Microbial Pathogenicity

Question 1

What is a pathogen?

Answer 1

a microbe that causes a disease

Question 2

What is a sign?

Answer 2

a measurable indicator of a disease that can be observed

Question 3

What is a symptom?

Answer 3

an experience of a disease that a patient can feel, it cannot be objectively measured

Question 4

What does asymptomatic/subclinical mean?

Answer 4

the disease does not show any noticeable symptoms or signs

Question 5

What does infectious mean?

Answer 5

any type of disease that is caused by a pathogen

Question 6

What does communicable/contagious mean?

Answer 6

An infectious disease that can be spread directly or indirectly from one person to another. Contagious diseases are more easily spread from person to person.

Question 7

What does iatrogenic mean?

Answer 7

Transmission of a disease caused by a medical procedure.

Question 8

What does nosocomial mean?

Answer 8

diseases that are obtained in hospital settings

Question 9

What does zoonotic mean?

Answer 9

diseases that are transmitted from animals to humans

Question 10

What are the five stages of disease?

Answer 10

• incubation period
• prodromal period
• period of illness
• period of decline
• period of convalescence

Question 11

What is the incubation period?

Answer 11

the time when the pathogen first enters the host. It is adjusting and becoming established. Since the pathogens are just starting to multiply, there are no symptoms or signs of the disease in this period. This period can vary in length depending on the pathogen. It can last from a day to months or years (like lag phase)

Question 12

What is the prodromal period?

Answer 12

the pathogen continues to multiply. The host starts to exhibit some of the general signs and symptoms of a disease.

Question 13

What is the period of illness?

Answer 13

the signs and symptoms become more noticeable and increase in severity. (like log phase)

Question 14

What is the period of decline?

Answer 14

the number of pathogens starts to decrease. The signs and symptoms of the disease also start to decline (like death phase)

Question 15

What is the period of convalescence?

Answer 15

the host returns to normal functions. They feel much better, but they are still not 100% healthy. This phase varies in duration depending on the health status of the patient.

Question 16

What is an acute disease?

Answer 16

occurs over a short period of time. From days to weeks

Question 17

What is a chronic disease?

Answer 17

pathological changes take longer. It can last from months to years.

Question 18

What is a latent disease?

Answer 18

an acute disease goes into a latent phase. It becomes dormant for an extended period of time and can appear later in life.

Question 19

How are molecular Koch’s postulates different from Koch’s postulates?

Answer 19

Koch’s postulates are used to link a pathogen to a disease. There are limitations to these postulates. In molecular Koch’s postulates, the ability to isolate a pathogen is not tested. Instead, it focuses on the ability to identify a gene that could possibly cause the organism to be pathogenic. It looks at why certain strains are pathogenic and why others are not. It links the genetic differences between strains to their pathogenicity.

Question 20

What is pathogenicity?

Answer 20

the ability of a microbe to cause a disease

Question 21

What is virulence?

Answer 21

the measure of the ability of a microbe to cause disease, can range from not harmful to very harmful

Question 22

What is ID50?

Answer 22

Median infectious dose (ID50) is the number of pathogen cells or virions needed to infect 50% of animals in the trial.

Question 23

What is LD50?

Answer 23

Median lethal dose (LD50) is the number of pathogenic cells or virions needed to kill 50% of infected animals

Question 24

What does a low ID50 mean?

Answer 24

A low number of ID50 signifies that it is very easy to cause an active infection in 50% of inoculated animals.

Question 25

What does a low LD50 mean?

Answer 25

A low number in LD50 signifies that a low number of virions are needed to kill 50% of infected animals.

Question 26

What are the locations in the human body where normal flora/normal microbiota are present?

Answer 26

The normal flora are present on the surface tissues. For example, the skin and mucous membranes. Tissues that come in contact with the external environmental

Question 27

Where is the normal flora absent?

Answer 27

The normal flora are absent in internal tissues such as the blood or brain. These tissues are free of microbes.

Question 28

What are some examples of bacteria and fungi that are normal flora/microbiota?

Answer 28

Examples of bacteria in the normal flora are E.coli, micrococcus, bacteriodes, neisseria sp. An example of fungi in the normal flora is Candida albicans.

Question 29

What are primary pathogens?

Answer 29

Regardless of a host’s immune system or microbiota, a primary pathogen can cause disease in the host.

Question 30

What are opportunisitic pathogens?

Answer 30

opportunistic pathogen can only cause disease in situations that cause the host’s defenses to become compromised.

Question 31

What are 3 ways that normal flora (normal microbiota) can become opportunistic pathogens?

Answer 31

1) The first way is when a microbe grows in an environment and gets inserted into the body. For example, a microbe that grows in biofilms that forms on an implant gets inserted into the body. This causes serious infections.
2) The second way is when a microbe that harmlessly inhabits one location in the body ends up in a different system of the body where they can be pathogenic.
3) The third way is when a shift in the environment of the body causes the overgrowth of a certain microbe.

Question 32

What are portals of entry?

Answer 32

A portal of entry is a site on the body where a pathogen can get into host tissue. These are generally areas where host cells are in contact with the external environment. Some examples of portals of entry are the eye, nose, mouth, ear, broken skin, needles, insect bites, placenta, and vagina.

Question 33

What are portals of exit?

Answer 33

A portal of exit is a location where a pathogen leaves the infected host. Common portals of exit are the eye, nose, mammary glands, placenta, mouth, ear, needle, broken skin, insect bites, urethra, anus, skin, and vagina.

Question 34

Do portals of entry and exit need to be the same for a single disease?

Answer 34

Portals of entry and exit do not have to be the same for a single disease.

Question 35

What are TORCH infections?

Answer 35

TORCH infections are caused by pathogens that can cross the placental barrier. These pathogens infect the fetus. TORCH stands for toxoplasmosis, other (syphilis, chickenpox, HIV, hepatitis B), rubella, cytomegalovirus, and herpes

Question 36

What other pathogens can cross the placental barrier?

Answer 36

Other pathogens that can do this are Listeria monocytogenes and Mycobacterium tuberculosis.

Question 37

What are the adhesion factors?

Answer 37

• adhesin
• ligand
• fimbriae/pili (type 1 and type IV)
• glycocalyx/capsule
• suction discs

Question 38

What does adhesin do?

Answer 38

They bind to specific surface receptors on host cells.

Question 39

What does a ligand do?

Answer 39

binds to a specific receptor on the host cell

Question 40

What do fimbriae/pili do?

Answer 40

they are able to stick to and attach to host cells, they act as adhesions for specific adherence

Question 41

What to type I fimbriae do?

Answer 41

Fimbriae of ETEC cells allow them to attach and bind to intestinal epithelial cells. Specifically, they attach to mannose glycans on the intestinal epithelial cells.

Question 42

What do type IV pili do?

Answer 42

Pili that allow a bacterium to bind to urethral epithelial cells.

Question 43

What does the glycocalyx/capsule do?

Answer 43

The high sugar and protein content of the glycocalyx allows certain pathogens to attach to cells.

Question 44

What do suction disks do?

Answer 44

They are a structure that allows for the attachment to a host.

Question 45

What do biofilms do?

Answer 45

They act as adhesion factors. A biofilm is a community of bacteria that makes extrapolymeric substance (EPS). The EPS is what allows the attachment of biofilms to surfaces.

Question 46

What are examples of biofilms?

Answer 46

Pseudomonas aeruginosa is an example of a microbe that can produce a biofilm.

Question 47

What are the exoenzymes/invasins?

Answer 47

• hyaluronidase
• DNase
• phospholipases
• collagenase

Question 48

What does hyaluronidase do?

Answer 48

Degrades hyaluronic acid that cements adjacent cells together. This allows the pathogen to pass through and spread through tissues.

Question 49

What does DNase do?

Answer 49

Degrades extracellular DNA released by cells that are dying. This helps trap the bacteria. It allows the pathogens to escape and spread.

Question 50

What do phospholipases do?

Answer 50

Degrades/hydrolyzes the host cell’s phospholipid bilayer causing it to lyse. It also degrades the membrane of phagosomes. This allows pathogens to escape into the cytoplasm.

Question 51

What does collagenase do?

Answer 51

Degrades and breaks down collagen in connective tissue. This allows the pathogen to spread through tissues.

Question 52

What are the toxins?

Answer 52

• endotoxins
• exotoxins
• superantigens

Question 53

What do endotoxins do?

Answer 53

LPS of outer membrane of gram-negative bacteria. It causes general symptoms of fever and inflammation in the host. Lipid A is what gives the LPS its toxic properties.

Question 54

What do exotoxins do?

Answer 54

Specific in their action. Targets specific receptors on specific cells. It damages the cells through a unique molecular mechanism.

Question 55

What do superantigens do?

Answer 55

Exotoxins that trigger excessive activation of immune cells to release cytokines. The production of cytokines causes a strong immune and inflammatory response. This response can cause life-threatening shock, inflammation, and fever.

Question 56

What are the immune system evasion factors?

Answer 56

• capsules
• M protein
• proteases
• streptokinase/staphylokinase
• coagulase
• antigenic variation

Question 57

What do capsules do?

Answer 57

Used in adhesion but also help in immune evasion. It prevents phagocytes from ingesting the pathogen. It also makes the pathogen larger to make it difficult for them to be engulfed.

Question 58

What does M protein do?

Answer 58

It alters the surface of streptococcus. It also inhibits phagocytosis by blocking the binding of complement molecules.

Question 59

What do proteases do?

Answer 59

Protects pathogens against phagocytosis by attacking and digesting antibodies.

Question 60

What does streptokinase/staphylokinase do?

Answer 60

Kinases assist in the escape of pathogens trapped in a clot by digesting it. It stimulates the digestion of clots to help a pathogen spread.

Question 61

What does coagulase do?

Answer 61

Forms a blood clot around the pathogen to evade the immune system. The clot that forms coats the bacteria protects it from being exposed to phagocytic immune cells in the bloodstream.

Question 62

What is antigenic variation?

Answer 62

It alters surface proteins on the pathogen so they cannot be recognized by the immune system of the host cell anymore.

Question 63

What are A-B toxins?

Answer 63

1) A subunit and B subunit bind
2) Both enter the cell via receptor-mediated endocytosis
3) A subunit goes off and shuts down something

Question 64

What do the botulinum and tetanus toxins target?

Answer 64

the neuromuscular junction

Question 65

What does botulinum toxin do?

Answer 65

• Blocks the release of acetylcholine
• No contraction of muscle cell
• Prevents contraction of the muscle cell
• Called flaccid paralysis

Question 66

What does tetanus toxin do?

Answer 66

• Acetylcholine gets released and triggers contraction of muscle cell
• But it never shuts down
• Prevents relaxation of the muscles
• Spastic paralysis
• Muscles are continually clenched
• Lock jaw

Question 67

What do the influenza viruses contain?

Answer 67

Enveloped viruses with 2 different spike proteins
- Neuraminidase
- Hemagglutinin
H1N1
- Hemagglutinin and Neuraminidase

Question 68

What is antigenic drift?

Answer 68

• Smaller changes over time due to mutations
• H1 is slightly varied over time

Question 69

What is antigenic shift?

Answer 69

• 2 different viruses infect the same host cell
• A mix up of their genetic material causes the formation of a brand-new combination of the spike proteins
• Generates a new virus
• Explains why the influenza virus is constantly changing