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1 Host-Microbe Relationships and Disease • Classical ecological definitions – Mutualism: organisms live together, both benefit • E. coli in GI tract; we get Vitamin K, protection from pathogens, it gets warm wet place to live, lots to eat. – Commensalism: one organism benefits, the other is not particularly benefited or harmed; to eat at the same table • Most GI tract microbes; we provide a warm wet place to live with food, we don’t get all that much in return. – Parasitism: one organism benefits at the other’s expense • Disease-causing bacteria; to them, we’re dinner. • Classically, a “parasite” lives in or on host. 2 Terms, terms, and more terms • Contamination: presence of microbes (where they don’t belong). • Infection: multiplication of parasitic organisms in/on host. – Infestation: used to describe larger organisms, e.g. lice. • Disease: malfunction in or damage to the host. – Many kinds of “disease”; here we discuss “infectious disease”. – Disease is a condition of the host, not an infectious microbe. • Pathogen: a parasite capable of causing disease – Not all pathogens are equal as we will see.. • Pathogenicity: ability of pathogen to cause disease 3 Terms, terms, and more terms-2 • Virulence: relative ability to cause disease. – Especially variations in pathogenicity w/in specific group – Can be weakened (attenuation) or increased (animal passage); Growing pathogens on agar attenuates them. • Normal microbiota: the microbes normally found on the body. Since people are not “normally” sick, pathogens are not normally consider “normal microbiota”. • “flora” is to be avoided as microbes are NOT plants! – Resident microbiota: always found on human tissues. – Transient microbiota: come and go, can include potential pathogens. 4 Where do they live? • Microbes live where it is “topologically outside” – We are a tube within a tube. We have sacs open to the outside. • Respiratory tract: – nasal passages, sinuses, trachea, lungs. Lungs well protected, other areas more populated. • GI tract: Crowded! – Mouth is full, fewer in esophagus and stomach; toward end of small intestine, numbers increase greatly. – Feces consist largely of bacteria. http://www.radiation-scott.org/deposition/respfig2.gif 5 Where do they live?-2 • Skin: largest organ in the body. – Colonized. Various factors keep the numbers down. • Genito-urinary tract: – Female reproductive tract colonized, especially with Lactobacillus (helpful) and yeast (sometimes harmful) – Lower portion of urethra contains some bacteria, but bladder, ureters, and kidneys normally sterile. • Fluids – Blood, cerebrospinal fluid should be sterile • All areas of the body have mechanisms for keeping us from being lunch; to be discussed soon. 6 What determines whether we get sick? • Inf Dis: the likelihood of contracting an infectious disease. • N: the numbers of infecting organisms. •V: the virulence of the organism. •HF: host factors, including overall health, nutritional status, genetic background, age, immune status. 7 How dangerous? • Pathogen: causes disease. • Opportunistic pathogen: can cause disease under the right circumstances – Dose in high numbers – Host is in a weakened state, e.g. HIV infection. – Organism gets where it doesn’t belong • E. coli and urinary tract infections. – Lack of microbial antagonism, e.g. superinfection • competition for space, nutrients; bacteriocins. • Saprotroph: decompose dead stuff. Whether an organism will cause disease is not always a clear cut thing 8 • Not everything in biology can be neatly classified. There is a gradation from pathogen to opportunist to non-infectious, and what happens depends on the balance of these 3 factors. 9 Types of disease • • • • Inherited diseases: caused by a faulty gene Congenital: due to damage during development. Degenerative diseases, due to age or lifestyle Nutritional, endocrine, mental, immunological, neoplastic (cancer), idiopathic; same caveat. • Iatrogenic: caused by doctor. – Nosocomial infections: occur in hospital. • Infectious disease: caused by infectious agents – Bacteria, viruses, fungi, etc. – Infectious agents may affect other types of disease 10 Types of infectious diseases • Communicable: can be spread from one person to another. – Example: tuberculosis, HIV • Contagious: highly communicable, can easily be spread from one person to another. – Genital herpes, measles. • Non-communicable: are not spread from one host to another. – Examples: your infected appendix bursts – You get tetanus from “rusty nail” How bacteria cause disease 11 • Bacteria can be invasive – Bacteria spread through tissues, usually using digestive enzymes which damage tissues, kill cells. • Bacteria can be toxigenic (produce toxins) – Bacteria may not spread, but release soluble toxins which dissolve in body fluids, damaging cells. – Gram negative contain endotoxin (LPS) • Host processes – Host defenses, like inflammation, may overrespond, cause significant tissue damage. Disease by other microbes 12 • How viruses causes disease – Viruses multiply inside host cells, using cell resources, often killing cells. – Viruses stimulate the immune system to fight back; infected cells are killed. – Viruses alter cell cycle regulation to promote their own replication; may lead to cancer. • Fungi, Protists, and worms – Produce enzymes that damage host cells – Multiply in host cells and kill them – Cause allergic reactions or inflammation Steps in an infectious disease-Overview 13 • Entry and attachment – Microbe needs to approach tissue, then attach to it. • Deal with host defense – Successful parasite must infect, persist long enough to reproduce, then escape. Host defense seeks to kill it. • Damage: if disease is involved, damage occurs. • Escape: parasite must escape and spread to others. – Discussed in “Portals of exit” Virulence Factors: Things that bacteria have that improve their abilities to cause disease – Fimbriae, capsules, enzymes, toxins, all these things. Typical steps in a bacterial infection 14 • Attachment – Typical first step is attachment to tissues. Often a specific interaction takes place between molecules. – Fimbriae, capsules help in attachment. – Molecules that aid in attachment = adhesins. • Deal with host defenses – A pathogen can defend, attack, or hide. • Interfere with phagocytosis, have a capsule, etc. • Produce leukocidins, etc. • Switch surface antigens, hide inside WBC, etc. Step 3: Damage 15 • Damage occurs from combination of factors – Bacteria increase their growth by • Releasing enzymes that break down host cell molecules, releasing nutrients or allowing spread. –Hemolysins release iron; siderophores collect. • Releasing toxins that kill cells or damage organ systems, eliminating host resistance. – Bacteria cause disease by • Stimulating inflammation, leading to damage and discomfort • Over-stimulating host defense, damaging cells and organ systems. Virulence factors: enzymes and toxins 16 • Enzymes – Collagenase, hyaluronidase, coagulase, streptokinase. Allow spread or hiding of pathogen. • Toxins – Exotoxins, produced by G+ and G-, proteins, heat labile, released and affect different targets • Enterotoxins, neurotoxins, general cytotoxins. – Endotoxin: LPS, especially Lipid A part • Present only on Gram – • Released when bacterium dies –Acts as Super antigen Hijacking host defenses 17 • Inflammation – A protective mechanism, but can cause local damage. • Chronic inflammation results in loss of functional tissue, disease. • Super antigens – Endotoxin, Toxic Shock Syndrome toxin, et al. • Cause massive over response of WBS – Followed by decreased responsiveness • Fever, shock, intravascular coagulation