Project description:The most abundant and central component, glycoprotein C3, contributes to the development of type 1 diabetes by enhancing the organ-specific autoimmune inflammatory processes. It is known that changes in glycosylation can modulate inflammatory responses and we recently showed that children at the onset of type 1 diabetes have a higher proportion of oligomannose glycans in plasma N-glycome compared to their healthy siblings. Due to fact that C3 contains two N-glycosylation sites occupied by this type of glycans, our aim was to develop a novel high-throughput and cost-effective glycoproteomic workflow for N-glycosylation analysis of human C3 to reveal the possible role of C3 glycosylation in type 1 diabetes development.

Project description:The most abundant and central component, glycoprotein C3, contributes to the development of type 1 diabetes by enhancing the organ-specific autoimmune inflammatory processes. It is known that changes in glycosylation can modulate inflammatory responses and we recently showed that children at the onset of type 1 diabetes have a higher proportion of oligomannose glycans in plasma N-glycome compared to their healthy siblings. Due to fact that C3 contains two N-glycosylation sites occupied by this type of glycans, our aim was to develop a novel high-throughput and cost-effective glycoproteomic workflow for N-glycosylation analysis of human C3 to reveal the possible role of C3 glycosylation in type 1 diabetes development.

Project description:Alpha-1-acid glycoprotein (AGP) is an acute phase glycoprotein in blood, which is primarily synthetized in the liver and whose biological role is not completely understood. It consists 45% of carbohydrates attached in the form of five N-linked complex glycans. AGP N-glycosylation was shown to be changed in many different diseases and some changes appear to be disease-specific, thus it has a great diagnostic and prognostic potential. However, AGP glycosylation was mainly analyzed in small cohorts and without detailed site-specific glycan information. Here, we developed a cost-effective method for a high-throughput and site-specific N-glycosylation LC-MS analysis of AGP which can be applied on large cohorts, aid in search for novel disease biomarkers and enable better understanding of AGP’s role and function in health and disease.

Project description:MCM-10 vs. wild type yeast differential analysis using label-free relative quantification and directed mass spectometry using RIPPER. Loss of Mcm10 causes replication stress. We uncovered that S. cerevisiae mcm10-1 mutants rely on the SUMO-targeted E3 ubiquitin ligase complex Slx5/8 and SUMO network for survival. How Slx5/8 suppresses replication stress has remained elusive. We developed a novel intensity-based label-free quantitative mass spectrometry approach and identified SUMO conjugates that were either enriched or depleted in mcm10-1 cells. We reasoned that sumoylated proteins that were decreased in mcm10-1 cells were potential Slx5/8 targets. Such candidates included subunits of the chromosome passenger complex (CPC), Bir1 and Sli15, which we verified to be substrates of the Slx5/8 pathway. CPC is known to positively regulate the spindle assembly checkpoint (SAC), and we show here that the ablation of CPC components and other SAC proteins supports growth of mcm10-1 cells by relieving mitotic arrest. Together, our data provide mechanistic insight into how SUMO and Slx5/8 orchestrate the replication stress response to promote cell survival.

Project description:Conjugate vaccine against typhoid fever has been shown to be safe and effective in field trials. The mechanism through which the vaccine protects remains elusive. Recent data have implicated antibody glycosylation, and specifically afucosylated antibodies, as an important factor in vaccine-induced effector function for a range of viral infections. Here, we studied IgG glycosylation after conjugate vaccine in a UK cohort, who were then challenged with virulent S.typhi, and among Nepalese children living in a typhoid endemic region. We compared vaccine-induced responses to another licensed typhoid polysaccharide vaccine and correlated these measures with antibody-dependent function to understand if a vaccine against a bacterial infection elicited similar glycosylation/function associations as has been seen for viral infections. Robust antigen-specific IgG Fc galactosylation and sialylation modifications were induced by both polysaccharide and tetanus toxoid-conjugated Salmonella Typhi vaccines in UK adults. These modifications were not able to differentiate controlled human infection model (CHIM) participants who became ill after ingestion of virulent S.typhi from those who remained well after infection. However, among those who did become ill, disease severity was associated with a distinct glycosylation profile. Interestingly, both vaccines induced vaccine-specific IgG1 antibodies that were more fucosylated than total circulating IgG1 and these were not associated with a particular functional profile. While bulk IgG glycosylation was different between Nepalese children and UK adults, vaccination with the Vi-tetanus toxoid-conjugate vaccine resulted in similar Vi-specific IgG glycosylation profiles 28 days after vaccination in both cohorts.

Project description:Conjugate vaccine against typhoid fever has been shown to be safe and effective in field trials. The mechanism through which the vaccine protects remains elusive. Recent data have implicated antibody glycosylation, and specifically afucosylated antibodies, as an important factor in vaccine-induced effector function for a range of viral infections. Here, we studied IgG glycosylation after conjugate vaccine in a UK cohort, who were then challenged with virulent S.typhi, and among Nepalese children living in a typhoid endemic region. We compared vaccine-induced responses to another licensed typhoid polysaccharide vaccine and correlated these measures with antibody-dependent function to understand if a vaccine against a bacterial infection elicited similar glycosylation/function associations as has been seen for viral infections. Robust antigen-specific IgG Fc galactosylation and sialylation modifications were induced by both polysaccharide and tetanus toxoid-conjugated Salmonella Typhi vaccines in UK adults. These modifications were not able to differentiate controlled human infection model (CHIM) participants who became ill after ingestion of virulent S.typhi from those who remained well after infection. However, among those who did become ill, disease severity was associated with a distinct glycosylation profile. Interestingly, both vaccines induced vaccine-specific IgG1 antibodies that were more fucosylated than total circulating IgG1 and these were not associated with a particular functional profile. While bulk IgG glycosylation was different between Nepalese children and UK adults, vaccination with the Vi-tetanus toxoid-conjugate vaccine resulted in similar Vi-specific IgG glycosylation profiles 28 days after vaccination in both cohorts.

Project description:Examination of gene expression during adult neural stem cell differentiation after 3 and 12 hours after fibrinogen treatment compared to control.

Project description:Objectives: We studied the signal transduction of atrial structural remodelling that contributes to the pathogenesis of atrial fibrillation (AF). Backround: Fibrosis is a hallmark of arrhythmogenic structural remodelling but the underlying molecular mechanisms are incompletely understood. Methods: We performed transcriptional profiling of left atrial myocardium (LA) from patients with AF and sinus rhythm (SR) and applied cultured primary cardiac cells and transgenic mice with overexpression of constitutively active V12Rac1 (RacET) who develop AF at old age to characterize mediators of the signal transduction of atrial remodeling. Results: LA from patients with AF showed a marked upregulation of connective tissue growth factor (CTGF) expression compared SR patients. This was associated with increased fibrosis, NADPH-oxidase-, Rac1- and RhoA activity, upregulation of N-cadherin and connexin 43 (Cx43) expression and increased angiotensin II tissue concentration. In neonatal rat cardiac myocytes and -fibroblasts, a specific small molecule inhibitor of Rac1 or simvastatin completely prevented the angiotensin II induced upregulation of CTGF, Cx43 and N-cadherin expression. Transfection with small-inhibiting CTGF RNA blocked Cx43 and N-cadherin expression. RacET mice showed upregulation of CTGF, Cx43 and N-cadherin protein expression. Inhibition of Rac1 by oral statin treatment prevented these effects, identifying Rac1 as a key regulator of CTGF in vivo. Conclusion: The data identify CTGF as an important mediator of atrial structural remodelling during AF. Angiotensin II activates CTGF via activation of Rac1 and NADPH oxidase, leading to upregulation of Cx43, N-cadherin and interstitial fibrosis and therefore contributing to the signal transduction of atrial structural remodelling. Array design study consists of 5 Atrial Fibrillation patients and matched 5 samples of patients in sinus rhythm (controls).

Project description:Transcriptional profiling of human amniotic fluid-derived mesenchymal stem cells (AF-MSCs) comparing normal condition-cultured AF-MSCs with hypoxia condition-culture AF-MSCs ES cells. The latter improves the proliferation and survival of AF-MSCs, and makes AF-MSCs secret more growth factors. Goal was to determine the effects of hypoxia condition on global AF-MSCs gene expression. Two-condition experiment, Nor AF-MSCs vs. Hypo AF-MSCs. Experimantal replicates: 2 (1-1 vs. 1-2; 2-1 vs. 2-2). Biological replicates: 2 normal replicates, 2 treated replicates.

Project description:Total serum IgG, IgA and IgM glycosylation of pregant woman was measured and glycosyaltion changes were compared between healthy volunteers and rheumatoid arthritis patients. Multipe time points, pre-pregnancy, at thrid trimester and 3 month post-partum were compared.