Bartonella gabonensis sp. nov., a new bartonella species from savannah rodent Lophuromys sp. in Franceville, Gabon.

We describe a new strain named Bartonella gabonensis sp. nov. strain 669T (CSURB1083). The entire genome of this strain is described here. It was isolated from a savannah rodent, a brush-furred rat (Lophuromys sp.), trapped the city of Franceville in Gabon, in Central Africa. B. gabonensis is an aerobic, rod-shaped and Gram-negative bacterium. On the basis of the organism's features, and following a taxonogenomic approach, we propose the creation of the species Bartonella gabonensis sp. nov.

Epidemic of venereal treponematosis in wild monkeys: a paradigm for syphilis origin.

Treponema pallidum infections have been primarily known as slightly contagious mucocutaneous infections called yaws (tropical Africa and America) and bejel (subtropical North Africa). T. pallidum emerged as a highly infectious venereal syphilis agent in South America, probably about 500 years ago, and because of its venereal transmission, it quickly caused a worldwide pandemic. The disease manifests as lesions, including a chancre; then antibodies become detectable when or slightly after the chancre appears, and before the development of a rash and other systemic manifestations. Venereal diseases are poorly known in monkeys. During fieldwork in Senegal, we discovered an epizootic outbreak of venereal disease that we explored. We detected a venereal form of T. pallidum subsp. pertenue infection in green monkeys (Chlorocebus sabaeus), then observed an epizootic outbreak in Senegal and its spread among baboons a year later. Comparative analysis of T. pallidum genomes from the monkeys' chancres and other Treponema genomes showed an acceleration of the number of single nucleotide polymorphisms, comparable to that observed in syphilis. Identified T. pallidum clones seem to be epizootic through the acceleration of their mutation rate, which is linked to their larger diffusion.

Non-contiguous finished genome sequence and description of Bartonella saheliensis sp. nov. from the blood of Gerbilliscus gambianus from Senegal.

Bartonella saheliensis strain 077 (= CSUR B644T; = DSM 28003T) is a new bacterial species isolated from blood of the rodent Gerbilliscus gambianus captured in the Sine-Saloum region of Senegal. In this work we describe the characteristics of this microorganism, as well as the complete sequence of the genome and its annotation. Its genome has 2 327 299 bp (G+C content 38.4%) and codes for 2015 proteins and 53 RNA genes.

The University Hospital Institute Mediterrannée Infection from Marseille to Dakar.

In Senegal, we have developed technology-driven research based on observation and technology transfer especially in molecular biology, genomics, culturomics, and proteomics with the use of the first Maldi-TOF mass spectrometer in clinical microbiology in Africa. This strategy is associated with a policy of training students from the South and helping them to return back. This technology transfer and expertise has enabled us to explore the causes of non-malarial fevers of unknown causes, with the study of the repertoire of infectious pathogens in humans and arthropod vectors, to diagnose infectious diseases in rural areas with Point of Care laboratories, to isolate new bacteria, and to study pathologies linked to mass gatherings. They have also allowed us to develop transdisciplinary research including the study of the microbiota in malnourished children. We wish to continue this technological development, which provides the foundation for high-level research in Senegal.

Great apes in the emergence of infectious diseases.

Since the AIDS pandemic and the demonstration that it originated in the accidental transmission of simian retroviruses to humans, no one can ignore the role of nonhuman primates in carrying pathogens that can cross the species barrier to infect humans. In recent decades, viruses as deadly as those for rabies, Herpes B, Marburg hemorrhagic fever, and Ebola have been transferred from monkeys to humans. Because great apes are genetically our closest relatives, the pathogens that colonize these mammals are probably best adapted to pass into humans should accidental exposure occur. This article attempts to evaluate the risks of infection when apes and humans share the same ecosystem.

Bartonella massiliensis sp. nov., a new bacterial species isolated from an Ornithodoros sonrai tick from Senegal.

Bartonella massiliensis sp. nov., strain OS09T (= CSURB624T = DSM 23169), is the type strain of Bartonella massiliensis sp. nov., a new species within the genus Bartonella. It was isolated from a soft tick, Ornithodoros sonrai, vector of recurrent fever collected from Senegalese domestic rodent burrows. This strain is an aerobic, rod-shaped and Gram-negative bacterium. On the basis of taxonogenomic approach, we propose the creation of Bartonella massiliensis sp. nov.

Corrigendum to 'Noncontiguous finished genome sequence and description of Bartonella mastomydis sp. nov.' [New Microbes New Infect 25 (2018) 60-70].

[This corrects the article DOI: 10.1016/j.nmni.2018.03.005.].

Treponema species enrich the gut microbiota of traditional rural populations but are absent from urban individuals.

There is a significant gap in our knowledge of the microbe-host relationship between urban and traditional rural populations. We conducted a large-scale study to examine the gut microbiota of different traditional rural and urban lifestyles in human populations. Using high-throughput 16S ribosomal RNA gene amplicon sequencing, we tested urban French, Saudi, Senegalese, Nigerian and Polynesian individuals as well as individuals living in traditional rural societies, including Amazonians from French Guiana, Congolese Pygmies, Saudi Bedouins and Algerian Tuaregs. The gut microbiota from individuals living in traditional rural settings clustered differently and presented significantly higher diversity than those of urban populations (p 0.01). The bacterial taxa identified by class analysis as contributing most significantly to each cluster were Phascolarctobacterium for traditional rural individuals and Bifidobacterium for urban individuals. Spirochaetae were only present in the gut microbiota of individuals from traditional rural societies, and the gut microbiota of all traditional rural populations was enriched with Treponema succinifaciens. Cross-transmission of Treponema from termites or swine to humans or the increased use of antibiotics in nontraditional populations may explain why Treponema is present only in the gut microbiota of traditional rural populations.

Emerging infectious diseases in Africa in the 21st century.

Many infectious diseases have emerged or reemerged in Africa in the 21st century. Some of them are associated with newly discovered microorganisms such as Rickettsia felis and Tropheryma whipplei; others are known, historical diseases such as plague and cholera. In addition are diseases related to previously known microorganisms which recently have been involved for the first time in massive outbreaks with worldwide impacts (such as Ebola virus, Zika virus and Chikungunya virus). Research on emerging infectious diseases needs to be identified as a priority.

Mansonellosis, the most neglected human filariasis.

Human mansonellosis is caused by M. perstans, M. ozzardi and M. streptocerca, the three main filarial species in the genus Mansonella. Despite accumulating evidence of a high prevalence in endemic areas, there is currently no filariasis control programme targeting mansonellosis. The health-related impact on people living with these filariae remains unknown, and evidences regarding treatment strategies are scarce. Like other neglected diseases, it mainly affects poor populations living in tropical and subtropical climates. Mansonellosis can be considered one of the most neglected tropical infectious diseases. The objective of this literature review was to draw attention to the gap of knowledge regarding Mansonella spp. taxonomy, the transmission of these arthropod-borne filariasis and the health outcomes of people living with mansonellosis.

Studies of nonhuman primates: key sources of data on zoonoses and microbiota.

The genetic and morphologic similarities between primates and humans means that much information obtained from primates may be applied to humans, and vice versa. However, habitat loss, hunting and the continued presence of humans have a negative effect on the biology and behaviour of almost all nonhuman primates. Noninvasive methods such as stool collection are among the safest alternative ways to study the multiple aspects of the biology of primates. Many epidemiologic issues (e.g. pathogen detection, microbiota studies) may be easily studied using stool samples from primates. Primates are undoubtedly among the first candidates suspected of becoming the source of one of the next emerging epidemic of zoonotic origin, as has already been observed with HIV, malaria and monkeypox. The Institut Hospitalo-Universitaire Méditerranée Infection in Marseille actively participates in the study, mostly epidemiologic, of nonhuman primates, using mostly stool samples.

Noncontiguous finished genome sequence and description of Bartonella mastomydis sp. nov.

Bartonella mastomydis sp. nov. strain 008 is the type strain of B. mastomydis sp. nov., a new species within the genus Bartonella. This strain was isolated from Mastomys erythroleucus rodents trapped in the Sine-Saloum region of Senegal. Here we describe the features of this organism, together with the complete genome sequence and its annotation. The 2 044 960 bp long genomes with 38.44% G + C content contains 1674 protein-coding and 42 RNA genes, including three rRNA genes.

Bacterial arthropod-borne diseases in West Africa.

Arthropods such as ticks, lice, fleas and mites are excellent vectors for many pathogenic agents including bacteria, protozoa and viruses to animals. Moreover, many of these pathogens can also be accidentally transmitted to humans throughout the world. Bacterial vector-borne diseases seem to be numerous and very important in human pathology, however, they are often ignored and are not well known. Yet they are in a phase of geographic expansion and play an important role in the etiology of febrile episodes in regions of Africa. Since the introduction of molecular techniques, the presence of these pathogens has been confirmed in various samples from arthropods and animals, and more rarely from human samples in West Africa. In this review, the aim is to summarize the latest information about vector-borne bacteria, focusing on West Africa from 2000 until today in order to better understand the epidemiological risks associated with these arthropods. This will allow health and veterinary authorities to develop a strategy for surveillance of arthropods and bacterial disease in order to protect people and animals.

"Vaginella massiliensis" gen. nov., sp. nov., a new genus cultivated from human female genital tract.

We relate the main characteristics of "Vaginella massiliensis" strain Marseille P2517 (= DSM 102346 = CSUR P2517), a new member of the Flavobacteriaceae family. The strain Marseille P2517 was cultivated from a vaginal swab from a healthy 22-year-old woman.

'Peptoniphilus vaginalis' sp. nov., a new species isolated from human female genital tract.

We relate here the main characteristics of 'Peptoniphilus vaginalis', strain KHD2 (= CSUR P0125 = DSM 101742), a new member of the Peptoniphilus genus, cultivated from a vaginal sample of a woman with bacterial vaginosis.

'Peptoniphilus raoultii' sp. nov., a new species isolated from human female genital tract.

We report the principal characteristics of 'Peptoniphilus raoultii' strain KHD4 (= CSUR P0110), a new member of the Peptoniphilus genus. Strain KHD4 was isolated from the vaginal flora of a 33-year-old woman with bacterial vaginosis.

'Peptoniphilus pacaensis' sp. nov., a new species isolated from human female genital tract.

We relate here the primary characteristics of 'Peptoniphilus pacaensis' strain KHD5 (= CSUR P2271), a new member of the Peptoniphilus genus. Strain KHD5 was isolated from a vaginal sample of a 33-year-old woman exhibiting a bacterial vaginosis.

'Lascolabacter vaginalis' strain KHD1, a new bacterial species cultivated from human female genital tract.

We present the major characteristics of 'Lascolabacter vaginalis' strain KHD1 (= CSUR P0109 = DSM 101752), a new member of the family Prevotellaceae that was cultivated from a vaginal sample of a 33-year-old woman with bacterial vaginosis.

Non-contiguous finished genome sequence and description of Streptococcus varani sp. nov.

Strain FF10(T) (= CSUR P1489 = DSM 100884) was isolated from the oral cavity of a lizard (Varanus niloticus) in Dakar, Senegal. Here we used a polyphasic study including phenotypic and genomic analyses to describe the strain FF10(T). Results support strain FF10(T) being a Gram-positive coccus, facultative anaerobic bacterium, catalase-negative, non-motile and non-spore forming. The sequenced genome counts 2.46 Mb with one chromosome but no plasmid. It exhibits a G+C content of 40.4% and contains 2471 protein-coding and 45 RNA genes. On the basis of these data, we propose the creation of Streptococcus varani sp. nov.

High-quality genome sequencing and description of Dermabacter indicis sp. nov.

Strain FF11(T) was isolated from the wound on a researcher's finger who had been bitten by a fish (Protopterus annectens) in Senegal. Analysis by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry did not provide any identification, but the 16S rRNA sequence exhibited 97.9% identity with Dermabacter hominis. Phenotypic and genomic analyses demonstrated that strain FF11(T) is Gram-positive, facultatively anaerobic, nonmotile and non-spore forming; it exhibited a genome of 2 222 902 bp encoding 2074 protein-coding and 50 RNA genes, with a 63.2% G+C content. We consequently proposed the creation of Dermabacter indicis strain FF11(T).