Potencial enzimático da microbiota da pele humana e sua ação sobre insumos de fragrâncias / Enzymatic potential of the human skin microbiota and its effect on fragrance ingredients

Silva, Carla Porto da, 1976-

21 August 2018

Orientador: Anita Jocelyne Marsaioli / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-21T09:30:03Z (GMT). No. of bitstreams: 1 Silva_CarlaPortoda_D.pdf: 8471917 bytes, checksum: 298adab03875869cd5d11c7dac0a7b90 (MD5) Previous issue date: 2012 / Resumo: Estima-se que o corpo humano que contém cerca de 10 trilhões de células seja portador de aproximadamente 100 trilhões de micro-organismos. Fatores ambientais como temperatura, umidade e exposição à luz, além de fatores do hospedeiro, como gênero, genótipo, status imune e uso de cosméticos, podem afetar a composição e a distribuição microbiana da pele. Inúmeras pesquisas indicam que a microbiota desempenha um papel importante no sistema imune da pele. Contudo, pouco é conhecido sobre os conjuntos de espécies presentes em amostras cutâneas bem como suas atividades enzimáticas. Esta tese visou realizar o estudo do potencial enzimático da microbiota da pele humana, vinculando este potencial às principais reações de degradação de formulações de cosméticos, mais especificamente, insumos de fragrâncias. O recrutamento dos voluntários levou em conta parâmetros como idade, sexo e fototipo de pele. As principais atividades enzimáticas das microbiotas coletadas foram avaliadas através de técnicas de triagem de alto desempenho, a fim de detectar proteases, lipases, amilases, esterases, epóxido hidrolases e mono-oxigenases, num total de 2.160 experimentos. Através dos resultados obtidos das triagens enzimáticas, algumas amostras foram selecionadas para a realização de ensaios de degradação de insumos de fragrâncias através de ensaios de multibiorreação. Todos os resultados obtidos foram avaliados com intuito de relacionar o tipo da microbiota coletada com reações de degradação de componentes de fragrância, levando em conta as diferenças intrínsecas de cada voluntário. Além disso, observou-se uma grande diversidade fúngica, ainda pouco descrita na literatura, onde diversos representantes foram isolados e identificados. Os dados obtidos demonstraram que os tipos de pele devem ser levados em consideração nas formulações de uso tópico a fim de atingir alvos específicos, tendo em vista que a pele humana não é um ambiente estéril, mas sim um microbioma complexo. Desta forma, o potencial de biotransformação de insumos cosméticos pela microbiota da pele é um fator relevante e poderá auxiliar na busca de produtos mais eficazes, seguros e versáteis / Abstract: The human body contains about 10 trillion cells and carries approximately 100 trillion microorganisms¿ cells. Environmental factors, such as temperature, humidity and light exposure and host factors such as gender, genotype, immune status and use of cosmetics, can affect the composition and distribution of skin microbes. Numerous studies indicate that skin microbiota plays an important role in the human skin immune system. However, little is known about the species present in skin samples and their enzymatic activities. Therefore, the aim of this thesis was to evaluate the enzymatic potential of the human skin microbiota, establishing a link between this potential and the main fragrance degradation of cosmetic formulations, more specifically, fragrance ingredients. The recruitment of volunteers (55) took into account some parameters such as age, gender and skin phototype. The main enzymatic activities of the collected microbiota were assessed by high throughput screening techniques in order to detect protease, lipase, amylase, esterase, epoxide hydrolase and monooxygenase, in a total of 2160 experiments. These enzymatic profiles were applied in the selection of microorganisms to probe the biodegradability of fragrance ingredients using the multibioreaction protocol. The results linking microbiota type and degradation reactions of fragrance ingredients took into consideration the intrinsic differences between volunteers. In addition, a great fungal diversity, still poorly described in the literature, was observed and several representative entities of this diversity were isolated and identified. The obtained data showed that skin types must be considered in topical formulations to achieve specific biological targets and , taking into consideration that the human skin is not a sterile environment, but rather consists of a complex microbiome. Consequently the biotransformation susceptibility of cosmetic ingredients to human skin microbiota is a relevant factor to consider in formulations / Doutorado / Quimica Organica / Doutor em Ciências

Microbiota da pele humana

Triagem enzimática

Fragrâncias

Human skin microbiota

High-throughput screening

Fragrance ingredients

Role mikrobioty v patogenezi psoriázy / The Role of Microbiota in the Pathogenesis of Psoriasis

Stehlíková, Zuzana

January 2021

Psoriasis is a chronic, immune-mediated inflammatory skin disease. Its pathogenesis is associated with dysregulated cooperation among keratinocytes, innate and adaptive immune cells, coupled with environmental triggers, including microbiota. The aim of our study was to describe the microbiota composition in psoriasis and explore the role of bacteria and fungi in the pathogenesis of this disease. We used a mouse model of psoriasis induced by topical application of imiquimod (IISI) in both germ-free (GF) mice and conventional (CV) mice with microbiota manipulated by administration of a mixture of broad-spectrum antibiotics (ATB). ATB treatment markedly changed the intestinal but not the skin bacterial diversity and led to higher resistance to IISI in CV mice. Metronidazole was the most effective antibiotic, alleviating IISI symptoms in CV, but not in GF mice. This confirms that the effect of metronidazole on IISI was microbiota- dependent. Additionally, we characterized the microbiota composition of psoriatic lesions and unaffected skin in psoriatic patients compared to healthy controls, as well as the impact of different sampling approaches on uncovering cutaneous microbiota composition. We observed significant differences in α- and β-diversities when comparing identical samples sequenced on V1V2...

Microbiota cutânea e secreções dérmicas de Proceratophrys boiei (Amphibia, Anura) em fragmentos de Floresta Atlântica / Cutaneous Microbiota and Skin Secretions on Proceratophrys boiei (Amphibia, Anura) in Atlantic Forest Fragments

Assis, Ananda Brito de

01 December 2015

A pele dos anfíbios atua como primeira barreira de proteção contra microorganismos invasores. Além dos componentes mecânicos, essa proteção deve incluir mecanismos bioquímicos e biológicos derivados tanto da comunidade microbiana ali residente quanto da secreção de moléculas bioativas a partir de glândulas dérmicas. Os objetivos gerais deste estudo foram: caracterizar a comunidade microbiana hospedada pela espécie Proceratophrys boiei e analisar a sua relação com comunidades microbianas ambientais; avaliar se nessa espécie a microbiota e a secreção cutâneas podem ser entendidas como um componente de proteção; avaliar a estabilidade de tais componentes a partir de diferentes populações em fragmentos florestais. Especificamente, as seguintes hipóteses foram testadas: 1. A composição da microbiota ambiental varia entre os fragmentos e micro-hábitats de Floresta Atlântica amostrados e tem relação com alguns parâmetros ambientais analisados; 2. A diversidade da microbiota cutânea de P. boiei é relacionada à diversidade da microbiota nos ambientes que ocupa. Ademais, em termos de composição, a microbiota cutânea é um subconjunto da microbiota ambiental que ocorre nos seus micro-hábitats; 3. A riqueza e abundância de bactérias da microbiota cutânea de P. boiei varia entre os diferentes remanescentes de Floresta Atlântica; 4. A riqueza e a abundância de bactérias presente na pele de P. boiei com atividade antimicrobiana varia entre populações ou locais de amostragem; 5. Existe efeito antimicrobiano das secreções sobre alguns patógenos e os perfis das secreções cutâneas diferem entre populações de P. boiei. Os resultados mostraram que a microbiota cutânea de P. boiei apresenta variações entre indivíduos e populações. Além disso, a qualidade do hábitat pode ser importante para a composição de bactérias hospedadas. Existe um compartilhamento de bactérias entre a microbiota cutânea de P. boiei e os micro-hábitats solo e água, ocupados por essa espécie, porém as comunidades dérmicas compõem-se principalmente por bactérias não detectadas nas amostras ambientais analisadas. Foi observada certa estabilidade na estrutura da microbiota cutânea de P. boiei quando analisadas populações distintas, mas variações na distribuição de morfotipos bacterianos em uma mesma localidade ocorre. Microbiota cutânea e secreções dérmicas de P. boiei podem prevenir infecções na pele, dada a atividade antimicrobiana demonstrada nesta pesquisa. Contudo, variações nos espectros de ação foram observadas em ambos os componentes, assim como, diferenças populacionais nas abundâncias e percentuais de bactérias produtoras de antimicrobianos. O estudo também demonstrou que certas características independem do contexto ambiental ocupado pelas populações, uma evidência de que o microambiente da pele dessa espécie oferece condições e certa estabilidade para a colonização de comunidades bacterianas específicas. A sustentabilidade de populações dessa espécie pode estar relacionada às interações entre hospedeiro, microrganismos e ambiente. / The skin of amphibians acts as first barrier of protection against invading microorganisms. Besides the mechanical components, this protection probably include biochemical and biological mechanisms derived from both the resident microbial community and the secretion of bioactive molecules from dermal glands. The aims of this study were to characterize the microbial community hosted by Proceratophrys boiei and analyse its relationship with environmental microbial communities; evaluate whether microbiota and skin secretion of this species can be understood as a protection component; evaluate the stability of these components through different populations in forest fragments. Specifically, the following hypotheses have guided this research: 1. The composition of environmental microbiota varies among microhabitats and fragments of Atlantic Forest and relates to some environmental parameters; 2. The diversity of skin microbiota of P. boiei relates to the diversity of microbes in the environment it occupies. Furthermore, in terms of composition, the skin microbiota is a subset of environmental microbes that occurs in its microhabitat; 3. The richness and abundance of bacteria from the skin microbiota of P. boiei varies between different remnants of Atlantic Forest; 4. The richness and abundance of bacteria present on the skin P. boiei with antimicrobial activity varies between populations or sampling sites; 5. There is antimicrobial activity of the skin secretions against some pathogens and its profiles differ between populations of P. boiei. The results showed variations on the microbial skin of P. boiei between individuals and populations and the quality of habitats could be important for the composition of hosted community. There is a sharing of bacteria between the skin microbiota of P. boiei and the microbial communities of microhabitats soil and water. However, mainly bacteria not detected in environmental samples composes the dermal communities. We observed some stability in the structure of the skin microbiota when analysed different populations, but variations in the distribution of bacterial morphotypes occurs in all sites. Skin microbiota and dermal secretions of P. boiei can prevent infection through the skin, according to the antimicrobial activity demonstrated in this study. There were variations in the action spectrum for both components, but population differences were mainly in abundance and percentage of bacteria producing antibiotics. This research showed the importance of the microbiota and skin secretion of P. boiei as components of protection and the importance of the environment for the composition of these associated communities. At the same time, we have shown that certain characteristics are independent of the environmental context occupied by the population, evidence that the microenvironment of the skin provides a certain stability for the colonization of specific bacterial communities. The sustainability of populations of this species may relates to interactions between host organisms and the environment.

Amphibia

Anfíbio

Antimicrobial activity

Atividade antimicrobiana

Forest fragments

Fragmentos florestais

Microambiente

Microbiota cutânea

Microhabitats

Secreção cutânea

Skin microbiota

Skin secretion

Microbiota cutânea e secreções dérmicas de Proceratophrys boiei (Amphibia, Anura) em fragmentos de Floresta Atlântica / Cutaneous Microbiota and Skin Secretions on Proceratophrys boiei (Amphibia, Anura) in Atlantic Forest Fragments

Ananda Brito de Assis

01 December 2015

A pele dos anfíbios atua como primeira barreira de proteção contra microorganismos invasores. Além dos componentes mecânicos, essa proteção deve incluir mecanismos bioquímicos e biológicos derivados tanto da comunidade microbiana ali residente quanto da secreção de moléculas bioativas a partir de glândulas dérmicas. Os objetivos gerais deste estudo foram: caracterizar a comunidade microbiana hospedada pela espécie Proceratophrys boiei e analisar a sua relação com comunidades microbianas ambientais; avaliar se nessa espécie a microbiota e a secreção cutâneas podem ser entendidas como um componente de proteção; avaliar a estabilidade de tais componentes a partir de diferentes populações em fragmentos florestais. Especificamente, as seguintes hipóteses foram testadas: 1. A composição da microbiota ambiental varia entre os fragmentos e micro-hábitats de Floresta Atlântica amostrados e tem relação com alguns parâmetros ambientais analisados; 2. A diversidade da microbiota cutânea de P. boiei é relacionada à diversidade da microbiota nos ambientes que ocupa. Ademais, em termos de composição, a microbiota cutânea é um subconjunto da microbiota ambiental que ocorre nos seus micro-hábitats; 3. A riqueza e abundância de bactérias da microbiota cutânea de P. boiei varia entre os diferentes remanescentes de Floresta Atlântica; 4. A riqueza e a abundância de bactérias presente na pele de P. boiei com atividade antimicrobiana varia entre populações ou locais de amostragem; 5. Existe efeito antimicrobiano das secreções sobre alguns patógenos e os perfis das secreções cutâneas diferem entre populações de P. boiei. Os resultados mostraram que a microbiota cutânea de P. boiei apresenta variações entre indivíduos e populações. Além disso, a qualidade do hábitat pode ser importante para a composição de bactérias hospedadas. Existe um compartilhamento de bactérias entre a microbiota cutânea de P. boiei e os micro-hábitats solo e água, ocupados por essa espécie, porém as comunidades dérmicas compõem-se principalmente por bactérias não detectadas nas amostras ambientais analisadas. Foi observada certa estabilidade na estrutura da microbiota cutânea de P. boiei quando analisadas populações distintas, mas variações na distribuição de morfotipos bacterianos em uma mesma localidade ocorre. Microbiota cutânea e secreções dérmicas de P. boiei podem prevenir infecções na pele, dada a atividade antimicrobiana demonstrada nesta pesquisa. Contudo, variações nos espectros de ação foram observadas em ambos os componentes, assim como, diferenças populacionais nas abundâncias e percentuais de bactérias produtoras de antimicrobianos. O estudo também demonstrou que certas características independem do contexto ambiental ocupado pelas populações, uma evidência de que o microambiente da pele dessa espécie oferece condições e certa estabilidade para a colonização de comunidades bacterianas específicas. A sustentabilidade de populações dessa espécie pode estar relacionada às interações entre hospedeiro, microrganismos e ambiente. / The skin of amphibians acts as first barrier of protection against invading microorganisms. Besides the mechanical components, this protection probably include biochemical and biological mechanisms derived from both the resident microbial community and the secretion of bioactive molecules from dermal glands. The aims of this study were to characterize the microbial community hosted by Proceratophrys boiei and analyse its relationship with environmental microbial communities; evaluate whether microbiota and skin secretion of this species can be understood as a protection component; evaluate the stability of these components through different populations in forest fragments. Specifically, the following hypotheses have guided this research: 1. The composition of environmental microbiota varies among microhabitats and fragments of Atlantic Forest and relates to some environmental parameters; 2. The diversity of skin microbiota of P. boiei relates to the diversity of microbes in the environment it occupies. Furthermore, in terms of composition, the skin microbiota is a subset of environmental microbes that occurs in its microhabitat; 3. The richness and abundance of bacteria from the skin microbiota of P. boiei varies between different remnants of Atlantic Forest; 4. The richness and abundance of bacteria present on the skin P. boiei with antimicrobial activity varies between populations or sampling sites; 5. There is antimicrobial activity of the skin secretions against some pathogens and its profiles differ between populations of P. boiei. The results showed variations on the microbial skin of P. boiei between individuals and populations and the quality of habitats could be important for the composition of hosted community. There is a sharing of bacteria between the skin microbiota of P. boiei and the microbial communities of microhabitats soil and water. However, mainly bacteria not detected in environmental samples composes the dermal communities. We observed some stability in the structure of the skin microbiota when analysed different populations, but variations in the distribution of bacterial morphotypes occurs in all sites. Skin microbiota and dermal secretions of P. boiei can prevent infection through the skin, according to the antimicrobial activity demonstrated in this study. There were variations in the action spectrum for both components, but population differences were mainly in abundance and percentage of bacteria producing antibiotics. This research showed the importance of the microbiota and skin secretion of P. boiei as components of protection and the importance of the environment for the composition of these associated communities. At the same time, we have shown that certain characteristics are independent of the environmental context occupied by the population, evidence that the microenvironment of the skin provides a certain stability for the colonization of specific bacterial communities. The sustainability of populations of this species may relates to interactions between host organisms and the environment.

Anfíbio

Atividade antimicrobiana

Fragmentos florestais

Microambiente

Microbiota cutânea

Secreção cutânea

Amphibia

Antimicrobial activity

Forest fragments

Microhabitats

Skin microbiota

Skin secretion

Culturomique : un nouvel outil d'analyse de microbiotes impliqués dans la pathogenèse ou la transmission de maladies infectieuses / Culturomic : a new analysis tool of microbiota involved in pathogenesis or infections diseases's transmission

Cassir, Nadim

09 November 2015

Le microbiote digestif humain joue un rôle essentiel et bénéfique pour son hôte mais il est également impliqué dans un nombre croissant de pathologies. Les connaissances sur la composition de cet écosystème ont récemment été révolutionnées grâce à l’utilisation de techniques moléculaires. Cependant, ces techniques comportent des limites importantes. C’est ainsi que le concept de « culturomique » a été introduit ; il consiste en la multiplication de milieux et conditions de culture et l’identification rapide de colonies bactériennes par spectrométrie de masse (MALDITOF) ou par amplification et séquençage du gène de l’ARN ribosomal 16S. Dans la première partie de ce travail, nous avons mis en évidence une association entre la présence de Clostridium butyricum dans les selles et la survenue d’entérocolite ulcéro-nécrosante que ce soit par méthodes de pyroséquençage et culture ou par PCR quantitative en temps réel spécifique de C. butyricum; identifié après séquençage du génome complet de toutes nos souches de C. butyricum, la présence du gène de la β-hémolysine (toxine). Dans la deuxième partie de ce travail, nous avons montré par cuturomique que les bactéries à Gram-négatif (BGN) étaient fréquemment disséminées au sein du microbiote cutané transitoire des patients hospitalisés en réanimation ; le réservoir serait essentiellement digestif. En conclusion, le microbiote digestif constitue un réservoir sousestimé de bactéries pathogènes. La microbiologie moderne incluant les nouvelles méthodes de culture permet d’étendre de manière considérable les connaissances sur la composition de cet écosystème et son implication en pathologie humaine. / He human gut microbiota plays an important and beneficial role in its host but it is also involved in a growing number of diseases. Knowledge of the composition of this ecosystem have recently been revolutionized by the use of molecular techniques. However, these techniques have significant limitations. Thus, the concept of "culturomics" has been introduced; it consists of the multiplication of culture conditions and the rapid identification of bacterial colonies by mass spectrometry (MALDI-TOF) or by PCR 16S RNA gene sequencing. In the first part of this work, we have demonstrated an association between the presence of Clostridium butyricum in the stool and the occurrence of necrotizing enterocolitis whether by pyrosequencing methods and Culture or by quantitative PCR specific real time C. butyricum; identified after sequencing the complete genome of all our strains of C. butyricum, the presence of the gene of β-hemolysin (toxin). In the second part of this work, we showed by cuturomics that Gram-negative bacteria (BGN) were frequently spread out over the transitional skin microbiota of patients hospitalized in intensive care; the reservoir would essentially digestive. In conclusion, the gut microbiota is an underestimated reservoir of pathogenic bacteria. Modern microbiology including new culture-based methods is currently extending exponentially our knowledge on gut microbiota giving rise to new insights into the pathogenesis or the transmission of infectious diseases.

Microbiote digestif

Entérocolite nécrosante

Clostridium butyricum

Microbiote cutané

Infections nosocomiales

Réanimation

Gut microbiota

Necrotizing enterocolitis

Clostridium butyricum

Skin microbiota

Healthcare associated infections

Intensive care unit

Gramnegative bacteria

Métagénomique bactérienne de l'hidrosadénite suppurée / Microbiology of hidradenitis suppurativa : a metagenomics based study

Guet-Revillet, Hélène

25 November 2014

L’hidrosadénite suppurée (HS) ou maladie de Verneuil, est une maladie cutanée orpheline fréquente qui touche 1 % de la population générale. Elle se manifeste par des lésions inflammatoires récidivantes ou chroniques des plis axillaires, inguinaux et périnéaux. La sévérité clinique de la maladie varie selon les patients. Les lésions les moins sévères (lésions de stade 1 dans la classification de sévérité clinique de Hurley) sont des nodules inflammatoire centimétriques pouvant évoluer vers l’abcédation. Les lésions les plus sévères (lésions de stade 2 et 3 de Hurley) sont des lésions suppurées étendues et chroniques. Sur le plan histologique, la lésion primitive de l’HS semble être une hyperplasie de l’épithélium du follicule pileux. La physiopathologie de la maladie est mal connue et probablement multifactorielle, incluant des facteurs génétiques, hormonaux, infectieux et dys-immunitaires. Il a été montré récemment qu’une antibiothérapie à large spectre pouvait permettre d’obtenir une rémission clinique prolongée des lésions inflammatoires de l’HS. Objectif du travail : L’objectif principal de ce travail était d’identifier par des techniques de culture classique et de métagénomique bactérienne les espèces ou les flores bactériennes spécifiquement associées aux lésions d’HS des trois stades de sévérité clinique. Résultats : Nous avons identifié par culture bactérienne deux profils bactériens lésionnels. Le premier était représenté par Staphylococcus lugdunensis, et plus rarement par d’autres espèces bactériennes de la flore cutanée commensale (Propionibacterium acnes, staphylocoques à coagulase négative et Staphylococcus aureus). Le second correspondait à une flore anaérobie composée de bactéries anaérobies stricts, d’Actinomycetes et de streptocoques du groupe milleri. L’approche métagénomique a permis d’identifier les germes anaérobies stricts associés aux lésions : des cocci à Gram positif de la flore cutanée (principalement Anaerococcus spp., Peptoniphilus spp., Finegoldia spp.) des bacilles à Gram négatif anaérobies n’appartenant pas à la flore cutanée (Prevotella spp., Porphyromonas spp., Fusobacterium spp), Veillonellaceae et Corynebacteriaceae. Ce profil était caractéristique des lésions suppurées chroniques de stade 2 et 3 et était également associé à certaines lésions de stade 1. Les lésions des stades 2 et 3 présentaient une diversité bactérienne supérieure à celle des lésions de stade 1, avec un nombre plus élevé de taxons très minoritaires dans la flore cutanée (Fusobacteria, Bacteroidetes, Peptococcaceae, Erysipelotrichales). Conclusion : Cette étude démontre que certaines espèces bactériennes sont spécifiquement associées aux lésions d’HS. Ces espèces sont impliquées dans des infections cutanées, mais aussi dans des infections sévères, ce qui témoigne de leur pathogénicité. L’efficacité des antibiotiques chez les patients et les résultats de cette étude suggèrent qu’un processus infectieux participe à la présentation clinique de l’HS. Notre hypothèse est que ces infections surviennent en raison d’une anomalie primitive de la barrière cutanée folliculaire. / Hidradenitis suppuratiav (HS) is an orphan skin inflammatory disease disease characterized by chronic or recurrent inflammatory lesions localized in the armpits, the inguinal and perineal folds. With a 1% prevalence of a general population, HS is an public health issue. The clinical severity of the disease is heterogeneous among patients. Most patients present the mild form of the disease with inflammatory nodules and abscesses (Hurley stage 1 lesions). More severe patients show extended chronically suppurating lesions (Hurley stage 2 and Hurley stage 3 lesions). The primary histological lesion of HS is characterized by epidermal follicular hyperplasia and perifollicular inflammation. The physiopathology of HS remains unclear. HS is probably a multifactorial disease, involving genetical, immunological and infectious factors. Indeed, wide-spectrum antibiotic treatments can significantly improve or induce prolonged clinical remissions of HS inflammatory lesions. Objective: The main objective of this work was to identify the bacterial species or flora specifically associated with Hurley stage 1, 2 and 3, using prolonged aerobic and anaerobic culture and bacterial metagenomics (454 sequencing of 16Sr DNA libraries). Results. Using bacterial culture, we identified two bacterial profiles associated with HS lesions . The first one was represented by Staphylococcus lugdunensis and rarely by other skin commensals (Propionibacterium acnes, coagulase negative staphylococci and Staphylococcus aureus). Results. The second one corresponded to a mixted anaerobic flora including strict anaerobes, Actinomycetes and milleri group streptococci. The metagenomic approach allowed to identify the anaerobic flora associated with lesions : Gram positive cocci from the cutaneous flora (mainly Anaerococcus spp., Peptoniphilus spp., Finegoldia spp.) and Gram negative rods which do not belong to the cutaneous microbiota (Prevotella spp., Porphyromonas spp., Fusobacterium spp), Veillonellaceae and Corynebacteriaceae. This profile was typically associated with Hurley stage 2 and 3 lesions but was also observed in Hurley stage 1 lesions. Hurley stage 2 and 3 lesions presented an increased bacterial diversity as compared to Hurley stage 1 lesions, with a higher number of taxa taxa rarely associated with normal skin microbiota (Fusobacteria, Bacteroidetes, Peptococcaceae, Erysipelotrichales). Conclusion. This study demonstrate that particular bacterial species are specifically associated with HS lesions. These species are cause soft tissue and skin infections, but also in severe infections arguing for their pathogenicity. These data provide a rationale for antibiotic use in HS, and suggests that the disease may be due to a primitive immune defect of the follicular skin barrier.

Maladie de Verneuil

Hidrosadénite suppurée

Microbiote cutané

Anaérobies

Staphylococcus lugdunensis

Streptocoques du groupe milleri

Actinomycètes

Hidradenitis suppurativa

Skin microbiota

Anaerobes

Staphylococcus lugdunensis

Milleri group streptococci

Actinomycetes

616.9

Evaluation of simple, noninvasive methods for sampling and quantification of skin bacteria

Dziedzic, Kamila

January 2024

The increased incidence of diabetes mellitus has underscored the importance of effective management strategies, particularly in preventing complications such as diabetic foot ulcers (DFU). Chronic infections associated with DFU pose significant health risks, including lower limb amputations, highlighting the urgent need for non-invasive methods to assess skin microbiota changes. This study aimed to evaluate simple methods of sampling and quantifying skin bacteria, comparing techniques such as Gram staining, DAPI staining, fluorescence in situ hybridization (FISH), and polymerase chain reaction (PCR). Furthermore, the study investigated bacterial abundance variations across different sampling sites on the foot. Skin bacteria were sampled from healthy human volunteers using tape stripping (TPS) and swabbing. Gram-staining of the samples showed that most bacteria were found on the heel of the foot, and only Gram-positive bacteria were found on the skin of healthy study participants. However, Gram-staining showed artifacts in the form of bubbles under the microscope, which interfered with bacteria counting. PCR provided results indicating the presence of Staphylococcal species on the skin of healthy feet. DAPI staining showed images of bacteria like the ones stained with Gram staining. After using FISH-probe it was found that only a few bacteria hybridized with the probe and further optimization of the protocol is required. The study evaluated various techniques for sampling and quantifying skin bacteria and compared the number of bacteria present on the foot of healthy individuals, which may be used to identify infections before they develop into more serious conditions.

diabetic foot ulcers

4’

6-diamidino-2-pheylindole

fluorescence in situ hybridization

Gram staining

polymerase chain reaction

skin microbiota

tape sampling

Microbiology

Mikrobiologi

Clinical Medicine

Klinisk medicin

Borréliose de Lyme : rôle de l’interface cutanée et du microbiome dans la physiopathologie de la maladie / Lyme Borreliosis : role of the skin interface and the microbiome in the physiopathology of the disease

Grillon, Antoine

14 November 2017

La maladie de Lyme est la maladie à transmission vectorielle la plus répandue de l’hémisphère Nord. La peau est un organe clef dans cette maladie, car c’est à cet endroit qu’interagissent les cellules de l’hôte, le pathogène, le microbiote cutané et le vecteur. Nous avons développé un modèle murin d’infection disséminée de borréliose de Lyme, qui nous a permis de développer une méthode spécifique de détection de protéines de Borreliella dans le tissu cutané murin par SRM-MS, pouvant aboutir à une méthode de diagnostic chez l’homme. Dans un deuxième temps, nous nous sommes intéressés aux relations entre le microbiote cutané, les cellules résidentes de la peau, kératinocytes et fibroblastes, avec Borreliella. Les sécrétomes de trois bactéries commensales, S. epidermidis, P. acnes et C. striatum possèdent un effet synergique sur l’expression de gènes inflammatoires par les kératinocytes et les fibroblastes. Les sécrétomes de P. acnes et de C. striatum se sont également montrés capables d’inhiber une partie de la réponse inflammatoire des kératinocytes, pouvant aider le pathogène lors de la transmission/dissémination précoce. / Lyme disease is the most common vector-borne disease in the Northern Hemisphere. Skin is a key organ in the disease, since it is the key interface where host cells, pathogen, skin microbiota and vector interact early during pathogen transmission. We developed a late lyme borreliosis model on mice. This model allowed us to develop a specific detection method of Borreliella proteins in the mouse skin by SRM-MS that might be used to develop a human diagnosis of disseminated Lyme disease. In a second part, we analysed the relationship between skin microbiota, resident skin cells (keratinocytes and fibroblasts), in the presence or absence of Borreliella. The secretome of three commensals bacteria, S. epidermidis, P. acnes and C. striatum was shown to have a synergistic activity with Borreliella in pro-inflammatory gene expressions by keratinocytes and fibroblasts. P. acnes and C. striatum secretomes were also able to inhibit partially the inflammatory response of keratinocytes that might help the transmission/dissemination of the pathogen.

Borreliose de Lyme

Résidentes cutanées

Kératinocytes

Fibroblastes

Réponse inflammatoire

Tique Ixodes

Immunité innée cutanée

Cellules

Microbiote cutané

Protéomique

Lyme borreliosis

Proteomic analyses

Skin microbiota

Skin resident cells

Keratinocytes

Fibroblasts

Inflammatory response

Ixodes tick

Skin innate immunity

571.96

616.904

616.92

Microbiome cutané et maladie fongique émergente du syndrome du museau blanc chez les chauves-souris d’Amérique du Nord

Lemieux-Labonté, Virginie

09 1900

Le syndrome du museau blanc (SMB), causé par le champignon Pseudogymnoascus destructans (Pd), a mis en péril les populations de chauves-souris hibernantes en Amérique du Nord. Certaines espèces sont hautement vulnérables à la maladie alors que d’autres espèces semblent être résistantes ou tolérantes à l’infection. Plusieurs facteurs physiologiques et environnementaux peuvent expliquer ces différences. Or avant 2015, peu d’études avaient porté sur le microbiome de la peau en relation avec cette maladie. La présente thèse vise à caractériser le microbiome cutané de chiroptères affectés par le SMB afin d’identifier les facteurs de vulnérabilité ou de résistance à la maladie. L’objectif principal est de déterminer comment le microbiome est affecté par la maladie ainsi que de déterminer si celui-ci à un rôle dans la protection face à l’infection fongique. Au Chapitre 1, nous avons tout d’abord exploré et comparé le microbiote cutané de petites chauves-souris brunes (Myotis lucifugus) non affectées par le SMB avec celui de chauves-souris survivantes au SMB pour tester l’hypothèse selon laquelle le microbiote cutané est modifié par la maladie. Nos résultats montrent que le site d’hibernation influence fortement la composition et la diversité du microbiote cutané. Les sites d’hibernations Pd positifs et négatifs diffèrent significativement en termes de diversité, ainsi qu’en termes de composition du microbiote. La diversité est réduite au sein du microbiote des chauves-souris survivantes au SMB et enrichi en taxons tels que Janthinobacterium, Micrococcaceae, Pseudomonas, Ralstonia et Rhodococcus. Certains de ces taxons sont reconnus pour leur potentiel antifongique et des souches spécifiques de Rhodococcus et de Pseudomonas peuvent inhiber la croissance de Pd. Nos résultats sont cohérents avec l’hypothèse selon laquelle l’infection par Pd modifie le microbiote cutané des chauves-souris survivantes et suggèrent que le microbiote peut jouer un rôle de protection face au SMB. Au Chapitre 2, nous avons étudié le microbiote d’une espèce résistante au champignon Pd en milieu contrôlé avant et après infection afin d’établir la réponse potentielle à la maladie. L’espèce étudiée est la grande chauve-souris brune (Eptesicus fuscus) dont le microbiote cutané pourrait jouer un rôle de protection contre l’infection. Nos résultats montrent que la diversité du microbiote de la grande chauve-souris brune inoculée avec Pd est plus variable dans le temps, tandis que la diversité du microbiote des chauves-souris du groupe contrôle demeure stable. Parmi les taxons les plus abondants, Pseudomonas et Rhodococcus, deux taxons connus pour leur potentiel antifongique contre Pd et d’autres champignons, sont restés stables durant l’expérience. Ainsi, bien que l’inoculation par le champignon Pd ait déstabilisé le microbiote cutané, les bactéries aux propriétés antifongiques n’ont pas été affectées. Cette étude est la première à démontrer le potentiel du microbiote cutané d’une espèce de chauves-souris pour la résistance au SMB. Au Chapitre 3, le microbiome cutané de la petite chauve-souris brune a été évalué en milieu naturel dans le contexte du SMB, à l’aide de la métagénomique, une approche haute résolution pour observer le potentiel fonctionnel du microbiome (métagénome fonctionnel). Nos résultats ont permis d’établir que le temps depuis l’infection a un effet significatif sur le métagénome fonctionnel. En effet, les chauves-souris dans la première année suivant l’infection ont un métagénome fonctionnel perturbé qui subit une perte de diversité fonctionnelle importante. Toutefois, le métagénome fonctionnel revient à une structure et composition similaire d’avant infection après 10 ans. Certaines fonctions détectées suite à l’infection sont associées à des gènes reliés au transport et à l’assimilation de métaux, des facteurs limitants pour la croissance du champignon. Ces gènes pourraient donc avoir un rôle à jouer dans la résistance ou la vulnérabilité à la maladie. Globalement, l’étude du métagénome chez la petite chauve-souris brune indique une vulnérabilité du métagénome fonctionnel au champignon, mais que celui-ci semble se rétablir après 10 ans. Une telle réponse pourrait avoir un impact sur la résilience de M. lucifugus. Cette thèse a permis d’acquérir des connaissances fondamentales sur le microbiome cutané des chauves-souris en hibernation pour mieux comprendre les communautés microbiennes de la peau dans le contexte du SMB. Le microbiome pourrait en effet jouer un rôle dans la vulnérabilité et la résistance des chauves-souris à la maladie, et il est essentiel d’adapter notre façon d’aborder la protection de ces espèces et de leur microbiome. Nous souhaitons que les travaux de cette thèse permettent de sensibiliser les acteurs de la conservation à l’existence et à l’importance potentielle du microbiome pour la santé de son hôte. Cette thèse fait également état de l’avancement des méthodes d’analyses qui permettront d’être de plus en plus précis et d’appliquer les connaissances du microbiome en biologie de la conservation. / White-nose syndrome (WNS) caused by the fungus Pseudogymnoascus destructans (Pd) has put hibernating bat populations at risk in North America. Some species are highly vulnerable to the disease while other species appear to be resistant or tolerant. Several physiological and environmental factors can explain these differences. However, before 2015, few studies have focused on the skin microbiome in relation to this disease. The present thesis aims to characterize the cutaneous microbiome of bats affected by WNS in order to identify the factors of vulnerability or resistance to the disease. The main objective is to determine how the microbiome can protect against the Pd fungus, or conversely how the microbiome is altered by the fungal infection. In Chapter 1, we first explored and compared the skin microbiota of little brown bats (Myotis lucifugus) unaffected by WNS with that of WNS survivors to test the hypothesis that the skin microbiota is modified by the disease. Our results show that the hibernation site strongly influences the composition and diversity of the skin microbiota. The Pd positive and negative sites differ significantly in terms of diversity, as well as in terms of the composition of the microbiota. Diversity is reduced within the microbiota of bats surviving WNS and enriched in taxa such as Janthinobacterium, Micrococcaceae, Pseudomonas, Ralstonia, and Rhodococcus. Some of these taxa are recognized for their antifungal potential and specific strains of Rhodococcus and Pseudomonas may inhibit the growth of Pd. Our results are consistent with the hypothesis that Pd infection modifies the skin microbiota of surviving bats and suggest that the microbiota may play a protective role against WNS. In Chapter 2, we studied in a controlled environment the microbiota of a species that exhibits evidence of resistance with mild WNS symptoms, before and after infection, to establish the potential response to the disease. The species studied is the big brown bat (Eptesicus fuscus), whose skin microbiota could play a protective role against infection. Our results show that the diversity of the microbiota of big brown bats inoculated with Pd is more variable over time, while the diversity of the microbiota of the control bats remains stable. Among the most abundant taxa, Pseudomonas and Rhodococcus, two taxa known for their antifungal potential against Pd and other fungi, remained stable during the experiment. Thus, although inoculation with the Pd fungus destabilized the skin microbiota, bacteria with antifungal properties were not affected. This study is the first to demonstrate the potential of the skin microbiota of a bat species for resistance to WNS. In Chapter 3, the skin microbiome of the little brown bat was evaluated in the natural environment in the context of WNS, using metagenomics, a higher-resolution approach to observe the functional potential of the microbiome (functional metagenome). Our results established that the time since infection has a significant effect on the functional metagenome. Indeed, bats in the first year after infection have a disrupted functional metagenome that undergoes a significant loss of functional diversity. However, the functional metagenome returns to a similar structure and composition to that observed before infection after 10 years. Certain functions detected following infection are associated with genes linked to the transport and assimilation of metals, known limiting factors for the growth of the fungus. These genes could therefore have a role to play in resistance or vulnerability to the disease. Overall, this metagenomics study indicates functional metagenome vulnerability to the fungus, although the original functional metagenome is reestablished after 10 years. Such diversified response could impact M. lucifugus resilence. This thesis provides fundamental knowledge on the skin microbiome of hibernating bats to better understand the microbial communities of the skin in the context of WNS. The microbiome could indeed play a role in the vulnerability and resistance of bats to disease and it is essential to adapt our way of approaching the protection of these species and their microbiomes. We hope that the results of this thesis will raise awareness among conservation stakeholders about the existence and potential importance of the microbiome for the health of its host. This thesis also reports on the advancement of analytical methods that will make it possible to be more and more precise and to apply knowledge of the microbiome in conservation biology.

syndrome du museau blanc

Pseudogymnoascus destructans

résistance

microbiote cutané

microbiome cutané

métagénome fonctionnel

Eptesicus fuscus

grande chauves-souris brune

Myotis lucifugus

conservation

White nose syndrome

Resistance

Skin microbiota

Skin microbiome

Functional metagenome

Big brown bat

Little brown bat