Project description:Giardia duodenalis is a protozoan parasite of a wide range of vertebrates and one of the leading causes of gastroenteritis worldwide. G. duodenalis is a species complex of 8 assemblages with the zoonotic assemblage A as one of two discrete subtypes that is infective for humans. With increasing genomic and transcriptomic data now publicly available through the centralised giardiaDB.org, we have quantitatively analysed the proteomes of 8 G. duodenalis assemblage A strains (7 A1 and 1 A2) to provide a comprehensive proteomic baseline to complement these studies. Protein analysis identified a non-redundant total of 1220 proteins with an average of 764 proteins in each strain. At least 10% of all proteins identified were from the 4 protein families in the G. duodenalis variable genome, and substantial differences in number and abundance profiles in the Variable Surface Protein (VSP) family was observed. We also searched the 8 strains against both assemblage A genomes (subassemblage A1 and A2 genomes) and showed losses in protein identifications, especially for protein identifications associated with Giardia variable gene families which are sub-assemblage specific. We observed two expression profiles of VSPs within Giardia, which was independent to host origin, subassemblage, geographic origin and introduction to axenic culture and may indicate variation in surface antigen switching events and population heterogeneity. We hypothesise this variation may be related to karotype and chromosomal variation, which would indicate an assemblage-independent mechanism of variation in G. duodenalis.

Project description:Giardia lamblia is a causative agent of persistent diarrhea widespread in regions with low hygienic standards. Laboratory research is based on cloned lines issuing from various patient isolates typed in the late 1980s and 90s using restriction analysis and serology. In the present study, we compared the well characterized strain WBC6 with another clone of the parent WB isolate termed WBA1 and with a clone from another isolate, GS/M-83-H7, using shotgun mass spectrometry proteomics. We identified 398 proteins differentially expressed between the GS and both WB isolates and 97 proteins differentially expressed between both WB isolates. We investigated the expression levels of the predominant variant-specific surface proteins (VSPs) in each clone and matched the previously described major VSPs of each strain to the corresponding open reading frame (ORF) sequences identified by whole-genome sequencing efforts. Furthermore, since the original WB isolate comes from a patient treated with metronidazole, we compared the susceptibilities of the strains to nitro compounds, as well the expression levels of enzymes involved in nitro reduction and on the corresponding enzyme activities and found distinct differences between the three strains.

Project description:Passive implants currently used in the clinics cannot prevent failure rates and inherent revision arthroplasties. Novel bioelectronic devices that include biophysical stimulators (such as electric stimulators) and sensing systems are desired since these will allow for long-term monitoring and control of the bone-implant interface, in a personalized manner. We have developed acting-sensing dual systems operated at high frequency (HF) that are able to stimulate osteoconduction in pre-osteoblasts and osteoinduction in human adipose-derived mesenchymal stem cells (hASCs). The project included – to our knowledge – the first-time proteomic analysis of microvesicles secreted from osteoblasts electrically-stimulated in vitro by a capacitive stimulator of thin interdigitated electrodes delivering an electrical 60 kHz HF stimulation, 30 min/day. Results revealed regulation of osteodifferentiation and mineralization-related proteins (e.g. Tgfb3, Ttyh3, Itih1, Aldh1a1).

Project description:The parasite Trypanosoma brucei periodically changes the expression of protective variant surface glycoproteins (VSGs) to evade its host’s immune system in a process known as antigenic variation. One route to change VSG expression is the transcriptional activation of a previously silent VSG expression site (ES), a subtelomeric region containing the VSG genes. Homologous recombination of a different VSG from a large reservoir into the active ES represents another route. The conserved histone methyltransferase DOT1B is involved in transcriptional silencing of inactive ES and influences ES switching kinetics. The molecular machinery that enables DOT1B to execute these regulatory functions remains elusive, however. To better understand DOT1B-mediated regulatory processes, we purified DOT1B-associated proteins using complementary biochemical approaches. We identified several novel DOT1B-interactors. One of these was the Ribonuclease H2 complex, previously shown to resolve RNA-DNA hybrids, maintain genome integrity, and play a role in antigenic variation. Our study revealed that DOT1B depletion results in an increase in RNA-DNA hybrids, accumulation of DNA damage and ES switching events. Surprisingly, a similar pattern of VSG deregulation was observed in Ribonuclease H2 mutants. We propose that both proteins act together in resolving R-loops to ensure genome integrity and contribute to the tightly-regulated process of antigenic variation.

Project description:The parasite Trypanosoma brucei periodically changes the expression of its protective variant surface glycoproteins (VSGs) to evade the host’s immune system in a process known as antigenic variation. One route to change VSG expression is by transcriptional activation of a previously silent VSG expression site (ES), a subtelomeric region containing the VSG genes. Homologous recombination of a different VSG from a large reservoir into the active ES represents another route. The conserved histone methyltransferase DOT1B is involved in transcriptional silencing of inactive ES and influences ES switching kinetics. The molecular machinery that enables DOT1B to execute these regulatory functions remains elusive, however. To better understand DOT1B-mediated regulatory processes, we purified DOT1B-associated proteins using complementary biochemical approaches. We identified several novel DOT1B interactors. One of these was the trimeric Ribonuclease H2 complex, previously shown to resolve RNA-DNA hybrids, maintain genome integrity, and play a role in antigenic variation. Our study revealed that DOT1B depletion results in an increase in RNA-DNA hybrids, accumulation of DNA damage and recombination-based ES switching events. Surprisingly, the observed VSG deregulation was similar to Ribonuclease H2 mutants. We here propose that the epigenetic regulator DOT1B forms a complex with RNase H2 that acts in resolving R-loops to ensure genome integrity and contribute to the tightly regulated process of antigenic variation.

Project description:Mutational antigenic profiling of natural and vaccine-elicited HIV antibodies

Project description:The pathogenesis of Chlamydophila (C.) psittaci negative ocular adnexal extranodal marginal zone lymphomas (OAEMZLs) is poorly understood. OAEMZLs are monoclonal tumors expressing a biased repertoire of mutated surface immunoglobulins. Antigenic activation of the B cell receptor (BCR) may play a role in the pathogenesis of these lymphomas. We have analyzed the reactivity of recombinant OAEMZL immunoglobulins. OAEMZL antibodies reacted with self-human antigens, as demonstrated by enzyme-linked immunosorbent assays, HEp-2 immunofluorescence and human protein microarrays. All the analyzed recombinant antibodies (rAbs) exhibited polyreactivity by comprehensive protein array antibody reactivity and some rAbs also demonstrated rheumatoid factor activity. The identity of several reactive antigens was confirmed by microcapillary reverse-phase HPLC nano-electrospray tandem mass spectrometry. The tested rAbs frequently reacted with shared intracellular and extracellular self-antigens (e.g. galectin-3). Furthermore, these self-antigens induced BCR signaling in B cells expressing cognate surface immunoglobulins derived from OAEMZLs. These findings suggest that interactions between self-antigens and cognate OAEMZL tumor-derived BCRs are functional, inducing intracellular signaling. Overall our findings suggest that self-antigen-induced BCR stimulation may be implicated in the pathogenesis of C. psittaci negative OAEMZLs. Antibody Specificity Profiling with four OAEMZL rAbs (Ab4438, Ab4726, Ab5334, and Ab11274) performed on ProtoArray Human Protein Microarrays

Project description:The pathogenesis of Chlamydophila (C.) psittaci negative ocular adnexal extranodal marginal zone lymphomas (OAEMZLs) is poorly understood. OAEMZLs are monoclonal tumors expressing a biased repertoire of mutated surface immunoglobulins. Antigenic activation of the B cell receptor (BCR) may play a role in the pathogenesis of these lymphomas. We have analyzed the reactivity of recombinant OAEMZL immunoglobulins. OAEMZL antibodies reacted with self-human antigens, as demonstrated by enzyme-linked immunosorbent assays, HEp-2 immunofluorescence and human protein microarrays. All the analyzed recombinant antibodies (rAbs) exhibited polyreactivity by comprehensive protein array antibody reactivity and some rAbs also demonstrated rheumatoid factor activity. The identity of several reactive antigens was confirmed by microcapillary reverse-phase HPLC nano-electrospray tandem mass spectrometry. The tested rAbs frequently reacted with shared intracellular and extracellular self-antigens (e.g. galectin-3). Furthermore, these self-antigens induced BCR signaling in B cells expressing cognate surface immunoglobulins derived from OAEMZLs. These findings suggest that interactions between self-antigens and cognate OAEMZL tumor-derived BCRs are functional, inducing intracellular signaling. Overall our findings suggest that self-antigen-induced BCR stimulation may be implicated in the pathogenesis of C. psittaci negative OAEMZLs.

Project description:Mesenchymal stromal cells (MSCs) are used for ameliorating liver fibrosis and aiding liver regeneration after cirrhosis; Here, we analyzed the therapeutic potential of small extracellular vesicles (sEVs) derived from interferon-γ (IFN-γ) pre-conditioned MSCs (γ-sEVs). to anlyze the proteins in sEVs, proteomics of small extracellular vesicles (sEVs) from adipose tissue derived mesenchymal stem cells (AD-MSCs) stimulated with or without IFN-γ were performed.

Project description:Antigenic variation in Plasmodium falciparum is achieved by transcriptional switching amongst polymorphic var genes, enforced by epigenetic modification of chromatin. Histone-modifying ‘sirtuin’ enzymes PfSir2a and PfSir2b have been implicated in this process. We examined the effect of genetic disruption of sirtuins on var gene expression. Comparative Genomic Hybridization profile indicate that loss of PfSir2a in 3D7 resulted in strikingly rearranged chromosomes.