Host-microbe interactions in reef building coral

Eva Charlotte Kvennefors

Unknown Date

Coral reefs are biologically and economically important ecosystems underpinned by corals that are able to flourish in oligotrophic waters due to their mutualistic association with dinoflagellate symbionts (genus Symbiodinium). Symbiodinium are strictly intracellular, residing within the gastrodermal tissues of the coral host, and contributing the majority of the coral’s energy requirements. Coral reefs are in rapid decline due to a range of threats such as local human influences, bleaching (loss of Symbiodnium and/or reduction of pigment), disease and ocean acidification, to which links to climate change have been made. The close association of corals and a diverse community of microbes led to development of the coral holobiont hypothesis, in which a range of microorganisms (e.g Bacteria) form a functionally-relevant mutualistic relationship with corals and Symbiodinium. This thesis aimed to fill knowledge gaps in the coral holobiont hypothesis and the host-microbe interactions within this system, including pathogen interactions and coral immune system functioning. This thesis revealed that host-microbe interactions in corals are complex, and that the underlying mechanisms of immunity and symbiosis may be similar. The findings corroborate the idea that corals maintain specific bacterial communities that have potential probiotic and nutritional value. In particular, a group of common coral associates were identified, and it is suggested that members of this group are globally occurring key associates. Corals affected by a disease previously described as “White Syndrome” were observed to undergo pronounced changes in their microbial community structure in comparison to healthy colonies. However, in contrast to previous findings, no single pathogen could be identified as the causative agent of the disease syndrome, and it is speculated that corals experiencing altered health status result in a breakdown of the resident associated microbial community structure. Culturable bacterial isolates from corals were shown to affect the growth of each other and in particular some species had great inhibitory properties. Hence, the presence of some bacterial species has the potential to influence the all over structure of the coral associated microbial community. It was also shown that changed environmental conditions may alter the growth conditions for coral associated bacteria in mucus. It is suggested that increased replication is needed in studies of bacterial assemblages on corals, as variability between coral species and sites were observed. In addition, studies of the role of coral microbial communities in health and disease should broaden their focus to more thoroughly consider the role of the coral holobiont, especially with regards to the coral host. This thesis identified the first functional Pattern Recognition Protein (PRP), a C-type lectin named Millectin, in scleractinian corals. Millectin was isolated by affinity chromatography and was shown to bind to bacterial pathogens as well as coral Symbiodinium symbionts. Gene expression of Millectin was upregulated in response to immune stimuli and the lectin was further abundantly expressed in the tissues of corals, suggesting a major role for this protein in system functioning and immunity. Further research into Millectin and a complement factor C3 homolog suggested that these molecules may have been co-opted into the equally important role of symbiont recruitment. Gene expression analysis of C3 also indicated this molecule may be involved in responses to tissue trauma. Millectin shows variability in the binding region, and hence, is the earliest evolutionary representative to date of a variable PRP. This finding, and the observed ancestral relation with vertebrate homologs, provided further information on the evolution of the innate immune system and gives further insight into invertebrate immunity.

coral

coral holobiont

bacteria

microbial community

symbiosis

disease

immunity

lectin

complement C3

Interaction Studies in Complex Fluids with Optical Biosensors

Carlsson, Jenny

January 2008

In this thesis interactions in complex fluids, such as serum and meat juice, were analysed with optical biosensor techniques. Panels of lectins immobilised on gold surfaces were used for investigation of differences in protein glycosylation pattern in sera and meat juices between various species. The present panel was also used for investigation of global glycosylation changes of serum proteins in type 1 diabetes patients. Biorecognition was evaluated with null ellipsometry and scanning ellipsometry combined with multivariate data analysis techniques (MVDA). Principal component analysis (PCA) showed that the lectin panel enabled discrimination between sera from the different species as well as for the different meat juices. The results also indicate that there is a measurable global alteration in glycosylation pattern of serum proteins in type 1 diabetic patients compared to healthy subjects. Using an artificial neuronal net (ANN), it was also possible to correctly categorise unknown serum samples into their respective class or group. The analytical potential of combining information from lectin panels with multivariate data analysis was thereby demonstrated. Also, a sensitive and specific method based on surface plasmon resonance (SPR) for detection of insulin autoantibodies (IAA) in serum samples from individuals at high risk of developing type 1 diabetes (T1D) has been developed. When measuring trace molecules, such as autoantibodies, in undiluted sera with label-free techniques like SPR, non-specific adsorption of matrix proteins to the sensor surface is often a problem, since it causes a signal that masks the analyte response. The developed method is an indirect competitive immunoassay designed to overcome these problems. Today, IAA is mainly measured in radio immunoassays (RIAs), which are time consuming and require radioactively labelled antigen. With our SPR-based immunoassay the overall assay time is reduced by a factor of >100 (from 4 days to 50 min), while sensitivity is maintained at a level comparable to that offered by RIA. Finally, the assay was used in a screening study of newly diagnosed type 1 diabetes patients and non-diabetic subjects.

Type 1 diabetes

Insulin

Lectin panel

Ellipsometry

Meat juice

Serum proteins

Chemistry

Kemi

Structural Investigations Of Sugar-Binding And Multivalency In Peanut Lectin

Natchiar, S Kundhavai

08 1900

Starting with the structure analysis of ConA in the 70s, the crystal structures of hundreds of different lectins and their carbohydrate complexes have been determined. Lectins, multivalent carbohydrate-binding proteins which specifically bind different sugar structures, have received considerable attention in recent times on account of the realization of the importance of protein−sugar interactions, especially at the cell surface, in biological recognition. They occur in plants, animals, fungi, bacteria and viruses. Plant lectins constitute about 40% of the lectins of known structure. They can be classified into five structural groups, each characterized by a specific fold. Among them, legume lectins constitute the most extensively investigated group. Peanut lectin is a legume lectin which has been studied thoroughly in this laboratory. These studies have provided a wealth of structural and functional information. However, some gaps still exist in our understanding of the structure, interactions and multivalency of peanut lectin. The work presented here addresses these gaps. The hanging drop method was used for crystallizing PNA and its complexes. Intensity data were collected on Mar Research imaging plates mounted on Rigaku RU-200 or ULTRAX-18 X-ray generators. The Oxford cryosystem was used when collecting data at low temperature. The data were processed using DENZO and SCALEPACK of HKL suite of programs. The structure factors from the processed data were calculated using TRUCATE of CCP4 suite of programs. The molecular replacement program AMoRe was used for structure solutions. Structure refinements were carried out using the CNS software package and REFMAC of CCP4. Model building was done using the molecular graphics program FRODO. INSIGHT II, ALIGN, CONTACT and PROCHECK of CCP4 were used for the analysis and validation of the refined structure. Dynamic light scattering experiments were carried out using a Dyanpro Molecular Sizing Instrument, and the collected data were analyzed using Dynamic V6 software. Until recently, it has been possible to grow crystals of peanut lectin only when complexed with sugar ligands. It has now been possible to grow them at acidic pH in the presence of oligopeptides corresponding to a loop in the lectin molecule. Crystals have also been prepared in the presence of the peptides as well as lactose. Low pH crystal forms of the lectin−lactose complex similar to those obtained at neutral pH could also been grown. Thus, crystals of peanut lectin grown in different environmental conditions, at two pHs with and without sugars bound to the lectin, are now available. They have been used to explore the plasticity and hydration of the molecule. A detailed comparison among different structures shows that the lectin molecule is sturdy and the effect of changes in pH, ligand-binding and environment on it is small. The region involving the curved front β-sheet and loops around the second hydrophobic core is comparatively rigid. The back β-sheet involved in quaternary association, which exhibits considerable variability, is substantially flexible. So is the sugar-binding region. The numbers of invariant water molecules in the hydration shell are small and they are mainly involved in metal coordination or in stabilizing rare structural features. Small, consistent movements occur in the combining site on sugar-binding, although the site is essentially preformed. Crystal structures of peanut lectin complexed with Galβ1-3Gal, methyl-T-antigen, Galβ1-6GalNAc, Galα1-3Gal and Galα1-6Glc and that of a crystal grown in the presence of Galα1-3Galβ1-4Gal have been determined using data collected at 100 K. Use of water bridges as a strategy for generating carbohydrate specificity was earlier deduced from the complexes of the lectin with lactose (Galβ1-4Glc) and T-antigen (Galβ1- 3GalNAc). This has been confirmed through the analysis of the complexes with Galβ1-3Gal and methyl-T-antigen (Galβ1-3GalNAc-α-OMe). A detailed analysis of lectin−sugar interactions in the complexes shows that they are more extensive when β-anomer is involved in the linkage. As expected, the second sugar residue is ill defined when the linkage is 1-6. There are more than two-dozen water molecules, which occur in the hydration shells of all structures determined at resolutions better than 2.5 Å. Most of them are involved in stabilizing the structure, particularly loops. Water molecules involved in lectin−sugar interactions are also substantially conserved. The lectin molecule is robust and does not appear to be affected by change in temperature. Multivalency is believed to be important in the activity of lectins, although definitive structural studies on it have been few and far between. A study has been carried out on the complexation of tetravalent peanut lectin with a synthetic compound containing two terminal lactose moieties, using a combination of crystallography, dynamic light scattering and modelling. Light scattering indicates the formation of an apparent dimeric species and also larger aggregates of the tetrameric lectin in the presence of the bivalent ligand. The crystals of presumably crosslinked lectin molecules could be obtained. They diffract very poorly, but the X-ray data from them are good enough to define the positions of the lectin molecules. Extensive modelling on possible crosslinking modes of protein molecules by the ligand indicated that systematic crosslinking could lead to crystalline arrays. The studies also provided a rationale for the crosslinking in the observed crystal structure. The results obtained provide further insights into the general problem of multivalency in lectins. They indicate that crosslinking involving multivalent lectins and multivalent carbohydrates is likely to lead to an ensemble of a finite number of distinct periodic arrays rather than a unique array. PNA is among the most thoroughly studied lectins. Its structure demonstrated that open structures without point group symmetry cannot be ruled out for oligomeric proteins. It also contributed to the identification of legume lectins as a family of proteins in which small alterations in essentially the same tertiary structure lead to large changes in the quaternary association. Among other things, studies on PNA−sugar complexes led to the identification of water bridges as a strategy for generating carbohydrate specificity in addition to providing detailed information on PNA−sugar interactions. The work reported here significantly added to the information on this important lectin provided by earlier studies. On the basis of a detailed examination of structures of crystals grown under different environmental conditions, the relatively rigid and flexible regions of the molecule could be delineated. The picture that emerges is that of a robust protein with a substantially preformed combining site. The work also added to the information on the dependence of protein−sugar interactions on the different glycosidic linkages in disaccharides. The investigations reported here also provided further insights into the multivalency of peanut lectin.

Peanut Lectin

Sugar Binding

Carbohydrate

Structural Chemistry

Plant Lectins - Structural Biology

Lectins

Structural Biology

Glycodelin A : A Novel Immunoregulatory Lectin Of The Female Reproductive Tract : Molecular Mechanism Of GdA-Induced Apoptosis In Activated T Cells

Sundarraj, Swathi

04 1900

Glycodelin is a 162 amino acid secreted glycoprotein classified as a member of the lipocalin (carriers of small hydrophobic molecules) superfamily based on the presence of lipocalin signature motifs in its primary sequence. The protein has several isoforms which are expressed by various primate tissues, predominantly reproductive tissues. These isoforms are products of the same gene and hence have the same primary sequence; however, they are differentially glycosylated depending on tissue origin. The individual glycodelin isoforms perform very varied functions, which are largely dictated or modulated by the specific glycans on the molecule. Glycodelin A (GdA) is the major glycodelin isoform of the female reproductive tract; and is subclassified as an immunocalin (lipocalins with immunological function) due to its ability to modulate immune responses. Diverse activities have been associated with GdA; pertaining to determination of cell fate, tissue differentiation and significantly, immunomodulation towards fetal-allograft tolerance. The fetus expresses paternal allo-antigens and would be regarded as non-self or foreign by the maternal immune system. However, several synergistic mechanisms of immunomodulation at the fetal-maternal interface establish tolerance towards fetal antigens, protecting it from rejection. GdA is secreted by the uterine endometrium under progesterone induction, and is therefore the most abundant progesterone-regulated secretory glycoprotein of the uterus at the time of implantation and early pregnancy. GdA has been shown to have immunomodulatory activity targeting innate, humoral and cellular responses. It is inhibitory to T cell and B cell proliferation, and NK cell activity. It stimulates the Th2-type cytokine profile, and inhibits interleukins IL-2 and IL-1 production from mitogenically stimulated lymphocytes and mononuclear cell cultures. It has been reported from our laboratory that GdA induces apoptosis in activated T cells. GdA has also been shown to be inhibitory to B cells and monocytes. Clinical studies correlate subnormal levels of GdA with implantation Synopsis failure, habitual abortion and recurrent miscarriage. Due to its pleiotropic nature namely its diverse activities on different immune cell types; its spatio-temporal restriction of expression by progesterone; and its indispensable requirement for successful pregnancy; GdA is being increasingly recognized as a mechanism towards fetal allograft tolerance. Our laboratory has focused on the T cell inhibitory activity of GdA, with particular emphasis on T cell apoptosis. This study was aimed at delineating the molecular mechanism of GdA-induced apoptosis in activated T cells. Previous results from our laboratory have revealed that GdA-induced apoptosis is caspase dependent; and is not initiated by the extrinsic pathway involving Fas/death receptor signailing or initiator caspase 8. In this thesis, we present evidence that GdA triggers the intrinsic apoptotic program in T cells. Characterization of the apoptotic program initiated by GdA is presented in Chapter 1. We observe that GdA treatment triggers a stress response leading to decrease in mitochondrial transmembrane potential, which indicates mitochondrial membrane permeabilization (MMP). GdA-induced apoptosis can also be blocked by inhibition of caspase 9, the initiator caspase for the intrinsic program. The kinetics of mitochondrial depolarization precede onset of DNA fragmentation in both peripheral blood T cells and Jurkat cells treated with GdA. We also observe caspase 2 activation downstream of the mitochondria. Overexpression of the antiapoptotic protein Bcl-2 is sufficient to protect from GdA-induced cellular stress indicating that the apoptotic program can be reversed upstream of the mitochondria. Further, our studies reveal that stress signaling by GdA is not mediated by any of the canonical second messengers of stress signaling, namely, reactive oxygen species; the stress activated protein kinases JNK, p38 MAPK and ERK; intracellular calcium or ceramide. It has been reported that GdA desensitizes T cell receptor (TCR) signaling by decreasing the stability of TCR-triggered phosphoproteins, probably by its association ith the transmembrane tyrosine phosphatase CD45. TCR-desensitization would result in decreased proliferation and cytokine secretion, and has been postulated as the mechanism of T cell-inhibition by GdA. We have tested this theory and Chapter 2 provides evidence that the apoptogenic activity of GdA is not a consequence of its ability to blunt TCR-signaling. Further, GdA-induced apoptosis does not depend on components of the TCR signal cascade namely CD45, the kinase Lck and CTLA4, molecules that are proven transducers of apoptotic signals to the mitochondria in response to diverse stress stimuli. GdA triggers apoptosis in the CD45 deficient cell line J45.01 with similar kinetics of MMP and DNA fragmentation as with Synopsis wildtype cells, demonstrating that CD45 is not the determinant receptor for apoptosis on cells. We also observe that GdA is inhibitory to T cells stimulated with phorbol ester and calcium ionophore, which bypasses TCR-proximal signaling events; and that GdA treatment does not interfere with early T cell activation as evidenced from induction of the activation marker CD69. Thus, GdA initiates mitochondrial stress mediated apoptosis in T cells by a pathway that is distinct and independent from the TCR-coupled signaling pathway. This study presents a novel mode of immunosuppression for GdA and highlights the ability of GdA to suppress the immune response by more than one mechanism. Cell surface glycoproteins undergo alterations in their carbohydrate profiles upon T cell activation and differentiation, and this has a significant role to play in lymphocyte fate and function. One such global alteration in cell surface glycans is a difference in sialylation upon T cell activation and differentiation. While activated T cell have a lesser degree of sialylated surface glycoproteins as compared to naïve T cells, memory T cells are sialylated to a higher extent, and Th2 cells have more cell surface sialic acids than Th1 cells. As GdA is capable of triggering apoptosis in activated T cells, we investigated the requirement of cell surface glycans for differential recognition of T cell subsets by GdA, the results for which are detailed in Chapter 3. We observe that the activity of GdA could be competed out by asialofetuin and not fetuin, suggesting that GdA recognizes terminal galactose residues on asialofetuin glycans, which would be masked by sialic acids in case of fetuin glycans. This assumption was confirmed as the free sugars lactose and galactose, but not annose, could also competitively inhibit GdA activity. We also demonstrate that the lectin-activity of dA is calcium independent, typical of mammalian galectins. Thus, our results reveal GdA to be a novel galactose-specific lectin of the female reproductive tract. This carbohydrate specificity of GdA is responsible for its apoptotic activity on T cells. The selectivity of GdA towards activated T cells is a result of increased exposure of terminal galactose residues on activated T cell surface receptors, as demonstrated by staining of naïve and stimulated T cells with Fluorescent lectin-conjugates of different carbohydrate specificities. We also demonstrate hat GdA shows specificity towards N-liked glycans on cell surface glycoproteins. This is evident from the use of glycan processing inhibitors, which prevent addition of galactose to the core glycan on the nascent polypeptide chain. We observe that inhibition of processing of N-glycans, and not O-glycans, render cells resistant to GdA. Incidentally, we observe that another property of GdA, namely its ability to induce Synopsis epithelial differentiation and apoptosis in the breast cancer cell line MCF-7, is also due to ts galactose-specific lectin activity. It is therefore probable that the diverse functions ssociated with GdA are a consequence of its ability to recognize different glycoprotein receptors on different cell types. We can thus draw a comparison for GdA with the galectins, which are the prototype beta-galactoside binding mammalian lectins with diverse roles in determining cell fate and apoptosis, especially in the immune system. In fact, the immune-related activities of GdA are almost identical to the effects of galectin-1 on the immune system. Galectin-1 has also very recently been shown to play a significant role in fetal-tolerance. This raises a strong possibility of shared receptors for GdA and galectin-1 on the T cell surface, resulting from a shared calcium-independent recognition property for complex glycans with terminal galactose residues. Two predominant galectin-1 receptors on T cells are the glycoproteins CD45 and CD7. We have already observed that though GdA may recognize CD45, this association does not mediate its apoptotic activity. We therefore examined the possibility of the activation-induced glycoprotein CD7 as receptor for GdA. Our experiments reveal that the apoptotic activity of GdA on different T cell lines is dependent on the degree of CD7 expression by these cell lines. Notably, the CD7 negative lymphoma cell line HuT78 was completely resistant to GdA. To confirm CD7 as receptor, we obtained a cell line HuT78.7 in which CD7 expression has been restored by stable transfection. We observed that these CD7 positive cells now responded to GdA comparable to Jurkat cells, and GdA-induced apoptosis in these cells could be completely competed out with asialofetuin, not fetuin. To summarize, our study identifies GdA as a novel pregnancy-related galectin-like lectin of the female reproductive tract, which triggers mitochondrial stress and apoptosis in activated T cells. GdA shares receptors on T cells with galectin-1 due a common carbohydrate recognition property. We identify CD7 as a molecular target for GdA on activated T cells, capable of mediating the apoptotic signal. However, it is likely that GdA also recognizes other galectin receptors on T cells, as it is capable of inhibition by more than one mechanism. This underscores the requirement for redundant mechanisms indispensable for establishment and maintenance of successful pregnancy.

Glycodelin A

Lectin

Enzymes

Glycodelin A Induced Apoptosis

T Cell Receptor Signaling

Pregnancy - Immunological Paradox

GdA

Apoptosis

Immunology

Shear stress enhances bacterial adhesion /

Thomas, Wendy Evelyn.

January 2003

Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (leaves 96-101).

Κλωνοποίηση και χαρακτηρισμός της λεκτίνης MBL στην ιριδίζουσα πέστροφα / Molecural cloning and characterization of mannose-binding lectin in rainbow trout

Νικολακοπούλου, Κωνσταντίνα

29 June 2007

Η λεκτίνη ΜΒL συμμετέχει στην φυσική ανοσία, αφ΄ενός σαν ενεργοποιητής του συστήματος του συμπληρώματος και αφ΄ετέρου σαν οψωνίνη που προσδένεται σε συγκεκριμένες υδατανθρακικές δομές των μικροοργανισμών. Οι λεκτίνες τύπου C, είναι ασβέστιο εξαρτώμενες και φέρουν περιοχή δέσμευσης σε υδατάνθρακες (CRD). Προκειμενου να διασαφηνιστεί περαιτέρω η εξελικτική πορεία της λεκτινικής οδού του συμπληρώματος, απομονώθηκαν, κλωνοποιήθηκαν και χαρακτηρίστηκαν δύο ισομορφές της λεκτίνης ΜBL, οι ΜΒL1 και MBL2, στην ιριδίζουσα πέστροφα (Oncorhynchus mykiss). Οι συναγώμενες αμινοξικές αλληλουχίες των MBL1 και ΜΒL2 είναι 185 και 186 αμινοξέα, αντίστοιχα, παρουσιάζουν μεταξύ τους ταυτοσημία της τάξης του 83% ενώ εμφανίζουν το υψηλότερο σκορ ταυτοσημίας, 43% και 41% αντίστοιχα με τους τελεόστεους ιχθύες Αtlantic salmon και zebrafish. Το σκορ ταυτοσημίας των πρωτεϊνών της πέστροφας με τις αντίστοιχες πρωτεΐνες των πτηνών και των θηλαστικών κυμαίνεται μεταξύ 28 και 32%. Επιπλέον,οι περιοχές CRD των πρωτεϊνών αυτών χαρακτηρίζονται από την ύπαρξη του δομικού μοτίβου EPN που σχετίζεται με την εξειδίκευση της δέσμευσης ως προς την μαννόζη. Τα αποτελέσματα έδειξαν επίσης πως τα μόρια MBL1 και ΜBL2, εκφράζονται, σε επίπεδο mRNA, στο ήπαρ και στον σπλήνα της πέστροφας, αντίστοιχα. / Mannose-binding lectin(MBL) participates in the innate immune system as an activator of the complement system and as an opsonin after binding to certain carbohydrate structures on microorganisms. C-type lectins are all Ca2+ -dependent and they share a tightly folded carbohydrate recognition domain (CRD). In order to stydy the evolution of the complement lectin pathway, we report the isolation and characterization of two mannose-binding lectin isoforms, MBL1 and MBL2, in rainbow trout (Oncorhynchus mykiss). The deduced amino acid sequences of trout MBL1 and MBL2 are 185 and 186aa, respectively, presenting 83% identity to each other. These proteins exhibit the highest identity score 43 and 41% with the atlantic salmon and zebrafish counterparts. The identity with the bird and mammalian MBLs ranges from 28 to 32%. The trout MBL molecules contain in the CRD domain the EPN motif of mannose-binding C-type lectins, which is important for mannose specificity. Trout MBL1 and MBL2 are expressed exclusively in liver and spleen, respectively.

572.69

Innate immunity

Comparative immunology

Evolution

Mannose-binding lectin

Rainbow trout

Characterization of the cell wall protein Ecm33 family in Candida glabrata

Tangwattanachuleeporn, Marut

26 June 2013

No description available.

570

Ecm33 protein

Candida glabrata

Cell wall protein

Lectin

Biologie (PPN619462639)

METHODS DEVELOPMENT IN BIOLOGICAL MASS SPECTROMETRY: APPLICATION IN GLYCOPROTEOMICS

Trajkovic, Sanja

01 January 2014

Proteomics refers to global characterization of the full set of proteins present in a biological sample. Various analytical disciplines contribute to proteomics but mass spectrometry became method of choice for analysis of complex protein samples. Mass spectrometry allows for high throughput analysis of the proteome but, moreover, it has the ability to acquire higher-order information such as post-translational modifications (PTM). Glycosylation is the most abundant PTM on eukaryotic proteins. This dissertation will focus on method development for structural proteomics that will be utilized to explain the glycoproteome of obligate intracellular protozoan parasite Toxoplasma gondii as a model system. Optimization of sample preparation is addressed in the first part of this dissertation. Sample preparation for mass spectrometry analysis is a critical step in the proteomics workflow because the quality and reproducibility of sample extraction and preparation significantly impacts the separation and identification capabilities of mass spectrometers. Also, there are problems unique to intracellular parasites as limited amount, host cell impurity and choice of the host. The additional obstacle is to extract only glycosylated proteins for which there is no one standard method. Here we report the optimal sample preparation method utilizing agarose bound Concanavalin A (Con A) beads to efficiently pull down glycoproteins, dialyze and analyze them using MuDPIT. This method was further enhanced by passing the non-retained protein fraction (first flow-through) through a second Con A column and then passing the second non-retained protein fraction (second flow-through) through the third Con A column (3 sequential pull-downs) yielding 394 benchmark proteins. Glycoproteome of Toxoplasma gondii is not yet fully understood. However, evidence suggests that glycosylation could be essential for cyst formation and maintenance which is characteristic of chronic stage of disease. The focus of the second part of dissertation is to better understand the differences in glycoproteomes of tachizoites and tissue cysts. Cyst proteins pulled down using optimized sample preparation method that do not appear in the tachyzoites pulldowns could be critical elements in the structural stability of the tissue cyst.

Mass spectrometry

glycoproteomics

lectin affinity purification

MuDPIT

Toxoplasma gondii

Analytical Chemistry

BALTYMŲ FRAKCIJŲ, PRATURTINTŲ LEKTINAIS, IŠSKIRTŲ IŠ URTICA DIOICA L. ŽOLĖS IR SAUSOJO EKSTRAKTO, KOKYBINĖ – KIEKYBINĖ ANALIZĖ IR MIKROBIOLOGINIS TYRIMAS / QUALITATIVE – QUANTITATIVE ANALYSIS AND ANTIBACTERIAL ACTIVITY EVALUATION IN LECTIN ENRICHED PROTEIN FRACTIONS FROM HERB AND DRY EXTRACT OF URTICA DIOICA L

Balčiūnaitė, Gabrielė

18 June 2014

Darbo tikslas: Kokybinė - kiekybinė baltymų frakcijų, praturtintų lektinais, iš Urtica dioica L. žolės, sausojo ekstrakto analizė ir antimikrobinio poveikio įvertinimas. Darbo uždaviniai: 1. Išskirti baltymų frakcijas, praturtintas lektinais, iš Urtica dioica L. šviežios ir džiovintos žolės bei sausojo ekstrakto; 2. Sausos Urtica dioica L. žolės frakcijose nustatyti baltymų dalelių dydį; 3. Įvertinti baltymų frakcijų, išskirtų iš Urtica dioica L. šviežios ir džiovintos žolės bei sausojo ekstrakto, hemagliutinacinį aktyvumą; 4. Kiekybiškai įvertinti baltymų kiekį gautose frakcijose; 5. Atlikti kiekybinę lektinų analizę pagal hemagliutinacijos titrą; 6. Įvertinti lektinais praturtintų frakcijų, išskirtų iš Urtica dioica L. džiovintos žolės bei sausojo ekstrakto, antimikrobinį aktyvumą. Darbo metodai: 1. Lektinais praturtintas baltymų frakcijas išskyrėme, taikydami tirpalų prisotinimą amonio sulfatu iki skirtingos procentinės koncentracijos; 2. Lektinai identifikuoti, pritaikius triušio eritrocitų hemagliutinacijos reakciją; 3. SDS – PAGE elektroforezės metodu nustatytas frakcijų dalelių dydis; 4. Bradfordo metodu kiekybiškai įvertinta baltymų sudėtis išskirtose frakcijose; 5. Lektinai kiekybiškai įvertinti pagal hemagliutinacinį aktyvumą; 6. Antibakterinis aktyvumas įvertintas standžiosiose Miulerio – Chintono agaro mitybos terpėse cilindriukų metodu. Tyrimo rezultatai: 1. Hemagliutinacinis aktyvumas nustatytas visose išskirtose baltymų frakcijose. 2. Didžiausiu... [toliau žr. visą tekstą] / Aim of experiment: The qualitative – quantitaive analysis and antibacterial activity evaluation of lectin enriched protein fractions from Urtica dioica L. fresh and dry herb and dry extract; Experiment tasks: 1. To extract the lectin enriched protein fractions from Urtica dioica L. fresh and dry herb and dry extract; 2. To assess the size of protein particles from Urtica dioica L. dry herb by SDS-PAGE assay; 3. To determine the hemagglutinating activity of lectin enriched fractions from Urtica dioica L. fresh and dry herb and dry extract; 4. To evaluate the protein amount in prepared fractions by Bradford assay; 5. To analyse the lectin amount by hemagglutination titre; 6. To evaluate the antibacterial activity of lectin enriched fractions from Urtica dioica L. fresh and dry herb and dry extract; Methods: 1. We used the precipitation with ammonium sulphate for the extraction of lectin enriched protein fractions; 2. Lectins were identified by hemagglutination assay; 3. We determined the size of protein particles using SDS-PAGE method. 4. We evaluated protein amount in fractions by Bradford assay; 5. Lectin quantity was evaluated by hemagglutination titer; 6. We evaluated the antibacterial activity on solid medium with Peni cylinders. Results: 1. The hemagglutinating activity was found in all protein fractions. 2. Maximum of hemagglutinating activity (2,95) was noticed in the first lectin enriched protein fraction from fresh Urtica dioica L. herb. 3. The particle size was... [to full text]

Pharmacy

Augalų lektinai

Hemagliutinacija

Urtica dioica L

Glikoproteinai

Plant lectin

Hemagglutination

Urtica dioica L

Glycoproteins

Characterisation of blood myeloid dendritic cells in mannose binding lectin-sufficient and mannose binding lectin-deficient individuals

Melinda Dean

Unknown Date

Mannose binding lectin (MBL) belongs to the collectin family of soluble pattern recognition molecules that elicit diverse biologic activities. Via multiple carbohydrate-recognition domains (CRD), MBL binds to mannose and N-acetyl-glucosamine oligosaccharides present on the surface of bacteria, fungi and yeast. Following pathogen recognition, MBL activates the complement system via MBL associated serine proteases in a manner independent of antibody and C1 complex. Deficiency in function and level of MBL is found in 25% of otherwise apparently healthy individuals, representing the most prevalent innate immune deficiency. MBL deficiency is a risk factor for the development of infections in humans and mice. The role of MBL as a modulator of infection is complex. MBL deficiency may influence proinflammatory cytokine production, expression of leukocyte adhesion molecules, or vascular damage, during the course of infection. Given that dendritic cells (DC) are antigen presenting cells (APC) with potent capacity to respond to microbial stimulation, I hypothesized that MBL deficiency may be reflected in DC functions associated with microbial stimulation. Initially, I investigated the association of MBL with human immune cells and demonstrated that in both MBL-Sufficient (MBL-S) and MBL-Deficient (MBL-D) individuals, MBL was particularly associated with monocytes. RT-PCR analysis demonstrated MBL was not transcribed by monocytes or other immune cells investigated (T, B, and NK cells, CD11c+DC, immature monocyte derived DC [MoDC], LPS matured MoDC, and granulocytes), suggesting MBL association with the cell surface may be via an adapter or co-receptor. Magnetically separated monocytes but not MoDC bound exogenous purified human plasma MBL (hpMBL). Addition of hpMBL (5 -15 µg/mL) did not induce MoDC activation, and MBL added together with lipopolysaccharide (LPS) did not induce MoDC activation above the level induced by LPS only. In the second part of this study, I used the particulate MBL ligand zymosan (Zy) as a pathogenic stimulus in a whole blood model to gain a greater understanding of the consequences of MBL deficiency. I compared surface phenotype, inflammatory cytokine production and antigen presenting capacity of blood myeloid (M)DC of MBL-D and MBL-S individuals following stimulation with Zy and MBL opsonised Zy (MBL-Zy). Blood MDC in MBL-D individuals, unlike their counterpart in MBL-S individuals, displayed unique functional characteristics, including higher production of proinflammatory cytokines IL-6 and TNF-, but poor capacity for allo-T cell effector cell induction. It appeared that stimulation with MBL-Zy reduced elevated production of IL-6 but not TNF- by blood MDC in MBL-D individuals. In the third part, expression microarray analysis was utilised to provide broad information on the genes and potential signalling pathways involved in the MDC responses in MBL-D and MBL-S individuals following stimulation with Zy and MBL-Zy. MBL-S individuals demonstrated greater capacity to induce T cell and NK cell signalling pathways than MBL-D individuals. Further, MBL acted as a regulator of important inflammatory molecules, namely T-cell receptor zeta (CD247), IFN-γ and perforin 1. The data presented in this study provides novel information on blood MDC function in MBL-S and MBL-D individuals in response to pathogen stimulation, and provided insight into mechanisms involved in the increased frequency of infection observed in MBL-D individuals.

Mannose Binding Lectin

MBL

Dendritic Cells

Innate Immunity

Zymosan

IL-6

TNF-a

Microarray