Acanthamoeba mannose-binding protein : structural and functional characterisation of a therapeutic target for Acanthamoeba keratitis

Banjo, Taiwo Abayomi

January 2018

Acanthamoeba mannose-binding protein (AcMBP) is a virulence factor of the free-living amoeba, Acanthamoeba castellanii. It is crucial for the development of Acanthamoeba keratitis (AK), a corneal infection that often causes blindness. AK is associated with contact lens use and contaminated water sources. Therapeutic unresponsiveness is attributed to similarities in the biological processes that Acanthamoeba shares with humans and its ability to form drug-resistant cysts. I aimed to characterise AcMBP as a basis for developing future drugs against Acanthamoeba. To start with, I carried out morphological studies on the two well-known life stages of Acanthamoeba and characterised a third stage: the protocysts. Mature cysts and protocysts could not interconvert directly, but always excysted to trophozoites. This is important because Acanthamoeba can potentially be trapped as protocysts, which are likely to be more susceptible to drugs. I also studied Acanthamoeba adhesion towards various surfaces and cytopathic activities towards cells (including human corneal epithelial cells). Whilst AcMBP was important for adhesion, it is not the only receptor involved. To gain structure/function information, I expressed the extracellular portion of AcMBP and three truncated fragments. AcMBP is a Ca2+-dependent lectin (~100 kDa) that binds to mannose. Ca2+ is essential for lectin activity and stability. The extracellular fragment is monomeric, indicating that trimerisation, shown previously, depends on the membrane-spanning and/or intracellular regions. Bioinformatics revealed that lectin activity is almost certainly located in a DUF 4114 domain (~10 kDa, DUF: domain of unknown function). N-terminal fragments, including the DUF4114 domain did not bind to mannose-Sepharose, suggesting that part of the cysteine-rich domain is also important. AcMBP bound to a variety of mammalian glycans so may have more than one lectin activity. Although attempts to crystallise AcMBP were unsuccessful, future structural analysis will be useful for defining the domains and determining how it binds to mannose.

Investigation of interactions with extracellular matrix proteins mediated by the CCP modules of the metabotropic GABAB receptor

Pless, Elin

January 2010

GABAB receptors are G-protein coupled receptors for the major inhibitory neurotransmitter in the mammalian central nervous system, γ-aminobutyric acid (GABA). The receptor is linked to a variety of disorders including epilepsy, pain, spasticity, drug addiction and cognitive impairment and is, therefore of major importance for drug discovery. The most abundant receptor isoforms GABABR1a and R1b differ by the presence in R1a of a pair of Nterminal extracellular complement control protein modules (CCP1 and CCP2) which - in other proteins - are generally involved in mediating specific protein-protein recognition. The CCP1 module contains disulphides but is natively disordered. In the current work, the yeast two-hybrid system was used to confirm an interaction of CCP1 of GABABR1a with the extracellular protein fibulin-2. Further work with the yeast twohybrid system extablished the novel interaction of the abundant extracellular matrix protein laminin, with GABABR1a CCP1, via its laminin globular (LG) domains. The laminin interaction was further characterised by surface plasmon resonance, demonstrating that several different domains are involved in the binding to the GABAB receptor CCPs. The primary binding site is located on laminin α5 LG4-5, but the E10 domains of the β1 chain and LG1-3 on α1 may also be involved. The pharmacological properties of the GABABR1a and R1b isoforms were studied by transient expression in Xenopus laevis oocytes. It was demonstrated that the agonist baclofen, as well as the antagonist CGP55845, appear to be more potent at GABABR1b compared to GABABR1a. Intriguingly, when recorded in the precence of laminin, GABABR1b/R2 expressing oocytes exhibited an increased baclofen-evoked response while the response in GABABR1a/R2 was completely abolished. In conclusion, the work demonstrates that laminin is a binding partner for GABABR1a CCPs. Such an interaction between the metabotropic GABA receptor and the extracellular matrix may lie behind the recently reported roles of GABA in neuronal migration and the laying down of neuronal circuitry during the development of parts of the central nervous system.

572

Temporal and Spatial Characterization of Uterine and Oviductal Environment in the Pig

Pasternak, Jonathan A.

Unknown Date

No description available.

Reproduction

Porcine

Uterine Environment

Oviductal Environment

Embryo

EPIA

Temporal Characterization

Spatial Characterization

Hyaluronic Acid

Immunohistochemical Comparison of Markers for Wound Healing on Plastic-Embedded and Frozen Mucosal Tissue

Mai, Ronald, Gedrange, Tomasz, Leonhardt, Henry, Sievers, Nicole, Lauer, Günter

04 March 2014

Immunohistologic investigations of wound healing in human oral mucosa require specific cell biological markers as well as consecutive small biopsies. Small specimens are ideally embedded in plastic (methylmethacrylate, MMA) resin due to their miniature size. This limits the use of antibodies for these markers. In this immunohistochemical study, the distribution of wound healing markers, e.g. cytokeratin (CK), laminin, collagen IV, vimentin, vinculin and fibronectin, were compared between semithin sections of plastic-embedded tissue and frozen sections of mucosal tissue in order to assess their use for future investigations. The antibodies against laminin, collagen IV and CK 1/2/10/11, 5/6, 13, 14, 17, 19 gave comparable staining patterns on cryostat sections of attached mucosa and on semithin sections of MMA-embedded attached mucosa. In the epithelial cell layers, the following distribution of CK immunostaining was observed: The basal cell layer was positive for CK 5/6, CK 14 and CK 19; the intermediate cell layer for CK 13, CK 17 and CK 1/2/10/11, and the superficial cell layer for CK 13 and CK 1/2/10/11. For most of these antibodies, enzyme digestion with 0.1% trypsin was adequate for demasking the antigens, except for anti-CK 14, anti-CK 17 and anti-laminin; predigestion with 0.4% pepsin in 0.01 N HCl gave similar staining results. The antibodies against vimentin, vinculin, fibronectin and CK 4 showed no affinity or a reciprocal reaction on the semithin sections. Therefore, the antibodies against CK 1/2/10/11; 5/6; 13; 14; 17, and 19, as well as the basement proteins laminin and collagen IV are deemed markers suitable on semithin sections of plastic-embedded attached oral mucosa. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Cytokeratine

Gefrierschnitte

Wundheilung

Schleimhaut

intrazellulär

extrazelluläre

Proteinmarker

Cytokeratins

Frozen tissue sections

Human attached mucosa

Intra-/extracellular protein markers

Plastic-embedded mucosa

Wound healing

ddc:610

rvk:XA 10000

Characterization of Giant Proteins from Lactobacillus kunkeei

Schol, Martin

January 2020

Lactobacillus kunkeei is the most common and dominant bacterium in the honey stomach of honeybees. L. kunkeei has been isolated from honeybees all over the world. Genome sequencing has identified 5 genes for exceptionally large proteins in the genome of L. kunkeei. These proteins do not show any similarity to sequences of proteins with a known structure. These giant proteins all have a conserved region of 60 amino acids in their C-terminus. This conservation led to the hypothesis that the C-terminal domains of the giant proteins are important for their function with possibly a role in the attachment to the cell wall. In this study, a total of eight different constructs were made for two of these giant proteins. The boundaries for the constructs were determined based on bioinformatic predictions. The eight constructs all have different start positions and all end at the very C-terminal end of the protein. These constructs were cloned into an expression vector. One of the full-length giant protein was cloned into an expression vector as well.  The C-terminal constructs and the full-length proteins were recombinantly produced in Escherichia coli. Expression of six C-terminal constructs was observed and an attempt was made to purify two of the C-terminal constructs. Expression of the full-length giant protein was observed as well and purification was attempted. Neither the C-terminal constructs nor the full-length giant protein could be purified at full length. The results for the C-terminal constructs show that no folded C-terminal domain has been found for the giant proteins. A purified protein construct of the N-terminal of one of the giant proteins was available. This protein was analyzed using biophysical techniques. Circular dichroism was used to test the thermal stability. The construct did not refold after being thermally denatured. Circular dichroism measurements indicated that the N-terminal construct is composed of a mixture of α-helices and ß-sheets. Small-angle X-ray scattering data indicated that the N-terminal construct had an elongated shape with knot-like parts. Protein crystals have been obtained for the N-terminal construct and these will be analyzed using X-ray diffraction.

structural biology

protein expression

protein purification

Lactobacillus kunkeei

L. kunkeei

small angle X-ray scattering

SAXS

circular dichroism

CD

honey bee

honey crop

extracellular protein

Structural Biology

Strukturbiologi

Immunohistochemical Comparison of Markers for Wound Healing on Plastic-Embedded and Frozen Mucosal Tissue

Mai, Ronald, Gedrange, Tomasz, Leonhardt, Henry, Sievers, Nicole, Lauer, Günter

January 2009

Immunohistologic investigations of wound healing in human oral mucosa require specific cell biological markers as well as consecutive small biopsies. Small specimens are ideally embedded in plastic (methylmethacrylate, MMA) resin due to their miniature size. This limits the use of antibodies for these markers. In this immunohistochemical study, the distribution of wound healing markers, e.g. cytokeratin (CK), laminin, collagen IV, vimentin, vinculin and fibronectin, were compared between semithin sections of plastic-embedded tissue and frozen sections of mucosal tissue in order to assess their use for future investigations. The antibodies against laminin, collagen IV and CK 1/2/10/11, 5/6, 13, 14, 17, 19 gave comparable staining patterns on cryostat sections of attached mucosa and on semithin sections of MMA-embedded attached mucosa. In the epithelial cell layers, the following distribution of CK immunostaining was observed: The basal cell layer was positive for CK 5/6, CK 14 and CK 19; the intermediate cell layer for CK 13, CK 17 and CK 1/2/10/11, and the superficial cell layer for CK 13 and CK 1/2/10/11. For most of these antibodies, enzyme digestion with 0.1% trypsin was adequate for demasking the antigens, except for anti-CK 14, anti-CK 17 and anti-laminin; predigestion with 0.4% pepsin in 0.01 N HCl gave similar staining results. The antibodies against vimentin, vinculin, fibronectin and CK 4 showed no affinity or a reciprocal reaction on the semithin sections. Therefore, the antibodies against CK 1/2/10/11; 5/6; 13; 14; 17, and 19, as well as the basement proteins laminin and collagen IV are deemed markers suitable on semithin sections of plastic-embedded attached oral mucosa. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/610

ddc:610

Structural and Functional Studies of Giant Proteins in Lactobacillus kunkeei

Ågren, Josefin

January 2019

Lactobacillus kunkeei is one of the most abundant bacteria within the honey crop of the honey bee. Genome sequencing of L. kunkeei isolated from honey bees all over the world showed several genes unique for L. kunkeei. Among these orphan genes, an array of four to five highly conserved genes coding for giant extracellular proteins were found. Cryogenic electron microscopy imaging of a giant-protein preparation from L. kunkeei A00901 showed an overall structure similar to a long string with a knot at the end. Further analysis showed high similarity between the different giants at the N-terminus, and secondary structure predictions showed that the same region was rich in β-sheets.  These results, combined with the knowledge of other large extracellular proteins, led to the hypothesis that the “knot” domain is located at the N-terminus and that these proteins are used by the cell to latch on to the intestine lining or other cells in the honey crop. In this study, predictions were made to locate the N-terminal domains of two of these giant proteins. Four different constructs were made for each protein, where three constructs were designed for expression and purification of the N-terminal domain with different end-positions, and one construct was for a predicted β-solenoid domain located downstream from the N-terminal domain. The protein constructs were recombinantly produced in E. coli, and three of the N-terminal constructs from both proteins were purified. Thermal stability was tested using nano differential scanning fluorimetry (nanoDSF), Thermofluor, and circular dichroism (CD), which all showed characteristic melting curves at low melting temperatures, ranging from 33 °C to 44 °C, for all three constructs. During CD measurements, all three constructs showed refolding after thermal denaturation and a higher abundance of antiparallel β-sheets over α-helices. Looking at the protein structure, small angle X-ray scattering data indicated that all three proteins formed elongated structures. These results indicate that a folded domain has been found for both proteins. Although, further analysis will be required to determine the boundaries of the N-terminal domains, and to elucidate if these domains have anything to do with ligand binding and the L. kunkeei ability to latch onto the honey crop.

structural biology

protein expression

Lactobacillus kunkeei

L. kunkeei

small angle X-ray scattering

SAXS

circular dichroism

CD

thermofluor

nano differential scanning fluorimetry

nanoDSF

honey bee

honey crop

extracellular protein

Structural Biology

Strukturbiologi