Project description:Cytokines secreted by WT and fascin1 KO BM-DCs maturated by LPS were determined by RayBio Quantibody mouse Th17 array1. Fascin1 KO BM-DCs show reduced secretion of several cytokines including IL-6.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Increasing evidence suggests that antibodies (Abs) can have protective roles in M. tuberculosis (Mtb) infection but knowledge of the most relevant protective antigens and epitopes in humans is limited. Using novel glycan arrays, we establish that human serum IgG induced against the M. tuberculosis (Mtb) capsular polysacharide arabinomannan (AM) in natural Mtb infection is highly heterogeneous in its binding specificity and differs in both its reactivity to oligosaccharide (OS) motifs within AM and its functions between BCG vaccination and/or controlled (latent) versus uncontrolled (TB) M. tuberculosis infection. We show that anti-AM IgG from asymptomatic but not diseased individuals is protective, and provide data suggesting a role of IgG2 and specific AM oligosaccharides. Filling a gap in the current knowledge of protective antigens in humans, our human data support the key role of the M. tuberculosis surface glycan AM and suggest the importance of targeting specific glycan epitopes within AM in antibody-mediated immunity against TB.

Project description:Protein microarray was used to identify proteins with elevated interactions with serum autoantibodies in a responding patient with rhabdomyosarcoma before and after multiple doses of HER2 CAR T cell therapy. Elevated signals were observed for multiple proteins interacting with serum autoantibodies following multiple doses of HER2-CAR T cell treatment when compared to pre-treatment serum.

Project description:Abstract: The essential mammalian enzyme O-GlcNAc Transferase (OGT) is uniquely responsible for transferring N-acetylglucosamine to over a thousand nuclear and cytoplasmic proteins, yet there is no known consensus sequence and it remains unclear how OGT recognizes its substrates. To address this question, we have developed a protein microarray assay that chemoenzymatically labels de novo sites of glycosylation with biotin, allowing us to simultaneously as-sess OGT activity across >6000 human proteins. We used this assay to examine the contribution of a conserved asparagine ladder within the lumen of OGT’s superhelical tetratri-copeptide repeat (TPR) domain to substrate selection. When these residues were mutated, OGT retained full activity against short peptides, but showed low to no activity against most of the OGT substrates on the microarray. O-GlcNAcylation of protein substrates in cell extracts was also greatly attenuated. We conclude that OGT recognizes a majority of its substrates by binding them to the asparagine ladder in the TPR lumen proximal to the catalytic domain. This series contains microarray data both comparing the new chemoenzymatic method to antibody-based detection as well as comparing arrays treated with wild-type OGT, 5N5A mutant OGT, or controls not treated with enzyme. Note: all CTD-stained arrays or control array raw files are contained in GSE107911_RAW.tar

Project description:Purpose: This study uses a high-throughput glycan microarray to evaluate the immunological evolution of antibodies to the glyco-antigen GD2. The goal is to determine germline and affinity mature antibody specificity and affinities/ Results: Affinity mature anti-GD2 antibodies 3F8 and ch14.18 had high affinity and were highly specific for the target GD2. Germline antibodies were also hihgly specific and had surprisingly high affinity. Conclusion: Antibodies to GD2 evolved from highly specific germlines. Highly specific germlines may be critical in evading autoimmunity issues.

Project description:NOD.B10Sn-H2b/J mice are a mouse model of primary Sjogren's syndrome. We compared IgM and IgG autoantibody levels from NOD.B10Sn-H2b/J females with clinical disease to those of healthy controls.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Purpose: There is evidence that therapeutic cancer vaccines can lengthen survival for some cancer patients, but responses vary widely from one person to another. Methods to predict clinical outcomes will advance the field and provide new insights into critical determinants of in vivo efficacy. This study uses a high-throughput glycan microarray to assess correlations between a subject's overall survival after receiving PROSTVAC-VF and his anti-glycan humoral responses occuring in the first months after treatment with PROSTVAC-VF. Results: Humoral responses to the terminal Forssman disaccharide (Fsdi) were found to have a statistically significant correlation with survival. Long-term survival was approximately doubled in subjects with four-fold or larger anti-Fsdi responses relative to subjects with little or no anti-Fsdi response. This survival correlation was specific to vaccine treatment, as no correlation was observed in control patients immunized with wild-type poxviruses lacking the key tumor antigen, prostate specific antigen (PSA). Moreover, anti-Fsdi humoral responses were not correlated with general measures of disease severity, such as PSA levels, Gleason score, or Halabi predicted survival. Conclusion: In addition to reporting a new biomarker for monitoring benefical responses to PROSTVAC-VF, this study highlights the potential of glycan microarray technology for personalized medicine.

Project description:Identifying the targets of immune response after allogeneic hematopoietic cell transplantation (HCT) promises to provide relevant immune therapy candidate proteins. We used protein microarrays to serologically identify Nucleolar and Spindle Associated Protein 1 (NuSAP1) and Chromatin Assembly Factor 1, subunit B (p60) [CHAF1b] as targets of new antibody responses that developed after allogeneic HCT. Western blots and ELISA validated their post-HCT recognition and enabled ELISA testing of 120 other allo-HCT patients. CHAF1b specific antibodies were predominantly detected in AML patients whereas NuSAP1 specific antibodies were exclusively detected in AML patients one year post-transplant (p<0.0001). Complete genomic exon sequencing failed to identify a nonsynonymous SNP for NuSAP1 and CHAF1b between the donor and recipient cells. Expression profiles and RT-PCR showed NuSAP1 was predominately expressed in the bone marrow CD34+CD90+ hematopoietic stem cells (HSC), leukemic cell lines and B lymphoblasts as compared to other tissues or cells. Thus, NuSAP1 is recognized as an immunogenic antigen in 65% AML patients and suggests a tumor antigen role. In conclusion, clinically important tumor antigens can be identified as new antibody targets after allogeneic HCT using high density protein microarrays