Victor S. Panangala

GAA Trinucleotide Repeat Region Regulates M9/pMGA Gene Expression in Mycoplasma gallisepticum

ABSTRACT Mycoplasma gallisepticum, the cause of chronic respiratory infections in the avian host, possesses a family of M9/pMGA genes encoding an adhesin(s) associated with hemagglutination. Nucleotide sequences of M9/pMGA gene family members indicate extensive sequence similarity in the promoter regions of both the transcribed and silent genes. The mechanism that regulates M9/pMGA gene expression is unknown, but studies have revealed an apparent correlation between gene expression and the number of tandem GAA repeat motifs located upstream of the putative promoter. In this study, transposon Tn4001was used as a vector with the Escherichia coli lacZ gene as the reporter system to examine the role of the GAA repeats in M9/pMGA gene expression in M. gallisepticum. A 336-bp M9 gene fragment (containing the GAA repeat region, the promoter, and the translation start codon) was amplified by PCR, ligated with alacZ gene from E. coli, and inserted into the Tn4001-containing plasmid pISM2062. This construct was transformed into M. gallisepticum PG31. Transformants were filter cloned on agar supplemented with 5-bromo-4-chloro-3-indolyl-β-d-galactopyranoside (X-Gal) to monitor lacZ gene expression on the basis of blue/white color selection. Several cycles of filter cloning resulted in cell lineages in which lacZ gene expression alternated between the On and Off states in successive generations of progeny clones. The promoter regions of the M9-lacZ hybrid genes of individual progeny clones were amplified by PCR and sequenced. The only differences between the promoter regions of the blue and white colonies were in the number of GAA repeats. Clones that expressedlacZ had exactly 12 tandem copies of the GAA repeat. Clones that did not express lacZ invariably had either more than 12 (14 to 16) or fewer than 12 (5 to 11) GAA repeats. Southern analysis of M. gallisepticum chromosomal DNA confirmed that the phase-variable expression of the lacZ reporter gene was not caused by Tn4001 transposition. These data strongly indicate that changes in the length of the GAA repeat region are responsible for regulating M9/pMGA gene expression.

In vitro and in vivo interaction of macrophages from vaccinated and non-vaccinated channel catfish (Ictalurus punctatus) to Edwardsiella ictaluri.

Macrophages from catfish vaccinated with an Edwardsiella ictaluri vaccine and macrophages from non-vaccinated catfish were used in in vitro and in vivo studies with red-fluorescent E. ictaluri to assess phagocytic ability, reactive oxygen and nitric oxide production and bactericidal activity. In the in vitro experiment, macrophages were harvested from vaccinated and non-vaccinated fish and then exposed to red-fluorescent E. ictaluri. Results of this study showed that E. ictaluri can survive and replicate in macrophages from non-vaccinated catfish (relative percent killing, RPK, from 0.011 to 0.620 and from -0.904 to 0.042 with macrophage:bacteria ratios of 1:20 and 1:100, respectively) even in the presence of reactive oxygen and nitrogen products. Macrophages from vaccinated fish were significantly (p < 0.05) more efficient in killing E. ictaluri (RPK from 0.656 to 0.978 and from 0.011 to 0.620 with macrophage:bacteria ratios of 1:20 and 1:100, respectively) and produced significantly (p < 0.05) higher amounts of ROS (10-fold increase) and nitrogen oxide (about 10-fold increase) than macrophages from non-vaccinated fish. In the in vivo experiment, vaccinated and non-vaccinated catfish were injected with red-fluorescent E. ictaluri to allow the interaction between macrophages and other components of the immune system. After 6h, macrophages were harvested from the fish and seeded in glass chamber slides and bactericidal activity was measured in vitro. Results showed in vivo interaction of other components of the immune system enhanced bactericidal activity of macrophages from vaccinated fish. In another set of experiments, catfish were intraperitoneally injected with fluorescent bacteria opsonized with immune serum or non-opsonized and necropsied in the first 48 h after bacterial challenge to observe localization of E. ictaluri between vaccinated and non-vaccinated catfish. Vaccinated fish were able to control the dispersion of E. ictaluri in the body and red-fluorescent bacteria were observed only in the spleen, anterior and trunk kidney. In non-vaccinated fish E. ictaluri was able to replicate and invade all organs with the exception of the brain. We further determined that macrophages seeded with E. ictaluri could cause infection in non-vaccinated fish upon reinoculation with in vitro infected-macrophages. Overall, the results indicated that macrophages from vaccinated fish are activated and responsible for rapid clearance of infection upon re-exposure to virulent E. ictaluri.

Analysis of 16S–23S intergenic spacer regions of the rRNA operons in Edwardsiella ictaluri and Edwardsiella tarda isolates from fish

Aims:u2002 To analyse interspecies and intraspecies differences based on the 16S–23S rRNA intergenic spacer region (ISR) sequences of the fish pathogens Edwardsiella ictaluri and Edwardsiella tarda.

Trinucleotide GAA Repeats Dictate pMGA Gene Expression in Mycoplasma gallisepticum by Affecting Spacing between Flanking Regions

The pMGA genes of the avian respiratory pathogen Mycoplasma gallisepticum encode a family of hemagglutinins that are subject to phase variation. A trinucleotide GAA repeat region is located upstream of the pMGA transcription start site. The length of the repeat region varies at a high frequency due to changes in the number of repeat units. Previous studies have shown that pMGA genes are transcribed when 12 GAA repeats are present but are not transcribed when the number of repeats is not 12. To further analyze the mechanism of gene regulation, the pMGA promoter region was modified either by deleting the nucleotides 5 of the GAA repeats or by inserting linkers of 10 or 12 bp at a position 3 of the repeats. The modified promoter region was fused to a promoterless lacZ gene and transformed into M. gallisepticum by using transposon Tn4001 as a vector. Transformants and successive generations of progeny were analyzed with 5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside (X-Gal) to monitor beta-galactosidase activity. For the transformants of M. gallisepticum containing the reporter with deletion of nucleotides 5 of the GAA repeats, GAA-dependent pMGA gene regulation was abolished. For the transformants containing the reporter with an addition of 10- or 12-bp linkers, lacZ was expressed only when eight GAA repeats were present. These data indicate that the nucleotides 5 of the GAA repeats as well as the spacing between the GAA repeats and sequences downstream (3) of the repeats are important for pMGA gene expression.

Mycoplasma corogypsi sp. nov., a new species from the footpad abscess of a black vulture, Coragyps atratus.

Strain BV1 was isolated from the exudate of the footpad abscess of a black vulture (Coragyps atratus). The colonies had a fried-egg appearance consistent with that of mycoplasmal species. Electron microscopic examination of the cells revealed irregular elongated or elliptical forms and smaller circular budding processes. Profuse growth was observed in Frey medium supplemented with 20% swine serum at 37 degrees C in a humidified atmosphere of 10% CO2 and air. Typical of mycoplasma, strain BV1 required sterol for growth and catabolized glucose but did not hydrolyze arginine or urea. The guanine-plus-cytosine content of the DNA was 28 mol%. The organism demonstrated the ability to hemolyze, absorb onto, and agglutinate the erythrocytes from several animal species. Strain BV1 was serologically unrelated by the growth inhibition test to previously established Mycoplasma, Acholeplasma, Entomoplasma, and Mesoplasma species, as well as to strains belonging to these genera but not identified to species level. Moreover, BV1 had a 16S rRNA gene with a nucleotide sequence distinct from reported sequences of other mycoplasmas. This organism represents a new species for which the name Mycoplasma corogypsi is proposed. Strain BV1 (ATCC 51148T) is the type strain of Mycoplasma corogypsi sp. nov.

Chemical and electroporated transformation of Edwardsiella ictaluri using three different plasmids

Transfer of DNA by conjugation has been the method generally used for genetic manipulation of Edwardsiella ictaluri because, previously, attempts to transform E. ictaluri by the uptake of naked DNA have apparently failed. We report here the successful transformation of seven strains of E. ictaluri using electroporation and two different chemical procedures [conventional calcium chloride (CaCl(2)) and one-step (polyethylene glycol, dimethyl sulfoxide and MgSO(4)) protocols]. Seven strains of E. ictaluri were transformed using three different plasmids [pZsGreen, pUC18 and pET-30a(+)]. The highest transformation efficiency was achieved by electroporation (5.5+/-0.2 x 10(4) transformants ng(-1) plasmid DNA) than with the CaCl(2) (8.1+/-6.1 x 10(-1) transformants ng(-1) plasmid) and the one-step transformation protocol (2.5+/-2.7 transformants ng(-1) plasmid). An efficient transformation by electroporation required only 0.2 ng of plasmid compared with 200 ng required for the CaCl(2) and one-step protocols. The plasmids were stably maintained in E. ictaluri grown in the presence of antibiotic for 12 or more passages. The results of this study show that transformation of E. ictaluri by electroporation can be routinely used for the molecular genetic manipulation of this organism, and is a quicker and easier method than transformation performed by conjugation.