APCs in the anterior uveal tract do not migrate to draining lymph nodes

The migration of APCs from sites of infection and their maturation are critical elements in the generation of immune responses. However, the paths by which intraocular Ags migrate to draining lymph nodes are not known because the eye has limited lymphatic vessels. To date, only dendritic cells from the cornea and conjunctiva have been shown to emigrate. We demonstrate that phagocytic APCs in the anterior uveal tissues of the murine eye that ingest fluorescent latex beads do not migrate to regional lymph nodes. The beads are ingested in the uveal tract by cells expressing MHC class II, CD11c, or F4/80. Using intravital time-lapse videomicroscopy to monitor iris APC migration after anterior chamber injection of fluorescent Ag, fluorescently labeled APCs fail to move at multiple observation times, even in the presence of Ag and LPS. Whereas an as yet unidentified ocular nonphagocytic APC subset might migrate from the anterior uveal tissues, it is more probable that immune responses in the draining lymph nodes are engendered by soluble Ag escaping the eye through interstitial spaces. The inability of anterior uveal tissue APCs to migrate to lymph nodes may contribute to deviant immune responses that dominate after Ags are introduced into the anterior chamber.     

Evidence that cutaneous antigen-presenting cells migrate to regional lymph nodes during contact sensitization

These studies address the hypothesis that Ag-bearing epidermal Langerhans cells migrate to the regional lymph node during contact sensitization and function as APC. Skin from C3H mice was grafted onto BALB/c nude mice, and 7 or 14 days later, the recipients were sensitized with FITC through the grafts. APC from lymph nodes draining the site of sensitization were capable of sensitizing C3H recipients to FITC. Because sensitization is MHC restricted, only cells reaching the lymph node from the grafted skin could have induced contact hypersensitivity in C3H mice. Examination of the FITC+ draining lymph node cells by immunofluorescence and immunoelectron microscopy demonstrated that all were Ia+, most were F4/80+, and some contained Birbeck granules. These studies demonstrate that Ia+, FITC+ cells from the skin, at least some of which are Langerhans cells, leave the skin after epicutaneous sensitization with FITC and participate in the initiation of the contact hypersensitivity response within the regional lymph node.     

Antigen modulation of the immune response. VI. Rate of large memory cell appearance in lymph nodes and thoracic duct lymph

We have studied the rate of appearance of memory B-cell subpopulations in the antigen draining lymph nodes and thoracic duct lymph of rats using 1g velocity sedimentation and adoptive transfer. Five days after immunization 100% of the memory response was attributable to large cells. By Days 7, 14, 28, and 77 after priming the large cells contribution to the memory population dropped to 86, 35, 15, and 10% respectively. At the same time the small cell contribution rose from 20% on Day 14 to 46% on Days 28 and 77. The same results were obtained with thoracic duct lymphocytes with the large cells contributing 53% of the response on Day 7 and 20% on Day 150. Appropriate controls were included to show that differential suppression was not responsible for these results. Furthermore, when purified large memory cells were passaged through intermediate hosts for 7 to 11 days, between 76 and 81% of the large cells matured into medium or small lymphocytes. These data show that the earliest memory cells formed after antigen encounter are the blast-like large lymphocytes and that these evolve, through a series of antigen-independent events, first into medium and then small lymphocytes. A model of memory cell development incorporating these results and the results of others is presented.     

Ligand-induced association of the type I interferon receptor components.

Two transmembrane polypeptides, IFNAR and IFN-alpha/Beta R, were previously identified as essential components of the type I interferon (IFN) receptor, but their interrelationship and role in ligand binding were not clear. To study these issues, we stably expressed and characterized the two polypeptides in host murine cells. In human cells, native IFN-alpha/beta R is a 102-kDa protein but upon reduction only a 51-kDa protein is detected. In host murine cells human IFN-alpha/beta R was expressed as a 51-kDa protein. Host cells expressing IFN-alpha/beta R bound IFN-alpha 2 with a high affinity (Kd of 3.6 nM), whereas cells expressing IFNAR exhibited no ligand binding. Upon coexpression of IFNAR and the 51-kDa IFN-alpha/beta R, the affinity for IFN-alpha 2 was increased 10-fold, approaching that of the native receptor. We show by cross-linking that both the cloned (51-kDa) and native (102-kDa) IFN-alpha/beta R bind IFN-alpha 2 to form an intermediate product, while IFNAR associates with this product to form a ternary complex. Hence, IFNAR and IFN-alpha/beta R are components of a common type I IFN receptor, cooperating in ligand binding. Ligand-induced association of IFNAR and IFN-alpha/beta R probably triggers transmembrane signaling.     

Vascular origin determines plasminogen activator expression in human endothelial cells. Renal endothelial cells produce large amounts of single chain urokinase type plasminogen activator

Positioned at the boundary between intra- and extravascular compartments, endothelial cells may influence many processes through their production of plasminogen activators (PA). Available data have shown that tissue-type plasminogen activator (t-PA) is the major form produced by human endothelial cells. We have compared the molecular forms of PA produced by human endothelial cells from different microvascular and large vessel sources including two different sites within the circulation of the kidney. Using combined immunoactivity assays specific for u-PA and t-PA activity and antigen, we found that both human renal microvascular and renal artery endothelial cells produced high levels of u-PA antigen (60.48 ng/10(5) cells/24 h and 50.42 ng/10(5) cells/24 h, respectively) and corresponding levels of u-PA activity after activation with plasmin. Activity was not evident before plasmin activation, showing that the u-PA produced is almost exclusively as single chain form U-PA. In contrast, human omental microvascular endothelial cells and human umbilical vein endothelial cells produced exclusively t-PA (8.80 ng/10(5) cells/24 h and 2.17 ng/10(5) cells/24 h, respectively). Neither endothelial cell type from human kidney produced plasminogen activator inhibitor, as determined by reverse fibrin autography and titration assays. Agents including phorbol ester, thrombin, and dexamethasone were shown to regulate the renal endothelial cell production and mRNA expression of both u-PA and t-PA. Among the macro- and microvascular endothelial cells tested, only those from the renal circulation produced high levels of single chain form U-PA, suggesting the vascular bed of origin determines the expression of plasminogen activators.     

The host type I interferon response to viral and bacterial infections

Type I interferons (IFN) are well studied cytokines with anti-viral and immune-modulating functions. Type I IFNs are produced following viral infections, but until recently, the mechanisms of viral recognition leading to IFN production were largely unknown. Toll like receptors (TLRs) have emerged as key transducers of type I IFN during viral infections by recognizing various viral components. Furthermore, much progress has been made in defining the signaling pathways downstream of TLRs for type I IFN production. TLR7 and TLR9 have become apparent as universally important in inducing type I IFN during infection with most viruses, particularly by plasmacytoid dendritic cells. New intracellular viral pattern recognition receptors leading to type I IFN production have been identified. Many bacteria can also induce the up-regulation of these cytokines. Interestingly, recent studies have found a detrimental effect on host cells if type Ⅰ IFN is produced during infection with the intracellular gram-positive bacterial pathogen, Listeria monocytogenes. This review will discuss the recent advances made in defining the signaling pathways leading to type I IFN production.     

Virus-induced expression of type I interferon genes

Intracellular double-stranded (ds) RNA is a major sign of replication for many viruses. Host mechanisms detect the dsRNA and provoke antiviral responses. Recently, we identified retinoic acid inducible gene-I (RIG-I), which encodes a DExD/H box RNA helicase containing the caspase recruitment domain (CARD) as a critical regulator for dsRNA-induced signaling. The helicase domain with intact ATPase activity is responsible for recognition of dsRNA, and the CARD transmits downstream signals, resulting in the activation of genes including type I interferons. In this review, we discuss the function of RIG-I in antiviral innate immunity.     

Ontogeny of human fetal lymph nodes.

Developing lymph nodes from 30 human embryos and fetuses with crown-rump lengths (CRL) of 18 mm (5.6 wk) to 245 mm (26 wk) were examined by light microscopy. The nodes were embedded in araldite, and the sections examined were approximately 1 mu in thickness. The development of nodes was divided into three stages: 1. the lymphatic plexus and connective tissue invagination (30 mm to 67 mm CRL); 2. the early fetal lymph node (43 mm to ,5 mm CRL); and 3. the late fetal lymph node (CRL greater than 75 mm). The lymphatic plexus was formed by connective tissue invaginations and bridges which divided a lymph sac into a meshwork of channels and spaces. Connective tissue invaginations were endothelially-lined and were surrounded by lymphatic space. Reticular cells, macrophages, and blood vessels were found in these invaginations. Early fetal lymph nodes were formed from invaginations when the cellular density and lymphocyte content increased. The lymphatic space surrounding the early node was the developing subcapsular sinus. With further development the early node became packed with lymphocytes, increasing the cellular density and size of the node. The connective tissue surrounding the subcapsular sinus condensed to form the capsule. Afferent lymphatic vessels pierced the capsule. Capillaries, veins, postcapillary venules, and occasional arteries were found in early and late nodes.     

Plasmacytoid dendritic cells are activated by Toxoplasma gondii to present antigen and produce cytokines

Infection with the parasite Toxoplasma gondii leads to the induction of a Th1-type response dominated by IFN-gamma production and control of this pathogen. Cells of the innate immune system are essential in initiating this response both through the production of IL-12 as well as the presentation of parasite-derived Ags to MHC-restricted T cells. Although dendritic cells (DCs) have been implicated in these events, the contribution of individual DC populations remains unclear. Therefore, multiparameter flow cytometry was used to identify and characterize subsets of murine DCs during acute toxoplasmosis. This approach confirmed that infection leads to the expansion and activation of conventional DC (cDC) subsets. Unexpectedly, however, this analysis further revealed that plasmacytoid DCs are also expanded and that these cells up-regulate MHC class II and costimulatory molecules associated with their acquired ability to prime naive CD4(+) T cells. Furthermore, T. gondii-activated plasmacytoid DCs produce high levels of IL-12 and both plasmacytoid DC maturation and cytokine production are dependent on TLR11. Together these studies suggest that pDCs are a prominent DC subset involved in the initial stages of T. gondii infection, presenting parasite Ags and producing cytokines that are important for controlling infection.     

猪I型与II型干扰素的克隆、表达及抗病毒活性比较

干扰素(IFN)是由多种细胞受病毒感染或其他生物诱导剂刺激而产生的天然蛋白质,主要功能为抗病毒增殖、调节免疫反应和激活免疫细胞等。本研究克隆并测序了猪干扰素(PoIFN)α、γ、αγ及ω基因。构建原核表达载体pET-His/PoIFN-α、pET-His/PoIFN-γ、pET-His/PoIFN-αγ和pET-His/PoIFN-ω,转化大肠杆菌Rosetta(DE3)进行表达,经纯化、复性得到具有生物学活性的蛋白。用细胞病变抑制法在Marc-145/PRRSV、Marc-145/VSV、PK-15/VSV、Vero/VSV、MDBK/VSV系统上进行抗病毒活性测定,结果表明猪α和αγ融合干扰素有较为显著的抗病毒活性,抗PRRSV活性高达108U/mg;猪γ干扰素活性效价约为α干扰素的1/2到1/3;猪ω干扰素几乎未检测到抗病毒活性,需进一步验证。本研究对干扰素在抗病毒、提高机体免疫方面的应用提供了理论依据。     

Histochemistry of normal and diseased human lymph nodes.

Gomori's metal precipitate technique was used to demonstrate the phosphatase activity of the human cervical lymph node in health and disease, using four different phosphate esters (sodium beta-glycerophosphate and adenosine triphosphate at pH 9, riboflavin 5'-phosphate at pH 9.2 and 5'-monophosphoric acid at pH 8.3). In fetal lymph nodes, using 5'-monophosphoric acid, an outstanding positive activity was noticed in the lymphatic follicles. With the other three substrates there was either no nodular reaction or just a narrow rim of positive activity around the follicles, the internodular tissue being negative with all four substrates used. With chronic non-specific lymphadenitis the enzyme hydrolysing the three substrates (beta-glycerophosphate, riboflavin 5'-phosphate and adenosine triphosphate) began to make their appearance. It seems that with lymphadenitis, a qualitative change of the phosphatase activity takes place. A special characteristic pattern of phosphatase activity has been described in both 'early' and 'caseating' tuberculous lymphadenitis. In malignant lymphomas it was noticed that no activity was encountered with any of the four substrates in reticulum cell sarcoma. However, in lymphosarcoma a positive activity was obtained when either beta-glycerophosphate or adenosine triphosphate substrates was used, to the extent that one can depend upon this characteristic phosphatase activity in differentiating between reticulum cell sarcoma and lymphosarcoma. However, no enzymatic activity was obtained when the other two phosphate esters were used.     

Modulation of T-cell function by type I interferon

Production of type I interferon (IFN-α/β) is a common cellular response to virus infection. IFN-α/β has a dual role in combating infection, triggering innate antiviral mechanisms and stimulating the generation of an adaptive immune response. This review focuses on the effects of IFN-α/β on one particular immune cell type, the T cell, and the impact of IFN-α/β-mediated signalling in T cells on the immune response. The critical role of T-cell responsiveness to IFN-α/β for the generation of productive T-cell responses after infections with certain viruses in vivo is discussed in the context of in vitro experiments investigating the mechanisms by which IFN-α/β modifies T-cell function. These studies reveal complex effects of IFN-α/β on T cells, with the consequences of exposure to IFN-α/β depending on the context of other signals received by the T cell.     

Epstein-Barr virus LF2: an antagonist to type I interferon

Upon viral infection, the major defense mounted by the host immune system is activation of the interferon (IFN)-mediated antiviral pathway, which is mediated by IFN regulatory factors (IRFs). In order to complete their life cycle, viruses must modulate host IFN-mediated immune responses. Despite its association with significant human health problems, activities of Epstein-Barr virus (EBV), a human tumor-inducing herpesvirus, to evade host IFN-mediated innate immunity have not been well characterized. To search for EBV genes that block IFN signal transduction, we carried out a screening of EBV open reading frames for their abilities to block IFN-α/β-mediated luciferase expression upon Sendai virus infection. This screening demonstrates that EBV LF2 tegument protein specifically interacts with the central inhibitory association domain of IRF7, and this interaction leads to inhibition of the dimerization of IRF7, which suppresses IFN-α production and IFN-mediated immunity. This demonstrates a novel immune evasion mechanism of EBV LF2 in blocking cellular IRF7-mediated innate immunity.     

Listeria infection inhibits IgE production in regional lymph nodes by suppressing chemotaxis of basophils to lymph nodes

Infection with Listeria induces a dominant shift to the Th1 immune response and inhibits the Th2 response. Papain is frequently utilized in animal models of allergies. Papain administration induces chemotaxis of basophils to regional lymph nodes (LNs) and production of interleukin (IL)‐4 by basophils, resulting in a Th2‐dominant status and increased IgE production in LNs. In this model, production of immunoglobulin (Ig) E by LN cells is primarily controlled by IL‐4 produced by basophils. Based on this model, it was postulated that Listeria monocytogenes (Lm) infection suppresses IgE production by LN cells. Therefore, the effects of Lm infection on a papain‐induced mouse model of allergies were investigated. Following s.c. injection of papain, basophils transiently migrated to draining LNs because of the effects of chemokine (C–C) motif ligand (CCL) 24 and secreted IL‐4, inducing a Th2 response. Lm infection blocked recruitment of basophils into the popliteal LNs by inhibiting CCL24 production. Papain‐induced class switch recombination (CSR) to IgE is inhibited by Lm infection, whereas CSR to IgG1 is not affected by the same treatment. Therefore, the CSR of IgG1 to IgE is basophil‐dependent, whereas the CSR of IgM to IgG1 is basophil‐independent. Hence, Lm infection suppresses CSR to IgE without affecting CSR to IgG1.