Accessory and stimulating properties of dendritic cells and macrophages isolated from various rat tissues

Klinkert, Wolfgang E. F.; LaBadie, Jon Henry; Bowers, William E.

doi:10.1084/jem.156.1.1

Cited by 219 publications

(95 citation statements)

References 48 publications

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“…The allostimulatory ability of non-adherent cells obtained from GM-CSF-supplemented day 8 cultures of unfractionated rat BM was significantly improved by retaining the floating cells that would have been removed during medium exchanges using the 'murine' technique, at stimulator to responder ratios of 1:27 the MLR against PVG were 21747 ± 1484 and 6800 ± 1024, respectively (p < 0.01). These results are entirely consistent with previous reports that mature rat DC do not adhere to culture flasks (Klinkert et al, 1980(Klinkert et al, , 1982. Thus the removal of non-adherent cells during culture discards many of the mature DC and lowers the MLR activity obtained.…”

Section: Effect Of Retaining Non-adherent Cells When Re-feeding Culturessupporting

confidence: 92%

“…Apart from reducing DC purity, monocytes can also express class II Ag as a surface marker. Hence, simple determination of the number of class II + cells in culture, as has been performed in previous reports (Klinkert et al, 1982;MacPherson, 1989), may not adequately differentiate between monocytes and DC.…”

Section: Discussionmentioning

confidence: 95%

“…Although short-term culture (1-3 days) to aid in the isolation of DC from various rat tissues, including lymph nodes, skin, thoracic duct lymph and peritoneal exudate cells, has been described previously (Bowers and Berkowitz, 1986;Klinkert et al, 1980Klinkert et al, , 1982MacPherson, 1989;MacPherson et al, 1989), only two reports describe the culture of DC from rat bone marrow. In these papers, Bowers and Berkowitz (1986) used serum-free medium while Klinkert (1984) used medium supplemented with ConA-stimulated spleen cell supernatant to promote DC growth.…”

Section: Discussionmentioning

confidence: 99%

“…For TEM, day 6 BM cultures, depleted of monocytes by repanning, were further subjected to BSA gradient fractionation as previously described (Klinkert et al, 1980(Klinkert et al, , 1982. The low density fraction (ρ = 1.048) consisted of greater than 90% DC, and representative cells are shown in Fig.…”

Section: Ultrastructure Of DCmentioning

confidence: 99%

“…Phenotypic analysis of these cells was enhanced by the use of OX-62, the new murine monoclonal antibody directed against an integrin-like rat DC surface marker (Brenan and Puklavec, 1992). This method utilises several of the previously described properties of rat DC precursors to maximise the yield of these cells in culture, name1y their lack of adherence to plastic flasks (Klinkert et al, 1980(Klinkert et al, , 1982, FcR status (Klinkert et al, 1980(Klinkert et al, , 1982 and their partial dependence on murine rGM-CSF (MacPherson, 1989;MacPherson et al, 1989). In addition to these measures, tissue culture flasks were coated with gelatin to augment DC growth (in a fashion analogous to the use of type 1 collagen to promote the maturation of liver-derived DC (Lu et al, 1994)).…”

Section: Introductionmentioning

confidence: 99%

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A new protocol for the propagation of dendritic cells from rat bone marrow using recombinant GM-CSF, and their quantification using the mAb OX-62

Chen-Woan

Delaney

Fournier

et al. 1995

Journal of Immunological Methods

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Bone marrow (BM)-derived dendritic cells (DC) are the most potent known antigen (Ag) presenting cell in vivo and in vitro. Detailed analysis of their properties and mechanisms of action requires an ability to produce large numbers of DC. Although DC have been isolated from several rat tissues, including BM, the yield is uniformly low. We describe a simple method for the propagation of large numbers of DC from rat BM and document cell yield with the rat DC marker, OX-62.After depletion of plastic-adherent and Fc + cells by panning on dishes coated with normal serum, residual BM cells were cultured in gelatin coated flasks using murine rGM-CSF supplemented medium. Prior to analysis, non-adherent cells were re-depleted of contaminating Fc + cells. Propagation of DC was monitored by double staining for FACS analysis (major histocompatibility complex (MHC) class II + /OX-62 + , OX-19 − ). Functional assay, morphological analysis and evaluation of homing patterns of cultured cells revealed typical DC characteristics. MHC class II and OX-62 antigen expression increased with time in culture and correlated with allostimulatory ability. DC yield increased until day 7, when 3.3 × 10 6 DC were obtained from an initial 3 × 10 8 unfractionated BM cells. Significant numbers of DC can be generated from rat BM using these simple methods. This should permit analysis and manipulation of rat DC functions in vivo and in vitro.

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Section: Effect Of Retaining Non-adherent Cells When Re-feeding Culturessupporting

confidence: 92%

Section: Discussionmentioning

confidence: 95%

Section: Discussionmentioning

confidence: 99%

Section: Ultrastructure Of DCmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

A new protocol for the propagation of dendritic cells from rat bone marrow using recombinant GM-CSF, and their quantification using the mAb OX-62

Chen-Woan

Delaney

Fournier

et al. 1995

Journal of Immunological Methods

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T-cell co-stimulation by the CD28 ligand B7 is involved in the immune response leading to rejection of a spontaneously regressive tumor

Chaux

Martin

1996

Int. J. Cancer

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Cell variants from experimental tumors may lose their tumorigenicity or give rise to tumors that regress after a short period of progression in immunocompetent syngeneic animals. Rejection of these tumor cells is often T-cell-dependent. It has recently been reported that, besides the specific signal delivered through the clonogenic receptor, T-cell activation requires a co-stimulatory signal, delivered through its CD28 receptor by B7-1 and/or B7-2 molecules expressed at the surface of the antigen-presenting cells. CTLA4Ig, a fusion molecule that specifically inhibits B7-1 and B7-2 binding to their receptors of T cells, was used to investigate the role of B7 in the spontaneous regression of the tumors induced in syngeneic rats by REGb cells, a regressor cell line established from a chemically induced colon carcinoma. When rats received either 1 or 3 CTLA4Ig injections, REGb tumors grew 3 or 7 times larger than in control animals, respectively. However, in most animals, single or repeated CTLA4Ig injections delayed rather than suppressed REGb tumor rejection. Antibodies to CTLA4Ig appeared in treated rats and could explain this transient effect. Neither REGb cells nor freshly isolated MHC class-II+ antigen-presenting cells infiltrating REGb tumors expressed B7, establishing that the target of CTLA4Ig was not located inside the tumor. In contrast, MHC class-II+ B7+ accessory cells were found in the tissue, rather than the tumor itself, was the site of tumor-antigen presentation to tumor-specific T cells. These results establish the role of B7/CD28 co-stimulation pathway in the control of a spontaneously regressive tumor.

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T‐cell co‐stimulation by the CD28 ligand B7 is involved in the immune response leading to rejection of a spontaneously regressive tumor

Chaux¹,

Martin²,

Martín³

1996

Int. J. Cancer

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Accessory and stimulating properties of dendritic cells and macrophages isolated from various rat tissues

Cited by 219 publications

References 48 publications

A new protocol for the propagation of dendritic cells from rat bone marrow using recombinant GM-CSF, and their quantification using the mAb OX-62

A new protocol for the propagation of dendritic cells from rat bone marrow using recombinant GM-CSF, and their quantification using the mAb OX-62

T-cell co-stimulation by the CD28 ligand B7 is involved in the immune response leading to rejection of a spontaneously regressive tumor

T‐cell co‐stimulation by the CD28 ligand B7 is involved in the immune response leading to rejection of a spontaneously regressive tumor

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