Inflammation processes cause activation of phospholipase A in plasma membranes resulting in the production of various lysophospholipids. Treatment of mice with L-alpha-lysophosphatidyl-DL-glycerol (lyso-Pg) resulted in an enhanced ingestion activity of peritoneal macrophages as did other lysophospholipids. However, lyso-Pg is rather toxic as indicated by a rapid decrease in macrophage activity 3 days after treatment while macrophage activity of lysophosphatidylcholine-treated mice continued to increase at least up to the 6th day after treatment. Alkyl-lysophospholipid derivatives, racemic 1-0-octadecyl-2-methylglycero-3-phosphocholine and -phosphoethanolamine stimulated mouse macrophages for Fc-mediated ingestion. Decomposed products of alkyl-lysophospholipids, alkyl-glycerols, were also found to be excellent activators of macrophages not only for ingestion of IgG-coated target cells but also antibody-mediated tumoricidal activity. Macrophages from mice treated with alkylglycerols developed superoxide generating capacity. Furthermore, alkyl-glycerols were found to be tumoricidal by direct contact with retinoblastoma cells. Therefore, the advantage of the potential application of alkylglycerols as chemotherapeutic agents is that they have dual beneficial effects: potentiation of macrophage activity and cytotoxicity to malignant cells.
Lysophosphatidylcholine (lyso-PC), a product of inflammation, stimulates (in vivo) mouse peritoneal macrophages to ingest target cells via Fc receptors. In vitro treatment of macrophages with lyso-Pc was unable to enhance ingestion activity. When a mixture of macrophages and nonadherent (B and T) cells was treated with 20 micrograms of lyso-Pc/ml for 30 min, a greatly enhanced Fc-mediated ingestion was observed at about 3 hr after treatment, suggesting that nonadherent cells contributed to activation mechanism of macrophages. The accumulated evidence suggests that treated B cells collaborated with untreated T cells in a stepwise fashion for the exchange of a signaling factor(s) for macrophage activation. When conditioned medium prepared by stepwise cultivation from treated B cells to untreated T cells was used for cultivation of untreated macrophages, a markedly enhanced Fc-mediated ingestion was observed. However, cultivation of macrophages with stepwise conditioned medium of treated T cells and untreated B cells produced no significant enhancement of phagocytic activity. Therefore, we concluded that lyso-Pc-treated B cells initiated the macrophage activation process by releasing and transmitting a signaling factor to T cells, and, in turn, the T cells modified the factor or supplied a new factor capable of the ultimate activation of macrophages for ingestion capacity. This lyso-Pc-induced factor(s) appears to be distinct from the established interleukins 1 and 2.
Inflammation products of normal and cancerous tissues, lysophosphatidylcholine and dodecylglycerol, were tested for their adjuvant effect on the antibody response. Mice treated with these agents and immunized with sheep erythrocytes simultaneously or at 3 days posttreatment developed a greatly enhanced antibody production as demonstrated by the Jerne plaque assay. Mice immunized at 3 days postadministration of agents did not significantly produce enhanced antibody-secreting cells as compared with those of mice simultaneously immunized. Since the mechanism of macrophage activation by lysophospholipids requires contribution of B and T cells, BALB/c-nu/nu mice treated with these agents and subsequently immunized with sheep erythrocytes did not produce antibodies. However, conditioned medium of in vitro-treated BALB/c-nu/nu B cells efficiently transmitted a signal to untreated BALB/c +/+ T cells for enhanced macrophage ingestion activity. This observation suggests that lysophospholipid-activated macrophages and T cells efficiently transmitted antigenic signal to the antibody-producing B cell population. Therefore, we conclude that these lipid metabolites have dual beneficial effects for the host by enhancing phagocytosis and antibody production. Thus, lysophosphatidylcholine and dodecylglycerol have potential practical application as adjuvants that could be administered separately or in combination with antigens.
Infection with Trichinella spiralis larvae greatly enhanced the resistance of adult mice against fatal infection with Plasmodium berghei given 10 and 30 days after T. spiralis infection. Mice infected with T. spiralis had a markedly activated mononuclear phagocytic system and significantly low reticulocyte levels at the time the mice were challenged with P. berghei. Therefore, the partially subdued parasitaemia and prolonged survival of Trichinella-Plasmodium-infected mice may be attributed, in part, to macrophage activity and reticulocytopenia exerting a specific anti-P. berghei effect. This study suggests the role of T. spiralis induced reticulocytopenia and activated macrophages as potential mechanisms in resistance to P. berghei infection.
Microbial infection causes inflammation which stimulates macrophage functions. One of the inflammatory products, lysophosphatidylcholine (lyso-Pc), can stimulate macrophage activities. Treatment of mice with lyso-Pc enhanced spreading and ingestion activities of peritoneal macrophages. In vitro treatment of macrophages with lyso-Pc greatly enhanced spreading but not ingestion activities. However, incubation of a mixture of adherent and nonadherent cells with lyso-Pc produced a markedly enhanced ingestion activity of macrophages, implying the contribution of nonadherent cells to the stimulation of macrophages. Time course studies of the stimulation of these macrophages showed that spreading activity is stimulated immediately, even 30 min, after their contact with lyso-Pc while induction of ingestion activity requires a latent period of about 5 h. When the specificity of the macrophage receptors for ingestion was analyzed using defined immunoglobulins (i.e., IgG and IgM) with or without complement, lyso-Pc-activated macrophages efficiently ingested IgG-coated sheep erythrocytes independent of complement. However, macrophages of the same lyso-Pc-treated mice did not ingest erythrocytes coated with IgM and complement. These observations suggest that lyso-Pc-stimulated macrophages ingest the targets via Fc-receptors but not C3b receptors.
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