Two cell types make up all living organisms
Eukaryotic cells - True cells
* Membrane-bound nucleus and organelles
* e.g. animals, plants, fungi, protozoa, algae
Prokaryotic cells - Simple cells
* No membrane–bound organelles
* e.g. bacteria
Naming microbes
- Binomial system of nomenclature
- 2 names: a genus and a species name
- underlined or italicised
e.g. Staphylococcus aureus, where Staphylococcus is the genus name and aureus is the species name - Microbes may also have common names e.g. “golden staph”
- Binomial nomenclature applies to all microbes except viruses
Bacteria
- Bacteria (sing. bacterium) are very small, e.g. 1 - 5µm
- Usually single celled
- Three basic shapes:
- rod - bacillus (plural bacilli)
- spherical - coccus (plural cocci)
- spiral – spirilla (plural spirillus) (also spirochete, or vibrio)
- Feed on organic material
- derived from either dead organisms or a living host
- release enzymes → digest organic material extracellularly → internalising it in solution
Viruses
- Very small (e.g. 20 nm - 100 nm)
- Acellular (or non-cellular)
- Package of genetic material (DNA or RNA)
- No organelles
- Obligate parasite = can only reproduce inside a host cell
- Naked virus = genetic material surrounded by a protein coat (capsid)
- Enveloped virus = naked virus plus an outer membrane or envelope - derived from the plasma membrane of the previous host cell
Typical viral infection = Lytic
- Attachment to target cell
- Penetration of target cell
* naked viruses engulfed (endocytosis)
* enveloped viruses fuse with host cell membrane - Replication
- Maturation and release
* naked viruses trigger lysis of the host cell → viral exit kills the cell
* enveloped viruses bud from the host cell, taking part of the cell membrane as an envelope → usually kills the host cell
Fungi
- Eukaryotic cells with a cell wall containing chitin
- Feed on organic matter (like bacteria) and recycle organic matter in nature
Yeasts
* 5-10 µm ovoid cells
* Single-celled
* Reproduce by budding
Molds
* Small, multicellular
* Filamentous cells → mesh = mycelium
Mushrooms
* large, multicellular
Humans and Microbes
3 classes of microbes humans interact with:
1. Normal flora (resident flora / microbiota / microbiome)
2. Transient microbes
3. Pathogens
3 types of relationship possible between microbes and humans:
1. Commensalism – one partner benefits, the other is unaffected
2. Mutualism – both partners benefit
3. Parasitism – one partner benefits at the expense of the other
Normal flora
- At birth humans are colonised by a variety of microbes (mainly bacteria, some fungi/yeasts)
- Colonisation = establishment and growth on a body surface
- Microbes colonise our body surfaces that contact the external environment
- Derived from:
- Vagina (during birth)
- Diet
- Environment
Transient microbes
- Temporary residents – remain on the body for a short time (hours-days-months)
- Usually acquired by contact
- Unable to colonise body surfaces:
- Cannot complete with normal flora for living space and nutrients
- Eliminated by the bodies defences
- Dislodged by human activity, i.e. hand washing
- Can be found in the same locations as the normal flora
Pathogens
- Microbes that can cause an infectious disease
- Infection = invasion of the body by a pathogenic microbe (penetrates body surface to grow in deeper tissues)
- Infectious disease = disorder of a structure or a function due to damage caused by a microbe
- Infectious disease is not necessarily transmissible!
- Includes viruses, bacteria, fungi and protozoa, worms and arthropods (insects)
Relationships - commensalism
Commensalism – one partner benefits, the other is unaffected
* Normal flora is in ecological balance with the host – benefits:
* Living space
* Nutrition
* Host – not affected/harmed
Relationships - mutualism
Mutualism – both partners benefit
* Normal flora is in ecological balance with the host – benefits:
* Living space
* Nutrition
* Host benefits:
* Colonisation and infection by pathogens is prevented as normal flora
* Take up living space and nutrition
* Maintain an unsuitable environment, e.g. Lactobacillus maintains an acidic environment in the vagina which suppresses the overgrowth of other microbes, e.g. Candida
Relationships - parasitism
- Parasitism – one partner benefits at the expense of the other
- Parasites
- Use the host as a resource for growth
- Cause tissue damage
- Activate host defences (innate and adaptive defences)
- Parasites are microbes capable of causing infectious diseases, i.e. pathogens
Pathogenicity
- Whether or not infection and disease occurs depends on virulence = the capacity of a pathogen to cause disease
- A more virulent microbe:
- Causes a more severe disease e.g. common cold vs. rabies virus
- Requires smaller number of pathogens to initiate infection
- Infectious dose = minimum number of pathogens which will cause disease
- Greater the virulence = fewer pathogens required for infection = lower infectious dose
Conducive environments
- Environmental conditions affect:
- The health status of individuals, e.g. nutrition, vaccination
- Reservoir of infection – source of pathogens, , e.g. human host, insects or animals, non-living source (contaminated water)
- Ease of pathogen transmission between hosts, e.g. sanitation, crowding, food and water sources, vectors
- Conducive environments
- Poverty, famine, natural disasters, conflict
- Increase the likelihood of infectious disease occurring in a severe form and spreading easily
Pathogens and infection
- Infectious disease is usually the result of infection by conventional pathogens
- A microbe which causes disease in previously healthy people with normal defences e.g. measles virus, gonorrhea, influenza
- Infections may be caused by opportunistic pathogens
- Microbes that don’t normally cause infectious disease but can do so under certain circumstances
- Normal flora
- Environmental microbes
→ Opportunistic infections
- Microbes that don’t normally cause infectious disease but can do so under certain circumstances
Opportunistic infections with normal flora
Microbes of the normal flora can cause opportunistic infection and disease when:
1. The ecological balance of the normal flora is upset
2. Microbes of the normal flora are relocated into parts of the body they are normally excluded from
3. Host innate and/or adaptive defences are compromised
Upset ecological balance
e.g. Candida albicans (fungus - yeast)
* Occurs in the mouth, parts of the digestive tract, vagina
* Normally low numbers in the vagina due to:
* competition with bacteria * acidic environment (pH 4-4.5) maintained by the bacteria Lactobacillus
* Not affected by treatment with antibiotics kills pathogenic and normal flora bacteria
* Antibiotic treatment reduces competition for living space and nutrients → Candida “population explosion” → painful inflammatory condition, candidiasis (thrush)
Relocation of the normal flora
Microbes of the normal flora are relocated into parts of the body they are normally excluded from
* E. coli of the large intestine → urethra (UTI) or vagina
* Perforation of the intestines → normal flora moves into abdominal cavity (normally sterile) → peritonitis
* Staphylococcus bacteria on the skin → enter deeper tissues via a cut (defensive barriers breached) → necrotising fasciitis
Compromised host defences
- Compromised host defences (immunocompromised) à inability to mount an effective defence
- May involve:
- Innate defences
e.g. impaired mucociliary escalator allows normal flora of the mouth and throat to penetrate deeper lung tissues → pneumonia
- Innate defences
- Adaptive immunity e.g. AIDS patients have low numbers of TH cells → limited adaptive immunity
Opportunistic infections with environmental microbes
- Environmental (transient) microbes
- Low pathogenicity
- Do not usually interact with humans
- Do not usually cause infection in healthy people
- May cause opportunistic infectious disease in people with reduced defences (i.e. immunocompromised individuals) e.g. various fungi, such as Aspergillus can cause serious lung infection cancer and death
Attachment
- In order to establish an infection, pathogens must attach themselves to host tissues at their portal of entry
- Many pathogens have adhesins on their surface à bind surface receptors on host target cells e.g. E. coli adhere to epithelial cells in the urethra à UTI
- Some bacteria secrete a sticky substance, a glycocalyx, that cements them to a body surface, e.g. bacteria, involved in tooth decay
- Many viruses adhere to specific surface molecules on their target cells. e.g. human immunodeficiency virus (HIV) attaches to a protein present on TH cells and macrophages
e.g. influenza has an envelope protein, haemagglutinin, that attaches to many cell surface glycoproteins
Portals of entry
- The site at which a pathogen enters the human body to reach deeper tissues
- Most pathogens have a preferred portal of entry
- Portal of entry can be a pre-requisite for disease
- Example: Streptococcus bacteria cause pneumonia if inhaled but not if swallowed
- Most pathogens have a preferred portal of entry
- Some pathogens can use multiple portals
- Example: Bacillus anthracis (anthrax) can cause disease via multiple portals (broken skin, respiratory and digestive tracts)
Skin
* Hair follicles, sweat glands
* Some pathogens can live in, or bore through, the skin e.g. various bacteria, fungi, papilloma virus, hook worms
* Compromised barriers i.e. penetrated/injured, i.e. puncture, injection, bite, wound, surgery e.g. tetanus, rabies, HIV, hepatitis viruses
Mucous membranes
* Respiratory tract (most common portal) via droplets or particulates, e.g. influenza virus, measles, COVID19
* Gastrointestinal tract via food, water, contaminated hands etc., e.g. Hepatitis A, Salmonella
* Urinary tract, e.g. E. coli
* Reproductive tract (sexually transmitted), e.g. genital warts, chlamydia, HIV, hepatitis viruses
* Conjunctiva of the eyes, e.g. bacteria (conjunctivitis), HIV, hepatitis
Multiplication and spread
- The development of infectious disease requires that the pathogens multiply to a critical population size
- The incubation period of an infectious disease = the time during which the pathogen is overcoming early host defences and utilising host resources to multiply to a critical population size
- Extracellular pathogens - the majority of bacteria and fungi obtain their nutrients from the ECF
- Intracellular pathogens - all viruses, and some bacteria and fungi, obtain nutrients from within host cells
- Spread – involves overcoming host defences
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