The spleen is the lymphoid organ that induces immune responses toward blood-borne pathogens. Specialized macrophages in the splenic marginal zone are strategically positioned to phagocytose pathogens and cell debris, but are not known to play a role in the activation of T-cell responses. Here we demonstrate that splenic marginal metallophilic macrophages (MMM) are essential for crosspresentation of blood-borne antigens by splenic dendritic cells (DCs). Our data demonstrate that antigens targeted to MMM as well as blood-borne adenoviruses are efficiently captured by MMM and exclusively transferred to splenic CD8 + DCs for cross-presentation and for the activation of cytotoxic T lymphocytes. Depletion of macrophages in the marginal zone prevents cytotoxic T-lymphocyte activation by CD8 + DCs after antibody targeting or adenovirus infection. Moreover, we show that tumor antigen targeting to MMM is very effective as antitumor immunotherapy. Our studies point to an important role for splenic MMM in the initial steps of CD8 + T-cell immunity by capturing and concentrating blood-borne antigens and the transfer to cross-presenting DCs which can be used to design vaccination strategies to induce antitumor cytotoxic T-cell immunity.antigen presentation | infection T he spleen is essential for the induction of immune responses toward blood-borne antigens and has a unique architecture. Arterial blood flow terminates in marginal sinuses situated in the marginal zone (MZ) that surrounds the white pulp containing Bcell follicles and T-cell zones. Marginal sinuses are lined by reticular cells and contain marginal zone B cells and two types of macrophages (Mφ) (1, 2). Marginal metallophilic macrophages (MMM), characterized by the expression of sialic acid-binding Iglike lectin-1 (Siglec-1, Sialoadhesin, CD169) (3, 4), are located as a tight network in the inner part of the MZ near the white pulp, whereas marginal zone macrophages (MZM), which specifically express the C-type lectin SIGN-R1, can be found in the outer MZ toward the red pulp (5). Both MZM and a subset of MMM express the type I scavenger receptor MARCO (6). Although MMM and MZM efficiently take up particulate antigens (Ag) present in the blood (7-9), they are hitherto considered not to be important for the generation of T-cell responses (8-10).In contrast to Mφ, dendritic cells (DCs) are specialized Agpresenting cells that have a dominant role in initiating primary Tcell responses. Murine splenic DCs can be divided into two different subsets based on the expression of phenotypic markers: localization and function (11). CD8 + DCs express the C-type lectin DEC205 and are found in the T-cell zone and the outer marginal zone (12). They are specialized in cross-presentation of Ag and in the activation and tolerization of cytotoxic T cells (CTLs) (13-16). Furthermore, they are important for the generation of antitumor specific immune responses and the elimination of tumors in vivo (17). In contrast, CD8− DCs are specialized in the activation of CD4 + T cells. CD8 − DCs are...
In severe liver fibrosis and cirrhosis, failure to control bacterial infection is caused by augmented IFN and IL-10 expression that incapacitates antibacterial immunity of myeloid cells. Targeted interference with the immune regulatory host factors IL-10 and IFN reconstitutes antibacterial immunity and may be used as therapeutic strategy to control bacterial infections in patients with liver cirrhosis.
Early during Gram-negative sepsis, excessive release of pro-inflammatory cytokines can cause septic shock that is often followed by a state of immune paralysis characterized by the failure to mount adaptive immunity towards secondary microbial infections. Especially, the early mechanisms responsible for such immune hypo-responsiveness are unclear. Here, we show that TLR4 is the key immune sensing receptor to initiate paralysis of T-cell immunity after bacterial sepsis. Downstream of TLR4, signalling through TRIF but not MyD88 impaired the development of specific T-cell immunity against secondary infections. We identified type I interferon (IFN) released from splenic macrophages as the critical factor causing Tcell immune paralysis. Early during sepsis, type I IFN acted selectively on dendritic cells (DCs) by impairing antigen presentation and secretion of pro-inflammatory cytokines. Our results reveal a novel immune regulatory role for type I IFN in the initiation of septic immune paralysis, which is distinct from its well-known immune stimulatory effects. Moreover, we identify potential molecular targets for therapeutic intervention to overcome impairment of T-cell immunity after sepsis.
CGRP is immediately released during abdominal surgery and induces a neurogenic inflammation via activation of abdominal macrophages. BIBN4096BS prevented IM-induced inflammation and restored GI motility. These findings suggest that CGRP receptor antagonism could be instrumental in the prevention of POI.
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