Calcium ionophore-treated peripheral blood monocytes and dendritic cells rapidly display characteristics of activated dendritic cells

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Calcium ionophore-treated peripheral blood monocytes and dendritic cells rapidly display characteristics of activated dendritic cells

BJ Czerniecki, C Carter, L Rivoltini, GK Koski, HI Kim, DE Weng, JG Roros, YM Hijazi, S Xu, SA Rosenberg and PA Cohen
Department of Surgery, University of Pennsylvania Medical Center, Philadelphia 19104, USA.

Human peripheral blood contains a small subpopulation of immature dendritic cells (iDC) distinguished from circulating monocytes by their low expression of CD14. We utilized leukapheresis and countercurrent centrifugal elutriation to obtain myeloid origin mononuclear cell (MOMC) fractions of monocytes and iDC for study. These subpopulations were ultrastructurally and immunophenotypically similar before culture. After a 20- to 96-h culture either alone, with recombinant human granulocyte-monocyte CSF, or with endotoxin, greater up-regulation of costimulatory molecule expression was observed among iDC than among monocytes, and only iDC expressed the activation molecule CD83. Treatment with rhIL-4 caused many MOMC to develop morphologic properties of dendritic cells within 96 h, but costimulatory molecule up-regulation and CD14 down-regulation were heterogeneous, and CD83 expression was infrequent. In contrast, calcium ionophore (CI) treatment induced rapid and consistent effects in MOMC from both healthy volunteers and cancer patients, including down-regulated CD14 expression, acquisition of dendritic cell morphologic properties, up- regulated MHC and costimulatory molecule expression, and de novo CD83 expression. Many such effects occurred within 20 h of treatment. CI treatment activated purified CD14+ monocytes and also enhanced the spontaneous activation of purified CD14-/dim iDC in culture. Unfractionated MOMC, purified monocytes, and purified iDC displayed equivalently enhanced T cell-sensitizing efficiency following CI treatment. CD4+ T cell sensitization to keyhole limpet hemocyanin and CD8+ T cell sensitization to MART-1 melanoma-associated peptide were achieved in a single culture stimulation. Therefore, circulating monocytes and iDC can be induced by CI to manifest properties of activated DC, providing large numbers of efficient, nontransformed autologous APC for T cell sensitization strategies.

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Calcium ionophore-treated peripheral blood monocytes and dendritic cells rapidly display characteristics of activated dendritic cells

				L. A. Lyakh, G. K. Koski, H. A. Young, S. E. Spence, P. A. Cohen, and N. R. Rice Adenovirus type 5 vectors induce dendritic cell differentiation in human CD14+ monocytes cultured under serum-free conditions Blood, January 15, 2002; 99(2): 600 - 608. [Abstract] [Full Text] [PDF]

				S. Wille, A. Szekeres, O. Majdic, E. Prager, G. Staffler, J. Stockl, D. Kunthalert, E. E. Prieschl, T. Baumruker, H. Burtscher, et al. Characterization of CDw92 as a Member of the Choline Transporter-Like Protein Family Regulated Specifically on Dendritic Cells J. Immunol., November 15, 2001; 167(10): 5795 - 5804. [Abstract] [Full Text] [PDF]

				M. B. Faries, I. Bedrosian, S. Xu, G. Koski, J. G. Roros, M. A. Moise, H. Q. Nguyen, F. H. C. Engels, P. A. Cohen, and B. J. Czerniecki Calcium signaling inhibits interleukin-12 production and activates CD83+ dendritic cells that induce Th2 cell development Blood, October 15, 2001; 98(8): 2489 - 2497. [Abstract] [Full Text] [PDF]

				N. Novak, T. Bieber, and N. Katoh Engagement of Fc{{epsilon}}RI on Human Monocytes Induces the Production of IL-10 and Prevents Their Differentiation in Dendritic Cells J. Immunol., July 15, 2001; 167(2): 797 - 804. [Abstract] [Full Text] [PDF]

				J. Bodor, L. Feigenbaum, J. Bodorova, C. Bare, M. S. Reitz Jr, and R. E. Gress Suppression of T-cell responsiveness by inducible cAMP early repressor (ICER) J. Leukoc. Biol., June 1, 2001; 69(6): 1053 - 1059. [Abstract] [Full Text] [PDF]

				S.-f. Hsu, P. J. O'Connell, V. A. Klyachko, M. N. Badminton, A. W. Thomson, M. B. Jackson, D. E. Clapham, and G. P. Ahern Fundamental Ca2+ Signaling Mechanisms in Mouse Dendritic Cells: CRAC Is the Major Ca2+ Entry Pathway J. Immunol., May 15, 2001; 166(10): 6126 - 6133. [Abstract] [Full Text] [PDF]

				L. Peng, J. Kjaergaard, G. E. Plautz, D. E. Weng, S. Shu, and P. A. Cohen Helper-Independent, L-Selectinlow CD8+ T Cells with Broad Anti-Tumor Efficacy Are Naturally Sensitized During Tumor Progression J. Immunol., November 15, 2000; 165(10): 5738 - 5749. [Abstract] [Full Text] [PDF]

				K. Schlienger, N. Craighead, K. P. Lee, B. L. Levine, and C. H. June Efficient priming of protein antigen-specific human CD4+ T cells by monocyte-derived dendritic cells Blood, November 15, 2000; 96(10): 3490 - 3498. [Abstract] [Full Text] [PDF]

				L. A. Lyakh, G. K. Koski, W. Telford, R. E. Gress, P. A. Cohen, and N. R. Rice Bacterial Lipopolysaccharide, TNF-{alpha}, and Calcium Ionophore Under Serum-Free Conditions Promote Rapid Dendritic Cell-Like Differentiation in CD14+ Monocytes Through Distinct Pathways That Activate NF-{kappa}B J. Immunol., October 1, 2000; 165(7): 3647 - 3655. [Abstract] [Full Text] [PDF]

				M. Centola, G. Wood, D. M. Frucht, J. Galon, M. Aringer, C. Farrell, D. W. Kingma, M. E. Horwitz, E. Mansfield, S. M. Holland, et al. The gene for familial Mediterranean fever, MEFV, is expressed in early leukocyte development and is regulated in response to inflammatory mediators Blood, May 15, 2000; 95(10): 3223 - 3231. [Abstract] [Full Text] [PDF]