Differences and similarities between Monkeypox and Chickenpox in children during an outbreak.

INTRODUCTION: Herein, we described cases of children under 16 years old suspected to be infected with Monkeypox virus (MKPV) and diagnosed with chickenpox in public hospitals of Marseille, south of France. MATERIAL AND METHODS: We conducted a retrospective study from March 23rd, 2022 to October 20th, 2022 in our institution of results of MKPV DNA and varicella-zoster virus (VZV) DNA detection by PCR performed on cutaneous lesions swabs collected from children <16 years old. RESULTS: None of the cutaneous swabs collected from 14 children were positive for MKPV DNA. In contrast, 30/168 (17 %) cutaneous swabs collected from children were positive for VZV DNA. Of these 30 VZV-positive children, 7 had been suspected of MKPV infection because of their atypical rash, due to the location of the lesions and the chronology of their appearance. DISCUSSION: As in our cohort, pediatric cases of the 2022 Monkeypox outbreak in non-endemic developed countries have been very rare. This variant of MKPV does not normally spread easily and requires very close physical contact between an infected person (skin lesions, bodily fluids or respiratory droplets) and another person to be transmitted. It will nevertheless be a question of remaining vigilant as not to ignore the possibility of close contact or sexual transmission of Monkeypox in a child, or the possibility of a new and more contagious variant. CONCLUSION: It is difficult to differentiate Monkeypox infection from other infections associated with rashes, it is important to remember that viruses change as well as their forms of presentation.

Complete genome and description of Corynebacterium incognita sp. nov.: a new bacterium within the Corynebacterium genus.

In 2020, as part of the diagnosis in IHU-Méditerranée Infection Institute in Marseille (France) we isolated the new bacterial strain Marseille-3630T from a 7-year-old girl blood specimen (= CSUR: Q3630). Matrix-assisted desorption ionisation time-of-flight mass spectrometry failed to identify this isolate. Analysis of the 16S rRNA gene and genome-to-genome comparison suggested that this taxon belongs to a novel bacterial species within the family Corynebacteriaceae in the phylum Actinobacteria. We described here its main phenotypic characteristics, genome sequence and annotation of Corynebacterium incognitum strain Marseille-3630T, a new member of the Corynebacterium genus, that we propose as type strain.

Draft genome and description of Microvirga mediterraneensis strain Marseille-Q2068T sp. nov., a new bacterium isolated from human healthy skin.

In 2019, by culturing a skin swab from the forehead of a 70-year-old healthy woman via the culturomics method, we isolated the new bacterial strain Marseille-Q2068T (= CSUR-Q2068). Matrix-assisted desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) failed to identify this isolate. Analysis of the 16S ribosomal RNA gene and genome-to-genome comparison suggested that this taxon belongs to a novel bacterial species within the family Methylobacteriaceae in the phylum Proteobacteria. We describe here its main phenotypic characteristics, genome sequence and annotation of Microvirga mediterraneensis strain Marseille-Q2068T, a new member of the Microvirga genus, which we propose as the type strain.

Draft genome and description of Mixta mediterraneensis strain Marseille-Q2057T sp.nov., a new bacterium isolated from human healthy skin.

In 2019, by culturing a skin swab from the hand of a 30-year-old healthy woman using the culturomic method, we isolated the new bacterial strain Marseille-Q2057T (= CSUR-Q2057). Matrix-assisted desorption-ionization time-of-flight mass spectrometry (MALDI-TOF MS) failed to identify this isolate. Analysis of the 16S rRNA gene and Genome-to-Genome comparison suggested that this taxon belongs to a novel bacterial species within the family Erwiniaceae, phylum Proteobacteria. We describe here its main phenotypic characteristics, genome sequence and annotation of Mixta mediterraneensis strain Marseille-Q2057T, a new member of the Mixta genus, that we propose as type strain.

Isolation and identification of Legionella spp. from hot spring water in Algeria by culture and molecular methods.

AIMS: Due to infectious risk associated with the presence of Legionella in warm water, we determined the prevalence of living Legionella spp. in hot spring water in Algeria. METHODS AND RESULTS: Detection of Legionella by culture was done by using two methods, direct culture on agar plates and co-culture with amoeba. Fifty samples were taken from different hot springs in northern Algeria, including swimming pools, showers and thermal sources. Legionella pneumophila serotypes were predominant, accounting for 60% of positive samples. Direct method allowed the isolation of 13 L. pneumophila only of 50 samples (26%), whereas co-culture using a panel of three free living amoeba allowed the isolation of 119 Legionella species from the same samples (80%) CONCLUSIONS: Amoeba co-culture allowed the isolation of several Legionella sp., while direct culture allowed the isolation of L. pneumophila only. Remarkably, Legionella longbeachae, usually isolated from soil and compost, was isolated for the first time in thermal water in three samples using Vermamoeba vermiformis co-culture. SIGNIFICANCE AND IMPACT OF THE STUDY: The presence of Legionella in the water of hot springs in Algeria, which are mainly frequented by individuals at risk of Legionellosis, requires urgent control measures.

Evaluating the serological status of COVID-19 patients using an indirect immunofluorescent assay, France.

An indirect in-house immunofluorescent assay was developed in order to assess the serological status of COVID-19 patients in Marseille, France. Performance of IFA was compared to a commercial ELISA IgG kit. We tested 888 RT-qPCR-confirmed COVID-19 patients (1302 serum samples) and 350 controls including 200 sera collected before the pandemic, 64 sera known to be associated with nonspecific serological interference, 36 sera from non-coronavirus pneumonia and 50 sera from patient with other common coronavirus to elicit false-positive serology. Incorporating an inactivated clinical SARS-CoV-2 isolate as the antigen, the specificity of the assay was measured as 100% for IgA titre ≥ 1:200, 98.6% for IgM titre ≥ 1:200 and 96.3% for IgG titre ≥ 1:100 after testing a series of negative controls. IFA presented substantial agreement (86%) with ELISA EUROIMMUN SARS-CoV-2 IgG kit (Cohen's Kappa = 0.61). The presence of antibodies was then measured at 3% before a 5-day evolution up to 47% after more than 15 days of evolution. We observed that the rates of seropositivity as well as the titre of specific antibodies were both significantly higher in patients with a poor clinical outcome than in patients with a favourable evolution. These data, which have to be integrated into the ongoing understanding of the immunological phase of the infection, suggest that detection anti-SARS-CoV-2 antibodies is useful as a marker associated with COVID-19 severity. The IFA assay reported here is useful for monitoring SARS-CoV-2 exposure at the individual and population levels.

Draft genome and description of Chryseobacterium manosquense strain Marseille-Q2069T sp. nov., a new bacterium isolated from human healthy skin.

In 2019, by culturing a skin swab from the hand of a 35-year-old healthy woman using culturomics methods, we isolated the new bacterial strain Marseille-Q2069T =CSUR-Q2069. Matrix-assisted desorption/ionization time-of-flight mass spectrometry failed to identify this isolate. Analysis of the 16S rRNA gene and Genome-to-Genome comparison suggested that this taxon belongs to a novel bacterial species within the family Flavobacteriaceae in the phylum Bacteroidetes. We described here the main phenotypic characteristics, genome sequence and annotation of Chryseobacterium manosquense strain Marseille-Q2069T, a new member of the Chryseobacterium genus, that we propose as type strain.

Draft genome and description of Aeromicrobium phoceense strain Marseille-Q0843T sp. nov., a new bacterium isolated from human healthy skin.

In 2019, by culturing a skin swab sample from the back of the hand of a 61-year-old healthy woman and assessing it via the culturomics method, we isolated the new bacterial strain Marseille-Q0843T (= CSUR-Q0843). Matrix-assisted desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) failed to identify this isolate. Analysis of the 16S ribosomal RNA gene and genome-to-genome comparison suggested that this taxon belongs to a novel bacterial species within the family in Nocardioidaceae in the phylum Actinobacteria. We describe here the main phenotypic characteristics, genome sequence and annotation of Aeromicrobium phoceense strain Marseille-Q0843T, a new member of the Aeromicrobium genus, which we propose as the type strain.

Draft genome and description of Corynebacterium haemomassiliense strain Marseille-Q3615T sp. nov., a new bacterium isolated from a 59-year-old man with chronic obstructive pulmonary disease symptoms.

In 2020, as part of a diagnosis attempt at IHU Méditerranée Infection in Marseille (France), a blood specimen was obtained from a 59-year-old man with chronic obstructive pulmonary disease symptoms, from which we isolated the new bacterial Corynebacterium haemomassiliense strain Marseille-Q3615T. Matrix-assisted desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) failed to identify this isolate. Analysis of the 16S ribosomal RNA gene and genome-to-Genome comparison suggested that this taxon belongs to a novel bacterial species within the family Corynebacteriaceae in the phylum Actinobacteria. We describe the main phenotypic characteristics, genome sequence and annotation of Corynebacterium haemomassiliense strain Marseille-Q3615T, a new member of the Corynebacterium genus, which we propose as the type strain.

Evidence of an environmental reservoir for emergent Mycobacterium colombiense.

Mycobacterium colombiense, which belongs to the M. avium complex, is reported to have been isolated from cases of disseminated infection in both immunocompromised and immunocompetent patients. During the isolation of protists from water samples in French Guyana, we co-isolated a flagellated green alga (Polytoma sp.) and a mycobacterium identified as M. colombiense.

Parabacteroides pacaensis sp. nov. and Parabacteroides provencensis sp. nov., two new species identified from human gut microbiota.

Strains Marseille-P4001 and Marseille-P3668 are new species from the order Bacteroidales isolated from healthy French volunteers. They are anaerobic Gram-negative rod-shaped bacteria. They exhibited 92.68% and 96.68% 16S rRNA sequence identities with Parabacteroides gordonii strain MS-1 and Parabacteroides chinchillae JCM 17104, respectively, the phylogenetically closest species. Their respective draft genomes measured 5.23 Mb and 3.73 Mb with 39.2 mol% and 40.8 mol% of G + C content. Using a taxonogenomics method, we propose here a brief description of Parabacteroides pacaensis sp. nov., strain Marseille-P4001T and Parabacteroides provencensis sp. nov., strain Marseille-P3668T as new bacterial species.

Corynebacterium neomassiliense sp. nov., a new bacterium isolated in a stool sample from a healthy male pygmy.

An obligate aerobic, Gram-positive, non-sporulating, rod-shaped bacterium designated Marseille P3888T was isolated from the stool sample of a healthy male pygmy. We described its main characteristics, and sequenced and annotated its genome. The 16S rRNA analysis revealed 98.10% sequence similarity with Corynebacterium terpenotabidum, the phylogenetically closest species with standing in nomenclature. The genome had a size of 3142051 bp with a guanine + cytosine content of 66.83%. We proposed the creation of the new Corynebacterium neomassiliense sp. nov. strain Marseille-P3888T.

Corynebacterium dentalis sp. nov., a new bacterium isolated from dental plaque of a woman with periodontitis.

Strain Marseille-P4122T is a new species from the order Corynebacteriales that was isolated from the dental plaque of a woman with periodontitis. It is a facultative anaerobic Gram-positive rod-shaped bacterium. Strain Marseille-P4122T exhibited a 98.19% sequence identity with Corynebacterium suicordis strain P81/02, the phylogenetically closely related species with standing in nomenclature. The draft genome size of strain Marseille-P4122T is 2.49 Mb with 60.1% G + C content. We propose that strain Marseille-P4122T (=CSURP4122) is the type strain of the new species Corynebacterium dentalis sp. nov.

Oyster hemolymph is a complex and dynamic ecosystem hosting bacteria, protists and viruses.

BACKGROUND: The impact of the microbiota on host fitness has so far mainly been demonstrated for the bacterial microbiome. We know much less about host-associated protist and viral communities, largely due to technical issues. However, all microorganisms within a microbiome potentially interact with each other as well as with the host and the environment, therefore likely affecting the host health. RESULTS: We set out to explore how environmental and host factors shape the composition and diversity of bacterial, protist and viral microbial communities in the Pacific oyster hemolymph, both in health and disease. To do so, five oyster families differing in susceptibility to the Pacific oyster mortality syndrome were reared in hatchery and transplanted into a natural environment either before or during a disease outbreak. Using metabarcoding and shotgun metagenomics, we demonstrate that hemolymph can be considered as an ecological niche hosting bacterial, protist and viral communities, each of them shaped by different factors and distinct from the corresponding communities in the surrounding seawater. Overall, we found that hemolymph microbiota is more strongly shaped by the environment than by host genetic background. Co-occurrence network analyses suggest a disruption of the microbial network after transplantation into natural environment during both non-infectious and infectious periods. Whereas we could not identify a common microbial community signature for healthy animals, OsHV-1 µVar virus dominated the hemolymph virome during the disease outbreak, without significant modifications of other microbiota components. CONCLUSION: Our study shows that oyster hemolymph is a complex ecosystem containing diverse bacteria, protists and viruses, whose composition and dynamics are primarily determined by the environment. However, all of these are also shaped by oyster genetic backgrounds, indicating they indeed interact with the oyster host and are therefore not only of transient character. Although it seems that the three microbiome components respond independently to environmental conditions, better characterization of hemolymph-associated viruses could change this picture.

Molecular epidemiology of Clostridium neonatale and its relationship with the occurrence of necrotizing enterocolitis in preterm neonates.

Clostridia-especially Clostridium butyricum-are among the taxa most frequently identified from stool samples of preterm neonates with necrotizing enterocolitis (NEC). Recently, Clostridium neonatale has also been detected from epidemic cases, but using a culture-based approach we were unable to confirm this discovery in a local cohort. In order to investigate this link by a molecular approach, a specific rpoB-based quantitative real-time PCR was developed to detect C. neonatale directly from patients' stool specimens. Design of this rpoB-based quantitative real-time PCR was based on the genomic analysis of seven clinical isolates of C. neonatale. It was tested on stool samples from 88 preterm neonates with necrotizing enterocolitis and 71 matched controls. C. neonatale was significantly more prevalent in stools from preterm neonates with necrotizing enterocolitis than in controls (respectively 30/88 (34%) versus 9/71 (13%); p 0.003). Whole-genome analysis also allowed the identification of three genomic clusters of C. neonatale. This clustering was associated with a geographical location regardless of isolation from the NEC or control, suggesting asymptomatic carriage. Although less prevalent than C. butyricum in our cohort, C. neonatale is significantly associated with the occurrence of necrotizing enterocolitis.

Genome sequence and description of Alterileibacterium massiliense gen. nov., sp. nov., a new bacterium isolated from human ileum of a patient with Crohn's disease.

Alterileibacterium massiliense gen. nov. sp. nov. strain Marseille-P3115T (= CSURP-3115; DSM 103486), formerly proposed as Ileibacterium massiliense, is a new genus of bacteria isolated from the ileum of a human patient with Crohn's disease.

Clostridium pacaense: a new species within the genus Clostridium.

Using the strategy of taxonogenomics, we described Clostridium pacaense sp. nov. strain Marseille-P3100T, a Gram-variable, nonmotile, spore-forming anaerobic bacillus. This strain was isolated from a 3.3-month-old Senegalese girl with clinical aspects of marasmus. The closest species based on 16S ribosomal RNA was Clostridium aldenense, with a similarity of 98.4%. The genome length was 2 672 129 bp, with a 50% GC content; 2360 proteins were predicted. Finally, predominant fatty acids were hexadecanoic acid, tetradecanoic acid and 9-hexadecenoic acid.

Giant mimiviruses escape many canonical criteria of the virus definition.

BACKGROUND: The discovery of mimivirus in 2003 prompted the quest for other giant viruses of amoebae. Mimiviruses and their relatives were found to differ considerably from other viruses. Their study led to major advances in virology and evolutionary biology. AIMS: We summarized the widening gap between mimiviruses and other viruses. SOURCES: We collected data from articles retrieved from PubMed using as keywords 'giant virus', 'mimivirus' and 'virophage', as well as quoted references from these articles. CONTENT: Data accumulated during the last 15 years on mimiviruses and other giant viruses highlight that there is a quantum leap between these infectious agents, the complexity of which is similar to that of intracellular microorganisms, and classical viruses. Notably, in addition to their giant structures and genomes, giant viruses have abundant gene repertoires with genes unique in the virosphere, including a tremendous set of translation components. The viruses contain hundreds of proteins and many transcripts. They share a core of central and ancient proteins but their genome sequences display a substantial level of mosaicism. Finally, mimiviruses have a specific mobilome, including virophages that can integrate into their genomes, and against which they can defend themselves through integration of short fragments of the DNA of these invaders. IMPLICATIONS: Mimiviruses and subsequently discovered giant viruses have changed the virus paradigm and contradict many virus definition criteria delineated for classical viruses. The major cellular hallmark that is still lacking in giant viruses is the ribosome, including both ribosomal protein and RNA encoding genes, which makes them bona fide microbes without ribosomes.

Naming microorganisms: the contribution of the IHU Méditerranée Infection, Marseille, France.

The number of isolated new microorganisms has dramatically increased after the readaption of culture using the culturomics approach. Each of these microorganisms is deposited in an international strain collection institute, with its name being attributed and published by the scientist who isolated it. The attributed name is of Latin or Latinized origin and chosen on the basis of the geographical location of the sample collection, the institute or geographical region where the project was being performed, the name of a concerned scientist, and characteristics of the sample or the microorganism. Our institution has played an important role in the isolation of new microorganisms, with the first effort reporting 468 new bacterial species (3% of the bacterial species isolated at least once worldwide) and 327 species isolated for the first time from human beings, which in turn resulted in an increase of 30% of the total number of microorganisms isolated. Additionally, more than 100 giant viruses, including seven new species, have been isolated at our institute. In the present work, after recalling the rules of nomenclature, we detail the naming of the new microorganisms chosen at our laboratory. The most common species name was massiliensis, attributed 161 times. We consider it imperative for the cultivators, who have frequently made considerable efforts in the field of microbial culture, to be the ones who name the newly isolated microorganisms, taking into consideration the Latinized nomenclature standards.