Transcriptional profiling of Entamoeba histolytica trophozoites.

We have developed an Entamoeba histolytica genomic DNA microarray and used it to develop a transcriptional profile of 1,971 E. histolytica (HM-1:IMSS) genes. The arrays accurately detected message abundance and 31-47% of amebic genes were expressed under standard tissue culture conditions (levels detectable by Northern blot analysis or RT-PCR respectively). Genes expressed at high levels ( approximately 2% of total) included actin (8.m00351), and ribosomal genes (20.m00312). Moderately expressed genes ( approximately 14% of total) included cysteine proteinase (191.m00117), profilin (156.m00098), and an Argonaute family member (11.m00378). Genes with low-level expression ( approximately 15% of total) included Ariel1 (160.m00087). Genes with very low expression ( approximately 16% of total) and those not expressed ( approximately 52% of total) included encystation-specific genes such as Jacob cyst wall glycoprotein (33.m00261), chitin synthase (3.m00544), and chitinase (22.m00311). Transcriptional modulation could be detected using the arrays with 17% of genes upregulated at least two-fold in response to heat shock. These included heat shock proteins (119.m00119 and 279.m00091), cyst wall glycoprotein Jacob (33.m00261), and ubiquitin-associated proteins (16.m00343; 195.m00092). Using Caco-2 cells to model the host-parasite interaction, we verified that host cell killing was dependent on live ameba. However, surprisingly these events did not appear to induce major transcriptional changes in the parasites.

DNA content analysis on microarrays.

The genome sequencing of protozoan parasites has facilitated the development of powerful postgenomics tools such as DNA microarrays and revolutionized the study of parasite biology. Large-scale genomic comparisons are useful in identifying the extent of genomic variability among related strains and isolates. Identification of deletions between geographically diverse clinical isolates is important in understanding parasite biology and the "fitness" of a given strain in dissemination. Additionally, the development of reliable diagnostic tests or identification of potential vaccine candidates is predicated on the large-scale conservation of the candidate genes. Parasites with variable virulence phenotypes (vaccine strain vs virulent strain) can also be studied for their genomic variability and provide further insights into the potential role of genotypic variability and its relationship to virulence. This chapter outlines the utilization of DNA microarrays to study genomic content.

Trichomonas vaginalis: characterization of a family of P-type ATPase genes.

P-type ATPases are ion-transporting pumps that enable organisms to control cellular functions and survive changing environmental conditions by regulating internal ion concentrations. Eight P-type ATPases were identified in the amitochondriate protist Trichomonas vaginalis using polymerase chain reaction (PCR) amplification with oligonucleotide primers that recognize conserved motifs present in all P-type ATPases, the ATP phosphorylation site (DKTGTLT) and the ATP binding site (TGDGVND). Phylogenetic analysis and the presence of conserved motifs in predicted peptide sequences identify the Trichomonas ATPases as a sarcoplasmic-endoplasmic reticulum calcium pump (TVCA1); three additional Ca(2+) transporting pumps (TVCA2-4), three phospholipid translocases (TVAPLT1-3), and one P-type ATPase of unknown transport specificity (TVPATP8). Southern blot analyses indicate that the P-type ATPase genes are not linked and are present in single copy, except TVCA2 and TVCA4 which contain additional copies or closely related homologues within the genome. Transcripts of 3.1 kb for TVCA1, 3.0 kb for TVCA2, 2.9 kb for TVCA3, 4.0 kb for TVAPLT1, 4.2 kb for TVAPLT2, 3.9 kb for TVAPLT3, and 3.1 kb for TVPATP8 were detected by Northern blot analysis. No TVCA4 transcript was observed, however, RT-PCR amplification of a transcript product indicates that TVCA4 is expressed. RNA expression of the Trichomonas ATPases, except TVCA3, was constitutive over a range of environmental conditions. TVCA1, TVAPLT3 and TVPATP8 had the highest levels of RNA expression while TVAPLT1 and TVAPLT2 expression was the lowest.

Comparative genomic hybridizations of Entamoeba strains reveal unique genetic fingerprints that correlate with virulence.

Variable phenotypes have been identified for Entamoeba species. Entamoeba histolytica is invasive and causes colitis and liver abscesses but only in approximately 10% of infected individuals; 90% remain asymptomatically colonized. Entamoeba dispar, a closely related species, is avirulent. To determine the extent of genetic diversity among Entamoeba isolates and potential genotype-phenotype correlations, we have developed an E. histolytica genomic DNA microarray and used it to genotype strains of E. histolytica and E. dispar. On the basis of the identification of divergent genetic loci, all strains had unique genetic fingerprints. Comparison of divergent genetic regions allowed us to distinguish between E. histolytica and E. dispar, identify novel genetic regions usable for strain and species typing, and identify a number of genes restricted to virulent strains. Among the four E. histolytica strains, a strain with attenuated virulence was the most divergent and phylogenetically distinct strain, raising the intriguing possibility that genetic subtypes of E. histolytica may be partially responsible for the observed variability in clinical outcomes. This microarray-based genotyping assay can readily be applied to the study of E. histolytica clinical isolates to determine genetic diversity and potential genotypic-phenotypic associations.