RCSI FFP1ML1 Classification of Microbes and The Microbiome and Health 2023 PDF
Document Details
Uploaded by SumptuousSugilite7063
RCSI Medical University of Bahrain
2023
RCSI
Prof. Fidelma Fitzpatrick, Dr Nermin Kamal
Tags
Summary
This RCSI presentation discusses the classification of microbes, including bacteria, viruses, fungi, protozoa and arthropods. It also covers the importance of the microbiome to human health and possible complications.
Full Transcript
Leading the world to better health RCSI Royal College of Surgeons in Ireland Coláiste Ríoga na Máinleá in Éirinn...
Leading the world to better health RCSI Royal College of Surgeons in Ireland Coláiste Ríoga na Máinleá in Éirinn Session ID: FFP1ML1 Classification of Microbes and The Microbiome and Health Class Year 1 Course Undergraduate Medicine Lecturer Prof. Fidelma Fitzpatrick Dr Nermin Kamal Date 8th October 2023 LEARNING OUTCOMES 1. Classify microorganisms as being bacteria, viruses, fungi, protozoa or arthropods 2. Differentiate microorganisms on the basis of their phenotypic and genotypic characteristics 3. Define important terms related to the human microbiome e.g. colonised, transient, symbiosis etc. 4. Discuss the various microbial components of the human microbiome i.e. bacteria, fungi and viruses and explain how the microbiome develops over time 5. Associate the microorganism with the anatomical site in which it usually resides 6. Discuss the importance of the microbiome to human health and complications that can arise when it is disrupted 7. Describe how the microbiome can be restored following disruption Department of Clinical Microbiology – A brief overview WE ARE NOT BRAVE ENOUGH FOR TIKTOK Instagram – @rcsi_micro Twitter – @RCSI_Micro MICROBIOLOGY IS THE STUDY OF MICROSCOPIC ORGANISMS (VIRUSES, BACTERIA, FUNGI ETC…) ALTHOUGH A FEW ARE VISIBLE WITH THE NAKED EYE THE IMPORTANCE OF CLINICAL MICROBIOLOGY Microbes that cause common or serious diseases in humans. Infection is common & important worldwide (WHO Top 10 Threats) Biological diversity & evolution; new pathogens emerging (e.g. SARS-COV-2) Overlaps with other disciplines (e.g. Helicobacter pylori & peptic ulcer disease) Antibiotic resistance Many infections are preventable (e.g. tetanus, STIs, cholera, etc) The public & patients are interested CLINICAL MICROBIOLOGY FOR MEDICAL STUDENTS The undergraduate For example, it is subject in medicine is more important to applied microbiology know the common It is clinically causes of pneumonia orientated to facilitate vs the finer details of patient management the bacterial cell wall. THEMES INCORPORATED INTO CLINICAL MICROBIOLOGY TEACHING Scientific concepts & principles (e.g. bacterial pathogenicity, antibiotic resistance) Clinically relevant pathogens (e.g. Staphylococcus aureus, Candida albicans, etc) Major infections by system (e.g. pneumonia diagnosis & therapy) Preventing infection: – Community vaccination – Healthcare-associated infections standard and transmission-based precautions PROFESSIONALISM Becoming a doctor involves forming values & developing behaviours and attitudes which foster professional relationships, promote public trust & enhance patient safety 2 major components in Clinical Microbiology 1. Infection Prevention & Control (e.g., Hand Hygiene) 2. Antimicrobial stewardship Session ID: FFP1ML1 Classification of Microbes WHAT ARE THE 4 BASIC CATEGORIES OF MICROBES? LEARNING OUTCOMES 1. Classify microorganisms as being bacteria, viruses, fungi, protozoa or arthropods 2. Differentiate microorganisms on the basis of their phenotypic and genotypic characteristics BINOMIAL SYSTEM – NAME/SURNAME! Genus & Species, e.g. – Homo sapiens – Staphylococcus aureus – Candida albicans – Plasmodium falciparum Species are similar, inter-breeding organisms within a genus Bacteria / Archaea Single chromosome (genome) No cell organelles Fungi & Protozoa Nucleus (chromosomes) Mitochondria Golgi apparatus Endoplasmic reticulum THE BACTERIAL CELL Single chromosome Plasmids (extrachromosomal DNA) Cytoplasm Ribosomes Cytoplasmic membrane Cell wall Flagellae Pili/Fimbriae More in: Overview of the Prokaryotic cell CLASSIFICATION Based on phenotypic & genotypic characteristics – Genotype = the genetic make-up of an organism – Phenotype = the observable (micro and macroscopic) features of an organism S aureus,. S. pyogenes, S. pneumoniae, N. gonorrhoeae, N. meningitidis ANALYSIS OF PHENOTYPIC (PHYSICAL) CHARACTERISTICS Separating one strain from another (typing) or confirming the identification of an isolate – Biotyping (biochemical tests) – Serotyping (surface antigens) – Antibiograms (antibiotic susceptibility) – Phage typing (susceptibility to viruses) ANALYSIS OF GENOTYPIC OR PROTEOMIC (MOLECULAR) CHARACTERISTICS Proteotypical characterisation – e.g. MALDI-TOF Genotypic characterisation – e.g. PCR, Whole Genome Sequencing More in Appropriate Use of the Microbiology Laboratory FUNGI Eukaryotes – nucleus, chromosome, mitochondria, etc. More closely related to human cells than bacteria Treatment options more limited than for bacteria – Difficult to develop chemotherapy selectively toxic to fungal vs human cells Aspergillus fumigatus on agar (Nottingham HPA) Budding yeasts on microscopy (Nottingham HPA) More in ‘Introduction to Fungi’ Classification of fungi (Mims) VIRUSES Viruses are NOT strictly speaking cells – Cannot produce their own metabolic energy – Cannot replicate on their own – Obligate intracellular Simple structure – Nucleic acid + capsid (nucleocapsid) – +/- envelope (host cell derived) More in ‘Introduction to viruses’ PARASITES Include protozoans, helminths & arthropods Protozoa Single-celled, eukaryotic microorganisms. – free-living (aquatic, freshwater, seawater) – parasitic (ectoparasites or endoparasites) Most are free living, but all higher animal species are infected with one or more species of protozoa Cells contain the typical internal structures of an animal cell. Some can swim through water by the beating action of short, hair-like appendages (cilia) or flagella. Some can ingest food, while others can photosynthesise. CLASSIFICATION Amoeboid Hair-like One-to-many One-celled, non- movement via organelles (cilia) whip-like flagella motile, parasitic temporary 1. motility spore-forming. cellular -shorter and in 2. attachment -complex projections larger numbers 3. Feeding lifecycles with (pseudopods) than flagella. sexual and asexual phases Amoeboid Ciliated Flagellated Sporozoans protozoans protozoans protozoans (Plasmodium (Entamoeba (Balantidium (Trypanosom falciparum) histolytica) coli) a cruzi) PARASITES Helminths Parasitic worms Include 3 categories: – Nematodes (e.g. roundworm) – Trematodes (e.g. flukes) – Cestodes (e.g. tapeworms) Arthropods Invertebrate animals such as arachnids and insects Usually act as vectors for infectious agents – Malaria & mosquitoes – Ixodes species & Lyme disease (Borrelia burgdorferi) Do not act directly as human pathogens WHAT DISEASES DO YOU KNOW THAT ARE CAUSED BY PRIONS? PRIONS Spongiform Diseases: encephalopathies – CJD Small hydrophobic – Kuru glycoprotein closely related to human protein – Scrapie – No nucleic acid – BSE Pathogenesis (see also neuropathology) not clear Interaction of prion protein with human homologue may lead to amyloid-like plaque formation ‘Spongiform brain’ (Humphreys & Irving) LEARNING OUTCOME 3. Define important terms related to the human microbiome e.g. colonised, transient, symbiosis etc. THE MICROBIOME / NORMAL FLORA The mixture of organisms regularly present at any anatomical site Some microorganisms can live completely independently but usually they must form relationships with potential hosts. These associations are called symbiosis Colonization is the presence of microorganisms on a body surface (eg skin, mucosal membranes) without causing damage to the host – Some microorganisms are resident colonizers and live on the body permanently (Skin - Staphylococcus epidermidis) – Some are transient and may live on the body finitely or may come and go (Skin – Staphylococcus aureus) Changes in circumstances may result in Infection - the invasion of the body tissue by the microorganism SYMBIOSIS An association between two or more species, may encompass a range of different relationships defined by their mutual effects on each other. Commensal - One symbiont benefits while the other is neither harmed nor helped. Mutualistic - both organisms benefit from each other. Parasitic - the host is harmed while the symbiant benefits. Antagonistic – The relationship harms both symbiants LEARNING OUTCOME 4. Discuss the various microbial components of the human microbiome i.e. bacteria, fungi and viruses and explain how the microbiome develops over time THE MICROBIOME Composed of the collective genomes of the microbes (composed of bacteria, bacteriophage, fungi, protozoa and viruses) that live inside and on the human body. We have about 10 times as many microbial cells as human cells. Most studies of the microbiome focus on the bacterial component but learning more about role of fungi and viruses also. – Human Virome made up of human viruses (e.g. Enteroviruses) + bacteriophages – Human Mycobiome is the fungal component of microbiome, Saccharomyces, Malassezia, and Candida most abundant Factors that affect the content and diversity of the microbiome Age, Sex, Genetics, Diet, Other factors (eg stress, antibiotics, immunocompromised state) WHAT’S IN IT FOR THEM AND US? Benefits for microrganisms – Supply of nutrients – Stable environment (constant temperature, protection) Benefits for human host – Nutritional benefits – Stimulates immunity – Prevents overgrowth of pathogens LEARNING OUTCOME 5. Associate the microorganism with the anatomical site in which it usually resides ANATOMICAL SITES Skin (1012) Oral Cavity (1010) GI tract (1014) Upper respiratory tract Vagina In general, micro-organisms can live on sites that have some exposure to the outside environment. SKIN Adult humans – 2m2 skin - 1012 bacteria Diverse microenvironments support diverse bacterial species. Moist environment of occluded sites such as axilla, groin, between toes more densely populated. Sweat = salt rich environment = salt tolerant organisms. pH of skin is acidic pH 3 to 5 Examples Resident and transient microbes supported on skin Coagulase negative Staphylococci up to 90% Less common S. aureus, corynebacteria, micrococci and Cutibacterium acnes. ORAL CAVITY Up to 1010 organisms. Diverse microenvironments, tooth surface, mucosa, gingival crevices. Organisms that can resist mechanical removal favoured. Individuals differ in the efficiency of salivary flow. Aerobes - tooth surface, anaerobes, gingival crevices Favourable environment, eg. nutrients, moisture, temperature. Oral biofilms-dental plaque on tooth surface, require physical removal to avoid disease. Predominant microbes Streptococci, lactobacilli, neisseria, staphylococci, corynebacteria LARGE INTESTINE Site of most dense population: 1012 organisms/gm wet weight Of major importance to health Anoxic environment supports anaerobes Anaerobic Gram - and Gram + – Predominant species - anaerobic Bacteroides and anaerobic lactic acid bacteria - Bifidobacterium bifidum. – Also E. coli. Klebsiella aerogenes, proteus sp. (aerobic/anaerobic) Population in intestine is very similar to that in faeces. Proportions of different species is related to diet. GENITOURINARY TRACT Upper tract (Kidney, bladder, ureters, usually free of micro- organisms Female genital tract - Low pH environment of the vagina is the result of glycogen metabolism by lactic acid bacteria During reproductive years Lactobacillus predominates Candida albicans opportunistic organism may be present LEARNING OUTCOME 6. Discuss the importance of the microbiome to human health and complications that can arise when it is disrupted 7. Describe how the microbiome can be restored following disruption DAMAGE CAUSED BY DISRUPTION OF THE MICROBIOME Pathogenic microbes may be present but normally outnumbered by harmless microbes so status quo maintained However under certain circumstances this can change, eg. breach of mucosal surfaces, impaired host defences Compromised host at increased risk- low resistance to infection. May be due to underlying causes such as malnutrition, cancer, diabetes, immunosupression, trauma from surgery etc. Prolonged use of antibiotics can disturb the normal flora. CLOSTRIDIOIDES DIFFICILE Spore-forming, toxin-producing anaerobic bacterium Carried asymptomatically In Europe: Common healthcare infection (HAI): one in twenty HAI (48% of gastrointestinal HAI) Antibiotics = main risk factor for infection C. difficile infection (CDI): Toxin-mediated disease – Diarrhoea (ranges from mild infection to colitis) – May be recurrent (risk increases with each recurrence) Faecal microbiota transplant (FMT) Well-recognised, accepted, and potentially life-saving therapeutic strategy, for the management of recurrent CDI Involves the transfer of carefully screened donor stool via colonoscopy, enema, or a pill for the purpose of replacing a dysfunctional microbiome Rigorous donor screening and testing is conducted. Cochrane Database Syst Rev. 2023 Apr 25;4(4):CD013871. https://theconversation.com/stool-transplantation-shows-promise-treating-cancer-therapy- side-effect-106657 SUMMARY Human microbiome critical to health Different environments of anatomical sites support the local microbiome Disruptions to the microbiome may create environment in which opportunistic pathogens cause infection, eg C. difficile. Thank you