Trafficking of T cells into the CNS is a pathophysiological hallmark of multiple sclerosis. Using an in vitro model of the blood-brain barrier, Minten et al. reveal that the atypical chemokine receptor DARC shuttles inflammatory chemokines across the barrier, where they contribute to immune cell trafficking into the brain.
Serology is an important tool for the diagnosis of alveolar echinococcosis (AE) in humans. In order to improve serodiagnostic performance, we have developed an in vitro-produced Echinococcus mulilocularis metacestode vesicle fluid (EmVF) antigen for application in an immunoblot assay. Immunoblot analysis of EmVF revealed an abundant immunoreactive band triplet of 20-22 kDa, achieving a sensitivity of 100 % based on the testing of sera from 62 pre-operative and pre-treatment cases of active and inactive AE. Thus, the EmVF-immunoblotting allowed the specific detection of cases seronegative by the Em2-and/or EmII/3-10-ELISA, usually attributable to abortive, inactive cases of AE. The specificity of the EmVF-immunoblotting did not allow discrimination between AE and cystic echinococcosis (CE) but was 100 % with respect to non-Echinococcus parasitic infections or cancer malignancies. Based on the findings of this study, it is recommended that the current ELISA test combination (Em2-and II/3-10-ELISA) be complemented with EmVF-immunoblotting, allowing an improved diagnosis of both clinical and subclinical forms of AE, including those associated with E. multilocularis-specific antibody reactivities not detectable by ELISA.
An acute depletion of plasma fibronectin or FN has been observed in critically ill, surgical, or trauma patients, but there is little information on the relationships between FN levels and the final outcome in such cases, and on the simultaneous behaviour of other serum proteins. The daily values of FN, antithrombin III, IgG, C3, prealbumin, and transferrin were monitored in 98 intensive care patients after major elective surgery or trauma. According to their clinical course, they were divided retrospectively into three groups. Group A (33 patients) had sepsis. Group B (31 patients) had nonseptic complications, and group C (34 patients) had no complications in the ICU. The individual, nadir levels of FN, AT III, prealbumin, and transferrin were lower (p less than 0.01) in the septic group A than in B and C. Within the septic group, the nadir levels of AT III, but not those of FN, were lower (p less than 0.01) in the 14 nonsurvivors than in the 19 survivors. The FN and AT III levels had returned at least temporarily to the normal range in the six ultimate fatalities from sepsis who survived for more than two weeks. In the septic group, transferrin showed the highest percentages of actually subnormal levels and differed from FN in this respect with p less than 0.05. Furthermore, all six proteins showed a significant overall pattern (p less than 0.01) of parallel variations. The results confirm other reports on the behavior of fibronectin in septic patients as a group, but it was not informative as to the individual outcome, and its reduction might be viewed as part of a general plasma protein depletion associated with acute septic disease. This pattern is probably attributable to a combination of intravascular consumption and an overall excess of protein catabolism over synthesis.
To investigate the cellular immune response to the drug lidocaine, we generated T cell lines and clones from the peripheral blood of four patients with proven allergy to lidocaine. The patients had contact dermatitis after topical application of lidocaine, and local swelling or generalized erythema exudativum multiforme after submucosal/subcutaneous injection of lidocaine. Two of three lidocaine-specific T cell lines were oligoclonal and one even became monoclonal, while the simultaneously analyzed immune response to tetanus toxoid was polyclonal. The lidocaine-specific T cell lines cross-reacted to mepivacaine, but not to other local anesthetics (bupivacaine, procaine, oxybuprocaine, and tetracaine). The majority of reactive T cells belonged to the CD4 cell lineage and were MHC class II restricted, but cloning also revealed some MHC class I-restricted CD8+ clones. A total of 2 of 56 lidocaine-specific T cell clones were CD4-CD8- and expressed TCR-gammadelta. The majority of 13 analyzed CD4 clones produced a rather polarized cytokine pattern, with a dominance of Th2-like cytokines showing a high IL-5 production. In addition, three CD4+ and all CD8+ (n = 7) clones secreted high IFN-gamma and low levels of IL-5/IL-4 (Th1-like). The data illustrate that a drug that sensitizes via the skin elicits a heterogeneous T cell response. The high IL-5 production and the participation of specific CD4+CD8+ and even gammadelta+ T cells appear to be distinguishing features of this hapten-specific immune response.
The study was designed to determine comparatively the prognostic value of immunoblotting and ELISA in the serological follow-up of young cystic echinococcosis (CE) patients exhibiting either a cured or a progredient (non-cured) course of disease after treatment. A total of 54 patients (mean age 9 years, range from 3 to 15 years) with surgically, radiologically and/ or histologically proven CE were studied for a period up to 60 months after surgery. Additionally, some of the patients underwent chemotherapy. Based on the clinical course and outcome, as well as on imaging findings, patients were clustered into 2 groups of either cured (CCE), or non-cured (NCCE) CE patients. ELISA showed a high rate of seropositivity 4 to 5 years post-surgery for both CCE (57 . 1 %) and NCCE (100 %) patients, the difference found between the two groups was statistically not significant. Immunoblotting based upon recognition of AgB subcomponents (8 and 16 kDa bands) showed a decrease of respective antibody reactivities after 4 years post-surgery. Only sera from 14 . 3% of CCE patients recognized the subcomponents of AgB after 4 years, while none (0%) of these sera was still reactive at 5 years post-surgery. At variance, immunoblotting remained positive for AgB subcomponents in 100 % of the NCCE cases as tested between 4 and 5 years after surgical treatment. Immunoblotting therefore proved to be a useful approach for monitoring post-surgical follow-ups of human CCE and NCCE in young patients when based upon the recognition of AgB subcomponents.
Abstract:The MHC (major histocompatibility complex) is a group of genes that play a crucial role in immune recognition and in tolerance of tissue grafting. The MHC has also been found to influence body odors, body odor preferences, and mate choice in mice and humans. Here we test whether verbal descriptions of human body odors can be linked to the MHC. We asked 45 male students to live as odor neutral as possible for two consecutive days and to wear a T-shirt during the nights. The odors of these T-shirts were then described by five evaluators: two professional perfumers and three laymen. One of the perfumers was able to describe the T-shirt odors in such a way that some of the allelic specificity of the MHC was significantly revealed (after Bonferroni correction for multiple testing). This shows that, although difficult, some people are able to describe MHCcorrelated body odor components.
Vascular surgical site infection (SSI) is caused by pathogenic bacterial strains whose preferred mode of growth is within a surface biofilm. Bacterial biofilm formation can develop within hours to days in a wound and produces a recalcitrant infectious process especially in the presence of a prosthetic graft. The initial steps of biofilm formation are bacterial adhesion to biologic or inert surgical site structures followed by organism production of exopolysaccaride matrix which encases developing bacteria colonies to produce a protective microenvironment. As the biofilm matures, a dynamic process of organism cell-to-cell signaling occurs with varying growth modes of sessile bacteria within the biofilm and the release of planktonic bacteria with the potential to spread and expand the biofilm-mediated infection. The prevalence of staphyloccocal strains causing vascular SSI is best understood when viewed as a biofilm-mediated infection with virulence factors related to specific cell surface adhesion proteins and bacteria-derived matrix production. Nonhealing surgical sites following lower limb revascularization, the late appearance of prosthetic graft infection caused by Staphylococcus epidermidis, and the development of groin site tracts after aortofemoral bypass grafting are clinical examples of a biofilm-mediated SSI. A mature biofilm within a wound or coating a prosthetic device exhibits resistance to host defenses and selected antibiotics, impairs wound healing, and is a perpetual irritant to that host by inciting a chronic inflammatory process. By understanding the microbial pathogenesis of biofilm formation, strategies to treat and prevent biofilm-mediated infection can be developed and utilized to reduce vascular SSIs.
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