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Endogenous Microbial Flora
BY Prof. DR. Zainalabideen A. Abdulla, DTM&H., MRCPI, Ph.D., FRCPath. (U.K.)
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Learning Objectives
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Microbial Ecology Is the study of the numerous interrelationships between microbes and the world around them. Example: Microbes with human in causing diseases (bad guys); while others are beneficial in many aspects
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Symbiosis/Symbiotic (mutualistic) relationship
Is the living together in close association between two different organisms (Symbionts): • Beneficial to one or both • Harmful to one • Neutralism: Neither is affected
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Commensalism Mutualism
Beneficial to one with no consequence on the other e.g. Demodex (mite) and hair follicle Mutualism Beneficial to both symbionts e.g. E. coli in intestine & vitamin K production
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Parasitism Opportunistic
Beneficial to one (parasite) and detrimental (harmful) to the other (host) e.g. Trypanosoma gambiense and sleeping sickness Opportunistic Change from mutualistic or commensalistic to parasitic (disease causing) relationship
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Indigenous Microbiota of Humans/Human Microbiome/Human Bioneme - Human cells: 10 Trillion - Microbiota: 100 Trillion (of 10,000 species) - Fetus has no indigenous microbiota - Sterile: Blood, lymph, CSF, internal organs - Resident, Transient - Washed/flushed out, pH, antibiotic - Candida near body openings, e.g. mouth
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Microbiota of the skin - Bacteria and fungi - Anaerobes > aerobes
(deep layers, hair follicles, sweat, sebaceous glands) - Most common Staphylococcus epidermidis, Corynebacterium, Propionibacterium
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Factors affecting skin microbiota - Anatomical location
- Moisture - pH - Temperature - Salinity - Chemical wastes * Most infections after burn, wound or surgery come from the skin microbiota
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Microbiota of the Ears and Eyes
- Middle and inner ear: sterile External ear: As the skin microbiota - Eyes: Tears, lysozyme, mucous, sebum all reduce microbiota
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Microbiota of the Respiratory Tract
- Upper RT (Nasal passages + throat “pharynx”) - Lower RT (larynx, trachea, bronchi, bronchioles and lungs) • Moist, warm mucous • Healthy carriers, e.g. diphtheria, meningitis • Lower RT: Free of microbes (defenses)
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Microbiota of the oral cavity
- Anaerobes survive (shelter) - Numerous microbes - Alpha-hemolytic Streptococcus: Most common - Streptococcus mutans: Dental plaque
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Microbiota of the GIT - Parts esophagus to anus + glands + Organs
- Stomach pH 1.5: Barrier • Helicobacter pylori: can live - Duodenum: Few microbes - Jejunum and ileum: More microbes - Colon: Largest numbers ( species)
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Colon microbiota . Aerotolerant/ obligate anaerobes opportunistic
• Actinomyces, Bacteroides, Clostridium, Enterobacter, Enterococcus, E.coli (most common), Klebsiella, Lactobacillus, Proteus, Staphylococcus, Streptococcus • Fungi, protozoa, viruses
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Microbiota of the GU Tract
- Kidney, ureter, bladder: Sterile - External opening: Bacteria, yeast, viruses - Reproductive system: Sterile, except vagina: • After menopause: pH alkaline (G+ & G- bacteria) • Childbearing: pH acidic (Lactobacilli & others)
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Human microbiom Project (HMP)
- Started 2008 - Humans differ - Most diversity unexplained - Microbes have X360 more genes - Stay and return to state of equilibrium
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Microbial antagonism - Microbes vs (or against) Microbes
- Prevent others from colonization (compete for space and nutrients) - Secrete antibiotics and bacteriocins (proteins that kill other bacteria, e.g. colicin of E. coli)
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Opportunistic pathogens
- Many of indigenous microbiota - Example: E.coli: In intestine No harm Out side intestine Pathogenic
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Biotherapeutic Agents (Probiotics)
- Imbalance in microbiota if occurs, e.g.: . Vaginitis (C. albicans) . Pseudomembranous colitis (C. difficile) Probiotics ingested to reestablish balance . Bacteria (Bifidobacterium) . Yeasts (Saccharomyces) . Yogurt/Activia (Lactobacillus)
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Biofilm (microbial communities)
• Microbes organized into biofilms • Are complex and persistent communities Example: Dental plaque, slime over tubes • Different species + Matrix • Microcolonies + Channels for fluid/nutrients • Medical importance, e.g. on catheters, valves
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Cont./…Biofilm • Diseases (60%): e.g. Endocarditis
• Very resistant to antibiotics (penetration, inactivation, slowly growing, etc.) • Cooperation between members (nutrients, wastes) • Frustrated phagocytosis (damage to surrounding tissues) and suppressed • Treatment now to attack biofilms
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Synergism (Synergistic Infections)
• Two or more microorganisms team up • Polymicrobial or mixed that neither could cause Example: Trench disease (Vincent disease) caused by mixed bacteria
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Microbial Biotechnology
• Production of therapeutic proteins, e.g insulin • Production of DNA vaccine • Production of vitamins, e.g. B12, K2, B2 • Production of antimicrobial agents • Agricultural applications • Food technology • Production of chemicals • Bio-mining • Bioremediation (clean up various wastes) • Industrial (e.g Aspartame sweeter production)
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