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Blood, 15 January 2008, Vol. 111, No. 2, pp. 965-966. This Article Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Citation Map Services Email this article to a friend Similar articles in this journal Alert me to new issues of the journal Download to citation manager Rights and Permissions Citing Articles Citing Articles via CrossRef Citing Articles via Google Scholar Google Scholar Articles by Kleinewietfeld, M. Articles by Falk, K. Search for Related Content PubMed Articles by Kleinewietfeld, M. Articles by Falk, K. Related Collections Related Articles in Blood Online Social Bookmarking                   What's this?  Previous Article  |  Table of Contents  |  Next Article  CORRESPONDENCE Hydrolysis of extracellular ATP by CD39+ Treg cells: context matters! Response: We thank our colleagues for their comments as they stress the complex role extracellular adenosine triphosphate (ATP) actually plays in immune regulation. This applies even more so as there are indeed apparent differences between mice and humans that may result in species-specific signaling pathways. These differences comprise not only the differential expression of P2Y11 receptors but also the cellular distribution of CD39. In the mouse, the ectoenzyme is expressed constitutively on all Foxp3+ T regulatory (Treg) cells, whereas in humans the expression is restricted only to a specific Treg subset.1 While these differences may complicate the transfer of experimental results between species, for the immune regulation by CD39+ Treg cells we still regard ATP primarily as a ‘classical’ danger signal for both humans and mice. In principle, we agree that the role of extracellular ATP hydrolysis is likely to be more complex than just ‘blunt immune suppression.’ Nothing is black or white; everything depends on the context. A prominent example is mouse transforming growth factor (TGF)-β, which normally drives the generation of immune-suppressive Treg cells but in the presence of IL-6 converts into a differentiation factor for pro-inflammatory Th17 cells.2 The same also applies for ATP. As quoted already in the report by Borsellino et al,1 exposure of immature human dendritic cells (DCs) to ATP alone triggers only an incomplete maturation and produces cells unable to secrete pro-inflammatory cytokines. The cells are in fact tolerogenic as they release thrombospondin-1 and express indoleamine 2,3 dioxygenase.3 The same study,3 however, also revealed that ATP triggers the up-regulation of IL-23. This is in line with Schnurr et al,4 who showed that also in the presence of bacterial stimuli ATP potentiates the induction of IL-23, while blocking the generation of IL-12. Notably, IL-23 is the key-survival factor for Th17 cells, a recently discovered subset of effector/memory cells involved in autoaggressive immune attacks.2 Thus, depending on the environment, ATP acts on human immature DCs not only as an enhancer of tolerance-induction. During infection and ongoing immune reactions it may instead promote the expansion of pro-inflammatory Th17 cells. Extracellular ATP plays a similar role also in the regulation of innate immunity. The generation of pro-IL-1β is induced by TLR-ligands such as LPS or CpG. Some reports indicate that ATP is involved in the release of the cytokine as it triggers the shedding of IL-1β-filled microvesicles from activated monocytes or mature DC.5,6 More importantly, other studies have shown that extracellular ATP actually regulates the inflammasome-dependent conversion of pro-IL-1β into the mature cytokine.7 Thus, in the presence of TLR ligands, ATP acts as an immediate inducer of pro-inflammatory cytokines. On human Treg cells, CD39 is expressed on a subset of effector/memory-like cells (TREM).1 TREM cells accumulate inside the inflamed tissue8 to which they have been attracted by factors such as the CCR6-ligand CCL20. The chemokine is released by activated leukocytes during infection and inflammation, so that they should encounter extracellular ATP usually only in a context where it acts as a pro-inflammatory danger signal. In the absence of other signals indicating inflammation or infection, extracellular ATP may indeed exhibit some suppressive effects. Although the suggested inhibitory role of the P2Y11 receptor still needs to be established, it could directly inactivate human T cells by raising intracellular cAMP levels. However, high concentrations of ATP are toxic also for mouse T cells, where the effect is mediated by P2x7 receptors. Mouse Treg cells are even particularly sensitive to the nucleotide9 and it is namely the ecto-ATPase CD39 that allows them to cope with the elevated ATP levels in inflamed sites.1 The close linkage of the ATPase-activity of CD39 to the activation status of the Treg cell in mice clearly points to an immune-suppressive function. Restricted expression of the enzyme by a subset of Treg cells acting inside inflamed tissue suggests that also in humans its primary function is the removal of an activating danger signal.1 The generation of adenosine by CD39 and CD73, as demonstrated by Deaglio et al,10 may further add to the anti-inflammatory effect.    Authorship Top Authorship References   Conflict-of-interest disclosure: The authors declare no competing financial interests. Correspondence: Kirsten Falk or Olaf Rötzschke, Max-Delbrück-Center for Molecular Medicine, Robert-Rössle-Str. 10, D-13125 Berlin, Germany; e-mail: falk{at}mdc-berlin.de or roetzsch{at}mdc-berlin.de. Markus Kleinewietfeld, Diletta DiMitri, Alexander Sternjak, Adamo Diamantini, Giovanna Borsellino, Luca Battistini, Olaf Rötzschke, and Kirsten Falk    References Top Authorship References   Borsellino G, Kleinewietfeld M, Di Mitri D, et al. Expression of ectonucleotidase CD39 by Foxp3+ Treg cells: hydrolysis of extracellular ATP and immune suppression. Blood 2007; 110:1225–1232.[Abstract/Free Full Text] Weaver CT, Hatton RD, Mangan PR, Harrington LE. IL-17 family cytokines and the expanding diversity of effector T cell lineages. Annu Rev Immunol 2007; 25:821–852.[CrossRef][Medline] [Order article via Infotrieve] Marteau F, Gonzalez NS, Communi D, Goldman M, Boeynaems JM. Thrombospondin-1 and indoleamine 2,3dioxygenase are major targets of extracellular ATP in human dendritic cells. Blood 2005; 106:3860–3866.[Abstract/Free Full Text] Schnurr M, Toy T, Shin A, Wagner M, Cebon J, Maraskovsky E. Extracellular nucleotide signaling by P2 receptors inhibits IL-12 and enhances IL-23 expression in human dendritic cells: a novel role for the cAMP pathway. Blood 2005; 105:1582–1589.[Abstract/Free Full Text] MacKenzie A, Wilson HL, Kiss-Toth E, Dower SK, North RA, Surprenant A. Rapid secretion of interleukin-1beta by microvesicle shedding. Immunity 2001; 15:825–835.[CrossRef][Medline] [Order article via Infotrieve] Ferrari D, La Sala A, Chiozzi P, et al. The P2 purinergic receptors of human dendritic cells: identification and coupling to cytokine release. Faseb J 2000; 14:2466–2476.[Abstract/Free Full Text] Mariathasan S and Monack DM. Inflammasome adaptors and sensors: intracellular regulators of infection and inflammation. Nat Rev Immunol 2007; 7:31–40.[CrossRef][Medline] [Order article via Infotrieve] Kleinewietfeld M, Puentes F, Borsellino G, Battistini L, Rotzschke O, Falk K. CCR6 expression defines regulatory effector/memory-like cells within the CD25(+)CD4+ T-cell subset. Blood 2005; 105:2877–2886.[Abstract/Free Full Text] Aswad F, Kawamura H, Dennert G. High sensitivity of CD4+CD25+ regulatory T cells to extracellular metabolites nicotinamide adenine dinucleotide and ATP: a role for P2X7 receptors. J Immunol 2005; 175:3075–3083.[Abstract/Free Full Text] Deaglio S, Dwyer KM, Gao W, et al. Adenosine generation catalyzed by CD39 and CD73 expressed on regulatory T cells mediates immune suppression. J Exp Med 2007; 204:1257–1265.[Abstract/Free Full Text] CiteULike    Connotea    Del.icio.us    Digg    Reddit    Technorati    What's this? Related Articles in Blood Online: TCD response to hydroxyurea therapy Russell E. Ware Blood 2008 111: 964. [Full Text] [PDF] Hydrolysis of extracellular ATP and immune suppression: humans versus mice Stefania Gorini and Andrea la Sala Blood 2008 111: 964-965. [Full Text] [PDF] Expression of ectonucleotidase CD39 by Foxp3+ Treg cells: hydrolysis of extracellular ATP and immune suppression Giovanna Borsellino, Markus Kleinewietfeld, Diletta Di Mitri, Alexander Sternjak, Adamo Diamantini, Raffaella Giometto, Sabine Höpner, Diego Centonze, Giorgio Bernardi, Maria Luisa Dell'Acqua, Paolo Maria Rossini, Luca Battistini, Olaf Rötzschke, and Kirsten Falk Blood 2007 110: 1225-1232. [Abstract] [Full Text] [PDF] This Article Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Citation Map Services Email this article to a friend Similar articles in this journal Alert me to new issues of the journal Download to citation manager Rights and Permissions Citing Articles Citing Articles via CrossRef Citing Articles via Google Scholar Google Scholar Articles by Kleinewietfeld, M. Articles by Falk, K. Search for Related Content PubMed Articles by Kleinewietfeld, M. Articles by Falk, K. 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