Isolation and characterization of macaque dendritic cells from CD34(+) bone marrow progenitors.

We have developed a method for isolating and characterizing pigtailed macaque dendritic cells (DCs) generated from CD34(+) bone marrow (BM) progenitors based on methods previously developed for isolating human DCs. Macaque DCs displayed a characteristic morphology and were potent stimulators of allogeneic T cell proliferation. They expressed a set of DC-associated markers, such as MHC class II, CD1a, CD4, CD11a, CD40, CD58, CD80, CD83, CD86, and CXCR4. Macaque DCs, as well as peripheral blood CD4(+) T cells, were highly susceptible to HIV-2 infection, as detected by DNA-PCR. The expression of HIV-2 in macaque DCs was downregulated by treatment with the beta-chemokine RANTES. Macaque DCs will be useful for defining the in vivo role of DCs in HIV pathogenesis and for optimizing and testing peptide-DC vaccines or tolerizing regimens.

Characterization of the expression and gene promoter of CD22 in murine B cells.

CD22 is a B cell-restricted surface molecule which may play an important role in interactions between B cells and other cells and in regulating signals through the B cell receptor (BCR) complex. Here we have examined whether the mouse is a suitable in vivo model for studying CD22 functions. In primary and secondary lymphoid organs of adult mice CD22 is on all mature B cells, including resting IgM+IgD+ B cells, IgG+ HSA(lo) memory B cells, syndecan+ plasma cells and CD5+ B cells, but it is not on immature IgM+IgD- B cells. Biochemical analysis revealed that murine CD22 is associated with the IgM receptor in some, but not all, CD22+ B leukemic and lymphoma cell lines; as with human CD22, murine CD22 is rapidly phosphorylated on tyrosine after ligation of the BCR. In the CD22- murine pro-B cell line, FEMCL, CD22 expression was inducible by treatment with phorbol 12-myristate 13-acetate. A genomic fragment of the cd22b allele containing 1.3 kb 5' of exon 1 was sequenced in order to identify potential DNA regulatory elements in the CD22 promoter region. Consensus sequences for transcription factor binding sites including PU.1, AP-1, AP-2, C/EBP and SP-1 were present, but no classical TATA elements or initiator motifs were evident at relevant positions. The 1.3-kb promoter fragment 5' of exon 1 was sufficient for directing basal promoter activity in B and T cells. There was no significant sequence similarity between the murine and human cd22 gene promoters, although both contain repetitive elements and Sp-1 and AP1 binding sites. Thus, murine CD22 shares a number of features with human CD22 and the mouse provides a suitable model system for elucidating the function of CD22 in vivo.

Functional CD40 ligand expressed by human blood dendritic cells is up-regulated by CD40 ligation.

We examined whether human blood dendritic cells (DCs) express a functional ligand for CD40 (CD40L). Human blood DCs expressed significant amounts of cell surface CD40L identical to that expressed on activated T cells, as detected by mAb to CD40L or a chimeric CD40.Ig fusion protein (CD40.Ig). Stimulation through CD40 up-regulated protein and mRNA CD40L expression in DCs, B cells, and B cell lines. CD40-mediated CD40L expression was inhibited by a protein tyrosine kinase inhibitor, herbimycin, in a dose-dependent manner, suggesting that the induction of CD40L expression via CD40 requires protein tyrosine kinase activity. CD40L surface expression correlated with constitutive or inducible levels of CD40L-specific mRNA, as determined by reverse transcribed PCR analysis (RT-PCR) using CD40L-homologous primers. Furthermore, CD40L on DCs was functional, since CD40L+ DCs, unlike CD40L- DCs, induced B cell IgG and IgA production, and this induction could be inhibited by blocking CD40L-CD40 interactions with mAb to CD40L. Thus, CD40L on DCs and CD40L induced by crosslinking CD40 may regulate B cell activation and maturation. The importance of DC CD40L expression on B cell function is discussed.