Murine dendritic cells derived from myeloid progenitors of the thymus are unable to produce bioactive IL-12p70.

Dendritic cells (DC) are present at low density in the thymus where they mediate negative selection of self-reactive thymocytes. Previous reports suggest that thymic DC (TDC) are a single population of lymphoid-related DC. In this study, we documented the presence in the adult mouse thymus of an additional population of TDC exhibiting a myeloid phenotype (CD11c(+) CD8alpha(-) CD11b(+)). This population, which can be purified, represented approximately 20% of the total TDC and differs from the population of lymphoid TDC (CD11c(+) CD8(+) CD11b(-)) by its incapacity to produce IL-12p70 under double stimulation by LPS and anti-CD40. Furthermore, using an original culture system allowing expansion of DC from myeloid progenitors, we demonstrated that DC exhibiting a similar myeloid phenotype can be derived from a common DC/macrophage progenitor resident in the adult mouse thymus. We found that, in contrast with myeloid splenic DC expanded in the same conditions, these cultured TDC were unable to produce IL-12p70 under double stimulation by LPS and anti-CD40 or LPS and IFN-gamma. Thus, our results suggest that 1) adult mouse thymus contains at least two phenotypically and functionally distinct populations of DC; and 2) cultured myeloid DC derived from thymus and spleen differ by their ability to produce IL-12p70. The mechanisms underlying the differences in IL-12-secreting capacities of the cultured splenic and thymic DC are under current investigation.

A two-step culture method starting with early growth factors permits enhanced production of functional dendritic cells from murine splenocytes.

Dendritic cells (DC) are professional antigen presenting cells (APC) able to activate naive T cells and initiate the immune response. They are present in most tissues at very low concentrations and are difficult to isolate. DC can be obtained in larger numbers by their propagation from progenitors present in blood, bone marrow and spleen. However, biochemical studies and biological analysis of DC functions require very large numbers of these cells. In this paper, we described a two-step culture system using unfractionated splenocytes from BALB/c mice as a source of DC progenitors. The proliferative capacity of the progenitors is amplified in the first step of the culture (day 0-6) using different combinations of early acting cytokines combined or not with granulocyte-macrophage CSF (GM-CSF). The second step of the culture starts at day 6 with the removal of early growth factors in order to allow the differentiation and final maturation of DC during 2-3 weeks of culture with flt-3 ligand (flt-3L) and GM-CSF. The addition of Stem Cell Factor (SCF) or IL-6 to the standard combination of flt-3L+/-GM-CSF produces a large increase in the proliferation of GM and DC progenitors (28 times and 11 times respectively) in the first step of the culture. This proliferative wave of DC progenitors is followed by the production of a high percentage of immature and mature DC in flt-3L+GM-CSF stimulated cultures. The best combination of early cytokines in terms of proliferative activity and subsequent level of DC production was flt-3L+IL-6+GM-CSF, which permitted the generation of 1 to 2x10(9) DC from one single spleen. Using this growth factor cocktail, a mixture of immature (2/3) and mature (1/3) DC was produced until day 14 of culture, and levels of MHC class II and costimulatory molecules (CD40, B7.2) increased between 2 and 4 weeks of incubation, or within 2 days when stimulated by IL-4 or LPS. The splenic DC produced after 2 weeks of culture are fully functional, exhibiting a high capacity of endocytosis when immature, a strong stimulatory reactivity in mixed leukocyte reaction and consistently producing high levels of bioactive IL-12 p70 after CD 40 ligation in the presence of LPS between 13 and 43 days of culture.

Different stimulating effects of complement C3b and complete Freund's adjuvant on antibody response.

Upon activation, complement C3 undergoes a conformational change and acquires the capacity to covalently bind to other proteins such as antigen and to interact with specific receptors; therefore, C3 is involved in cell mediated immune response. The adjuvant effect produced by linking C3-fragments to antigen has recently been described. We injected C3b-Ag complexes consisting of one molecule of C3b ester linked to one molecule of HEL to immunised mice, and we compared the C3b adjuvant activity with that of complete Freund's adjuvant. IgG titers elicited by HEL emulsified in CFA (HEL + CFA) were higher than those elicited by HEL-C3b, but decreased rapidly after a peak response around day 45 whereas HEL-C3b resulted in a continuous increase of anti-HEL response. Mice immunised with HEL + CFA then boosted with HEL-C3b gave significantly higher response than those boosted with HEL + CFA, indicating more efficient memory cell restimulation by C3b. HEL + CFA leads to better priming than HEL-C3b when mice are boosted with HEL-C3b. Thus, adjuvant effect of C3b is different from that of CFA, leading to more stable IgG production and better memory stimulation.

Amplification of the antibody response by C3b complexed to antigen through an ester link.

Complement C3 has been described as playing an important role in the cell-mediated immune response. C3b has the capacity to covalently bind Ag and then to stimulate in vitro Ag presentation to T lymphocytes. To verify this observation in vivo, we prepared and purified covalent human C3b-Ag complexes using lysozyme (HEL) as Ag. The characterization of these HEL-C3b complexes indicates that they are representative of those susceptible to be generated in physiological conditions. Mice were immunized with 0.1 to 0.6 microgram of either free HEL, HEL + C3b, HEL-C3b, or HEL + CFA. Response was assessed after two i.p. injections by quantification of specific Ab production. Immunization with either HEL-C3b complexes or HEL + CFA leads to anti-HEL IgG production whereas free HEL or HEL + C3b was ineffective. Either HEL-C3b or HEL + CFA immunizations led to a similar Ig subclass patterns, including IgG1, IgG2a, IgA, and IgM. Our experiments provide the first evidence for modulation of specific Ab response by C3b when it is bound to Ag through a physiological-like link. Taken together with previous data concerning Ab response following recombinant HEL-C3d immunization, cellular events such as processing of C3b-Ag by APC and recognition by T lymphocytes, this present result underlines the importance of C3b and its fragments in stimulation of the immune system, through the multiplicity and complementarity of its interactions.