Ubiquity of Cysteine- and Metalloproteinase Activities in a Wide Range of Trypanosomatids

We have analysed the proteinase profiles of 11 species from 7 different genera of trypanosomatids by in situ detection of enzyme activities on SDS-PAGE gels containing co-polymerized gelatin as substrate, and the use of specific proteinase inhibitors. Our survey indicates that while cysteine- and metalloproteinases are distributed ubiquitously among trypanosomatids, there are marked differences between the enzyme profiles from the monogenetic (Crithidia, Herpetomonas, Leptomonas) and digenetic (Trypanosoma, Endotrypanum, Phytomonas, Leishmania) species. The detected metalloproteinase activities, ranging in size from 50–100 kDa, partitioned into the detergent-phase after Triton X-114 extraction, while most of cysteine proteinases, of three distinct molecular mass ranges (30–50 kDa, 80–100 kDa and 116–205 kDa), partitioned into the aqueous phase. Thus, within this group of organisms, the metalloproteinase activities seem to be predominantly membrane-associated proteins. We also show that the plant parasites of the genus Phytomonas exhibit a distinctive cysteine proteinase profile that might be exploited further as a criterion for taxonomy of the genus.     

Trypanosomatids, Other Than Phytomonas spp., Isolated and Cultured from Fruit

Trypanosomatids were isolated from edible fruit. One of the isolates (from tangerine) presented a set of enzymes for the metabolism of arginine-ornithine similar to that of Leptomonas spp., and failed to be recognized by monoclonal antibodies specific for Phytomonas spp. The possibility that trypanosomatids other than Phytomonas spp. could infect fruit was further examined by inoculating tomatoes with species of Crithidia, Leptomonas and Herpetomonas. Some of these flagellates multiplied in tomatoes. Besides, house flies became infected with Crithidia sp. when fed on tomatoes experimentally inoculated with this flagellate. Therefore, isolation of a trypanosomatid from a plant should not constitute an absolute criterion for placing it in the genus Phytomonas.     

Use of Cross-Reactive Antibodies to Detect Members of the Potyviridae

In attempts to use cross-reacting antibodies for the broad-spectrum detection of potyviruses two broad-spectrum immunoreagents, the monoclonal antibody P-3-3H8 and antiserum Tu MV-314 raised against an isolate of peanut stripe virus and turnip mosaic virus, respectively, were examined for their ability to detect members of the Potyviridae in a simple indirect plate-trapped antigen (PTA) ELISA. Both immuno-reagents reacted strongly not only with isolate of 50 different virus species of the genus Potyvirus but also with several isolates of ryegrass mosaic virus, the type member of the genus Rymovirus A few members of the genus Potyvirus as well as agropyton mosaic and hordeum mosaic viruses, two other species of the genus, Rymovirus did not react with P-3-3H8 but only with TuMV-314 which showed the highest degree of cross-reactivity. In no case were positive reactions obtained with members of the genera Bymovirus and Ipomovirus. These two immunoreagents which appear to be directed to conserved epitopes gave good results when they were employed for detecting potyviruses in field samples from ornamental (Liliales) and leguminous plants. The potential and limitations of cross-reactive antibodies for the routine detection of potyviruses are discussed.     

Axenic Cultivation and Ultrastructural Study of a Phytomonas sp. Isolated from the Milkweed Plant Euphorbia hyssopifolia1

ABSTRACT. A large number of trypanosomatids was seen in the latex of the milkweed plant Euphorbia hyssopifolia found in Rio de Janeiro, Brazil. The parasites, which belong to the genus Phytomonas, were isolated and axenically cultivated in a biphasic culture medium. The form and the structural organization of the parasites as found in the intact plant, in the isolated latex, and in the culture medium was studied by scanning and transmission electron microscopy.     

Production and properties of monoclonal antibodies to Solanum nodiflorum mottle sobemovirus

Black raspberry necrosis virus (BRNV) reaches only very low concentrations in herbaceous plants and is difficult to maintain in culture. However, in a mixed culture with an unrelated virus, Solanum nodiflorum mottle (SNMV), in the genus Sobemovirus, the concentration of BRNV particles increases about 1000‐fold. In attempts to produce monoclonal antibodies (MAbs) to BRNV for diagnostic use, purified virus particles from the mixed virus culture were used as immunogen and the resultant antibodies screened against cultures of SNMV alone, BRNV+SNMV and healthy plant extracts. None of the virus‐specific MAbs obtained in this way was specific to BRNV but six were specific to SNMV. Although the original objective was not achieved, the SNMV MAbs were characterised and used to study serological properties of SNMV and other Sobemoviruses. Characterisation of the six SNMV MAbs showed that four were IgG3, one IgG1 and the other IgG2b. SNMV was detected by all six MAbs in ELISA, by five in Western blotting, by three in agarose gel double diffusion tests, but only one was suitable for trapping virus particles in immuno‐electron microscopy (IEM). In Western blotting using virus in sap extracts of Nicotiana clevelandii, each of the five MAbs detected a single major band of Mc. 31 000 in sap containing SNMV, and additional bands of lower mass attributed to degradation of coat protein. In various serological tests, no cross‐reactions were detected between SNMV and seven other viruses from the genus Sobemovirus. However, in IEM but not in Western blotting, significant cross‐reactions were observed between SNMV and Velvet tobacco mottle virus, another species from the genus Sobemovirus. The significance of these different findings is discussed.     

Monoclonal Antibodies for the Identification of Trypanosomatids of the Genus Phytomonas

Monoclonal antibodies have been produced against culture forms of Phytomonas francai and Phytomonas serpens parasites, respectively, in cassava roots and tomato fruits. These monoclonal antibodies have been tested against 5 other Phytomonas spp. isolated from plants and 14 species of trypanosomatids of various genera. Monoclonal antibodies were found to react exclusively with Phytomonas spp., always giving negative results with other trypanosomatid genera. Thus, these monoclonal antibodies seem to be an effective tool for the identification of phytomonads among insect trypanosomatids.     

The superficial antigenic mosaic of Methanobrevibacter smithii

A panel of six different monoclonal antibodies (6A to F) was generated using Methanobrevibacter smithii strain PS as immunogen. The antibodies were characterized and calibrated by standard techniques and with a novel application of the slide immunoenzymatic assay (SIA) for determination of the l-chain type of the monoclonal antibody molecule. Five (and possibly six) determinants were identified with the antibodies. Each antibody recognized one determinant exclusively, except for antibodies 6B and 6F which might recognize the same determinant, although some data suggest that antibody 6F recognizes a sixth determinant different from the other five. The determinant for antibody 6A involves Glu, Lys and Orn. It is most likely located in the region of the peptide moiety of pseudomurein which is typical of strain PS. The six antibodies reacted with whole bacterial cells unfixed or formalinized and/or heat-fixed, but did not react with the other M. smithii reference strain ALI, or with any other reference methanogen tested. However, the antibodies did react with a number of isolates from human feces considered M. smithii from morphologic, physiologic and immunologic information, and were instrumental for grouping the isolates.Abbreviations PBS phosphate buffered saline - SIA slide immunoenzymatic assay - IIF indirect immunofluorescence     

Antigenic Heterogeneity of Qa-2 Antigens in C57BL/6

The Qa-2 antigens are class I-like molecules encoded by genes mapped telomeric to the H-2D region on chromosome 17 in the mouse. A panel of 8 new monoclonal anti-Qa-2 antibodies derived from a C3H.KBR anti-C3H. SW immunization was studied. Immunoprecipitation of¹²⁵I-labeled C57BL/6 splenocyte antigens showed that all of these antibodies precipitated 40 kDa molecules which could be completely precleared by the monoclonal antibody 20-8-4, which had previously been shown to crossreact with Qa-2. One of the monoclonal antibodies (1-12-1), however, was found not to completely preclear Qa-2 antigens precipitable by the other 7 antibodies or by 20-8-4, suggesting the existence of at least two different species of Qa-2 molecules. Cell lines transfected with Q7 or Q9 genes were reactive with all 9 antibodies and the Qa-2 antigens expressed on surface membranes of these cells were completely precleared by both 20-8-4 and 1-12-1. Therefore, the observed heterogeneity of these molecules cannot be explained by an antigenic difference between the Q7 and Q9 gene products. 2D gel analyses showed identical pI spectra between Qa-2 molecules precipitated with 20-8-4 and 1-12-1. In addition, all of the monoclonal antibodies reacted with labeled antigen preparations following treatment with Endo F or neuraminidase, indicating that carbohydrate moieties are probably not responsible for the antigenic difference between the two species of Qa-2 antigen.     

A PCR-based survey on Phytomonas (Euglenozoa: Trypanosomatidae) in phytophagous hemipterans of the Amazon region

ABSTRACT. We have surveyed 244 hemipterans from Western Brazilian Amazônia for the presence of trypanosomatids and identification of members of the genus Phytomonas. Examination by phase microscopy of squashes of insect salivary glands (SG) and digestive tubes (DT) revealed that 44% (108/244) of insects from seven families harbored trypanosomatids. Infections were 5 times more frequent in Coreidae than in all other families together. Smears of SG and DT of the dissected insects were fixed on glass slides with methanol and stained with Giemsa for morphological analysis. DNA was recovered from these preparations and submitted to a PCR assay that permitted amplification of all trypanosomatid genera using primers of conserved sequences flanking a segment of the spliced leader (SL) gene. Upon PCR amplification of the recovered DNA, amplicons were hybridized with an oligonucletide probe (SL3′) complementary to a SL intron sequence specific for flagellates of the genus Phytomonas. Among the trypanosomatid‐positive insects, 38.8% harbored Phytomonas spp., corresponding to an overall Phytomonas prevalence of 17.1% among phytophagous bugs, their putative vectors. Since many Phytomonas are pathogenic in plants, this high prevalence in their vectors emphasizes the permanent risk of exposure to disease by native and cultured plants of the Amazon region.     

Development of Panel of Monoclonal Antibodies Specific to Urochordate Cell Surface Antigens

Monoclonal antibodies are an important tool in the study of botryllid ascidians’ immunology and developmental biology. Here we describe the development of a panel of 38 monoclonal antibodies that are specific to Botryllus schlosseri (Ascidiacea; subfamily Botryllinae) cell surface antigens. Many of these hybridomas recognize (by enzyme-linked immunosorbent assay and immunohistochemistry) epitopes of Botrylloides subpopulations (SP) II and III from the Mediterranean coast of Israel and show, on blood cell smear assays, reactions with subsets of Botryllus circulating blood cells. Fluorescence-activated cell sorting analyses using antibodies positive for botryllid tissues revealed up to 3.6% positive cells. ELISA screenings were performed with 64 new monoclonal antibodies on 5 different individual botryllid ascidian colonies (B. schlosseri, Botrylloides). The positive antibodies in this panel identified a large number of different antigenic determinants, some of which distinguish Botryllus versus Botrylloides colonies, and other, different colonies within these two species, or different cell types within tissues, embryos, and buds of individual colonies. Only 21 monoclonal antibodies tested positive with all colonies. Cross-reactivity with at least one Botrylloides colony was recorded in 49 hybridomas that identified Botryllus cells. This wide panel of monoclonal antibodies is the first such detailed set of monoclonals available for studies on botryllid ascidians.     

Trypanosomatidae Isolated from Zelus leucogrammus (Perty, 1834) (Hemiptera,Reduviidae), with a Discussion on Flagellates of Insectivorous Bugs*

The insectivorous bug Zelus leucogrammus (Perty, 1834) (Hemiptera, Reduviidae) was found to harbor several species of trypanosomatids of the genera Leptomonas, Crithidia, Herpetomonas and Blastocrithidia. However, laboratory bred nymphs given sterile food were infected only by Blastocrithidia, the other flagellates appearing in their intestinal tract when they were fed on other insects. The Blastocrithidia was thought to belong to a single species and to be a parasite proper of Z. leucogrammus (and possibly other Hemiptera), producing luxuriant infections in the intestinal tract of the bugs captured in nature and spreading easily among isolated populations through cannibalism and ingestion of cysts; it was also abundant in the genital tract of gravid females but transovarian transmission was not proved. This Blastocrithidia experimentally infected Triatoma infestans and is very close to B. triatomae Cerisola, del Prado, Rohwedder and Bozzini, 1971. The other trypanosomatids, never numerous in naturally infected Z. leucogrammus, are acquired by the bug from many different insects, chiefly Diptera, on which it was seen to feed. Herpetomonas muscarum and C. luciliae, the common trypanosomatids among several muscoid Diptera, were isolated both from flies and from the bugs fed on them.     

Monoclonal antibodies against phloem P-protein from plant tissue cultures. II. Taxonomic distribution of cross-reactivity

P-protein, a filamentous protein found in the sieve elements of most angiosperms, is believed to function in the sealing of phloem wound sites. We report here on the use of a highly sensitive immunomicroscopy assay to study the ability of P-protein specific monoclonal antibodies RS21, RS22, and RS23, made against the P-protein from Streptanthus tortuosus (Brassicaceae), to recognize the native P-protein in a number of different plant genera. RS21, RS22, and RS23 all recognized the P-protein in other genera within the Brassicaceae including Arabidopsis and in the closely related family, Capparaceae. RS21 and RS22 also were able to bind to the P-protein in plants more distantly related to S. tortuosus. The labeling of P-protein was also observed in the monocots Iris and Narcissus probed with RS21. No label was seen with members of the Poaceae that are reported to lack P-protein. None of the monoclonal antibodies was able to bind to the P-protein in members of the Cucurbitaceae.     

Cross-reactivity of monoclonal antibodies against phytochrome from Zea and Avena

The cross-reactivity of diverse monoclonal antibodies against phytochrome from Zea and Avena was tested by enzyme-linked immunosorbentassay (ELISA) and by immunoblotting. About 40 antibodies were selected by means of nondenatured phytochrome; all of them reacted with sodium dodecyl sulfate denatured homologous antigen on immunoblots. The epitopes for 14 antibodies (4 raised against Avena and 10 against Zea phytochrome) were localized in 6 regions of the phytochrome molecule by means of Western blot analysis of proteolytic fragments of known localization. Results of studies on the inhibition of antibody binding by other antibodies were largely compatible with these latter findings. Except in a few cases, inhibition occurred when antibodies were located on the same or a closely adjacent region. As demonstrated by 16 species, cross-reactivity with phytochromes from other Poaceae was high. Greater losses in cross-reactivity were observed only with antibodies recognizing an epitope in the vicinity of the carboxyl terminus of 118-kg · mol^-1 phytochrome. Cross-reactivity with phytochrome from dicotyledons was restricted to a few antibodies. However, phytochrome(s) from plants illuminated for 24 h or more could be detected. One of the antibodies that recognized phytochrome from dicotyledons was also found to recognize phytochrome or a protein of 120–125 kg·mol^-1 from several ferns, a liverwort and mosses. This antibody (Z-3B1), which was localized within a 23.5-kg·mol^-1 section of Avena phytochrome (Grimm et al., 1986, Z. Naturforsch. 41c, 993), seems to be the first antibody raised against phytochrome from a monocotyledon with such a wide range of reactivity. Even though epitopes were recognized on different phytochromes, the strength of antibody binding indicated that these epitopes are not necessarily wholly identical.Abbreviations ELISA enzyme-linked immunosorbent assay - McAb monoclonal antibody - PBS phosphate-buffered saline - Pfr (Pr) far-red-absorbing (red-absorbing) form of phytochrome - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Development and Application of Monoclonal Antibodies Against Xylella fastidiosa, the Causal Bacterium of Pear Leaf Scorch

Ten stable hybridoma cell lines, M As l -10, secreting monoclonal antibodies specific to the causal bacterium of pear leaf scorch (PLS), Xylella fastidiosa. were produced. The monoclonal antibodies can detect 3 × 10⁵ PLS-bacterium cells by indirect enzyme-linked immunosorbent assay (ELISA). In the antibody titer determination by indirect ELISA, hybridoma-culture supernatant from clone MA4 had the highest titer of 20480. In the antibody specificity tests, nine of the 10 monoclonal antibodies did not cross-react with 14 other bacterial strains belonging to nine genera. Only the antibody from hybridoma clone MAI cross-reacted with Xanthomonas campestris pv. cam-pestris and X. campestris pv. vesicatoria. In western blot analysis, all the monoclonal antibodies recognized the major 46.9-kDa polypeptide from all 12 X. fastidiosa strains and a distinct 21.5-kDa polypeptide only from PLS bacterium. In tissue-blotting detection, the PLS bacteria were specifically detected in blots of tissue sections from infected pear with the antibodies developed.     

Production of monoclonal antibodies against the FimA protein of Porphyromonas gingivalis in Nicotiana benthamiana

Porphyromonas gingivalis, a gram-negative anaerobic oral bacterium, causes periodontal disease by binding to saliva-coated oral surfaces. The FimA protein from P. gingivalis is a crucial pathogenic component of the bacterium and a target for vaccine development against periodontal disease. Complementary DNAs encoding the heavy and light chains of two monoclonal antibodies that bind specifically to the FimA protein were cloned into a plant expression vector under the control of the duplicated Cauliflower Mosaic Virus 35S promoter, and agroinfiltration was used to allow the vectors to infiltrate tobacco plants. The expressions of the heavy and light chains in the leaf tissue were detected using antibodies specific to each antibody chain. Western blot analysis showed the specific binding of the plant-derived monoclonal antibodies to the native FimA protein purified from P. gingivalis. Our finding that plant-derived monoclonal antibodies bound specifically to the native FimA protein indicates that plantderived monoclonal antibodies can protect against P. gingivalis invasion.     

Identification of Borrelia burgdorferi Isolated in Korea Using Outer Surface Protein A (OspA) Serotyping System

Two characteristic strains (935T, 934U) of B. burgdorferi isolated from Ixodes persulcatus and a wild rodent (Apodemus agrarius) in Korea were selected and analyzed by an immunoblot method using the monoclonal antibodies directed to different epitopes of outer surface protein A (OspA). The reactive pattern of strain 934U with these monoclonal antibodies was identical to that of strains belonging to B. afzelii and that of strain 935T was different from other isolates. Monoclonal antibody (5TEE3) which is specific to strain 935T did not react with any other Western and Japanese isolates. So, it was suggested that there exist at least two groups of B. burgdorferi in Korea. One could be classified as B. afzelii and the other is a divergent group from three known species of B. burgdorferi sensu stricto, B. garinii and B. afzelii.     

kDNA and rDNA Sequences Reveal a Phylogenetic Cluster of Species Originally Placed in Different Genera of Trypanosomatids

ABSTRACT Hybridization using kDNA and rDNA sequences as probes was performed to study phylogenetic relatedness of different species of trypanosomatids. Using this approach, we identified five organisms which had been classified as Phytomonas and Herpetomonas that were more closely correlated to each other phylogenetically than to any other species or isolates from either genera. These findings raise doubts about the validity of the current classification of Trypanosomatidae. Finally, we demonstrated the usefulness of kDNA sequences as an alternative to genomic sequences in obtaining phylogenetic information on trypanosomatids.     

Characterization of monoclonal antibodies to protoplast membranes of Nicotiana tabacum identified by an enzyme-linked immunosorbent assay

Murine monoclonal antibodies to protoplast membrne antigens were generated using mouse myelomas and spleen cells from mice immunized with Nicotiana tabacum L. leaf protoplasts. For selecting antibody-secreting clones, a sensitive and rapid enzyme-linked immunosorbent assay (ELISA) for monoclonal antibody binding to immobilized cellular membrane preparations or immobilized protoplasts was developed. With intact protoplasts as immobilized antigen, the ELISA is selective for antibodies that bind to plasma-membrane epitopes present on the external surface of protoplasts. Using the membrane ELISA, a total of 24 hybridoma lines were identified that secreted antibodies to plant membrane epitopes. The protoplast ELISA and subsequent immunofluorescence studies identified four hybridoma lines as secreting antibodies which bound to the external surface of protoplasts and cells. The corresponding antigens were not species- or tissue-specific, were periodatesensitive, and were located in membranes which equilibrated broadly throughout a linear sucrose gradient. When protein blots of electrophoretically separated membrane proteins were probed with these antibodies, a band of M_r 14 kilodaltons (kDa) and a smear of bands of M_r 45–120 kDa were labeled. An additional set of three antibodies appeared by immunofluorescence to bind to the plasma membrane of broken but not intact protoplasts and labeled membranes equilibrating at a density of approx. 1.12 kg·l^-1 in a linear sucrose density gradient. These classes of monoclonal antibodies enlarge the library of monoclonal antibodies (Norman et al. 1986, Planta 167, 452–459) available for the study of plant plasma-membrane structure and function.Abbreviations ELISA Enzyme-linked immunosorbent assay - Ig immunoglobulin - kDa kilodalton - M_r relative molecular mass - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis     

Electrophoretic Analysis of Isoenzymes in the Identification of Trypanosomatids of the Genus Phytomonas1

Five strains of trypanosomatids of the genus Phytomonas, isolated from different species of Euphorbia {Euphorbia heterophylla, E. characias, E. pinea, E. hyssopifolia) and from Manihot escutenta, were cultured and compared through the electrophoretic mobility of isoenzymes of six enzymes: aspartate aminotransferase (EC 2.6.1.1), alanine aminotransferase (EC 2.6.1.2), phosphoglucomutase (EC 2.7.5.1), glucose-6-phosphate dehydrogenase (EC 1.1.1.49), glucosephosphate isomerase (EC 5.3.1.9), and malate dehydrogenase (EC 1.1.1.40). The strains could be distinguished from one another by their respective isoenzyme profiles.     

Characterization of an arabinogalactan-protein from suspension culture of <Emphasis Type="Italic">Echinacea purpurea</Emphasis>

Suspension cultures of Echinacea purpurea have been established in MS medium supplemented with 2,4-D and an arabinogalactan-protein (AGP) was purified from the secreted soluble polymers by precipitation with ethanol, followed by precipitation with β-glucosyl Yariv reagent. It revealed typical features of AGPs: a high amount of polysaccharide (90% w/w) with the dominating monosaccharides galactose and arabinose and some glucuronic acid, and a small protein moiety (10% w/w) with the main amino acids Ala, Hyp, Glx, Ser, Asx and Thr. Linkage- and NMR-analyses showed the polysaccharide part to be composed of a branched core-polysaccharide of 3-, 6- and 3,6-linked Galp residues with terminal Araf, Arap, Galp and GlcAp residues. Compared to an AGP from pressed juice of the aerial parts of Echinacea purpurea, differences particularly in terminal arabinose mono- and oligosaccharides in arabinogalactan (AG) side branches could be detected. Testing of different AGP-antibodies with both AGPs confirmed the results of the analytical investigations. Binding of AGPs from plant and cell cultures to LM2, a monoclonal AGP-antibody reacting with a GlcA containing epitope, was comparable. The reactivity of a monoclonal antibody raised against the AGP from the plant recognizing a galactan epitope was also nearly similar with both AGPs. In contrast, polyclonal antibodies raised against the AGP from the plant and directed against an Araf-containing epitope of the AG side branches showed nearly no cross reactivity with the AGP from cell culture.