Development and application of real-time PCR assay for quantification of Mycobacterium ulcerans DNA.

Buruli ulcer, an infection caused by Mycobacterium ulcerans, is, after tuberculosis and leprosy, the third most common mycobacterial disease. The mode of transmission of M. ulcerans is not exactly known, but since Buruli ulcer often occurs in focalized swampy areas, it is assumed that there is a reservoir of the pathogen in stagnant water. Buruli ulcer usually starts as a painless nodule and can lead to massive destruction of skin, subcutaneous tissue, and eventually muscle and bone. Currently the only recommended treatment is wide surgical excision. In this report we describe the development of a real-time PCR method for the quantification of M. ulcerans DNA (IS2404 TaqMan). The highly specific assay is based on the detection of the M. ulcerans specific insertion sequence IS2404. The IS2404 TaqMan assay turned out to be about 10 times more sensitive than the available conventional PCR-based diagnostic test. It is demonstrated that the IS2404 TaqMan assay is suitable for the quantitative assessment of the dissemination of the mycobacteria in Buruli ulcer lesions. Prototype results obtained with excised tissue from a patient with a late preulcerative Buruli ulcer lesion reconfirmed earlier histopathological findings indicating that tissue damage occurs far beyond the regions in which large numbers of mycobacteria are detectable. The IS2404 TaqMan assay should be a useful tool for both diagnosis and research into the pathology and mode of transmission of this still inadequately investigated mycobacterial disease.

Functional and structural similarity of V gamma 9V delta 2 T cells in humans and Aotus monkeys, a primate infection model for Plasmodium falciparum malaria.

Gammadelta T cells are implicated to play crucial roles during early immune responses to pathogens. A subset of human gammadelta T cells carrying the Vgamma9Vdelta2 TCR recognize small, phosphorylated nonpeptidic Ags. However, the precise role of these cells and the ligands recognized in human immune responses against pathogens remains unclear because of the lack of suitable animal models. We have analyzed the reactivity of spleen cells of the New World monkey Aotus nancymaae against isopentenyl pyrophosphate (IPP), a phosphorylated microbial metabolite selectively activating Vgamma9Vdelta2 T cells. Spleen cells were stimulated by IPP and the expanding cell population expressed the Vgamma9 TCR. TRGV-J and TRDV-D-J rearrangements expressed by IPP-stimulated cells of Aotus were analyzed by RT-PCR and DNA sequencing. The TRGV-J and TRDV-D-J rearrangements expressed by IPP-stimulated Aotus and human gammadelta T cells were similar with respect to 1) TCR gene segment usage, 2) a high degree of germline sequence homology of the TCR gene segments used, and 3) the diversity of the CDR3 regions. Phylogenetic analysis of human, Pan troglodytes, and A. nancymaae TRGV gene segments showed that the interspecies differences are smaller than the intraspecies differences with TRGV9 gene segments located on a distinct clade of the phylogenetic tree. The structural and functional conservation of Vgamma9Vdelta2 T cells in A. nancymaae and humans implicates a functionally important and evolutionary conserved mechanism of recognition of phosphorylated microbial metabolites.

Simple differential detection of Entamoeba histolytica and Entamoeba dispar in fresh stool specimens by sodium acetate-acetic acid-formalin concentration and PCR.

Amoebiasis is caused by two distinct species, a pathogenic form (Entamoeba histolytica) and a nonpathogenic form (Entamoeba dispar), which are morphologically identical. Although the distinction between these two species is of great clinical importance, the methods developed for this purpose either are very time-consuming or involve laborious procedures for isolation of the DNA. We report here a simple PCR method starting with fresh stool specimen that allows for the sensitive and reliable distinction between E. histolytica and E. dispar. After initial concentration by the sodium acetate-acetic acid-formalin (SAF) method and digestion with proteinase K, a 0.88-kb sequence of the multicopy 16S rRNA gene served as a target for PCR amplification. The method starting with unpreserved specimens proved to be very sensitive and was not influenced by the quick exposure to SAF fixative during the initial concentration step. However, storage in SAF fixative prior to testing resulted in a decreased sensitivity within 2 days. The detection limit of the method was as low as one copy of the 16S rRNA gene. No cross-reactivity was observed with other common intestinal protozoa. Mixed infections involving both E. histolytica and E. dispar could easily be detected at a ratio of 1:10,000 by agarose gel electrophoresis or a DNA hybridization immunoassay.

Separate nuclear genes encode cytosolic and mitochondrial nucleoside diphosphate kinase in Dictyostelium discoideum.

We have previously isolated cDNA clones for the gip17 gene encoding the cytosolic nucleoside diphosphate (NDP) kinase from Dictyostelium discoideum, and partial cDNAs for guk, a second member of the NDP kinase gene family (Wallet, V., Mutzel, R., Troll, H., Barzu, O., Wurster, B., Véron, M., and Lacombe, M. L. (1990) J. Natl. Cancer Inst. 80, 1199-1202). We now characterize genomic DNA clones for both NDP kinase genes, and we show that guk defines a nuclear-encoded mitochondrial NDP kinase. Isolated D. discoideum mitochondria contain 3% of the total cellular NDP kinase activity. Antibodies which specifically recognize and inhibit the activity of either cytosolic or mitochondrial NDP kinase unambiguously distinguish between these activities. The nascent mitochondrial NDP kinase contains a presequence of 57 amino acids that is removed during import into the organelle as shown by determination of the NH2 terminus of the mature protein from mitochondria. The genes for mitochondrial and cytosolic NDP kinases contain four and two introns, respectively. The positions of the of the introns in the gene for the cytosolic enzyme match exactly the positions of the second and fourth introns in the coding region of its mitochondrial homologue. From these results we conclude that the isozymes diverged from a common ancestor, and we discuss possible phylogenetic pathways for the evolution of cytosolic and organelle NDP kinases.

Purification, functional characterization, and cDNA sequencing of mitochondrial porin from Dictyostelium discoideum.

Porin of Dictyostelium discoideum was extracted from mitochondria with Genapol X-80 and was purified by hydroxyapatite and CM-cellulose chromatography. The purified protein displayed a single band of 30 kDa in SDS-polyacrylamide gel electrophoresis. The formation of channels in artificial lipid bilayer membranes defined its function as a channel-forming component. Its average single-channel conductance was 3.9 nanosiemens in 1 M KCl, which suggested that the effective diameter of the channel is approximately 1.7 nm at small transmembrane potentials. The channel displayed a characteristic voltage dependence for potentials higher than 20 mV. It switched to substates of smaller conductance and a selectivity different to that of the open state. The closed state was stabilized at low ionic strength. The cDNA sequence of mitochondrial porin from D. discoideum was determined. It showed little sequence similarities to other known mitochondrial porins. The functional similarity, however, was striking. Localization of the porin in the mitochondrial outer membrane was confirmed by immunogold labeling of cryosections of fixed cells.

Dictyostelium nucleoside diphosphate kinase highly homologous to Nm23 and Awd proteins involved in mammalian tumor metastasis and Drosophila development.

Two complementary DNAs (cDNAs) previously isolated, one by functional screening and the other by immunological screening of a Dictyostelium discoideum expression library, encode two proteins, Gip17 and Guk7.2, sharing 71% homology. In the present study, we found that the expression of their messenger RNAs (mRNAs) is developmentally regulated, with a sharp decrease during the first hours of differentiation. The Gip17 protein was purified to homogeneity from D. discoideum amoebas and from recombinant Escherichia coli and was conclusively identified as a nucleoside diphosphate (NDP) kinase. NDP kinases play a major role in synthesis of nucleoside triphosphates and, in many systems, are found associated with guanosine triphosphate (GTP)-binding proteins. We found the Gip17 protein to be 77% homologous to the human Nm23 protein and 75% homologous to the Drosophila melanogaster Awd protein. The levels of murine and human nm23 mRNA and Nm23 protein are significantly reduced in tumor cells of high metastatic potential, suggesting that Nm23 is involved in suppression of mammalian tumor metastasis, and mutants of the awd gene exhibit widespread development abnormalities, suggesting that Awd is involved in D. melanogaster development. The high percentage of homology of the Gip17 and Guk7.2 proteins with the Nm23 and Awd proteins indicates that Nm23 and Awd also have nucleoside diphosphate kinase activity. Possible modulations in the activity of this metabolic enzyme could be related to the altered metabolism of tumor cells and the control of metastatic potential. Our results point to an unexpected role of NDP kinase in development, growth control, and oncogenic transformation.

Functional cloning of a nucleoside diphosphate kinase from Dictyostelium discoideum.

A lambda gt11 cDNA library from Dictyostelium discoideum was screened by direct labeling of filter replicas with [35S]guanosine 5'-O-(thiotriphosphate) (GTP gamma S). A positive clone was obtained and used as probe to isolate additional clones from which a complete cDNA sequence was determined. The cDNA hybridizes to a single copy gene that is expressed as a 0.6-kilobase mRNA in vegetatively growing amoeba. The open reading frame encodes a protein of 155 amino acids (calculated Mr 16,775), devoid of cysteine residues. The protein contains most of the short consensus motifs characteristic of the catalytic domain of protein kinases although the overall homology with this class of enzymes is not greater than 20%. Its size and amino acid composition indicated that it could be the monomer of a nucleoside diphosphate (NDP) kinase, an enzyme which catalyzes the phosphate transfer from triphospho- to diphosphonucleotides. Indeed, specific NDP kinase activity was found in extracts of bacteria transformed with a plasmid expressing the protein. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the extracts incubated in the presence of [35S]GTP gamma S revealed a single 35S-labeled band of size corresponding to the protein, which likely represents the stable thiophosphorylated reaction intermediate characteristic for the ping-pong reaction mechanism of NDP kinases. The formation of this labeled intermediate probably allowed the detection of the enzyme on the filters during the screening procedure. Although NDP kinases from a great variety of sources have been characterized, the primary structure of the D. discoideum NDP kinase is the first reported for an enzyme of eukaryotic origin.