Hemólisis masiva debida a sepsis por Clostridium perfringens secundaria a absceso hepático. Presentación de dos casos con un mismo antecedente / Massive haemolysis due to sepsis caused by Clostridium perfringens secondary to liver abscess. Presentation of two cases with a similar history

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The effects of multiple infections on the expression and evolution of virulence in a Daphnia-endoparasite system.

Multiple infections of a host by different strains of the same microparasite are common in nature. Although numerous models have been developed in an attempt to predict the evolutionary effects of intrahost competition, tests of the assumptions of these models are rare and the outcome is diverse. In the present study we examined the outcome of mixed-isolate infections in individual hosts, using a single clone of the waterflea Daphnia magna and three isolates of its semelparous endoparasite Pasteuria ramosa. We exposed individual Daphnia to single- and mixed-isolate infection treatments, both simultaneously and sequentially. Virulence was assessed by monitoring host mortality and fecundity, and parasite spore production was used as a measure of parasite fitness. Consistent with most assumptions, in multiply infected hosts we found that the virulence of mixed infections resembled that of the more virulent competitor, both in simultaneous multiple infections and in sequential multiple infections in which the virulent isolate was first to infect. The more virulent competitor also produced the vast majority of transmission stages. Only when the less virulent isolate was first to infect, the intrahost contest resembled scramble competition, whereby both isolates suffered by producing fewer transmission stages. Surprisingly, mixed-isolate infections resulted in lower fecundity-costs for the hosts, suggesting that parasite competition comes with an advantage for the host relative to single infections. Finally, spore production correlated positively with time-to-host-death. Thus, early-killing of more competitive isolates produces less transmission stages than less virulent, inferior isolates. Our results are consistent with the idea that less virulent parasite lines may be replaced by more virulent strains under conditions with high rates of multiple infections.

'Candidatus pasteuria usgae' sp. nov., an obligate endoparasite of the phytoparasitic nematode Belonolaimus longicaudatus.

Taxonomically relevant characteristics of a fastidiously Gram-positive, obligately endoparasitic prokaryote (strain S-1) that uses the phytoparasitic sting nematode Belonolaimus longicaudatus as its host are reviewed. 16S rDNA sequence similarity (> or = 93%) confirms its congeneric ranking with other Pasteuria species and strains from nematodes and cladocerans and corroborates morphological, morphometric and host range evidence suggesting a novel taxon. The 16S rDNA sequence of strain S-1 has greatest similarity (96%) to the 16S rDNA sequences of both Pasteuria penetrans from root-knot nematodes (Meloidogyne species) and the recently reported strain of Pasteuria isolated from the soybean cyst nematode Heterodera glycines. Because the obligately endoparasitic nature of prokaryotes in the genus Pasteuria prevents isolation of definitive type strains, strain S-1 is proposed as 'Candidatus Pasteuria usgae' sp. nov.

Diversity and partial characterization of putative virulence determinants in Pasteuria penetrans, the hyperparasitic bacterium of root-knot nematodes (Meloidogyne spp.).

Antigens recognized by monoclonal antibodies (Mabs) raised to the surface of the obligate nematode hyperparasite Pasteuria penetrans were characterized. Using the attachment of spores of the bacterium to host nematodes to determine the biological variability present on the spore surface greatly underestimated the amount of surface heterogeneity present compared with estimates from immunological techniques. This heterogeneity differed not only between different individual spores from the same population but also between different spore populations. None of the Mabs completely inhibited any spore population from attaching to the nematode cuticle, suggesting that the mechanism of attachment may be more complex than previously supposed. Chemical degradation of one particular epitope recognized by monoclonal antibody PP1/117, and designated ep117, occurred after treatment with NaOH, periodate or Proteinase K, suggesting that an O-linked glycoprotein may be involved. Fibronectin, which had been found to bind to Pasteuria spores through hydrophobic interactions, also prohibited the Mab from recognizing ep117. However, SDS-PAGE of spore extracts followed by immunoblotting showed that none of the Mabs could detect this epitope and so ep117 may be conformational in nature. Thus, the conformation of any particular epitope recognized by a Mab may be important in determining to which nematode a particular spore will attach. The distribution of a particular epitope within a population of spores will in turn therefore determine its virulence on a particular nematode.