Adipose tissue contains a stromal vascular fraction (SVF) that is a rich source of adipose tissue-derived stem cells (ASCs). ASCs are multipotent and in vitro-expanded ASCs have the capacity to differentiate, into amongst others, adipocytes, chondrocytes, osteoblasts, and myocytes. For tissue engineering purposes, however, it would be advantageous to use the whole SVF, which can be transplanted without further in vitro selection or expansion steps. Because little is known about the freshly isolated ASCs in the SVF, we phenotypically characterized human freshly isolated ASCs, using flow cytometry. In addition, we investigated whether freshly isolated ASCs have functional properties comparable to cultured ASCs. For this, the differentiation potential of both freshly isolated ASCs and cultured ASCs into the osteogenic pathway was analyzed. Freshly isolated ASCs slightly differed in immunophenotype from cultured ASCs. Contrary to cultured ASCs, freshly isolated ASCs were shown to be highly positive for CD34, and positive for CD117 and HLA-DR. On the other hand, expression of CD105 and especially CD166 on the freshly isolated ASCs was relatively low. After osteogenic stimulation of freshly isolated ASCs, both Runx-2 and CollaI gene expression were significantly increased (p < 0.05). However, there was a difference in the kinetics of gene expression between freshly isolated and cultured ASCs and also between the different SVF isolates tested. There was no difference in alkaline phosphatase activity between freshly isolated ASCs and cultured ASCs. In addition, freshly isolated ASCs stained positive for osteonectin and showed matrix mineralization. We conclude that although there are minor differences in phenotype and kinetics of differentiation between freshly isolated ASCs and cultured ASCs, the use of freshly isolated ASCs for tissue engineering purposes involving bone repair is potentially applicable.
A hallmark of B-cell immunity is the generation of a diverse repertoire of antibodies from a limited set of germline V(D)J genes. This repertoire is usually defined in terms of amino acid composition. However, variable domains may also acquire -linked glycans, a process conditional on the introduction of consensus amino acid motifs (-glycosylation sites) during somatic hypermutation. High levels of variable domain glycans have been associated with autoantibodies in rheumatoid arthritis, as well as certain follicular lymphomas. However, the role of these glycans in the humoral immune response remains poorly understood. Interestingly, studies have reported both positive and negative effects on antibody affinity. Our aim was to elucidate the role of variable domain glycans during antigen-specific antibody responses. By analyzing B-cell repertoires by next-generation sequencing, we demonstrate that -glycosylation sites are introduced at positions in which glycans can affect antigen binding as a result of a specific clustering of progenitor glycosylation sites in the germline sequences of variable domain genes. By analyzing multiple human monoclonal and polyclonal (auto)antibody responses, we subsequently show that this process is subject to selection during antigen-specific antibody responses, skewed toward IgG4, and positively contributes to antigen binding. Together, these results highlight a physiological role for variable domain glycosylation as an additional layer of antibody diversification that modulates antigen binding.
These data suggest that the presence of TAA-specific TILs forms a prognostic factor, predicting improved survival in advanced-stage melanoma patients. The absence of TAA-specific T cells in the circulation suggests that homing of the tumor-specific T cell population to the tumor site contributes to the effectiveness of antitumor immunity.
In this report the first example of functional expression of a fimbrial gene cluster of a non‐enteric human pathogen in Escherichia coli is described. This is shown for Haemophilus influenzae fimbriae which mediate adherence to oropharyngeal epithelial cells. A genomic library of H.influenzae type b, strain 770235f+bo, was constructed using a cosmid vector and screened with a synthetic oligonucleotide probe derived from the N‐terminal sequence of the fimbrial subunit of H.influenzae. Four cosmid clones were found which hybridized to this oligonucleotide probe. Escherichia coli strains harbouring these clones expressed the H.influenzae fimbriae at their cell surface, as was demonstrated in a whole‐cell ELISA and by immunogold electron microscopy using a monoclonal antibody specific for the H.influenzae fimbriae. Surface expression could be maintained during subcloning until a minimal H.influenzae DNA insert of approximately 8.1 kb was obtained. Escherichia coli strains harbouring the 8.1 kb H. influenzae DNA were able to cause a mannose‐resistant adherence to oropharyngeal epithelial cells and a mannose‐resistant haemagglutination of human AnWj‐positive erythrocytes. The nucleotide sequence of hifA, the gene encoding the major fimbrial subunit, was determined. The predicted amino acid sequence shows a significant homology with a number of E.coli fimbrial subunits.
BACKGROUND: Platelet transfusions can induce alloimmunization against HLA antigens. The use of pathogen-reduced platelet concentrates (PCs) was suggested to reduce HLA alloimmunization and concomitant transfusion refractoriness.
METHODS:This study investigated HLA alloimmunization in available samples from 448 hematooncological patients who were randomized for the Pathogen Reduction Evaluation and Predictive Analytical Rating Score (PREPAReS) trial to receive either untreated or pathogen-reduced PCs (Mirasol, Terumo BCT Inc.). Anti-HLA Class I and II antibodies were determined before the first platelet transfusion and weekly thereafter using multiplex assay with standard cutoffs to detect low-as well as high-level antibodies. ABBREVIATIONS: IQR = interquartile range; ITT = intention-totreat; NBGs = normalized background ratios; ORs = odds ratios; PCs = platelet concentrates; PP = per-protocol; PRA = panel reactivity; SD = standard deviation; UV = ultraviolet.From the
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