Nicola Casson scite author profile

Large viruses infecting algae or amoebae belong to the NucleoCytoplasmic Large DNA Viruses (NCLDV) and present genotypic and phenotypic characteristics that have raised major interest among microbiologists. Here, we describe a new large virus discovered in Acanthamoeba castellanii co-culture of an environmental sample. The virus, referred to as Lausannevirus, has a very limited host range, infecting Acanthamoeba spp. but being unable to infect other amoebae and mammalian cell lines tested. Within A. castellanii, this icosahedral virus of about 200 nm exhibits a development cycle similar to Mimivirus, with an eclipse phase 2 h post infection and a logarithmic growth leading to amoebal lysis in less than 24 h. The 346 kb Lausannevirus genome presents similarities with the recently described Marseillevirus, sharing 89% of genes, and thus belongs to the same family as confirmed by core gene phylogeny. Interestingly, Lausannevirus and Marseillevirus genomes both encode three proteins with predicted histone folds, including two histone doublets, that present similarities to eukaryotic and archaeal histones. The discovery of Lausannevirus and the analysis of its genome provide some insight in the evolution of these large amoebae-infecting viruses.

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Criblamydia sequanensis, a new intracellular Chlamydiales isolated from Seine river water using amoebal co‐culture

Thomas

Casson

Greub³

2006

Environmental Microbiology

119

100

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Accumulating evidence supports a role for Chlamydia-related organisms as emerging pathogens for human and animals. Assessment of their pathogenicity requires strain availability, at least for animal models and serological studies. As these obligate intracellular species are able to grow inside amoebae, we used co-culture with Acanthamoeba castellanii in an attempt to recover new Chlamydia-related species from river water. We isolated two strains from eight water samples. The first strain is a new Parachlamydia acanthamoebae strain that differs from previously described isolates by only two bases in the complete 16S rRNA gene sequence. The second isolate is the first representative of a new Chlamydiales family, as demonstrated by genetic and phylogenetic analyses of the 16S rRNA, 23S rRNA, ADP/ATP translocase and RnpB encoding genes. Using fluorescent in situ hybridization and electron microscopy, we demonstrated that it grows in high numbers in amoebae, where it exhibits a Chlamydia-like developmental cycle with reticulate bodies and star-like elementary bodies. Based on these results, we propose to name this new species 'Criblamydia sequanensis'. This work confirmed that amoebal co-culture is a relevant method to isolate new chlamydiae, and that it can be successfully applied to ecosystems colonized with a complex microbial community.

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Parachlamydiaspp. and RelatedChlamydia-like Organisms and Bovine Abortion

Borel

Ruhl

Casson

et al. 2007

Emerg. Infect. Dis.

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Protochlamydianaegleriophilaas Etiologic Agent of Pneumonia

Casson

Michel²,

Müller³

et al. 2008

Emerg. Infect. Dis.

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Using ameba coculture, we grew a Naegleria endosymbiont. Phenotypic, genetic, and phylogenetic analyses supported its affiliation as Protochlamydia naegleriophila sp. nov. We then developed a specific diagnostic PCR for Protochlamydia spp. When applied to bronchoalveolar lavages, results of this PCR were positive for 1 patient with pneumonia. Further studies are needed to assess the role of Protochlamydia spp. in pneumonia.

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New Diagnostic Real-Time PCR for Specific Detection of Parachlamydia acanthamoebae DNA in Clinical Samples

et al. 2008

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Nicola Casson

Lausannevirus, a giant amoebal virus encoding histone doublets

Criblamydia sequanensis, a new intracellular Chlamydiales isolated from Seine river water using amoebal co‐culture

Parachlamydiaspp. and RelatedChlamydia-like Organisms and Bovine Abortion

Protochlamydianaegleriophilaas Etiologic Agent of Pneumonia

New Diagnostic Real-Time PCR for Specific Detection of Parachlamydia acanthamoebae DNA in Clinical Samples

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