lecture 3 - microbe-host interactions

Question 1

what is the strongest non-covalent bond in nature?

-what is this

Answer 1

biotin and avidin

• biotin –> essential dietary nutrient
• avidin –> binding protein, antibacterial defence mechanism. Egg whites are rich with this

Question 2

what do microbes need?

Answer 2

host, food, protection from predators and competitors

**normal flora and microbs

Question 3

what is Normal Microbita and what relationship is this?

Answer 3

• collection of bacteria, archaea, and eukaryotic microbes usually colonizing our bodies
• mutual relationship

Question 4

define colonization and how this occurs

Answer 4

• ability of a microbe to stay affixed to a body surface and replicate
• Adhesins (stick to the right place)
• environmental factors
• susceptibility to pathogens

Question 5

infection

Answer 5

A condition in which pathogenic microbes penetrate host defences, enter tissues and multiply

*just because you come in contact with pathogen (“infected”) doesn’t mean you have disease - if body has ability to fight off pathogen, disease process will not occur

Question 6

infectious disease

Answer 6

disruption of tissue or organ (pathologic state) caused by microbes or their products

Question 7

pathogen

Answer 7

• Any bacterium, virus, fungus, protozoan, or worm (helminth) that causes disease
• Parasitic relationship with its host
• Causes disease in a susceptible individual

Question 8

what do the type and severity of infection depend on? 5 factors.

Answer 8

1. Dose (infectious)
2. Condition of the host (immunocomprimised)
3. Location in/on the host’s body: the “Portal of entry” – how does the pathogen get into your body
4. Genetic makeup of host and pathogen: the survival of the pathogen relies on the genetic make up of it and the environment
5. Host immune response

Question 9

pathogenicity

Answer 9

an organism’s potential to cause infection or disease

Question 10

true pathogens

Answer 10

• Their lifestyle depends on infecting the host
• Attack healthy people
• Infection made worse by a weak or immature immune system

Salmonella Typhi = typhoid fever

Question 11

opportunistic pathogen

Answer 11

• Only cause disease when given opportunity
• breakdown in immune system or immature immunity

Pneumocystis jirovecii = fungal infection of lungs in AIDS patients

Question 12

latent state

Answer 12

organism is within host but cannot be detected by culture

ex) Herpes virus

Rickettsia prowazekii

Question 13

ecological parasites

Answer 13

pathogenic

Parasite is any organism that colonizes and harms its host

ectoparasite cause harm to outside of body
ex) Trichophyton rubric
“athletes foot”

endoparasite cause harm within body
ex) Wuchereria bancrofti
“elephantitis”

Question 14

invasive pathogens

Answer 14

-enter and live inside host, aids in avoiding competition

small membrane-enclosed vacuoles
ex) Salmonella, Coxiella, Legionella

inside cytoplasm
ex) Shigella, Listeria

Question 15

sign

Answer 15

any objective evidence of disease as noted by an observer

Question 16

symptom

Answer 16

the subjective evidence of disease as sensed by the patient

Question 17

syndrome

Answer 17

when a disease can be identified or defined by a certain complex of signs and symptoms

Question 18

what are the 5 stages of infection. Order from start to finish

Answer 18

1. incubation period
2. prodromal phase
3. illness phase
4. decline
5. convalescence

Question 19

incubation period

Answer 19

time after the microbe first infects a host but before the first signs of disease

Question 20

prodromal phase

Answer 20

short period of vague symptoms and malaise; can serve as a warning of more symptoms to come but may not be noticed

Question 21

illness phase

Answer 21

Typical symptoms and signs of the disease appear and fever may be present
*microbe greatly out numbers immune response

Question 22

decline

Answer 22

Symptoms begin to subside; fever resolves.

*immune response outnumbers microbe

Question 23

convalescence

Answer 23

period after symptoms disappear and patient recovers

*immune response greatly outnumbers microbe

Question 24

what are the 5 patterns of infection

Answer 24

1. localized
2. systemic
3. focal
4. mixed
5. primary - secondary

Question 25

necrosis

Answer 25

accumulated damage leads to cell death and tissue death

Question 26

localized infection

Answer 26

• Pathogen(s) stay localized

- The most common type of infection

Question 27

systemic infection

Answer 27

• Spread to several sites and tissues
• Usually move via bloodstream

Ex: viral infections
HIV, chickenpox

Ex: Salmonella enterica serovar Typhi

• causes Typhoid fever
• Invade intestinal epithelium, spreads to macrophage, can become resident in gall bladder

Question 28

focal infection

Answer 28

• Infectious agent leaves a local infection
• Carried to other tissues
• pathogen itself stays localized but disease manifests in other areas

-In toxemia, the infection remains localized, but toxins spread to other tissues

Unusual cases: Streptococcal pharyngitis
Bacteria in throat (“Strep throat”)
Antibodies against bacterial cell wall also attack other tissues, such as heart and joints

Question 29

mixed infection

Answer 29

-Multiple species contribute to infection

Example: dog bite
all sorts of different bacteria enter the wound

Can be called “polymicrobial” disease

Question 30

primary - secondary infection

Answer 30

• Successive
• Can occur due to weakened immunity
• Localized or systemic
• having one infection predisposes you to contracting another

Example:
Child scratches chickenpox (primary)
Then gets a localized Staphylococcus aureus infection (secondary)

Question 31

what does “getting sick” from microbes depend on?

Answer 31

verdant, amount, and immunity

Question 32

what weakens host defence and increases susceptibility?

Answer 32

• age (young and old)
• genetic and acquired immune alterations
• sugery/ organ transplants
• underlying disease
• chemo/ immunosuppressants
• stress (physical/ emotional)
• other infections

Question 33

what are the 5 steps in pathogenesis?

Answer 33

• finding portal of entry (depends on virulence)
• attaching firmly (virulent factor)
• surviving host defences
• causing damage (disease) (infection)
• exiting host

Question 34

what are the main portals of entry?

Answer 34

-usually same regions that harvest normal flora
Skin * most common cutaneous or membranous
GI tract
Respiratory tract
Urogenital tract
Endogenous biota

Question 35

how to microbes attach to host?

Answer 35

Fimbriae
Capsules
Surface proteins
Viral spikes

Question 36

how do microbes survive host mechanisms?

Answer 36

Avoiding phagocytosis (WBC)
Avoiding death inside phagocyte
-ex) salmonella avoids being digested by macrophages even though it is “caught
Absence of specific immunity

IMMUNE

Question 37

how do microbes cause disease?

Answer 37

Direct damage
Toxins and/or
enzymes

Indirect damage
	Inducing
	inappropriate,
	excessive host
	response (over-reactive immune response)

Question 38

how do microbes leave host

Answer 38

Portals of exit
	Respiratory tract,
	salivary glands
	Skin cells
	Fecal matter
	Urogenital tract
	Blood

Question 39

what is the portal of entry for the greatest number of pathogens?
-what type of microbes?

Answer 39

respiratory portal

Examples: Streptococcal sore throat, Meningitis, Diphtheria, Whooping cough, Influenza, Measles, Mumps, Rubella, Chickenpox, Common cold, Bacteria and fungi causing pneumonia, TB

• Upper resp. tract infection (URI)
• lower resp. tract infection (LRI)
• LRI leading cause of infectious disease (tb, flu)

Question 40

how do microbes enter through GI tract?

Answer 40

• Pathogens contained in food, drink, and other ingested substances
• can be adapted to survive digestive enzymes and pH changes; most are killed in stomach
  examples: Salmonella, Shigella, Vibrio, certain strains of Escherichia coli, Poliovirus, Hepatitis A virus, Echovirus, Rotavirus, Entamoeba histolytica, Giardia lamblia

Question 41

how do pathogens enter through skin and mucous membranes?

• examples
• what is the bodies reaction?

Answer 41

• Unbroken = a very tough barrier
• Nicks, abrasions, punctures weaken this line of defence

examples:
Skin
Staphylococcus aureus
Streptococcus pyogenes

Eye (mucous membrane)
Haemophilus aegyptius
Neisseria gonorrhoeae

defence: Antigen presenting cell
- alert immune resposne

Question 42

how do pathogens enter through urogenital portal?

Answer 42

STI's - account for 4% of all infections
-enter skin or mucosa of penis, external genitalia, vagina, cervix, and urethra
-Some can penetrate an unbroken surface
not always STI
ex) Uropathogenic E. coli - cause UTI
"opportunistic pathogen"

Question 43

how do microbes cause infection in pregnancy and birth?

Answer 43

• cross placenta (syphilis spirochete, HIV)
• perinatally when the child is contaminated by the birth canal

*herpes is deadly to new borns

Question 44

how do pathogens exit their host

Answer 44

• A parasite must have a means to leave and transmit infection again
• Usually the same door they came in by

The mechanism of exit greatly influences spread in the human population

ex) flu enters through rest. and exits