Funktionelle Analyse der Meprin-Metalloproteasen alpha und beta hinsichtlich ihrer physiologischen Regulation und biologischen Bedeutung

Im Rahmen dieser Arbeit ist es gelungen, ein besseres Verständnis der beiden Metalloproteasen Meprin α und β in ihrem proteolytischen Netzwerk hinsichtlich ihrer physiologischen Regulation durch endogene Inhibitoren, wie auch der biologischen Funktion von Meprin α für den Prozess der Angiogenese, zu erlangen. rnMit der Analyse des ersten identifizierten endogenen Meprin-Inhibitors Fetuin-A gelang die Bestimmung der Ki-Werte für Meprin α mit 4,2 x 10-5 M und 1,1 x 10-6 M für Meprin β. Des Weiteren konnte für Meprin β eine Schnittstelle im Fetuin-A validiert werden. Mit der Identifizierung von Cystatin C, einem Cystein-Protease-Inhibitor als endogener Inhibitor der Metalloprotease Meprin α, mit einem Ki-Wert von 8,5 x 10-6 M, wurden erstmals Proteasefamilie-übergreifende Inhibitionsmechanismen für Metalloproteasen offenbart.rnDie Analyse von drei potentiellen Meprin-Inhibitoren, identifiziert als Substrate in einem neuen Proteomics-Analyse-Verfahren terminal amine isotopic labeling of substrates (TAILS), ermöglichte die Charakterisierung von Elafin als spezifischen Meprin α-Inhibitor. Für Elafin ist es außerdem gelungen, die durch TAILS ermittelte Schnittstelle für Meprin α mittels Edman Sequenzierung zu validieren. Der secretory leukocyte peptidase inhibitor (SLPI), ein Elafin-Homolog, konnte als weiteres Meprin α-Substrat bestätigt werden. Außerdem gelang es, die Meprin α-Schnittstelle im SLPI zu validieren.rnEin weiteres Ziel dieser Arbeit war, ein besseres Verständnis der biologischen Funktion der Metalloprotease Meprin α zu erlangen. Hier konnte in vivo eine stark pro-angiogene Wirkung von Meprin α gezeigt werden und erstmals die Expression von Meprin α, jedoch nicht von Meprin β, in Endothelzellen nachgewiesen werden. Zugleich konnte mit der Analyse der durch die TAILS-Methode identifizierten pro-angiogenen Substrate vascular endothelial growth factor A (VEGF-A) und connective tissue growth factor (CTGF) der Regulationsmechanismus von Meprin α in der Angiogenese identifiziert werden. So ist Meprin α durch die Spaltung von CTGF in der Lage VEGF-A – gebunden und inhibiert im Komplex mit CTGF – durch proteolytische Spaltung von CTGF wieder freizusetzen. Somit wird die inhibierte VEGF-A-Aktivität wieder vollständig hergestellt. rnMit der Charakterisierung der ersten endogenen Meprin-Inhibitoren ist es gelungen, zu einem besseren Verständnis der endogenen Regulation der Meprine beizutragen und eine Proteasefamilie-übergreifende endogene Regulation aufzuzeigen. Mit der Entdeckung von Meprin α als pro-angiogene Protease und der Entschlüsselung des angiogenen Regulationsmechanismus konnte eine essentielle biologische Bedeutung dieser Protease beschrieben werden.rn

Isolierung und Charakterisierung der ER-residenten Aminopeptidase ERMP1 und Untersuchung ihrer Funktion in der Prozessierung MHC I restringierter CTL Epitope

Die effiziente Generierung von Peptid-Epitopen aus zelleigenen oder viralen Proteinen für die Präsentation auf „Major Histocompatibility Complex I“ (MHC I) Molekülen ist essentiell für die Aktivierung des adaptiven Immunsystems und die Effektorfunktion der CD8+ zytotoxischen T-Zellen (CTLs). CTLs erkennen diese Peptide in Kontext mit MHC I Molekülen über ihren spezifischen T-Zellrezeptor (TCR). Die Generierung dieser Epitope ist das Resultat eines komplexen proteolytischen Prozesses, der im Zytosol und im endoplasmatischen Retikulum (ER) stattfindet. Im Zytosol generiert das Proteasom N-terminal verlängerte Epitop-Vorläufer. Diese werden durch weitere zytosolische Proteasen abgebaut, es sei denn, sie werden durch den „transporter associated with antigen processing“ (TAP) in das ER transportiert. Dort werden sie durch Aminopeptidasen getrimmt, um den Bindungsvoraussetzungen der MHC I Moleküle zu genügen. Im murinen System ist die „ER aminopeptidase associated with antigen processing“ (ERAAP) die bislang einzige beschriebene Aminopeptidase, die dieses N-terminale Trimming von CTL Epitopen vermitteln kann. Das Profil der proteolytischen Aktivität in angereichertem murinen ER kann jedoch nicht allein durch die Aktivität von ERAAP erklärt werden, was auf die Anwesenheit weiterer Aminopeptidasen mit einer potentiellen Funktion in der Antigenprozessierung hinweist. In dieser Arbeit konnte die immunologisch bislang noch nicht beschriebene Aminopeptidase ERMP1 (endoplasmic reticulum metallopeptidase 1) im murinen ER identifiziert werden. Nach Aufreinigung muriner Mikrosomen und anschließender Anionenaustausch-Chromatographie wurden die gesammelten Fraktionen mit fluorogenen Substraten auf Aminopeptidase-Aktivität getestet. Durch massenspektrometrische Analyse konnten in den beobachteten Peaks die schon beschriebenen Aminopeptidasen ERAAP, die „insulin regulated aminopeptidase“ IRAP und die immunologisch bislang nicht beschriebene Aminopeptidase ERMP1 identifiziert werden. Durch Fluoreszenzmikroskopie konnte die intrazelluläre Lokalisation von ERMP1 im ER durch Kolokalisation mit TAP verifiziert werden. Wie viele Komponenten des MHC I Prozessierungsweges wird auch die Expression von ERMP1 durch IFN-γ stimuliert. Dies macht ERMP1 zu einer potentiellen zweiten trimmenden Aminopeptidase im murinen ER. Überexpression von ERMP1 hat einen allelspezifischen Einfluss auf die globale MHC I Präsentation auf der Zelloberfläche und durch Überexpression und shRNA vermitteltes gene silencing konnte außerdem ein epitopspezifischer Effekt nachgewiesen werden. Da N-terminales Trimming durch ERAAP mit der Evasion von Tumoren und veränderter Immundominanz assoziiert wird, ist die detaillierte Charakterisierung der Aminopeptidase ERMP1 ein wichtiger Schritt zum Verständnis der MHC I Antigen-Prozessierung und der Generierung von CTL Epitopen im ER.

Bindeprotein-abhängige DctS-Sensorkinasen aus Bacillus subtilis und Geobacillus kaustophilus

Das Enterobakterium Escherichia coli sowie das Bodenbakterium Bacillus subtilis können C4-Dicarbonsäuren als aerobe Kohlenstoffquelle zur Energiekonservierung nutzen. Die Regulation des C4-Dicarboxylatstoffwechsels erfolgt in E. coli und B. subtilis durch das Zweikomponentensystem DcuSREc bzw. DctSRBs, bestehend aus einer Sensorkinase und einem Responseregulator. Diese kontrollieren die Expression des C4-Dicarboxylat-Transporters DctA. Der Sensor DcuSEc benötigt für seine Funktion im aeroben Stoffwechsel den Transporter DctA als Cosensor. Für das DctSRBs-System gibt es Hinweise aus genetischen Untersuchungen, dass DctSBs das Bindeprotein DctBBs und möglicherweise auch DctABs als Cosensoren für seine Funktion benötigt. In dieser Arbeit sollte ein direkter Nachweis geführt werden, ob DctBBs und DctABs gemeinsam oder nur jeweils eine der Komponenten als Cosensoren für DctSBs fungieren. Sowohl für DctBBs als auch für DctABs wurde eine direkte Protein-Protein-Interaktion mit DctSBs durch zwei in vivo Interaktionsmethoden nachgewiesen. Beide Methoden beruhen auf der Co-Reinigung der Interaktionspartner mittels Affinitätschromatographie und werden je nach Affinitätssäule als mSPINE oder mHPINE (Membrane Strep/His-Protein INteraction Experiment) bezeichnet. Die Interaktion von DctSBs mit DctBBs wurde zusätzlich über ein bakterielles Two-Hybrid System nachgewiesen. Nach Coexpression mit DctSBs interagieren DctABs und DctBBs in mSPINE-Tests gleichzeitig mit der Sensorkinase. DctSBs bildet somit eine sensorische DctS/DctA/DctB-Einheit in B. subtilis und das Bindeprotein DctBBs agiert nur als Cosensor, nicht aber als Transport-Bindeprotein. Eine direkte Interaktion zwischen dem Transporter DctABs und dem Bindeprotein DctBBs besteht nicht. Transportmessungen belegen, dass der DctA-vermittelte Transport von [14C]-Succinat unabhängig ist von DctBBs. Außerdem wurde untersucht, ob Zweikomponentensysteme aus anderen Bakteriengruppen nach einem ähnlichen Schema wie DcuSREc bzw. DctSRBs aufgebaut sind. Das thermophile Bakterium Geobacillus kaustophilus verfügt über ein DctSR-System, welches auf genetischer Ebene mit einem Transporter des DctA-Typs und einem DctB-Bindeprotein geclustert vorliegt. Die Sensorkinase DctSGk wurde in E. coli heterolog exprimiert und gereinigt. Diese zeigt in einer E. coli DcuS-Insertionsmutanten Komplementation der DcuS-Funktion und besitzt dabei Spezifität für die C4-Dicarbonsäuren Malat, Fumarat, L-Tartrat und Succinat sowie für die C6-Tricarbonsäure Citrat. In Liposomen rekonstituiertes DctSGk zeigt Autokinase-Aktivität nach Zugabe von [γ-33P]-ATP. Der KD-Wert für [γ-33P]-ATP der Kinasedomäne von DctSGk liegt bei 43 μM, die Affinität für ATP ist damit etwa 10-fach höher als in DcuSEc.

'Pergularain e I'--a plant cysteine protease with thrombin-like activity from Pergularia extensa latex

Pergularain e I, a cysteine protease with thrombin-like activity, was purified by ion exchange chromatography from the latex of Pergularia extensa. Its homogeneity was characterized by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), native PAGE and reverse-phase high-performance liquid chromatography (RP-HPLC). The molecular mass of pergularain e I by matrix-assisted laser desorption ionization-time of flight (MALDI-TOF) was found to be 23.356 kDa and the N-terminal sequence is L-P-H-D-V-E. Pergularain e I is a glycoprotein containing approximately 20% of carbohydrate. Pergularain e I constituted 6.7% of the total protein with a specific activity of 9.5 units/mg/min with a 2.11-fold increased purity. Proteolytic activity of the pergularain e I was completely inhibited by iodoacetic acid (IAA). Pergularain e I exhibited procoagulant activity with citrated plasma and fibrinogen similar to thrombin. Pergularain e I increases the absorbance of fibrinogen solution in concentration-dependent and time-dependent manner. At 10 microg concentration, an absorbance of 0.48 was reached within 10 min of incubation time. Similar absorbance was observed when 0.2 NIH units of thrombin were used. Thrombin-like activity of pergularain e I is because of the selective hydrolysis of A alpha and B beta chains of fibrinogen and gamma-chain was observed to be insusceptible to hydrolysis. Molecular masses of the two peptide fragments released from fibrinogen due to the hydrolysis by pergularain e I at 5-min incubation time were found to be 1537.21 and 1553.29 and were in close agreement with the molecular masses of 16 amino acid sequence of fibrinopeptide A and 14 amino acid sequence of fibrinopeptide B, respectively. Prolonged fibrinogen-pergularain e I incubation releases additional peptides and their sequence comparison of molecular masses of the released peptides suggested that pergularain e I hydrolyzes specifically after arginine residues.

Identification of a host cell target for the thiazolide class of broad-spectrum anti-parasitic drugs

The thiazolide nitazoxanide (NTZ) and some derivatives exhibit considerable in vitro activities against a broad range of parasites, including the apicomplexans Neospora caninum and Toxoplasma gondii tachyzoites. In order to identify potential molecular targets for this compound in both parasites, RM4847 was coupled to epoxy-agarose and affinity chromatography was performed. A protein of approximately 35 kDa was eluted upon RM4847-affinity-chromatography from extracts of N. caninum-infected human foreskin fibroblasts (HFF) and non-infected HFF, but no protein was eluted when affinity chromatography was performed with T. gondii or N. caninum tachyzoite extracts. Mass spectrometry analysis identified the 35 kDa protein as human quinone reductase NQO1 (P15559; QR). Within 8h after infection of HFF with N. caninum tachyzoites, QR transcript expression levels were notably increased, but no such increase was observed upon infection with T. gondii tachyzoites. Treatment of non-infected HFF with RM4847 did also lead to an increase of QR transcript levels. The enzymatic activity of 6-histidine-tagged recombinant QR (recQR) was assayed using menadione as a substrate. The thiazolides NTZ, tizoxanide and RM4847 inhibited recQR activity on menadione in a concentration-dependent manner. Moreover, a small residual reducing activity was observed when these thiazolides were offered as substrates.

GPIb is involved in platelet aggregation induced by mucetin, a snake C-type lectin protein from Chinese habu (Trimeresurus mucrosquamatus) venom

Mucetin (Trimeresurus mucrosquamatus venom activator, TMVA) is a potent platelet activator purified from Chinese habu (Trimeresurus mucrosquamatus) venom. It belongs to the snake venom heterodimeric C-type lectin family and exists in several multimeric forms. We now show that binding to platelet glycoprotein (GP) Ib is involved in mucetin-induced platelet aggregation. Antibodies against GPIb as well as the GPIb-blocking C-type lectin echicetin inhibited mucetin-induced platelet aggregation. Binding of GPIb was confirmed by affinity chromatography and Western blotting. Antibodies against GPVI inhibited convulxin- but not mucetin-induced aggregation. Signalling by mucetin involved rapid tyrosine phosphorylation of a number of proteins including Syk, Src, LAT and PLC gamma 2. Mucetin-induced phosphorylation of the Fc gamma chain of platelet was greatly promoted by inhibition of alpha(IIb)beta(3) by the peptidomimetic EMD 132338, suggesting that phosphatases downstream of alpha(IIb)beta(3) activation are involved in dephosphorylation of Fc gamma. Unlike other multimeric snake C-type lectins that act via GPIb and only agglutinate platelets, mucetin activates alpha(IIb)beta(3). Inhibition of alpha(IIb)beta(3) strongly reduced the aggregation response to mucetin, indicating that activation of alpha(IIb)beta(3) and binding of fibrinogen are involved in mucetin-induced platelet aggregation. Apyrase and aspirin also inhibit platelet aggregation induced by mucetin, suggesting that ADP and thromboxane A2 are involved in autocrine feedback. Sequence and structural comparison with closely related members of this protein family point to features that may be responsible for the functional differences.

Bilinexin, a snake C-type lectin from Agkistrodon bilineatus venom agglutinates platelets via GPIb and alpha2beta1

A new snake protein, named bilinexin, has been purified from Agkistrodon bilineatus venom by ion-exchange chromatography and gel filtration chromatography. Under non-reducing conditions it has a mass of 110 kDa protein on SDS-PAGE. On reduction, it can be separated into five subunits with masses in the range 13-25 kDa. The N-terminal sequences of these subunits are very similar to those of convulxin or the alboaggregins, identifying bilinexin as a new member of the snake C-type lectin family, unusual in having multiple subunits. Bilinexin agglutinates fixed platelets. washed platelets and platelet rich plasma (PRP) without obvious activation (shape change) as confirmed by light microscope examination. Both inhibitory and binding studies indicate that antibodies against alpha2beta1 inhibit not only platelet agglutination induced by bilinexin, but also bilinexin binding to platelets. VM16d, a monoclonal anti-GPIbalpha antibody, completely inhibits platelet agglutination induced by bilinexin, and polyclonal antibodies against GPIbalpha prevent its binding to platelets. However, neither convulxin, polyclonal anti-GPVI antibodies, nor GPIIb/IIIa inhibitors affect its binding to and agglutination of platelets. Bilinexin neither activates GPIIb/IIIa integrin on platelets nor induces tyrosine phosphorylation of platelet proteins, nor increases intracellular Ca2+ in platelets. Like alboaggregin B, bilinexin agglutinates platelets, which makes it a good tool to investigate the differences in mechanism between snake C-type lectins causing platelet agglutination and those that induce full activation.

Aggretin, a heterodimeric C-type lectin from Calloselasma rhodostoma (malayan pit viper), stimulates platelets by binding to alpha 2beta 1 integrin and glycoprotein Ib, activating Syk and phospholipase Cgamma 2, but does not involve the glycoprotein VI/Fc receptor gamma chain collagen receptor

Aggretin, a potent platelet activator, was isolated from Calloselasma rhodostoma venom, and 30-amino acid N-terminal sequences of both subunits were determined. Aggretin belongs to the heterodimeric snake C-type lectin family and is thought to activate platelets by binding to platelet glycoprotein alpha(2)beta(1). We now show that binding to glycoprotein (GP) Ib is also required. Aggretin-induced platelet activation was inhibited by a monoclonal antibody to GPIb as well as by antibodies to alpha(2)beta(1). Binding of both of these platelet receptors to aggretin was confirmed by affinity chromatography. No binding of other major platelet membrane glycoproteins, in particular GPVI, to aggretin was detected. Aggretin also activates platelets from Fc receptor gamma chain (Fcgamma)-deficient mice to a greater extent than those from normal control mice, showing that it does not use the GPVI/Fcgamma pathway. Platelets from Fcgamma-deficient mice expressed fibrinogen receptors normally in response to collagen, although they did not aggregate, indicating that these platelets may partly compensate via other receptors including alpha(2)beta(1) or GPIb for the lack of the Fcgamma pathway. Signaling by aggretin involves a dose-dependent lag phase followed by rapid tyrosine phosphorylation of a number of proteins. Among these are p72(SYK), p125(FAK), and PLCgamma2, whereas, in comparison with collagen and convulxin, the Fcgamma subunit neither is phosphorylated nor coprecipitates with p72(SYK). This supports an independent, GPIb- and integrin-based pathway for activation of p72(SYK) not involving the Fcgamma receptor.

Alboaggregin A activates platelets by a mechanism involving glycoprotein VI as well as glycoprotein Ib

The snake venom C-type lectin alboaggregin A (or 50-kd alboaggregin) from Trimeresurus albolabris was previously shown to be a platelet glycoprotein (GP) Ib agonist. However, investigations of the signal transduction induced in platelets showed patterns of tyrosine phosphorylation that were different from those of other GPIb agonists and suggested the presence of an additional receptor. In this study, the binding of biotinylated alboaggregin A to platelet lysates, as well as affinity chromatography evaluations of platelet lysates on an alboaggregin A-coated column, indicated that this other receptor is GPVI. Additional experiments with reagents that inhibit either GPIb or GPVI specifically supported this finding. These experiments also showed that both GPIb and GPVI have a role in the combined signaling and that the overall direction this takes can be influenced by inhibitors of one or the other receptor pathway.

The platelet collagen receptor glycoprotein VI is a member of the immunoglobulin superfamily closely related to FcalphaR and the natural killer receptors

We have cloned the platelet collagen receptor glycoprotein (GP) VI from a human bone marrow cDNA library using rapid amplification of cDNA ends with platelet mRNA to complete the 5' end sequence. GPVI was isolated from platelets using affinity chromatography on the snake C-type lectin, convulxin, as a critical step. Internal peptide sequences were obtained, and degenerate primers were designed to amplify a fragment of the GPVI cDNA, which was then used as a probe to screen the library. Purified GPVI, as well as Fab fragments of polyclonal antibodies made against the receptor, inhibited collagen-induced platelet aggregation. The GPVI receptor cDNA has an open reading frame of 1017 base pairs coding for a protein of 339 amino acids including a putative 23-amino acid signal sequence and a 19-amino acid transmembrane domain between residues 247 and 265. GPVI belongs to the immunoglobulin superfamily, and its sequence is closely related to FcalphaR and to the natural killer receptors. Its extracellular chain has two Ig-C2-like domains formed by disulfide bridges. An arginine residue is found in position 3 of the transmembrane portion, which should permit association with Fcgamma and its immunoreceptor tyrosine-based activation motif via a salt bridge. With 51 amino acids, the cytoplasmic tail is relatively long and shows little homology to the C-terminal part of the other family members. The ability of the cloned GPVI cDNA to code for a functional platelet collagen receptor was demonstrated in the megakaryocytic cell line Dami. Dami cells transfected with GPVI cDNA mobilized intracellular Ca(2+) in response to collagen, unlike the nontransfected or mock transfected Dami cells, which do not respond to collagen.

Characterization of a Giardia lamblia WB C6 clone resistant to the isoflavone formononetin

Giardia lamblia is a common intestinal-dwelling protozoan and causes diarrhoea in humans and animals worldwide. For several years, a small number of drugs such as the 5-nitroimidazole metronidazole (MET) or the thiazolide nitazoxanide (NTZ) have been used for chemotherapy against giardiasis. However, various pre-clinical and clinical investigations revealed that antigiardial chemotherapy may be complicated by emergence of giardial resistance to these drugs. The present study addressed the question if isoflavones with antigiardial activity, such as daidzein (DAI) or formononetin (FOR), may serve as alternative compounds for treatment of giardiasis. For this purpose, the potential of G. lamblia clone WB C6 to form resistance to FOR and related isoflavones was tested in vitro. In the line of these experiments, a clone (C3) resistant to isoflavones, but sensitive to MET and NTZ, was generated. Affinity chromatography on DAI-agarose using cell-free extracts of G. lamblia trophozoites resulted in the isolation of a polypeptide of approximately 40 kDa, which was identified by mass spectrometry as a nucleoside hydrolase (NH) homologue (EAA37551.1). In a nucleoside hydrolase assay, recombinant NH hydrolysed all nucleosides with a preference for purine nucleosides and was inhibited by isoflavones. Using quantitative RT-PCR, the expression of genes that are potentially involved in resistance formation was analysed, namely NH and genes encoding variant surface proteins (VSPs, TSA417). The transcript level of the potential target NH was found to be significantly reduced in C3. Moreover, drastic changes were observed in VSP gene expression. This may indicate that resistance formation in Giardia against isoflavones is linked to, and possibly mediated by, altered gene expression. Taken together, our results suggest FOR or related isoflavones as an alternative antigiardial agent to overcome potential problems of resistance to drugs like MET or NTZ. However, the capacity of Giardia to develop resistance to isoflavones can potentially interfere with this alternative treatment of the disease.

Neospora caninum: functional inhibition of protein disulfide isomerase by the broad-spectrum anti-parasitic drug nitazoxanide and other thiazolides

Nitazoxanide (NTZ) and several NTZ-derivatives (thiazolides) have been shown to exhibit considerable anti-Neospora caninum tachyzoite activity in vitro. We coupled tizoxanide (TIZ), the deacetylated metabolite, to epoxy-agarose-resin and performed affinity chromatography with N. caninum tachyzoite extracts. Two main protein bands of 52 and 43kDa were isolated. The 52kDa protein was readily recognized by antibodies directed against NcPDI, and mass spectrometry confirmed its identity. Poly-histidine-tagged NcPDI-cDNA was expressed in Escherichia coli and recombinant NcPDI (recNcPDI) was purified by Co2+-affinity chromatography. By applying an enzyme assay based on the measurement of insulin crosslinking activity, recNcPDI exhibited properties reminiscent for PDIs, and its activity was impaired upon the addition of classical PDI inhibitors such as bacitracin (1-2mM), para-chloromercuribenzoic acid (0.1-1mM) and tocinoic acid (0.1-1mM). RecNcPDI-mediated insulin crosslinking was inhibited by NTZ (5-100 microM) in a dose-dependent manner. In addition, the enzymatic activity of recNcPDI was inhibited by those thiazolides that also affected parasite proliferation. Thus, thiazolides readily interfere with NcPDI, and possibly also with PDIs from other microorganisms susceptible to thiazolides.

A novel Giardia lamblia nitroreductase, GlNR1, interacts with nitazoxanide and other thiazolides

The nitrothiazole analogue nitazoxanide [NTZ; 2-acetolyloxy-N-(5-nitro-2-thiazolyl)benzamide] represents the parent compound of a class of drugs referred to as thiazolides and exhibits a broad spectrum of activities against a wide variety of helminths, protozoa, and enteric bacteria infecting animals and humans. NTZ and other thiazolides are active against a wide range of other intracellular and extracellular protozoan parasites in vitro and in vivo, but their mode of action and respective subcellular target(s) have only recently been investigated. In order to identify potential targets of NTZ and other thiazolides in Giardia lamblia trophozoites, we have developed an affinity chromatography system using the deacetylated derivative of NTZ, tizoxanide (TIZ), as a ligand. Affinity chromatography on TIZ-agarose using cell extracts of G. lamblia trophozoites resulted in the isolation of an approximately 35-kDa polypeptide, which was identified by mass spectrometry as a nitroreductase (NR) homologue (EAA43030.1). NR was overexpressed as a six-histidine-tagged recombinant protein in Escherichia coli, purified, and then characterized using an assay for oxygen-insensitive NRs with dinitrotoluene as a substrate. This demonstrated that the NR was functionally active, and the protein was designated GlNR1. In this assay system, NR activity was severely inhibited by NTZ and other thiazolides, demonstrating that the antigiardial activity of these drugs could be, at least partially, mediated through inhibition of GlNR1.

Characterization of the fetuin-binding fraction of Neospora caninum tachyzoites and its potential involvement in host-parasite interactions

Terminal sialic acid residues on surface-associated glycoconjugates mediate host cell interactions of many pathogens. Addition of sialic acid-rich fetuin enhanced, and the presence of the sialidiase inhibitor 2-deoxy-2,3-dehydro-N-acetylneuraminic acid reduced, the physical interaction of Neospora caninum tachyzoites and bradyzoites with Vero cell monolayers. Thus, Neospora extracts were subjected to fetuin-agarose affinity chromatography in order to isolate components potentially interacting with sialic acid residues. SDS-PAGE and silver staining of the fetuin binding fraction revealed the presence of a single protein band of approximately 65 kDa, subsequently named NcFBP (Neospora caninum fetuin-binding protein), which was localized at the apical tip of the tachyzoites and was continuously released into the surrounding medium in a temperature-independent manner. NcFBP readily interacted with Vero cells and bound to chondroitin sulfate A and C, and anti-NcFBP antibodies interfered in tachyzoite adhesion to host cell monolayers. In additon, analysis of the fetuin binding fraction by gelatin substrate zymography was performed, and demonstrated the presence of two bands of 96 and 140 kDa exhibiting metalloprotease-activity. The metalloprotease activity readily degraded glycosylated proteins such as fetuin and bovine immunoglobulin G heavy chain, whereas non-glycosylated proteins such as bovine serum albumin and immunoglobulin G light chain were not affected. These findings suggest that the fetuin-binding fraction of Neospora caninum tachyzoites contains components that could be potentially involved in host-parasite interactions.

Vaccination with microneme protein NcMIC4 increases mortality in mice inoculated with Neospora caninum

NcMIC4 is a Neospora caninum microneme protein that has been isolated and purified on the basis of its unique lactose-binding properties. We have shown that this protein binds to galactosyl residues of lactose; antibodies directed against NcMIC4 inhibit host cell interactions in vitro, thus making it a vaccine candidate. Because of this feature, NcMIC4 was first purified on a larger scale in its native, functionally active form using lactose-agarose affinity chromatography. Second, NcMIC4 was expressed in Escherichia coli as a histidine-tagged recombinant protein (recNcMIC4) and purified through Ni-affinity chromatography. Third, NcMIC4 cDNA was cloned into the mammalian pcDNA3.1 DNA vector and expression was confirmed upon transfection of Vero cells in vitro. For vaccination studies, we employed the murine cerebral infection model based on C57Bl/6 mice, employing experimental groups of 10 mice each. Two groups were injected intraperitoneally with purified native NcMIC4 and recNcMIC4, respectively, employing RIBI adjuvant. The third group was vaccinated intramuscularly with pcDNA-NcMIC4. Control groups included an infection control, an adjuvant control, and a pcDNA3.1 control group. Following 3 injections at 4-wk intervals, mice were challenged by i.p. inoculation of 2 x 10(6) N. caninum tachyzoites (Nc-1 isolate). During the course of parasite challenge (3 wk), mice from the 3 different test groups showed varying degrees of symptoms bearing a semblance to neosporosis, i.e., walking disorder, rounded back, apathy, and paralysis of the hind limbs. Control groups showed no symptoms at all. Most notably, vaccination with pcDNA-MIC4 proved antiprotective, with 60% of mice succumbing to infection within 3 wk, and all mice lacking a measurable anti-NcMIC4 IgG response. NcMIC4 in its native form elicited a substantial humoral IgG1 immune response and a reduction in cerebral parasite load compared to the controls, but 20% of mice succumbed to infection. Vaccination with recNcMIC4 also resulted in 20% of mice dying; however, in this group, cerebral parasite load was similar to the controls, and recNcMIC4 vaccination elicited a mixed IgG1/IgG2 response. In conclusion, vaccines based on NcMIC4, especially pcDNA-NcMIC4, render mice more susceptible to cerebral disease upon challenge with N. caninum tachyzoites.