestine in both human and mouse produce lysozyme, the CAT gene, under the control of the human lysozyme promoter, was not expressed in the mouse small intestine. These results indicate that the human lysozyme promoter region may be used to direct expression of genes to activated mouse myeloid cells.
S m is a lectinke receptor found on a ried polati of ssue i in lymphoid and hemopoietic times. In bone marrow, it is localized to areas of contact between the resident al macrophages and developing , which together form my- Resident macrophages are distributed throughout the organs and tissues of the body, where they are thought to play a central role in both innate and specific immune responses and in the maintenance of normal homeostatic mechanisms such as hemopoiesis. The precise function of macrophages within specific microenvironments such as the bone marrow or the brain is poorly understood, but it appears that these cells maintain a discrete set of surface receptors which are specific for their particular anatomical/functional location and which appear to be controlled in a spatially and temporally precise manner.The way in which tissue macrophages interact with other cells and with components of the extracellular matrix is of particular interest. Our laboratory has described a macrophage-restricted receptor that has a lectin-like specificity for ligands containing terminal sialic acid residues (1). This receptor, known as SER or sialoadhesin, was characterized by means of its functional capacity to bind sheep erythrocytes in the absence of divalent cations. Following the development of a specific monoclonal antibody (mAb), , the receptor was isolated by affinity chromatography and shown to be a glycoprotein of 185 kDa (reduced) or 175 kDa (nonreduced) (3). The isolated protein at nanomolar concentrations was capable of agglutinating sheep and human erythrocytes, and this agglutination could be inhibited with gangliosides such as GT1b and GD1a, suggesting that the receptor reacts preferentially with oligosaccharides containing terminal sialic acid as
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