Inhibition of gene expression in Entamoeba by the transcription of antisense RNA: effect of 5' and 3' regulatory elements.

Down regulation of gene expression by antisense RNA is one of the ways to investigate the specific contribution of certain components to the physiology and activities of a cell. A successful inhibition of gene expression in Entamoeba trophozoites was achieved in stable transfectants by using hybrid plasmid constructs containing promotors that produce transcripts which do not bind to polysomes. Different promotors were found to be required for Entamoeba histolytica or Entamoeba dispar. In E. histolytica one of the two copies (g34) of the gene coding for ribosomal protein L21 was previously found to be transcribed but not translated. Inhibition of gene expression was obtained by placing in a transfection vector, the amoebapore A gene, in its antisense orientation, under the control of the g34 promotor. Transfectants of E. histolytica were shown to accumulate antisense transcripts and inhibit amoebapore synthesis. In contrast, transfectants with plasmid constructs in which the amoebapore gene was placed under the control of the gLE3 promotor of RP-L21, which is known to be translated, did not accumulate antisense transcript or inhibit gene expression. Maximal inhibition of amoebapore expression was obtained when the antisense construct also included the 5' and 3' untranslated regions of the amoebapore gene. In E. dispar the opposite situation was found, plasmid constructs containing the promotor regions of the gLE3 copy, which were shown to be poorly translated, were more efficient in inhibiting the synthesis of a 30 kDa surface-specific antigen than a construct with the g34 promotor element.

Antisense inhibition of amoebapore expression in Entamoeba histolytica causes a decrease in amoebic virulence.

Amoebapores have been proposed to be a major pathogenicity factor of the protozoan parasite Entamoeba histolytica, which is responsible for the killing of target cells. These 77-residue peptides are structural and functional analogues of NK-lysin and granulysin of porcine and human cytotoxic lymphocytes. Inhibition of amoebapore gene expression in amoebae was obtained following transfection with a hybrid plasmid construct (pAP-R2) containing the Neo resistance gene and the gene coding for amoebapore A, including its 5' and 3' untranslated region (UTR) sequences, in reverse orientation under a promoter (g34) taken from one of the E. histolytica ribosomal protein (RP-L21) gene copies. Transfectants of virulent E. histolytica strain HM-1:IMSS, in which the expression of amoebapore was inhibited by approximately 60%, were significantly less pathogenic. Cytopathic and cytolytic activities of viable trophozoites against mammalian nucleated cells, as well as lysis of red blood cells, were markedly inhibited. Moreover, trophozoite extracts of pAP-R2 transfectant displayed lower pore-forming activity and were less potent in inhibiting bacterial growth compared with controls. Notably, liver abscess formation in hamsters by the pAP-R2 transfectant was substantially impaired. These results demonstrate for the first time that amoebapore is one of the pathogenicity factors by which trophozoites of E. histolytica exert their remarkable cytolytic and tissue destructive activity.

Analysis by enzyme-linked immunosorbent assay and PCR of human liver abscess aspirates from patients in China for Entamoeba histolytica.

Aspirates of liver abscesses were analyzed for Entamoeba histolytica. PCR detected a gene encoding a 30-kDa protein in all samples but detected the ribosomal DNA gene in only 14 (33.3%) samples. Enzyme-linked immunosorbent assay detected antigen in 41 (97.6%) samples. PCR analysis of a strain-specific antigen (SSG) revealed that abscesses were caused by various strains.

Identification of significant variation in the composition of lipophosphoglycan-like molecules of E. histolytica and E. dispar.

The lipophosphoglycan-like (LPG-like) molecules of E. histolytica virulent strains are clearly distinct from those of the avirulent E. histolytica and E. dispar strains. Abundant 'LPG' levels are apparently limited to virulent strains, while lipophosphopeptidoglycans ('LPPG's) are common to both virulent and avirulent strains of E. histolytica and E. dispar. It is therefore conceivable that 'LPPG' performs a function that is essential to survival within the host, while the 'LPG' performs a more specific function related to virulence.

Comparison of use of enzyme-linked immunosorbent assay-based kits and PCR amplification of rRNA genes for simultaneous detection of Entamoeba histolytica and E. dispar.

A comparison of the use of three commercially available enzyme-linked immunosorbent assay-based kits and PCR amplification of rRNA genes to detect and differentiate Entamoeba histolytica from E. dispar was carried out. Only the Techlab kit did not cross-react with E. dispar antigens, but it was 100 times less sensitive than PCR in detection of and differentiation between the two types of Entamoeba.

Virulent and avirulent Entamoeba histolytica and E. dispar differ in their cell surface phosphorylated glycolipids.

Virulent strains of Entamoeba histolytica have been reported to produce a mixture of phosphoglycoconjugates that share some structural features with the lipophosphoglycans (LPGs) of Leishmania. Purification of these glycoconjugates is essential to their precise structural characterization. In this study we have extracted 'LPG-like' molecules from various virulent E. histolytica strains and purified on the basis of charge differences, 2 apparently related glycoconjugates a 'LPG' and a 'lipophosphopeptidoglycan (LPPG)'. In marked contrast to the abundance of these 'LPG' and 'LPPG' molecules in the virulent strains, avirulent E. histolytica and E. dispar strains produce either very low, or no detectable levels of LPG, and either low levels or modified forms of 'LPPG'. Monospecific polyclonal antibodies prepared against that 'LPG' of the virulent strain HM-1:1MSS c16 identified epitopes shared between both the 'LPG' and the 'LPPG' of this and other virulent strains, using Western blot analysis. Flow cytometric analysis of a range of strains using these antibodies identified a surface distribution of these molecules and confirmed a correlation between surface exposure of epitopes bound by these antibodies and parasite virulence.

A homologue of the cysteine proteinase gene (ACP1 or Eh-CPp3) of pathogenic Entamoeba histolytica is present in non-pathogenic E. dispar strains.

One of the three cysteine proteinase genes, ACP1 (or CP 3), has been reported to be missing in non-pathogenic strains of Entamoeba histolytica (or Entamoeba dispar as recently labeled). Unexpectedly, a gene fragment very similar in its sequence (95% homology) to ACP1 of pathogenic strains was obtained by use of the polymerase chain reaction from genomic DNA and cDNA of various cloned non-pathogenic strains as well as in 23 clinical isolates from asymptomatic carriers. The finding of the ACP1 homologue in non-pathogenic or E. dispar strains rules out the proposed use of its absence for diagnostic purposes.

Molecular cloning of a 30-kilodalton lysine-rich surface antigen from a nonpathogenic Entamoeba histolytica strain and its expression in a pathogenic strain.

A monoclonal antibody (MAb), 318-28, that specifically reacts with a 30-kDa antigen present on membrane surfaces of all nonpathogenic (NP) Entamoeba histolytica strains tested and which did not react with pathogenic (P) strains was used for the isolation of the cDNA coding for this antigen from an expression library of an NP E. histolytica strain. The deduced amino acid composition was rich in lysine residues (14.5%), with some sequence similarity to a polyadenylate-binding protein. Southern and Northern (RNA) blot analyses, as well as amplifications of DNA segments by PCR, indicate that a very similar gene (identity of 96.5%) exists in P strains of E. histolytica. Unexpectedly, the NP-specific antigen was also identified by MAb 318-28 on the surfaces of a cloned, xenically cultivated and well-characterized P strain (BNI:0591) that was recently isolated from a human liver abscess. Binding of the MAb, both to the cell surfaces and to Western blots (immunoblots), was abolished, however, upon axenization of the BNI:0591 cultures. Oligonucleotide primers, designed to anneal only to specific DNA sequences of the NP 30-kDa protein gene copy, amplified a DNA segment from P strain BNI:0591 which was identical in sequence to that of the NP 30-kDa protein gene. Our findings indicate that a P strain of E. histolytica can possess and express, under certain growth conditions, an antigen that is usually detected only in NP strains.

Characterization of two distinct gene transcripts for ribosomal protein L21 from pathogenic and nonpathogenic strains of Entamoeba histolytica.

A second gene (rp-L21) copy, clone g34, coding for ribosomal (r-) protein L21, was isolated from the pathogenic (P) strain HM-1:IMSS cl6 of the intestinal parasite Entamoeba histolytica (Eh). The gene was compared to the previously isolated copy, gLE3 [Petter et al., Mol. Biochem. Parasitol. 56 (1992) 329-334], with respect to its primary structure, mRNA levels and binding to the r-complex during translation. Unlike the gLE3 gene copy [Petter et al., Mol. Biochem. Parasitol. 56 (1992) 329-334], g34 was found not to be physically connected to an actin gene copy. Homologous copies of the two rp-L21 genes were also characterized from the nonpathogenic (NP) strain SAW1734R clAR, as well as from its P derivative. Sequence comparison of the coding regions of the two rp-L21 revealed almost full identity. Significant differences were found, however, within their 3' and 5' flanking regions. Using the 3' rapid amplification of cDNA ends (3' RACE) method [Frohman et al., Proc. Natl. Acad. Sci. USA 85 (1988) 8998-9002], as well as Northern and slot blot hybridizations, it was demonstrated that both rp-L21 mRNAs are found in similar amounts. However, as was shown by differential hybridization, the relative binding of each transcript to the r-complex varied somewhat between P and NP strains. This finding suggests that the control of expression of rp-L21 in Eh may involve regulation at the post-transcriptional level.

Chromosome walk in Entamoeba histolytica: the gene encoding for ribosomal protein L21 neighbors one of the actin genes.

Actin is one of the most abundant proteins in the motile intestinal protozoan parasite E. histolytica. A number of actin gene copies have been detected. The cDNA and genomic sequences of two of the actin genes have been independently reported (1,2). Almost complete homology was detected between the coding regions of the two genes; however, significant differences were observed in the sequences of their 5' untranslated regions. Using the coding region of actin as the focal point, we performed a chromosome walk to identify the neighboring genes and the intergenic regulatory domains. A genomic library containing large fragments of DNA was screened with the coding and non-coding regions of the actin gene. An insert of 8.5 kb reacted on Northern blots with actin and two additional transcripts. The large (approximately 2.5 kb) transcript has not yet been identified, but the smaller one (600 bp), was shown to encode for the ribosomal protein L21. Both the cDNA and genomic sequences of this gene were determined. The RP-L21 gene was found to be physically connected to the actin gene by a 2.1 kb intergenic stretch. The actin gene on this DNA fragment contained a 5' untranslated region that was identical to the sequence described by Edman et al. The actin gene isolated by Huber et al. was located by PFGE on another chromosomal band that did not contain the RP-L21 gene.

Appearance of sialoglycoproteins in encysting cells of Entamoeba histolytica.

Amoeba-bacterium cultures of Entamoeba histolytica transferred to a hypoosmotic medium depleted of nutrients changed morphologically and biochemically. The cells ejected grains of rice starch, rounded up, and formed a distinct cell wall that was resistant to detergent, bound the sialic acid-specific lectin from Limulus polyphemus, and became fluorescent with Calcofluor M2R. A subpopulation of these cells displayed more than one nucleus. All these signs are characteristic of encysting cells and were also observed in cysts obtained from a human patient. The morphological changes were accompanied by the appearance of two new glycoproteins with apparent molecular sizes of 100 and 150 kilodaltons which contained sialic acid. Sialic acid has been reported to be absent from trophozoites of Entamoeba species. The presence of this sugar residue on cyst-specific proteins parallels recently reported findings during the encystation of the related reptilian parasite Entamoeba invadens. This may indicate a basic role for sialic acid in the encystation of Entamoeba parasites.

Adherence of Shigella flexneri to guinea pig intestinal cells is mediated by a mucosal adhesion.

Guinea pig colonic epithelial cells released by treating sections of the colon with solutions containing EDTA, dithiothreitol, and citrate avidly adhered Shigella flexneri bacteria. Separation of the intestinal cells from nonbound bacteria was achieved by differential sedimentation on a Percoll gradient. Adherence of S. flexneri to the colonic cells was Ca2+ (1 mM) and time dependent. The pH optimum was pH 6.2, and almost no attachment (less than 5%) was observed at low temperature (4 degrees C). The average number of bacteria which bound to colonic cells was 70 bacteria per cell, whereas attachment to cells isolated from the ileum region was 6 bacteria per cell. Colonic cells obtained from the intestine of rabbits or rats did not adhere Shigella. Adherence to guinea pig colonic cells was inhibited (50%) by several carbohydrates, such as 0.1% fucose or 0.5% glucose, as well as by a lipopolysaccharide preparation (10 micrograms /ml) isolated from S. flexneri. Fixation of the bacteria with glutaraldehyde or preincubation of the bacteria with lectins or proteolytic enzymes did not affect their adherence. Proteolytic digestions or fixation of the epithelial cells, as well as pretreatments with lipopolysaccharide or fucose solutions, abolished their ability to adhere bacteria. These results indicate that a carbohydrate-binding substance on the surface of guinea pig colonic epithelial cells is responsible for the attachment of the Shigella bacilli.

Insensitivity of peptidoglycan biosynthetic reactions to beta-lactam antibiotics in a clinical isolate of Pseudomonas aeruginosa.

The enzymatic reactions (transpeptidases/ that catalyze the attachment of newly synthesized peptidoglycan to the preexisting cell wall sacculus of both Escherichia coli and Pseudomonas aeruginosa have been shown to be very sensitive to most beta-lactam antibiotics. Biosynthetic studies carried out with a clinical isolate of P. aeruginosa resistant to carbenicillin and cefsulodin showed that the in vitro reactions were also insensitive to most beta-lactam antibiotics (up to 50 micrograms/ml) and only cefotaxime or its tetrazolyl analog, compound LY 97962, had an inhibitory effect at 0.01 microgram/ml. The pattern of beta-lactam binding proteins obtained upon exposure of intact or presonicated cells to radioactively labeled compound LY 97962 or penicillin G indicates that: (i) intact cells of the clinical isolate are 10 to 50 times less permeable to the antibiotics than is the wild-type strain X-48; (ii) beta-lactam binding proteins Ia, Ib, and III of the clinical isolate showed poor affinity for penicillin G and cefsulodin, but were similar to the wild type in their affinity for cefotaxime and compound LY 979062. The two strains also differed in several of their outer membrane components. These results suggest that the insusceptibility of this clinical isolate is due to a combination of outer membrane impermeability and intrinsic insensitivity to most of the beta-lactams on the part of the enzymes which catalyze expansion and growth of peptidoglycan.

Biosynthesis of peptidoglycan in Pseudomonas aeruginosa: comparison of the inhibitory effects of cefotaxime, its anti isomer, and the syn S-oxide compound.

The intrinsic effect of three novel methoxyimino derivatives of cephalosporin (cefotaxime [syn HR 756]; its anti isomer, R 02 5328 A; and the syn S-oxide derivative, HR 109) on the biosynthesis of peptidoglycan of Pseudomonas aeruginosa X-48 was investigated. Cefotaxime at very low concentrations (50% inhibition at 0.025 microgram/ml) inhibited the transpeptidase reaction which catalyzes the incorporation and attachment of newly synthesized peptidoglycan to the preexisting cell wall sacculus. The S-oxide compound, HR 109, was a much less efficient inhibitor of this reaction (50% inhibition at 0.55 microgram/ml), whereas the anti isomer of cefotaxime, R 02 5328 A, had no inhibitory effect. All three compounds were quite similar in being relatively poor inhibitors of D-alanine carboxypeptidase.

Biosynthesis of peptidoglycan in Pseudomonas aeruginosa. 1. The incorporation of peptidoglycan into the cell wall.

Ether-treated cells of Pseudomonas aeruginosa catalyze the formation of crosslinked peptidoglycan from the two nucleotide precursors uridinediphospho-N-acetylglucosamine and uridinediphospho-N-acetylmuramyl-L-alanyl-D-gamma-glutamyl-meso-diaminopimelyl-D-alanyl-D-alanine. The main enzymatic reactions of biosynthesis were similar to those found in Escherichia coli. Part of the reaction products were soluble in 4% sodium dodecylsulfate whereas the other part was covalently bound to the preexisting cell wall peptidoglycan sacculus. The incorporation into cell wall is carried out by a transpeptidation reaction in which the nascent peptidoglycan functions mainly as the donor and the preexisting one as acceptor. The detergent-soluble peptidoglycan is composed of partially crosslinked peptidoglycan strands as well as low-molecular-weight peptidoglycan fragments. Pulse-chase biosynthesis experiments show that the detergent-soluble peptidoglycan is an intermediate that eventually becomes covalently bound to the wall. The DD-carboxypeptidase activity of P. aeruginosa is membrane-bound and does not hydrolyse C-terminal D-alanine residues from the L-lysine-containing nucleotide-precursor analogue. An LD-carboxypeptidase was also detected in P. aeruginosa.

Biosynthesis of peptidoglycan in Pseudomonas aeruginosa. 2. Mode of action of beta-lactam antibiotics.

The intrinsic effect of various beta-lactam antibiotics on the biosynthesis of peptidoglycan of Pseudomonas aeruginosa X-48 was investigated. Most of the cephalosporins and penicillins tested already at 0.5 microgram/ml strongly inhibited (a) the incorporation of nascent peptidoglycan into the detergent-insoluble fraction (greater than 75%), (b) the formation of peptide crosslinkages (greater than 60%) and (c) the activity of the DD-carboxypeptidase and partially that of the transpeptidase (approximately 90% and approximately 40% respectively). Another group of beta-lactum drugs did not inhibit incorporation into the material insoluble in sodium dodecylsulfate, the formation of peptide crosslinkages nor transpeptidase activity. They only partially inhibited the activity of the DD-carboxypeptidase--endopeptidase system (40--50% at 0.5 microgram/ml). The results obtained differ from those of Presslitz and Ray [Antimicrob, Agents Chemother. 7, 578--581 (1975)] and show some resemblance to the effects of beta-lactams on the biosynthesis of Escherichia coli peptidoglycan.