The chemotactic potencies of ELR+-CXC chemokines during acute inflammation are regulated by their binding affinities and by their ability to activate, desensitize, and internalize their specific receptors, CXCR1 and CXCR2. To gain insight into the fine mechanisms that control acute inflammatory processes, we have focused in this study on the highly potent ELR+-CXC chemokine Granulocyte Chemotactic Protein 2 (GCP-2), and on its ability to control the cell surface expression of CXCR1 and CXCR2. Although GCP-2 has been considered an effective ligand for both CXCR1 and CXCR2, our findings demonstrated that it was a potent inducer of CXCR2 internalization only. A functional hierarchy was shown to exist between GCP-2 and 2 other ELR+-CXC chemokines, IL-8 and NAP-2, in their abilities to induce CXCR1 and CXCR2 internalization, according to the following: IL-8 > GCP-2 > NAP-2. By the use of pertussis toxin (PTx), it was demonstrated that the actual events of Gi-coupling to CXCR2 do not have a major role in the regulation of its internalization. Rather, CXCR2 internalization was shown to be negatively controlled by induction of signaling events, as indicated by the promotion of CXCR2 internalization following exposure to wortmannin, a potent inhibitor of phosphatidylinositol (PI) 3 kinases and PI4 kinases. Furthermore, our results suggest that rab11+-endosomes participate in the trafficking of CXCR2 through the endocytic pathway, to eventually allow its recycling back to the plasma membrane. To conclude, our findings shed light on the interrelationships between GCP-2 and other ELR+-CXC chemokines, and determine the mechanisms involved in the regulation of GCP-2–induced internalization and recycling of CXCR2.
The experiments described herein were designed to determine whether part of the Ig coat of tumor cells consists of specific anti-tumor antibodies. It was demonstrated that the inoculation of polyoma virus-induced sarcoma cells (SEYF-a) into syngeneic A.BY mice stimulates the production of cytotoxic antibodies against the tumor-cell population. The level of these antibodies, which was undetectable during the first week after transplantation, increased markedly during the second week, and remained high thereafter. Following the increase in cytotoxic antibodies in the serum, a cell-bound potentially cytotoxic antibody was detected on the tumor cells by testing their sensitivity to rabbit complement. The increase in cell-bound, potentially cytotoxic antibody followed the kinetics of the increase in serum antibody during the second week after transplantation and was inversely correlated to the amount of free antigens on the cell surface. These antigens, responsible for the sensitivity of the cells to a syngeneic hyperimmune cytotoxic antiserum, became non-available for the cytotoxic antibodies during propagation of the tumor cells. Cells from a tumor propagated for 3 weeks could not compete for anti-tumor antibodies with cells propagated for 1 week. Yet it was possible to increase the antigenic capacity of cells from an old tumor by a treatment that would cause the release of tumor-associated Ig. Cytotoxic anti-SEYF-a antibodies could be dissociated from tumor cells propagated in vivo by methods causing dissociation of antigen-antibody complexes, and detected in tumor eluates.
The ability of splenocytes from mice bearing three types of primary tumor to lyse YAC-I target cells (NK activity) and to inhibit [125I]dUrd incorporation ([125I]dUrd I-I = cytostasis) into B16-F10 target cells was compared to the ability of normal splenocytes to perform such activities. The tumor systems used were urethane-induced lung adenomas in BALB/c mice, dimethylbenzanthracene (DMBA)-induced tumors in hormonally-stimulated BALB/c mice and mammary tumors in force-bred C3HeB mice. The two types of natural cellular reactivity in lung adenoma-bearing mice were unaffected. The NK activity of mice bearing DMBA and forced-breeding-induced tumors was suppressed. The cytostatic ability of splenocytes from mice bearing DMBA-induced tumors was significantly elevated. The spleens of mice bearing primary DMBA-induced tumors contained cells able to suppress NK activity or to compete against target cells for NK cells.
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