immune system test

Question 1

2 parts of immune response

Answer 1

innate and adaptive

Question 2

the innate immune system is

Answer 2

nonspecific, 2 parts

Question 3

part 1 of innate immune system

Answer 3

physical/chemical barriers to keep contaminants out

Question 4

part 2 of innate immune system

Answer 4

responses like macrophages, inflammation, and fever to keep microbes at bay

Question 5

adaptive immune response

Answer 5

how the body learns to specifically target and eliminate contaminants

Question 6

skin

Answer 6

(normally) solid barrier that stops bacteria from getting inside inside the body

Question 7

the outer layer of the skin is coated in

Answer 7

protein keratin

Question 8

function of keratin in the skin

Answer 8

works with other lipids and proteins to form a tight seal separating inside from out

Question 9

The outer cells of the skin

Answer 9

is continuously shedding , this is called desquamstion

Question 10

desquamation takes

Answer 10

attached microbes with them

Question 11

the skin secretes waxy, oily

Answer 11

sebum

Question 12

sebum gives the skin a pH of about what

Answer 12

5.5

Question 13

pH of sebum is

Answer 13

acidic compared to body’s 7.4

Question 14

change in pH due to sebum can cause

Answer 14

denature enzymes in bacteria, slows their function

Question 15

95% of infections from

Answer 15

begin in the mucous membranes

Question 16

5% of infections result from

Answer 16

vector bites

Question 17

Other pH barriers to microbes

Answer 17

saliva
stomach
vagina

Question 18

saliva pH

Answer 18

roughly neutral (7)

Question 19

pH of stomach after a meal

Answer 19

2

Question 20

pH of stomach at rest

Answer 20

3.5

Question 21

inside of vagina pH

Answer 21

4

Question 22

what are the OTHER physical barriers to microbes

Answer 22

mucus, 
urinations,
defectation, 
vomitting, 
tears, hairs 
and cilia

Question 23

where is MUCUS found

Answer 23

airway, esophagus, stomach, intestines, cervix (females)

Question 24

how does mucus affect microbes

Answer 24

microbes stick to it and are broken down by protein and/or expelled from the body

Question 25

what washes microbes out of the body

Answer 25

urination, defcetation, vomiting and tears

Question 26

hairs in the nose and cilia in the windpipe can….

Answer 26

stop microbes from entering the lungs

Question 27

because of cilia…. bacteria are pushed

Answer 27

up and away from the lungs through the mucociliary elevator

Question 28

if a particle is detected in the airway

Answer 28

extremely sensitive nerves in the airway will force a cough reflex

Question 29

lysozyme (a chemical barrier)

Answer 29

lysozyme is an enzyme in tears, mucus, breast milk, saliva

Question 30

lysozyme function

Answer 30

breaks apart peptidoglycan, kills bacteria

Question 31

what is peptidoglycan

Answer 31

main component of bacterial cell walls,

Question 32

normal flora

Answer 32

bacteria living on it in a mutualistic relationship

Question 33

instead of harming the body………

Answer 33

many benefits

Question 34

benefits of normal flora

Answer 34

• nutrients that the body can’t normally provide (B12)
• competition for space and nutrients,
• create compounds that kill other bacteria
• modify the pH of an area to make it inhospitable to other bacteria

Question 35

competition for space and nutrients causes

Answer 35

makes it hard for bad bacteria to survive

Question 36

how much human cells in the body

Answer 36

10^13

Question 37

how much symbiotic bacteria in the human body

Answer 37

10^14

Question 38

first step of phagocytosis

Answer 38

• chemotaxis and adherence of microbes to phagocyte

Question 39

second step of phagocytosis

Answer 39

• ingestion of microbe by phagocytosis

Question 40

step 3 phagocytosis

Answer 40

formation of a phagosome

Question 41

step 4 phagocytosis

Answer 41

fusion of the phagosome with a lysosome to form a phagolysosome

Question 42

step 5 phagocytosis

Answer 42

digestion of ingested microbe by enzymes

Question 43

step 6 phagocytosis

Answer 43

formation of residual body containing indigestible material

Question 44

step 7 phagocytosis

Answer 44

discharge of waste materials

Question 45

phagocytes

Answer 45

white blood cells that eat and destroy foreign contaminants through phagocytosis

Question 46

types of phagocytes

Answer 46

neutrophils
macrophages
dendritic cells

Question 47

neutrophils function

Answer 47

eat bacteria

Question 48

macrophages function *

Answer 48

eat everything that dosen’t have a proper ID

Question 49

dendritic cells function*

Answer 49

eat surroundings that show PAMPS

Question 50

macrophages and dendritic cells

Answer 50

present digested guts to surrounding cells, especially T cells

Question 51

what is PAMPs

Answer 51

micro-associated patterns

Question 52

PAMPs

Answer 52

pathogen-associated molecular patterns

Question 53

peptidoglycan (PAMPs)

Answer 53

main bacterial cell wall component, gram positive

Question 54

peptidoglycan chemical surrounds

Answer 54

membranes of many bacteria

Question 55

if a bacterial membrane contains a thick layer of peptidoglycan

Answer 55

gram positive

Question 56

why is something gram positive

Answer 56

turns purple when dyed w/ Gram method

Question 57

if it does NOT turn purple hen dyed with the gram method

Answer 57

gram negative… turns pink instead

Question 58

LPS (PAMPs)

Answer 58

main bacterial membrane component, gram negative

Question 59

LPS

Answer 59

lipopolysaccharides

Question 60

what are LPS

Answer 60

long chains of sugars that attach to membranes of gram-negative bacteria with thin peptidoglycan layer

Question 61

Flagellin (PAMPs)

Answer 61

a protein found in bacterial flagella

Question 62

many bacteria have a flagellum

Answer 62

to help them move through the body

Question 63

many flagellum

Answer 63

flagella

Question 64

main protein in flagella

Answer 64

flagellin, is a PAMP

Question 65

Double stranded RNA (PAMPs)

Answer 65

found in viruses

Question 66

glucans (PAMPs)

Answer 66

major component of fungal cell walls

Question 67

PRRs

Answer 67

Pattern Protein Receptors

Question 68

where are PRRs found

Answer 68

they are proteins found on the plasma membrane of macrophages

Question 69

job of PRRs

Answer 69

recognize PAMPs

Question 70

2 main types of PRRs;

Answer 70

Phagocytosis receptors

TLRS

Question 71

Phagocytosis receptors

Answer 71

binding to a PAMP causes the onset of phagocytosis..

Question 72

phagocytosis receptors are only found in

Answer 72

phagocytes

Question 73

TLRs

Answer 73

toll-like receptors

Question 74

TLRs function

Answer 74

bidning to PAMP causes the activation of genes coding for cytokines

Question 75

what are cytokines

Answer 75

signalling proteins

Question 76

where are TLRs found

Answer 76

phagocytes, epithelial cells and MORE

Question 77

there are many kinds of TLRs that each

Answer 77

recognize specific microbial compoents

Question 78

each TLRs trigger the

Answer 78

release of some cytokines

Question 79

cytokines are….

Answer 79

small proteins produced by various white blood cells

Question 80

cytokines are produced in response to

Answer 80

PAMP binding to a TLR

Question 81

cytokines can be

Answer 81

autocrine
paracrine
endocrine

Question 82

autocrine (cytokine)

Answer 82

meaning they act on the red blood cell that secrets them

Question 83

paracrine (cytokine)

Answer 83

they act on nearby cells

Question 84

endocrine (cytokine)

Answer 84

travel longs distances in the body

Question 85

3 things tat cytokines cause to happen

Answer 85

• vasodilation of blood vessels
• upregulation or downregulation of genes
• white blood cell hematopoiesis

Question 86

3 OTHER THINGS that cytokines can cause

Answer 86

• production of antobodies
• apoptosis
• inhibition of viral replication

Question 87

chemokines

Answer 87

are a type of cytokine, attract molecules through chemical signals

Question 88

two categories of chemokines

Answer 88

homeostatic

inflammatory

Question 89

homeostatic chemokines

Answer 89

attract various types of white blood cells to the area and invoke diapedesis

Question 90

what is diapedesis

Answer 90

jumping through the walls of a vessel into infected tissue

Question 91

what is chemically attracted to chemokines

Answer 91

white blood cells

Question 92

inflammatory chemokines

Answer 92

initiate the inflammatory response by causing vasodilation

Question 93

vasodilation caused by inflammatory chemokines….

Answer 93

leads to more blood, and in turn more white blood cells in the area

Question 94

inflammation can be

Answer 94

acute or chronic

Question 95

acute

Answer 95

quick onset

Question 96

chronic

Answer 96

long term

Question 97

signs of inflammation

Answer 97

redness, heat, swelling, pain

Question 98

positive feedback loop of cytokines

Answer 98

cytokines made to recruit WBS, which release cytokines to recruit even more WBCs

Question 99

the positive feedback loop of cytokines is supposed to be

Answer 99

localized and shut off at a certain point

Question 100

if an infection gets too big

Answer 100

the body does not to shut down the cytokines&raquo_space;> CYTOKINE SToRM

Question 101

result of a cytokine storm

Answer 101

widespread inflammation

Question 102

widespread inflammation from a cytokine storm can cause

Answer 102

ARDS»> DEATH??!??!?

Question 103

ARDS

Answer 103

acute respiratory distress syndrome

Question 104

cytokine storm can also cause

Answer 104

severe damage to blood vessels when they dilate too much

Question 105

damage to blood vessel can lead to

Answer 105

blood spilling the extracellular space

Question 106

blood spilling the extracellular space causes

Answer 106

reddish splotches on the skin (petichaie LOOK It up), shock

Question 107

fever invoked

Answer 107

by pyrogen

Question 108

pyrogens can be classified as

Answer 108

endogenous or exogenous

Question 109

exogenous pyrogens

Answer 109

come from outside and bind to PRRs to trigger the release of endogenous pyrogens

Question 110

example fo exogenous pyrogen

Answer 110

LPS . (lipopolysaccharide)

Question 111

endogenous pyrogens

Answer 111

are cytokines made by macrophages in RESPONSE to exogenous pyrogens

Question 112

examples of endogenous pyrogens

Answer 112

interleukin-1 (IL-1) and interleukin-6 (IL-6)

Question 113

endogenous pyrogens travel

Answer 113

to the hypothalamus in the brain….. send hormonal signals across the body to increase temperature

Question 114

fevers help stop

Answer 114

bacterial growth (deature?!)

Question 115

fevers increase

Answer 115

ability of certain macrophages to do their jobs by altering their membrane fluidity.

Question 116

how does inflammation cause its symptoms

Answer 116

• capillary widening
• increased capillary permeability
• attraction of white blood cells
• systemic response

Question 117

capillary widening can cause

Answer 117

increased blood flow

Question 118

increased capillary permeability can cause

Answer 118

release of fluid

Question 119

attraction of white blood cells can cause

Answer 119

migration of WBCS to injury

Question 120

systemic responses can cause

Answer 120

fever and proliferation of white blood blood cells

Question 121

antibodies

Answer 121

small y shaped proteins

Question 122

antibodies structure

Answer 122

the same except the two tips of the Y

Question 123

two tips of the Y structure

Answer 123

heavily variable , infinite shapes, almsot every molecule

Question 124

stem of the Y of antibodies

Answer 124

Fc region

Question 125

branches of the Y

Answer 125

FA=ab regions

Question 126

antigens

Answer 126

the shreds resulting from pathogens being broken down by phagocytes

Question 127

how are antigens sensed

Answer 127

by antigen binding sites on antibodies

Question 128

another name for antibodies

Answer 128

immunoglobulins

Question 129

Ig

Answer 129

immunoglobulins

Question 130

5 types of immunoglobulins

Answer 130

IgG*, IgM, IgD, IgA, and IgE.

Question 131

most common Ig

Answer 131

IgG

Question 132

B cells

Answer 132

white blood cells who create antibodies

Question 133

Each B cell..

Answer 133

creates just one specific antibody

Question 134

how do B cells create antibodies

Answer 134

through V(D)J recombination

Question 135

After a B cell’s antibody recognized a pathogen and has treated the body

Answer 135

B cell becomes a memory B cell

Question 136

what do memory B cells do after becoming one?

Answer 136

travel to lymph node and lies dormant

Question 137

memory B cells lie dormant in lymph nodes until

Answer 137

the same antigen is spotted

Question 138

what happens when the same antigen (already been treated by a memory B cell) is seen again

Answer 138

dormant B cells rapidly creates antibodies (MUCH FASTER)&raquo_space;»»»

Question 139

When dormant B cells rapidly create antibodies… the body

Answer 139

bodies is quickly cured .. often before sickness is felt

Question 140

B cell phenomenon is basis for

Answer 140

vaccination

Question 141

T cells

Answer 141

type of white blood cell produced in the thymus

Question 142

thymus location

Answer 142

JUST SUPERIOR TO THE HEART

Question 143

Like B cells, T cells are also

Answer 143

antigen-specific

Question 144

TCRs

Answer 144

T cell receptors

Question 145

t cell receptors

Answer 145

special receptors on the membranes of T cells

Question 146

what do TCRs do

Answer 146

look for digested pieces of stuff that macrophages and dendritic cells have broken apart during phagocytosis

Question 147

if TCRs see “bad stuff”&raquo_space;> 3 reactions for what 3 cell types

Answer 147

cytotoxic T cells,
helper T cells
regulatory T cells

Question 148

cytotoxic T cells

Answer 148

hunt down and kill cells that contain a certain anitgen

Question 149

helper T cells

Answer 149

begin producing cytokines

Question 150

cytokines released by helper T cells….

Answer 150

will attract B cells, cytotoxic T cells and macrophages, and will cause white blood cell hematopoiesis

Question 151

regulatory T cells

Answer 151

shut down other T cells at the end of an immune response

Question 152

smaller sub-region of an antigen

Answer 152

epitopes

Question 153

what are epitopes recognized by

Answer 153

paratopes on antigens

Question 154

most pathogens

Answer 154

have many epitopes, can be recognized by many antibodies

Question 155

4 MAIN METHODS FOR ANTIBODIES FIGHTING PATHOGENS

Answer 155

Neutralization
Agglutination
Precipitation
Complement Activation

Question 156

when the Fab region(s) of an antibody bind to the antigen…

Answer 156

Fc ragion dangles off

Question 157

many phagocytes have special….

Answer 157

special receptors called opsonin receptors…

Question 158

opsonin receptors

Answer 158

increase the chemical attraction between themselves and dangling Fc regions

Question 159

main idea of opsonin receptors

Answer 159

makes marked antigens look more delicious to phagocytes

Question 160

neutralization

Answer 160

antibody physically blocks the antigen from having its effect

Question 161

example of antibody neutralization

Answer 161

Corynebacterium diphtheriae

Question 162

Corynebacterium diphtheriae

Answer 162

bacteria that secretes small protein diphtheria toxin

Question 163

diphtheria can…

Answer 163

ENTER CELLS AND BREAK THE eEF-2 protein

Question 164

eEF-2 protein

Answer 164

vital part of protein synthesis in human cells

Question 165

antibody for diptheria

Answer 165

blocks diphtheria from binding to receptors and entering the cell

Question 166

so if dipheria toxin is neutralized by the antibody

Answer 166

eEF-2 is never turned off

Question 167

agglutination

Answer 167

the clumping together of molecules

Question 168

in agglutination some antibodies will cause

Answer 168

bacteria or mother molecules to stick together in large groups

Question 169

when agglutination happens it makes it

Answer 169

easier for phagocytes to engulf them after opsonization

Question 170

agglutination also plays a major role in

Answer 170

blood types

Question 171

blood types

Answer 171

A, B, AB, or O

Question 172

Type A blood

Answer 172

have A antigen on RBCs (and B antibody in blood

Question 173

Type B blood

Answer 173

have B antigen on RBCs (and A antibody in blood)

Question 174

Type AB blood

Answer 174

have A and B antigen on RBCs (no antibodies in blood)

Question 175

Type O blood

Answer 175

have neither A or B antigen on RBCs (both antibodies in blood)

Question 176

when would a blood transfusion go bad

Answer 176

a person gains a transfusion of blood with an antigen they have antibodies fo

Question 177

if a person gains a transfusion of blood with an antigen they have antibodies for

Answer 177

the antibodies will cause RBCs to agglutinate and then lyse.

Question 178

if red blood cells agglutinate then lyse

Answer 178

free hemoglobin clogs the kidneys&raquo_space; shut down

Question 179

some antigens, but usually………..

Answer 179

usually harmful pieces of a virus, are solube

Question 180

soluble antigens

Answer 180

hide in the body by dissolving in serum

Question 181

what can antibodies to to fight the antigens that dissolve to hide

Answer 181

bind to them and force them out of solution to form a solid precipitate

Question 182

when antibodies bind to antigens to form a solid precipitate

Answer 182

makes them easier targets for phagocytosis

Question 183

in order for precipitaion to work

Answer 183

Roughly equal part of antigen and antibody

Question 184

precipitation is often coupled with

Answer 184

agglutination

Question 185

complement pathway is cool because…

Answer 185

shared component of adaptive and innate immune systems

Question 186

complement pathway is turned on by

Answer 186

presence of PAMPS or signal from antigen-antibody complexes

Question 187

_______ released because of PAMPS or antigen-antibody complexes

Answer 187

cytokines, lead to a cascade that makes many different proteins together

Question 188

cytokines and cascade that makes many different proteins together

Answer 188

form a giant pore in a pathogen membrane» KILLS it

Question 189

autimmune disease

Answer 189

are a broad class of diseases where the body “attacks itself

Question 190

what happens in an autoimmune disease

Answer 190

antibodies in the body mistake “self” cells for “nonself” cells and begin attacking them.

Question 191

what things to autoimmune diseases cause

Answer 191

tissue damage
increased tissue growth
altered tissue function

Question 192

primary immune response

Answer 192

first time the body sees an infection…. takes while to gather the troops

Question 193

secondary immune response

Answer 193

each subsequent time the body sees an infection… faster and stronger reaction

Question 194

vaccinations

Answer 194

expose the body to a pathogen without getting youu sick

Question 195

what are the three ways a bacterium or virus is prepared for a vaccine

Answer 195

attenuated
killed/inactivated
subunit

Question 196

attenuated vaccine

Answer 196

bacterium/virus is alive…. genetically modified so that bad genes are removed

Question 197

killed/inactivated vaccine

Answer 197

bacterium/virus is grown in lab then killed by heat or formaldehyde…. dead specimen injected

Question 198

subunit vaccine

Answer 198

bacterium/virus grown in lab… … …only one part (a single epitope) is placed into vaccine and injected

Question 199

what parts are usually injected in a subunit vaccine

Answer 199

capsid in viruses, membrane or wall component in bacteria

Question 200

examples of attenuated vaccination

Answer 200

MMR, Measles, Mumps, Rubella

Question 201

examples of killed/inactivated vaccination

Answer 201

Polio

Question 202

example of subunit

Answer 202

hep. B

Question 203

pros of attenuated vaccination

Answer 203

• small dose
• usually no booster
• giver STRONGEST IMMUNITY

Question 204

cons attenuated vaccination

Answer 204

• must be refrigerated
• small risk of mutation to regain pathogenicity
• may cause adverse reaction

Question 205

pros of killed/inactivated vaccination

Answer 205

• no risk of mutation to regain pathogenicity

- does not need to be refrigerated

Question 206

cons of killed/inactivated vaccination

Answer 206

• much larger doses required -often needs booster shots

- may cause adveerse reaction

Question 207

which is more likely to cause adverse reaction: killed or attentuated

Answer 207

attenuated

Question 208

pros of subunit vaccination

Answer 208

• no risk of mutation to regain pathogenicity
• does not need to be refrigerated
• not likely to overwhelm immune system and cause adverse reaction

Question 209

cons of subunit vaccination

Answer 209

• gives “weakest” immunity b
• much larger doses required
• often requires boosters

Question 210

why does subunit vaccination give the weakest immunity

Answer 210

only one or a few epitopes recognized

Question 211

what disease did we eradicate

Answer 211

small pox

Question 212

what type of immunity do vaccines provide

Answer 212

active (artificial)

Question 213

what is the basis of active immunity

Answer 213

causes your body to make memory B cells that recognie

antigens and spring into action the next time encountered

Question 214

active immunity generally lasts….

Answer 214

for life

Question 215

when is passive immunity usually used

Answer 215

time-sensitive cases

Question 216

examples of uses for passive immunity

Answer 216

snakebites… tetanus infection for unimmunized …… patient w a weakened immune system

Question 217

what is the basis for passive immunity

Answer 217

injecting neutralizing antibodies harvested froma different host into the patient

Question 218

passive immunity generally lasts…

Answer 218

days to months (TEMPORARY)

Question 219

active natural immunity

Answer 219

patient catches disease, develops own antibodies and build up memory B cells that will fight it the next tuime

Question 220

active artificial immunity

Answer 220

patient receives (attenuated, dead, subunit) vaccine, gains memory B cells without actually fighting it

Question 221

passive natural immunity

Answer 221

infant patient drinks breastmilk, receives mother’s antibodies, temporary protection form many disease

Question 222

passive artificial immunity

Answer 222

patient receives injection of antibodies from donor organisms that neutralize antigens and give temporary immunity.

Question 223

what are often donors for passive artificial immunity

Answer 223

horses, pigs etc