TY - JOUR
T1 - T cell-dependent loss of proliferative responsiveness to colony-stimulating factor-1 by a murine epidermal-derived dendritic cell line, XS52
AU - Kitajima, Toshiyuki
AU - Ariizumi, Kiyoshi
AU - Bergstresser, Paul R.
AU - Takashima, Akira
PY - 1995
Y1 - 1995
N2 - We have reported previously that XS52 cells, a long-term dendritic cell (DC) line established from mouse epidermis, proliferate maximally in response to CSF-1, and that XS52 cells expanded in this manner induce brisk proliferation of HDK-1 T cells (KLH-specific Th1 clone) and 5S8 T cells (DNBS-specific Th0 clone) in the presence of Ag. Our purpose was to determine whether CSF-1-dependent mitotic potential of XS52 cells might be affected upon Ag-dependent interaction with these T cell clones. Both surface CSF-1R expression and mitotic responsiveness to CSF-1 became undetectable within 24 h after incubation with each T cell clone in the presence of relevant Ag. By contrast, incubation with T cells alone or Ag alone had minimal effect, indicating a requirement for both T cells and Ag. Exposure of fresh XS52 cells to the supernatant collected from complete XS52/HDK-1/KLH or XS52/5S8/DNBS coculture was sufficient to abrogate both CSF-1R expression and CSF-1 responsiveness. Importantly, both were restored by mAb against IFN-γ, and both were diminished by rIFN-γ in the absence of T cells or Ag. Thus, IFN-γ, which was detected in relatively large amounts in the above supernatants, serves as a major mediator. rIFN-γ reduced the number of CSF-1 binding sites on XS52 cell surface, without affecting CSF-1R mRNA expression. Thus, it appears that IFN-γ down-regulates CSF-1R by a post-transcriptional mechanism. We interpret these results to document a novel, bi-directional signaling event in which Ag-dependent DC-T cell interaction promotes the growth of T cells, but inhibits the growth of DC.
AB - We have reported previously that XS52 cells, a long-term dendritic cell (DC) line established from mouse epidermis, proliferate maximally in response to CSF-1, and that XS52 cells expanded in this manner induce brisk proliferation of HDK-1 T cells (KLH-specific Th1 clone) and 5S8 T cells (DNBS-specific Th0 clone) in the presence of Ag. Our purpose was to determine whether CSF-1-dependent mitotic potential of XS52 cells might be affected upon Ag-dependent interaction with these T cell clones. Both surface CSF-1R expression and mitotic responsiveness to CSF-1 became undetectable within 24 h after incubation with each T cell clone in the presence of relevant Ag. By contrast, incubation with T cells alone or Ag alone had minimal effect, indicating a requirement for both T cells and Ag. Exposure of fresh XS52 cells to the supernatant collected from complete XS52/HDK-1/KLH or XS52/5S8/DNBS coculture was sufficient to abrogate both CSF-1R expression and CSF-1 responsiveness. Importantly, both were restored by mAb against IFN-γ, and both were diminished by rIFN-γ in the absence of T cells or Ag. Thus, IFN-γ, which was detected in relatively large amounts in the above supernatants, serves as a major mediator. rIFN-γ reduced the number of CSF-1 binding sites on XS52 cell surface, without affecting CSF-1R mRNA expression. Thus, it appears that IFN-γ down-regulates CSF-1R by a post-transcriptional mechanism. We interpret these results to document a novel, bi-directional signaling event in which Ag-dependent DC-T cell interaction promotes the growth of T cells, but inhibits the growth of DC.
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M3 - Article
C2 - 7594529
AN - SCOPUS:0028871442
SN - 0022-1767
VL - 155
SP - 5190
EP - 5197
JO - Journal of Immunology
JF - Journal of Immunology
IS - 11
ER -