RESUMEN
OBJECTIVE: The human scalp is characterized by a moderately diverse microbial community, comprising prokaryotic (bacteria) and eukaryotic (fungi) members. Although the details are far from being fully understood, the human scalp microbiota is implicated in several scalp disorders, in particular dandruff formation. Hence, the protection of an intact and diverse scalp microbiota can be regarded as a quality criterion for hair and scalp care formulations. In this study, we investigated the influence of two commercially available, non-antimicrobial shampoo formulations on the structure of the scalp microbiota. METHODS: Scalp microbiota samples, obtained by swab sampling from two cohorts of probands (n = 25, each), were analysed before and after daily use of two different shampoo formulations for 2 weeks, respectively. A polyphasic approach was used, comprising quantitative cultivation of bacteria and fungi on selective media as well as sequencing of PCR-amplified 16S rRNA and 18S rRNA genes, respectively. RESULTS: All analyses revealed a microbiota composition typical for the human scalp. While in particular fungal germ numbers increased significantly during the treatments, overall bacterial and fungal community composition was not affected, based on alpha- and beta-diversity measures. However, we observed an increase in structural bacterial diversity with the age of the probands. CONCLUSIONS: Over an application period of 2 weeks, the investigated shampoo induced quantitative but no qualitative changes in the scalp microbial community structure of the investigated probands, suggesting no adverse but rather preserving or even stimulating effects of the underlying formulations on the scalp microbiota. Further investigation will have to clarify if this is also true for longer application periods and if the formulations might affect community functionality, for example microbial gene expression, rather than community composition.
OBJECTIF: Le cuir chevelu humain se caractérise par une communauté microbienne modérément diversifiée, comprenant des membres procaryotes (bactéries) et eucaryotes (champignons). Bien que l'on soit loin de comprendre totalement les détails, le microbiote du cuir chevelu humain est impliqué dans différents troubles du cuir chevelu, en particulier la formation de pellicules. La protection du microbiote du cuir chevelu intact et diversifié peut être considérée comme un critère de qualité pour les formulations de soins pour les cheveux et le cuir chevelu. Dans cette étude, nous avons examiné l'influence de deux formulations de shampooing non antimicrobien disponibles dans le commerce sur la structure du microbiote du cuir chevelu. MÉTHODES: Des échantillons de microbiote du cuir chevelu, obtenus par écouvillonnage dans deux cohortes de proposants (n = 25 dans chaque cohorte), ont été analysés respectivement avant et après l'utilisation quotidienne de deux formulations de shampooing pendant deux semaines. Une approche en plusieurs phases a été utilisée, dont une culture quantitative de bactéries et de champignons sur des milieux sélectifs et un séquençage respectivement des gènes de l'ARN ribosomique 16S et de l'ARN ribosomique 18S amplifiés par PCR. RÉSULTATS: Toutes les analyses ont révélé une composition du microbiote typique pour le cuir chevelu humain. Bien que le nombre de germes fongiques en particulier ait augmenté significativement pendant les traitements, la composition globale des communautés bactériennes et fongiques n'a pas été affectée, d'après les mesures de diversité alpha et bêta. Cependant, nous avons observé une augmentation de la diversité bactérienne structurelle avec l'âge des proposants. CONCLUSIONS: Sur une période d'utilisation de deux semaines, le shampooing étudié a induit des modifications quantitatives, mais pas qualitatives, de la structure des communautés microbiennes du cuir chevelu des proposants étudiés, ce qui suggère qu'il n'y a pas d'effets indésirables, mais qu'il y a des effets de préservation, voire de stimulation, des formulations sous-jacentes sur le microbiote du cuir chevelu. Des recherches supplémentaires devront clarifier si cela s'avère également pour des périodes d'utilisation plus longues et si les formulations peuvent affecter la fonctionnalité des communautés, par exemple, l'expression des gènes microbiens, plutôt que la composition des communautés.
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Caspa , Microbiota , Humanos , Cuero Cabelludo/microbiología , ARN Ribosómico 16S/genética , Caspa/microbiología , Cabello , BacteriasRESUMEN
The aim of this chapter is to sum up important progress in the field of human skin microbiota research that was achieved over the last years.The human skin is one of the largest and most versatile organs of the human body. Owing to its function as a protective interface between the largely sterile interior of the human body and the highly microbially contaminated outer environment, it is densely colonized with a diverse and active microbiota. This skin microbiota is of high importance for human health and well-being. It is implicated in several severe skin diseases and plays a major role in wound infections. Many less severe, but negatively perceived cosmetic skin phenomena are linked with skin microbes, too. In addition, skin microorganisms, in particular on the human hands, are crucial for the field of hygiene research. Notably, apart from being only a potential source of disease and contamination, the skin microbiota also contributes to the protective functions of the human skin in many ways. Finally, the analysis of structure and function of the human skin microbiota is interesting from a basic, evolutionary perspective on human microbe interactions.Key questions in the field of skin microbiota research deal with (a) a deeper understanding of the structure (species inventory) and function (physiology) of the healthy human skin microbiota in space and time, (b) the distinction of resident and transient skin microbiota members,
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Dermatitis Atópica/microbiología , Interacciones Huésped-Patógeno , Microbiota/fisiología , Rosácea/microbiología , Piel/microbiología , Simbiosis/fisiología , Actinobacteria/clasificación , Actinobacteria/crecimiento & desarrollo , Archaea/clasificación , Archaea/crecimiento & desarrollo , Bacteroides/clasificación , Bacteroides/crecimiento & desarrollo , Cianobacterias/clasificación , Cianobacterias/crecimiento & desarrollo , Dermatitis Atópica/patología , Firmicutes/clasificación , Firmicutes/crecimiento & desarrollo , Humanos , Filogenia , Proteobacteria/clasificación , Proteobacteria/crecimiento & desarrollo , Rosácea/patología , Virus/clasificación , Virus/crecimiento & desarrolloRESUMEN
The intestinal mucus layer and endogenous microbiota are strongly intertwined and this contributes to the maintenance of the epithelial barrier and ultimately of gut homeostasis. To understand the molecular foundations of such relationship, we investigated if the nature of the microbiota transcriptionally regulates mucus layer composition in vivo. We found that the expression of mucins 1 to 4 and trefoil factor 3 was down-regulated in the ileum and colon of conventional and reconventionalized mice compared with germ-free animals. Conversely, very limited colon-restricted changes in transmembrane mucins were detected in mice colonized with human adult or baby microbiota. Moreover, by microarray analysis, the murine endogenous microbiota was found to modulate genes putatively involved in mucin secretion. These findings show that a well-established microbial community participates in the regulation of the gut mucus layer and that its composition and adequacy to the host are key factors in this process.
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Regulación hacia Abajo/fisiología , Vida Libre de Gérmenes/fisiología , Mucosa Intestinal/metabolismo , Mucosa Intestinal/microbiología , Mucinas/biosíntesis , Adulto , Animales , Colon/metabolismo , Colon/microbiología , Perfilación de la Expresión Génica , Humanos , Íleon/metabolismo , Íleon/microbiología , Lactante , Recién Nacido , Masculino , Ratones , Ratones Endogámicos C3H , Mucinas/genética , Análisis de Secuencia por Matrices de Oligonucleótidos , Factor Trefoil-3RESUMEN
The gastrointestinal tract (GIT) of eukaryotes is colonized by a vast number of bacteria, where the commensal microbiota play an important role in defining the healthy gut. To investigate the influence of commensal bacteria on multiple regions of the host GIT transcriptome, the gene expression profiles of the corpus, jejunum, descending colon, and rectum of conventional (n = 3) and germ-free mice (n = 3) were examined using the Affymetrix Mu74Av2 GeneChip. Differentially regulated genes were identified using the global error assessment model, and a novel method of Gene Ontology (GO) clustering was used to identify significantly modulated biological functions. The microbiota modify the greatest number of genes in the jejunum (267 genes with an alpha < 0.001) and the fewest in the rectum (137 genes with an alpha < 0.001). Clustering genes by GO biological process and molecular function annotations revealed that, despite the large number of differentially regulated genes, the residential microbiota most significantly modified genes involved in such biological processes as immune function and water transport all along the length of the mouse GIT. Additionally, region-specific communication between the host and microbiota were identified in the corpus and jejunum, where tissue kallikrein and apoptosis regulator activities were modulated, respectively. These findings identify important interactions between the microbiota and the mouse gut tissue transcriptome and, furthermore, suggest that interactions between the microbial population and host GIT are implicated in the coordination of region-specific functions.
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Tracto Gastrointestinal/metabolismo , Tracto Gastrointestinal/microbiología , Perfilación de la Expresión Génica , Regulación de la Expresión Génica/genética , Simbiosis/genética , Animales , Vida Libre de Gérmenes , Salud , Mucosa Intestinal/metabolismo , Intestinos/microbiología , Ratones , Ratones Endogámicos C3H , Análisis de Secuencia por Matrices de Oligonucleótidos , ARN Mensajero/análisis , ARN Mensajero/genética , Transcripción Genética/genéticaRESUMEN
A strain of an unidentified strictly anoxic, gram-postive, non-motile Ruminococcus-like bacterium was isolated from a human faecal sample. The organism used carbohydrates as fermentable substrates, produced acetate, succinate, and hydrogen as the major products of glucose metabolism, and possessed a G + C content of 43.3 mol%. The morphological and biochemical characteristics of the organism were consistent with its assignment to the genus Ruminococcus but it did not correspond to any recognized species of this genus. Comparative 16S rRNA gene sequencing showed the unidentified bacterium represents a previously unrecognised sub-line within the Clostridium coccoides rRNA group of organisms. The nearest relative of the unknown bacterium corresponded to Ruminococcus obeum but a 16S rRNA sequence divergence value of >3% demonstrated it represents a different species. Based on the presented findings a new species, Ruminococcus luti, is described. The type strain of Ruminococcus luti is BInIX(T) (DSM 14534T, CCUG 45635T).
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Heces/microbiología , Bacterias Grampositivas/aislamiento & purificación , Bacterias/crecimiento & desarrollo , Bacterias/aislamiento & purificación , Bacterias/metabolismo , Bacterias Anaerobias/metabolismo , Secuencia de Bases , Genes Bacterianos , Bacterias Grampositivas/clasificación , Bacterias Grampositivas/citología , Humanos , Datos de Secuencia Molecular , Filogenia , ARN Ribosómico 16S/análisis , Alineación de SecuenciaRESUMEN
The intestinal microbiota are important during enteral tube feeding because they exert colonization resistance and produce SCFAs. However, the effect of the enteral formula composition on major bacterial groups of the microbiota has not been clearly defined. The aim of this study was to investigate the effect of enteral formulas with and without prebiotic fructooligosaccharides (FOS) and fiber on the fecal microbiota and SCFAs. Healthy subjects (n = 10; 4 men, 6 women) consumed both a standard enteral formula and one containing FOS (5.1 g/L) and fiber (8.9 g/L) as a sole source of nutrition for 14 d in a randomized, double-blind, crossover trial with a 6-wk washout phase. Fecal samples were collected at the start and end of each formula phase, and were analyzed for major bacterial groups and SCFA concentrations using fluorescent in situ hybridization and GLC, respectively. Although there were reductions in total fecal bacteria due to both formula treatments, concentrations were higher after the FOS/fiber formula period compared with the standard formula period (11.2 +/- 0.2 vs. 11.0 +/- 0.2 log(10) cells/g, P = 0.005). The FOS/fiber formula increased bifidobacteria (P = 0.004) and reduced clostridia (P = 0.006). Compared with the standard formula, the FOS/fiber formula resulted in higher concentrations of total SCFA (332.4 +/- 133.8 vs. 220.1 +/- 124.5 micromol/g, P = 0.022), acetate (219.6 +/- 96.3 vs. 136.8 +/- 74.5 micromol/g, P = 0.034) and propionate (58.4 +/- 37.4 vs. 35.6 +/- 25.5 micromol/g, P = 0.02). This study demonstrates that standard enteral formula leads to adverse alterations to the fecal microbiota and SCFA concentrations in healthy subjects, and these alterations are partially prevented by fortification of the formula with FOS and fiber.
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Bacterias/crecimiento & desarrollo , Fibras de la Dieta/farmacología , Alimentos Formulados , Oligosacáridos/farmacología , Bacterias/efectos de los fármacos , Bacterias/aislamiento & purificación , Bacteroides/efectos de los fármacos , Bacteroides/crecimiento & desarrollo , Bacteroides/aislamiento & purificación , Bifidobacterium/efectos de los fármacos , Bifidobacterium/crecimiento & desarrollo , Bifidobacterium/aislamiento & purificación , Clostridium/efectos de los fármacos , Clostridium/crecimiento & desarrollo , Clostridium/aislamiento & purificación , Heces/química , Heces/microbiología , Regulación de la Expresión Génica/efectos de los fármacos , Humanos , Concentración de Iones de Hidrógeno , Hibridación Fluorescente in Situ , Oligonucleótidos/genética , Valores de ReferenciaRESUMEN
A human study was performed to investigate the influence of different dietary flavonoids on the faecal population of the flavonoid-degrading bacterium Eubacterium ramulus. Twenty-eight healthy subjects, divided into five groups, consumed for 6 days a flavonoid-free diet. On day 4 of this intervention period the study participants ingested a single dose of quercetin (14 mg kg(-1) body mass (bm)), rutin (pure or as buckwheat leaves, 28 mg kg(-1) bm) or a placebo. During the first 3 days of the intervention period the total faecal flora decreased by 61-88% and the population of E. ramulus by 40-75%. The oral intake of the flavonoids resulted in a dramatic increase in the faecal E. ramulus population. The relative proportion of E. ramulus rose from minimally 0.2% (on day 1) to maximally 6.9% of the total flora on day 8. The faecal concentrations of degradational products were highly variable but reflected the bacterial breakdown of the flavonoids.
RESUMEN
Two strains of a gram-positively staining, obligately anaerobic, non-spore-forming, rod-shaped bacterium, designated strains 111-13A and 111-35T, were isolated from human faeces. Analysis of the 16S rRNA gene sequences indicated that these strains were members of the Clostridium coccoides rRNA group of organisms. The nearest relatives of the unknown bacterium were Eubacterium formicigenerans (having a sequence similarity of 94%) and an uncultured bacterium (similarity > 99%). Characterization studies indicated that the unidentified faecal bacterium was biochemically distinct from Eubacterium formicigenerans, members of the Clostridium coccoides group and all other described Eubacterium species. On the basis of the data from these studies, it is proposed that the hitherto unknown rod-shaped bacterium be designated a species of a novel genus, namely Dorea longicatena gen. nov., sp. nov., and that Eubacterium formicigenerans be transferred to this genus as Dorea formicigenerans gen. nov., comb. nov.