Pascale Méneceur scite author profile

Sulfadiazine, pyrimethamine, and atovaquone are widely used for the treatment of severe toxoplasmosis. Their in vitro activities have been almost exclusively demonstrated on laboratory strains belonging to genotype I. We determined the in vitro activities of these drugs against 17 strains of Toxoplasma gondii belonging to various genotypes and examined the correlations among 50% inhibitory concentrations (IC 50 s), growth kinetics, strain genotypes, and mutations on drug target genes. Growth kinetics were determined in THP-1 cell cultures using real-time PCR. IC 50 s were determined in MRC-5 cell cultures using a T. gondii-specific enzyme-linked immunosorbent assay performed on cultures. Mutations in dihydrofolate reductase (DHFR), dihydropteroate synthase (DHPS), and cytochrome b genes were determined by sequencing. Pyrimethamine IC 50 s ranged between 0.07 and 0.39 mg/liter, with no correlation with the strain genotype but a significant correlation with growth kinetics. Several mutations found on the DHFR gene were not linked to lower susceptibility. Atovaquone IC 50 s were in a narrow range of concentrations (mean, 0.06 ؎ 0.02 mg/liter); no mutation was found on the cytochrome b gene. IC 50 s for sulfadiazine ranged between 3 and 18.9 mg/liter for 13 strains and were >50 mg/liter for three strains. High IC 50 s were not correlated to strain genotypes or growth kinetics. A new mutation of the DHPS gene was demonstrated in one of these strains. In conclusion, we found variability in the susceptibilities of T. gondii strains to pyrimethamine and atovaquone, with no evidence of drug resistance. A higher variability was found for sulfadiazine, with a possible resistance of three strains. No relationship was found between drug susceptibility and strain genotype.

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Effects of ozone and ultraviolet radiation treatments on the infectivity of Toxoplasma gondii oocysts

Dumètre

Bras

Baffet

et al. 2008

Veterinary Parasitology

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Virulence ofLeishmania infantumIs Expressed as a Clonal and Dominant Phenotype in Experimental Infections

Garin

Sulahian

Pratlong³

et al. 2001

Infect Immun

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Human Leishmania infantum infection results in a spectrum of clinical expressions ranging from cutaneous to either asymptomatic or fatal visceral disease. In this context, characterization of parasite virulence appears to be relevant as a biological marker of intrinsic parasitic factors that can affect the pathology of leishmaniasis. Since parasite populations in naturally infected hosts are likely to be composed of multiclonal associations, we first explored the biodiversity of parasite virulence at the intrastrain level in vitro and in vivo by using 11 clones isolated from three strains previously known to express different virulence phenotypes in mice. Subsequently, we studied the course of infection in mice inoculated simultaneously or successively with strains or clones showing various virulence phenotypes. Analysis of in vitro growth characteristics showed no differences among clones from the different parental strains. By contrast, in vivo experiments evidenced a marked intrastrain heterogeneity of virulence to mice. One out of five clones obtained from a virulent strain showed a typical virulence phenotype, while the remaining four clones had low-virulence profiles, as did the six clones isolated from two low-virulence strains. In mixed multiclonal infections, the virulence phenotype was expressed as a dominant character over the associated low-virulence clones. After a challenge with either a homologous or a heterologous strain or clone, virulence phenotypes were conserved and expressed as in naive mice independently from the preexisting population. These results strongly suggest that parasite virulence in L. infantum visceral leishmaniasis is clonal and dominant in nature.Parasitic infection with Leishmania spp. results in a broad spectrum of clinical diseases in humans. Leishmania infantum is responsible for most cases of human leishmaniasis in southern Europe and reflects this diversity with proteiform clinical expressions ranging from cutaneous leishmaniasis (CL) to either asymptomatic or fatal visceral leishmaniasis (VL).The varying clinical expression observed in VL depends on complex relationships in which not only the genetic potential (3, 4) and/or immunological status of the host (10,15,20) but also the proper parasite biodiversity (15,16,19,26) appear as determinant factors. Characterization of Leishmania polymorphism at the species and subspecies levels is currently based on isoenzyme and biomolecular analysis. However, identification of biological markers like parasite tropism or virulence remains crucial as a complementary tool to account for the considerable biodiversity of the parasite.In this context, characterization of parasite virulence, i.e., the ability to develop and multiply in vitro and/or in vivo appears particularly relevant for analysis of parasitic factors that can affect the pathology of VL. Using 21 Mediterranean strains of L. infantum isolated from humans, we previously showed that there is a remarkable intraspecific heterogeneity in experimental virulence expression of t...

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