Babesia gibsoni: Identification, expression, localization, and serological characterization of a Babesia gibsoni 22-kDa protein

Babesia gibsoni causes canine babesiosis. Here, we describe the identification and characterization of a novel gene, BgP22, containing an open reading frame of 621 bp and encoding a 22-kDa protein from B. gibsoni, as a serodiagnostic candidate. The recombinant BgP22 (rBgP22) was expressed and used as an antigen to produce anti-rBgP22 sera in mice. Using these anti-rBgP22 sera, a native 22-kDa protein was recognized by Western blot analysis and observed in the membrane of the parasites by immunofluorescent antibody tests (IFAT). The enzyme-linked immunosorbent assay (ELISA) using the rBgP22 detected specific antibodies to this protein in the sera of dogs experimentally and naturally infected with B. gibsoni in chronic stage. Furthermore, it did not show a cross reaction with the closely related apicomplexan parasites, indicating that the rBgP22 could be used as a diagnostic antigen for a detection of the chronic carrier stages of B. gibsoni infection.     

A highly sensitive high-throughput luminescence assay for malonyl-CoA decarboxylase

Malonyl-CoA decarboxylase (MCD) catalyzes the conversion of malonyl-CoA to acetyl-CoA and thereby regulates malonyl-CoA levels in cells. Malonyl-CoA is a potent inhibitor of mitochondrial carnitine palmitoyltransferase-1, a key enzyme involved in the mitochondrial uptake of fatty acids for oxidation. Abnormally high rates of fatty acid oxidation contribute to ischemic damage. Inhibition of MCD leads to increased malonyl-CoA and therefore decreases fatty acid oxidation, representing a novel approach for the treatment of ischemic heart injury. The commonly used MCD assay monitors the production of NADH fluorometrically, which is not ideal for library screening due to potential fluorescent interference by certain compounds. Here we report a luminescence assay for MCD activity. This assay is less susceptible to fluorescent interference by compounds. Furthermore, it is 150-fold more sensitive, with a detection limit of 20 nM acetyl-CoA, compared to 3 μM in the fluorescence assay. This assay is also amenable to automation for high-throughput screening and yields excellent assay statistics (Z′ > 0.8). In addition, it can be applied to the screening for inhibitors of any other enzymes that generate acetyl-CoA.     

Fluorine nuclear magnetic resonance-based assay in living mammalian cells

Nuclear magnetic resonance (NMR)-based screening has been recognized as a powerful approach for the identification and characterization of molecules interacting with pharmaceutical targets. Indeed, several NMR methods have been developed and successfully applied to many drug discovery projects. Whereas most of these approaches have targeted isolated biomolecular receptors, very few cases are reported with the screening performed in intact cells and cell extracts. Here we report the first successful application of the fluorine NMR-based assay n-FABS (n-fluorine atoms for biochemical screening) in living mammalian cells expressing the membrane protein fatty acid amide hydrolase (FAAH). This method allows the identification of both weak and potent inhibitors and the measurement of their potency in a physiological environment.     

Pantothenases from pseudomonads produce either pantoyl lactone or pantoic acid.

A pseudomonad was separated having a pantothenase that produced beta-alanine and pantoic acid. The pantothenase from an old strain, Pseudomonas fluorescens UK-1, was shown to produce beta-alanine and pantoyl lactone. The pantoic acid-producing pantothenase was characterized and compared with the pantothenase from the strain UK-1. The Mr was 240,000; it apparently consists of four subunits. The Km value for pantothenate is 3 mM. The enzymic activity is affected by an ionizable group of pK 8.4, the enzyme is active at higher pH, and V but not Km is affected by pH. This pantothenase is not inhibited by di-isopropyl phosphorofluoridate or phenylmethanesulphonyl fluoride, unlike the enzyme from the strain UK-1. Both pantothenases are inhibited by m-aminophenylboronic acid, oxalate, oxaloacetate and Cl- ions. The pantoic acid-producing pantothenase is inhibited also by SO4(2-) ions. The strong inhibitions by many compounds make this pantothenase unsuitable for the assay of pantothenic acid.     

A 96-well microtiter plate assay for high-throughput screening of Mycobacterium tuberculosis dTDP-d-glucose 4,6-dehydratase inhibitors

Mycobacterium tuberculosis dTDP-d-glucose 4,6-dehydratase (RmlB) is the second enzyme for the biosynthesis of dTDP-l-rhamnose, which is a sugar donor to the synthesis of the cell wall linker, d-N-acetylglucosamine-l-rhamnose. RmlB is essential to mycobacterial growth and is not found in humans; therefore, it is a potential target for developing new anti-tuberculosis drugs. So far, there has been no suitable method for high-throughput screening of RmlB inhibitors. Here, the recombinant M. tuberculosis RmlB was purified and an absorbance-based microtiter plate assay was developed for RmlB activity. It could be used for high-throughput screening of RmlB inhibitors. The kinetic properties of M. tuberculosis RmlB, including optimal pH, optimal temperature, the effect of metal ions, and the kinetic parameters, were determined with this assay. The inhibitory effects of dTTP and dTDP on M. tuberculosis RmlB were also studied with the assay.     

Molecular characterization and antigenic properties of a novel Babesia gibsoni glutamic acid-rich protein (BgGARP)

Identification and molecular characterization of Babesia gibsoni proteins with potential antigenic properties are crucial for the development and validation of the serodiagnostic method. In this study, we isolated a cDNA clone encoding a novel B. gibsoni 76-kDa protein by immunoscreening of the parasite cDNA library. Computer analysis revealed that the protein presents a glutamic acid-rich region in the C-terminal. Therefore, the protein was designated as B. gibsoni glutamic acid-rich protein (BgGARP). A BLASTp analysis of a translated BgGARP polypeptide demonstrated that the peptide shared a significant homology with a 200-kDa protein of Babesia bigemina and Babesia bovis. A truncated BgGARP cDNA (BgGARPt) encoding a predicted 13-kDa peptide was expressed in Escherichia coli (E. coli), and mouse antisera against the recombinant protein were used to characterize a corresponding native protein. The antiserum against recombinant BgGARPt (rBgGARPt) recognized a 140-kDa protein in the lysate of infected erythrocytes, which was detectable in the cytoplasm of the parasites by confocal microscopic observation. In addition, the specificity and sensitivity of enzyme-linked immunosorbent assay (ELISA) with rBgGARPt were evaluated using B. gibsoni-infected dog sera and specific pathogen-free (SPF) dog sera. Moreover, 107 serum samples from dogs clinically diagnosed with babesiosis were examined using ELISA with rBgGARPt. The results showed that 86 (80.4%) samples were positive by rBgGARPt-ELISA, which was comparable to IFAT and PCR as reference test. Taken together, these results demonstrate that BgGARP is a suitable serodiagnostic antigen for detecting antibodies against B. gibsoni in dogs.     

A simple assay for determining activities of phosphopentomutase from a hyperthermophilic bacterium Thermotoga maritima

Phosphopentomutase (PPM) catalyzes the interconversion of α-d-(deoxy)-ribose 1-phosphate and α-d-(deoxy)-ribose 5-phosphate. We developed a coupled or uncoupled enzymatic assay with an enzyme nucleoside phosphorylase for determining PPM activities on d-ribose 5-phosphate at a broad temperature range from 30 to 90 °C. This assay not only is simple and highly sensitive but also does not require any costly special instrument. Via this technology, an open reading frame TM0167 from a thermophilic bacterium Thermotoga maritima putatively encoding PPM was cloned. The recombinant PPM was overexpressed in Escherichia coli Rosetta. This enzyme has the highest activity at 90 °C. MnCl₂ (0.1 mM) and 50 μM α-d-glucose 1,6-bisphosphate are cofactors. The kinetic parameters of K_m and k_cat are 1.2 mM and 185 s⁻¹ at 90 °C_, respectively. The enzyme has a half-life time of up to 156 min at 90 °C. This enzyme is the most active and thermostable PPM reported to date.     

Reverse Line Blot Macroarray for Simultaneous Detection and Characterization of Four Biological Warfare Agents

The need for a rapid detection and characterization of biowarfare (BW) agents cannot be over emphasized. With diverse array of potential BW pathogen available presently, rapid identification of the pathogen is crucial, so that specific therapy and control measures can be initiated. We have developed a multiplex polymerase chain reaction based reverse line blot macroarray to simultaneously detect four pathogens of BW importance viz. Bacillus anthracis, Yersinia pestis, Brucella melitensis and Burkholderia pseudomallei. The multiplex PCR utilizes 14 pairs of primers targeting 18 specific markers. These markers include genes which are genus specific, species-specific chromosomal sequences and virulence markers of plasmid origin. The assay was evaluated on various human, environment and animal isolates. The assay w successful in simultaneous detection and characterization of isolates of the four pathogens on as a single platform with sensitivity ranging from 0.3 pg to 0.3 ng of genomic DNA. The assay was able to detect 5 × 10² cfu/ml for B. anthracis, 8 × 10² cfu/ml for Yersinia sp., 1.4 × 10² cfu/ml for B. melitensis and 4 × 10² cfu/ml for B. pseudomallei.     

Expression of recombinant human antibody fragments capable of inhibiting the phospholipase and myotoxic activities of Bothrops jararacussu venom

Phospholipases A₂ are components of Bothrops venoms responsible for disruption of cell membrane integrity via hydrolysis of its phospholipids. This study used a large nonimmune human scFv library named Griffin.1 (MRC, Cambridge, UK) for selection of recombinant antibodies against antigens present in Bothrops jararacussu venom and identification of specific antibodies able to inhibit phospholipase activity. Four clones were identified as capable of inhibiting this activity in vitro. These clones were able to reduce in vivo the myotoxic activity of BthTX-I and BthTX-II PLA₂, but had no effect on the in vitro anticoagulant activity of BthTX-II. This work shows the potential of using recombinant scFv libraries in the search for antibodies that neutralize relevant venom components.     

A novel GFP-based approach for screening biocontrol microorganisms in vitro against Dothistroma septosporum

Dothistroma septosporum is the causal agent of Dothistroma needle blight of pine trees. A novel green fluorescent protein (GFP)-based screening method was developed to assess the potential of microorganisms for biocontrol of Dothistroma. The screen utilizes GFP expression as an indicator of metabolic activity in the pathogen and hygromycin resistance selection to determine if the interaction is fungistatic or fungicidal. Results suggested that six of eight Trichoderma isolates tested have the potential to control Dothistroma in vitro, via a fungicidal action. Because D. septosporum produces a broad-spectrum toxin, dothistromin, the inhibition of Trichoderma spp. by D. septosporum was determined by growth rate measurements compared to controls. Inhibition of the Trichoderma spp. ranged from no inhibition to 30% inhibition and was influenced by the assay medium used. The GFP screening method was also assessed to determine if it was suitable for screening bacteria as potential biocontrol candidates. Although a method involving indirect-contact had to be used, two of four Bacillus strains showed antagonistic activity against D. septosporum in vitro, via a fungistatic interaction. The four bacterial strains inhibited D. septosporum growth by 14.0 to 39.8%. This GFP-based method represents a novel approach to screening fungi and bacteria for antagonistic activity.     

cDNA cloning and characterization of human and mouse Ca-independent phosphatidylethanolamine N-acyltransferases

The formation of N-acylphosphatidylethanolamine by N-acylation of phosphatidylethanolamine (PE) is the initial step in the biosynthetic pathway of bioactive N-acylethanolamines, including the endocannabinoid anandamide and the anti-inflammatory substance N-palmitoylethanolamine. We recently cloned a rat enzyme capable of catalyzing this reaction, and referred to the enzyme as Ca²⁺-independent N-acyltransferase (iNAT). Here we report cDNA cloning and characterization of human and mouse iNATs. We cloned iNAT-homologous cDNAs from human and mouse testes, and overexpressed them in COS-7 cells. The purified recombinant proteins abstracted an acyl group from both sn-1 and sn-2 positions of phosphatidylcholine, and catalyzed N-acylation of PE as well as phospholipase A₁/A₂-like hydrolysis. The iNAT activity was mainly detected in soluble rather than particulate fractions, and was only slightly increased by Ca²⁺. These results demonstrated that the human and mouse homologues function as iNAT. As for the organ distribution of iNAT, human testis and pancreas and mouse testis exhibited by far the highest expression level, suggesting its physiological importance in the specific organs. Moreover, mutagenesis studies showed crucial roles of His-154 and Cys-241 of rat iNAT in the catalysis and a possible role of the N-terminal domain in membrane association or protein–protein interaction.     

Deamino-hydroxy-phoslactomycin B, a biosynthetic precursor of phoslactomycin, induces myeloid differentiation in HL-60 cells

During the screening for novel differentiation inducers, we found that a culture broth of Streptomyces sp. HK-803 induced myeloid differentiation of HL-60 cells. The active substance was identified as deamino-hydroxy-phoslactomycin B (HPLM) by mass spectrometry, and synthesized HPLM also induced the differentiation of HL-60 cells. HPLM showed greater inhibition of protein phosphatase 2A (PP2A) activity than phoslactomycin B (PLMB); however, PLMB and okadaic acid did not induce differentiation. Moreover, treatment with ATRA and 1α, 25(OH)₂D₃ induced retinoic acid receptor-β and 1α, 25(OH)₂ D₃ 24-hydroxylase, respectively, whereas HPLM did not, suggesting that HPLM is a novel differentiation inducer.     

Production and characterization of a novel monoclonal antibody against Vibrio parahaemolyticus F0F1 ATP synthase's delta subunit and its application for rapid identification of the pathogen

We raised monoclonal antibodies (MAbs) against Vibrio parahaemolyticus cell extracts. One of the MAbs, designated MAb-VP34, reacted in enzyme-linked immunosorbent assays (ELISAs) with 140 V. parahaemolyticus strains, regardless of serotype or origin. MAb-VP34 did not detectably react with 96 strains belonging to 27 other Vibrio species (except for Vibrio natriegens) or with 29 non-Vibrio species. These results show that MAb-VP34 is highly specific for V. parahaemolyticus. Western blotting and mass spectrometry analyses revealed that MAb-VP34 recognized V. parahaemolyticus F₀F₁ ATP synthase's delta subunit.Using MAb-VP34, a rapid and simple immunodot blotting assay (VP-Dot) was developed to determine whether bacterial colonies growing on selective agar, represented V. parahaemolyticus. To evaluate VP-Dot, 20 V. parahaemolyticus strains and 19 non-related strains were tested. The results indicated that VP-Dot is a reliable tool for identification of V. parahaemolyticus colonies. The simple VP-Dot procedure took 40 min, indicating that the MAb-VP34 based immunological method will greatly reduce labor, time, and costs required to verify V. parahaemolyticus colonies as compared with the conventional biochemical test.     

Isolation and Characterization of Antibacterial Compound from a Mangrove-Endophytic Fungus, Penicillium chrysogenum MTCC 5108

Microorganisms, especially endophytic fungi that reside in the tissue of living mangrove plants, seem to play a major role in meeting the general demand for new biologically active substances. During the course of screening for biologically active secondary metabolites from marine microorganisms, an antibiotic compound containing an indole and a diketopiperazine moiety was isolated from the culture medium of Penicilliumchrysogenum, (MTCC 5108), an endophytic fungus on the mangrove plant Porteresiacoarctata (Roxb.). The cell free culture medium of P. chrysogenum showed significant activity against Vibriocholerae, (MCM B-322), a pathogen causing cholera in humans. Bioassay guided chemical characterization of the crude extract led to the isolation of a secondary metabolite possessing a molecular formula C₁₉H₂₁O₂N₃. Its antibacterial activity was comparable with standard antibiotic, streptomycin. This compound (1) was found to be (3,1′-didehydro-3[2″(3′″,3′″-dimethyl-prop-2-enyl)-3″-indolylmethylene]-6-methyl pipera-zine-2,5-dione) on the basis of mass spectrometry, infrared spectroscopy and one and two-dimensional nuclear magnetic resonance analysis.     

Analysis of an expressed sequence tag library from Dicrocoelium dentriticum

Dicrocoeliosis caused by Dicrocoelium dendriticum is an important liver disease, which affects ruminants all around the world. Despite the significant economic losses caused by this trematode, molecular knowledge is very scarce. In fact, there is no information in the expressed sequence tag (EST) database about the parasite. Furthermore, the immunological diagnosis of dicrocoeliosis remains unsatisfactory, and there aren’t available recombinant proteins that could be tested in the diagnosis. For this reason a cDNA library was constructed with mRNA extracted from D. dendriticum adults for first time. A random preliminary screening of 230 phage plaques from the library resulted in the identification of 173 new EST. The deduced proteins expressed by these genes have been described as possible vaccine targets in other trematodes, and/or as relevant diagnosis antigens. Then, our goal was to identify D. dentriticum diagnosis genes to be used as recombinant antigens in the specific immunological diagnosis of the trematodoses. A D. dendriticum cDNA encoding an 8-kDa recombinant protein has been cloned, expressed in Escherichia coli and evaluated in dicrocoeliosis diagnosis using both Western Blot and enzyme-linked immunosorbent assay (ELISA). The recombinant expression molecule has demonstrated its value as a diagnosis antigen of dicrocoeliosis, able to discriminate between positive and controls on day 30 post infection. This is the first research conducted for identification and characterization of D. dendriticum ESTs, which can serve as a starting point for future research on immunodiagnosis and immunoprofilaxis of dicrocoeliosis.     

Hydrocarbon monooxygenase in Mycobacterium: recombinant expression of a member of the ammonia monooxygenase superfamily

The copper membrane monooxygenases (CuMMOs) are an important group of enzymes in environmental science and biotechnology. Areas of relevance include the development of green chemistry for sustainable exploitation of methane (CH₄) reserves, remediation of chlorinated hydrocarbon contamination and monitoring human impact in the biogeochemical cycles of CH₄ and nitrogen. Challenges for all these applications are that many aspects of the ecology, physiology and structure–function relationships in the CuMMOs are inadequately understood. Here, we describe genetic and physiological characterization of a novel member of the CuMMO family that has an unusual physiological substrate range (C₂–C₄ alkanes) and a distinctive bacterial host (Mycobacterium). The Mycobacterial CuMMO genes (designated hmoCAB) were amenable to heterologous expression in M. smegmatis—this is the first example of recombinant expression of a complete and highly active CuMMO enzyme. The apparent specific activity of recombinant cells containing hmoCAB ranged from 2 to 3 nmol min^–1 per mg protein on ethane, propane and butane as substrates, and the recombinants could also attack ethene, cis-dichloroethene and 1,2-dichloroethane. No detectable activity of recombinants or wild-type strains was seen with methane. The specific inhibitor allylthiourea strongly inhibited growth of wild-type cells on C₂–C₄ alkanes, and omission of copper from the medium had a similar effect, confirming the physiological role of the CuMMO for growth on alkanes. The hydrocarbon monooxygenase provides a new model for studying this important enzyme family, and the recombinant expression system will enable biochemical and molecular biological experiments (for example, site-directed mutagenesis) that were previously not possible.     

A long-wavelength fluorescent substrate for continuous fluorometric determination of α-mannosidase activity: Resorufin α-d-mannopyranoside

A simple and reliable continuous assay for measurement of α-mannosidase activity is described and demonstrated for analysis with two recombinant human enzymes using the new substrate resorufin α-d-mannopyranoside (Res-Man). The product of enzyme reaction, resorufin, exhibits fluorescence emission at 585 nm with excitation at 571 nm and has a pK_a of 5.8, allowing continuous measurement of fluorescence turnover at or near physiological pH values for human lysosomal and Drosophila Golgi α-mannosidases. The assay performed using recombinant Drosophila Golgi α-mannosidase (dGMII) has been shown to give the kinetic parameters K_m of 200 μM and V_max of 11 nmol/min per nmol dGMII. Methods for performing the assay using several concentrations of the known α-mannosidase inhibitor swainsonine are also presented, demonstrating a potential for use of the assay as a simple method for high-throughput screening of inhibitors potentially useful in cancer treatment.     

Quantitative real-time PCR detection of Pseudomonas oleovorans subsp. lubricantis using TaqMan-MGB assay in contaminated metalworking fluids

Metalworking fluids (MWFs) are highly prone to microbial contamination, which leads to their degradation and biofouling. Pseudomonas oleovorans subsp. lubricantis, a newly described subspecies, was found to be important to MWF fouling. However, the actual distribution of P. oleovorans subsp. lubricantis in MWF is difficult to study using standard culturing techniques. To overcome this, a study was conducted to design a specific quantitative real-time PCR (qPCR) assay using TaqMan^®MGB (minor groove binding) probe for its identification and estimated quantification in contaminated MWFs. The gyrB housekeeping gene sequence was selected for designing a TaqMan^® MGB primer-probe pair using the Allele ID^® 5.0 probe design software for the assay. Whole-cell qPCR was performed with MWF spiked directly with P. oleovorans subsp. lubricantis (eliminating DNA extractions using commercial kit); the primer-probe pair’s sensitivity was 10¹ colony forming units (CFU) ml⁻¹. The assay provided no amplification with other closely related Pseudomonas species found in MWFs indicating its specificity. It was successful in identifying and enumerating P. oleovorans subsp. lubricantis from several used MWFs having between 10⁴ and 10⁶ CFU ml⁻¹. The designed TaqMan^® MGB probe thus can be successfully used for the subspecies-specific identification of P. oleovorans subsp. lubricantis and facilitates the study of its impact on MWFs.     

A high-throughput colorimetric assay to characterize the enzyme kinetic and cellular activity of spermidine/spermine N-acetyltransferase 1

Spermidine/spermine N¹-acetyltransferase 1 (SSAT1) is a key enzyme that catalyzes the catabolism of polyamines. SSAT1 is a very important enzyme because it not only maintains the homeostasis of polyamines but also is involved in many physiological and pathological events. As such, a rapid assay of SSAT1 activity is valuable in drug screening and clinical diagnostics. Here, we report a novel colorimetric assay for monitoring SSAT1 activity in zebrafish (zSSAT1). In comparison with the available SSAT1 assays, this new method is cost-effective and simple. The optimal zSSAT1 activity was obtained below 55 °C in a mild alkaline environment. The K_m values of zSSAT1 for spermidine and spermine are 55 and 182 μM, respectively, whereas putrescine is not a good substrate for zSSAT1. In addition to enzyme kinetic studies, the colorimetric assay was also used to detect the cellular activity of SSAT1. Thus, the current method is a reliable assay for determining SSAT1 activity with many potential applications in medical biology.