Pathogens and Hosts

Question 1

Describe some host defence mechanisms

Answer 1

• Innate immunity - Phagocytic mechanisms

* Acquired immunity - Antibody and complement (cell mediated immunity)

Question 2

Describe some physical barriers to infection

Answer 2

Skin
Gastric acid
Muco-ciliary escalator

Question 3

Describe the process of phagocytosis

Answer 3

• Phagocytosis (ingestion) of a particle
• Organism held in phagosome
• Fusion with lysosome
• Phagolysosomeis formed
• Intra-cellular killing

Question 4

Describe briefly the process and function of opsonisation

Answer 4

• Organism coated with antibody or complement
• Phagocytic cell has receptors for both
• Efficiency of phagocytosis greatly improved

Question 5

What type of reactions are involved in the adaptive immune response?

Answer 5

Specific
Humoral (antibodies)
Cell mediated

Question 6

What antibody is typically found in primary infections?

Answer 6

IgM

Question 7

What antibody is typically found in secondary infections?

Answer 7

IgG

Question 8

What antibody is typically found in mucosal immunity?

Answer 8

IgA

Question 9

What antibody is typically found in allergy or parasite infections?

Answer 9

IgE

Question 10

Briefly describe the complement system

Answer 10

The complement system is a part of the innate immune system that enhances (complements) the ability of antibodies and phagocytic cells to clear microbes and damaged cells from an organism, promotes inflammation, and attacks the pathogen’s plasma membrane. The complement system consists of a number of small proteins found in the blood, in general synthesized by the liver, and normally circulating as inactive precursors (pro-proteins). When stimulated by one of several triggers, proteases in the system cleave specific proteins to release cytokines and initiate an amplifying cascade of further cleavages. The end result of this complement activation or complement fixation cascade is stimulation of phagocytes to clear foreign and damaged material, proxy inflammation to attract additional phagocytes, and activation of the cell-killing membrane attack complex.

Question 11

How many complement proteins are there?

Answer 11

~20

Question 12

What is the use of antibodies in infections?

Answer 12

• Neutralises bacterial toxins (e.g. tetanus, diphtheria)
• Neutralises viruses in viraemic stage
• Prevents adherence of microorganisms
• Opsonises capsulate organisms (Strep pneumoniae, Haemophilus influenzae)
• Useful means of diagnosis (serology)

Question 13

What are the three main functions of the complement system?

Answer 13

Phagocytosis – by opsonizing antigens. C3b has most important opsonizing activity
Inflammation – by attracting macrophages and neutrophils
Membrane attack – by rupturing membranes of foreign cells and gram negative bacteria

Question 14

Whats the primary functions of the two CD4+ T cell subtypes?

Answer 14

Both release specific cytokines related to the type of infection to cause either:
– Th1 - cell mediated immunity (macrophages, CD8+)
– Th2 - control B cell antibody response

Question 15

Whats the importance of cell mediated immunity?

Answer 15

• Important in the clearance of:
• Most viral infections and fungal infection
• Intra-cellular infection
• Lymphocytosis - increased WBC during infection

Question 16

Describe some signs of clinical infection

Answer 16

– Inflammation can be cause by infection or AI ailment
– Pain
– Pyrexia (fever)
– Tachycardia (increased HR)
– Rigors (whole body shaking uncontrollably >5mins, body desperately trying to create a fever and fight infection)
– Increased white cell count
– Increased C reactive protein (CRP) – marker of inflammation
– Note that infection can also be latent or sub-clinical

Question 17

Whats the difference between a pathogen and a commensal?

Answer 17

• A pathogen is an organism which can cause disease
• A commensal is an organism which is part of normal flora e.g. E. coli in the gut, Staph aureus in the nose, axilla
• The distinction between these is not always clear e.g. during immunosuppression, antibiotic treatment or infection, opportunistic infections can occur when commensals take over

Question 18

How can you tell if an organism is a pathogen or a commensal?

Answer 18

o Koch’s Postulates - organism must be found in all cases of the disease, be able to be cultured outside the body for several generations and should reproduce the disease on inoculation
o Sterile vs. non-sterile sites - knowledge of normal flora for site, the organism’s pathogenicity and its clinical context

Question 19

What is Koch’s postulate?

Answer 19

Koch’s Postulates - used to see if an organism is pathogenic or a commensal. The organism must be found in all cases of the disease, be able to be cultured outside the body for several generations and should reproduce the disease on inoculation

Question 20

Describe some sterile sites in the human body

Answer 20

Blood 
Amniotic fluid
Synpvial fluid
Bone and bone marrow
Cerebrospinal fluid

Question 21

What are the two requirements of an organism needed to be pathogenic and cause an infection?

Answer 21

Infectivity - Ability to become established

Virulence - Ability to cause harmful effects once established

Question 22

Describe some factors which can increase infectivity of an organism, giving some examples

Answer 22

Attachment mechanisms - E.Coli and P-fimbrae

Acid resistance - helicobacter pylori and urease

Question 23

Describe some virulence factors

Answer 23

Virulence factors - genetically determined microbial components that can influence:
• Invasiveness
• Toxin production
• Evasion of immune system

Question 24

Describe some pathologies caused by Streptococcus pyogenes and how it plays a role in its invasiveness

Answer 24

Streptococcus pyogenes (Group A streptococci) causes:
Necrotising fasciitis
Cellulitis
Connective tissue breakdown by enzymes:
•	Hyaluronidase
•	Collagenase
Fibrinolysis
•	Streptokinase

Question 25

What enzymes does Streptococcus pyogenes produce to increase its invasiveness?

Answer 25

Hyaluronidase - breaks down HA (glycosaminoglycan)

Collagenase - breaks down collagen

Question 26

What is the difference between exotoxins, enterotoxins and endotoxins?

Answer 26

• Exotoxins are released extracellularly by the micro-organism
• Enterotoxins are exotoxins which act on the GI tract
• Endotoxin is structurally part of the Gram-negative cell wall (LPS) which are usually intracellular and only revealed after cell lysis

Question 27

Describe the toxin involved in tetanus

Answer 27

Exotoxin produced by Clostridium tetani
Toxin binds to nerve synapses and inhibits inhibitory NTs
Death by respiratory paralysis

Question 28

How do you treat tetanus infections?

Answer 28

Debridement - removal of damaged tissue or foreign objects from the wound
Antibiotics - clears toxin producing organism
Antitoxin - clears pathogenic toxin

Question 29

Describe the toxin found in Cholera infections

Answer 29

Vibrio cholerae - Colonises small intestine
Enterotoxin production - Increases cAMP levels, which inhibits uptake of Na+ and Cl- ions
Stimulates secretion of Cl- and HCO3- ions causing passive (massive) outflow of H2O
Causes death by dehydration, treated by rehydration

Question 30

What are superantigens?

Answer 30

Superantigens are a class of antigens that cause non-specific activation of T-cells resulting in polyclonal T cell activation and massive cytokine release, which can result in toxic shock.. SAgs are produced by some pathogenic viruses and bacteria most likely as a defense mechanism against the immune system

Question 31

Describe some examples of superantigens

Answer 31

Certain exotoxins of Strep pyogenes and Staph aureus (TSS)

Question 32

What lipid component of an endotoxin is responsible for the toxicity of gram negative bacteria?

Answer 32

Lipid A (component of lipopolysaccharide)

Question 33

Describe some viral pathogenic mechanisms

Answer 33

Cell destruction following virus infection.
o Death of T4+ cells by HIV.
Virus-induced changes to cellular gene expression.
o Cellular transformation by tumour viruses.
Immunopathogenic disease
o Influenza A virus.
o Coxsackievirus-induced myocarditis.
Can also be latent (overt vs. unapparent disease) e.g. TB

Question 34

Name some sites of viral entry

Answer 34

• Conjunctiva
• Respiratory tract
• Alimentary tract
• Urinogenital tract
• Arthropod (vector?)
• Capillary
• Skin

Question 35

Whats the difference between antigenic drift and antigenic shift?

Answer 35

o Gradual minor evolution of viruses to generate antigenic variants through natural mutations = antigenic drift

o Significant abrupt changes in virus antigenic structure = antigenic shift

Question 36

How many enterovirus species are known? Name some examples of enterovirus infections

Answer 36

70+ enteroviruses known, transmitted through GI tract and are excreted in faeces
o Poliomyelitis (poliovirus) – iron lung
o Aseptic meningitis (many enteroviruses)
o Myocarditis (coxsackie B viruses)
o Pancreatitis (coxsackie B viruses)
o Respiratory infections (many enteroviruses)

Question 37

Describe the latent period of TB infections

Answer 37

Primary infection of epithelial cells.
Virus migration to the ganglia.
Virus remains latent in nucleus of neural tissue
No Virus Replication.
Stimuli (e.g. sunlight, stress, infection, steroids) reactivates virus.
Virus migration to epithelial cells leading to virus replication.

Question 38

How can retrovirus infections cause tumours?

Answer 38

Virus infects cell.
Virus nucleic acid, as DNA, integrates into cellular genome.
Virus causes changes in cellular gene expression.
Uncontrolled cell multiplication and tumour formation

Question 39

Define colonisation

Answer 39

Colonisation - the formation of compact population groups of the same type of microorganism, such as the colonies that develop when a bacterial cell begins reproducing

Question 40

Define latency

Answer 40

Latent - the ability of a pathogenic virus to lie dormant (latent) within a cell, denoted as the lysogenic part of the viral life cycle. A latent viral infection is a type of persistent viral infection which is distinguished from a chronic viral infection.

Question 41

Define asymptomatic infections

Answer 41

Asymptomatic infection - considered asymptomatic if a patient is a carrier for a disease or infection but experiences no symptoms. A condition might be asymptomatic if it fails to show the noticeable symptoms with which it is usually associated. Asymptomatic infections are also called subclinical infections.