Unit 4 + Final

Question 1

What is the lingo?

Question 2

What causes transplant rejection?

Question 3

How are antigens recognized?

Question 4

What immune mechanisms lead to rejection?

Question 5

What is hyperacute rejection and what is its cause?

Question 6

What is acute rejection and what is its cause?

Question 7

What is chronic rejection and what is its cause?

Question 8

Donor APC are also presenting with _____ ___

Answer 8

donor MHC

Question 9

What is graft rejection?

Answer 9

activation of immune response against donor tissue

Question 10

What is the greatest barrier to transplantation as a therapeutic option for organ failure?

Answer 10

availability of organs

Question 11

What methods can be used to reduce the immunogenicity of allografts?

Answer 11

sourcing transplants and minimize allogeneic differences between donor and recipient we test for compatibility

Question 12

HLA genes code for what?

Answer 12

MHC

Question 13

What is hematopoietic stem cell transplantation used for?

Answer 13

treat lethal diseases caused by intrinsic defects in one or more hematopoietic lineages in a patient

Question 14

What is immunodeficiency?

Answer 14

doesn’t make the immune cells (or lack thereof)

Question 15

What are the three strategies in development to induce donor-specific tolerance?

Answer 15

costimulatory blockade, hematopoietic chimerism, and transfer or induction of Tregs

Question 16

What is costimulatory blockade?

Answer 16

All T cells will not be activated to react to self-antigen (peripheral tolerance)

Question 17

What is hematopoietic chimerism?

Answer 17

take donor cells and mix it in culture. Those cells are put into recipient (peripheral tolerance)

Question 18

________________ can be used to prevent or treat allograft rejection

Answer 18

immunosuppression

Question 19

What are the two instances when graft versus host disease (GVHD) occurs?

Answer 19

the host is immunocompromised and therefore unable to reject the allogenic cells in the graft and solid organs that contain significant numbers of T cells are transplanted

Question 20

What is transplantation?

Answer 20

process of taking cells, tissues, or organs from one individual and placing them into a different individual

Question 21

What is a graft?

Answer 21

the cells, tissue, or organs you are transplanting

Question 22

What is a donor?

Answer 22

the individual who provides the graft

Question 23

What is a recipient?

Answer 23

the individual who receives the graft

Question 24

What is orthotopic transplantation?

Answer 24

graft is placed in its normal anatomical site

Question 25

What is heterotopic transplantation?

Answer 25

graft is placed in a different anatomical site

Question 26

What is transfusion?

Answer 26

the transfer of circulating blood cells or plasma from one individual to another

Question 27

What is autologous graft?

Answer 27

graft transplanted from one individual to the same individual

Question 28

What is syngenic graft?

Answer 28

graft transplanted between two genetically different individuals

Question 29

What is allogenic graft (or allograft)?

Answer 29

graft transplanted between two genetically different individuals of the same species

Question 30

What is xenogenic graft (xenograft)?

Answer 30

graft transplanted between individuals of different species

Question 31

What are alloantigens or xenoantigens?

Answer 31

molecules that are recognized as foreign in allografts or xenografts

Question 32

What is alloreactive or xenoreactive?

Answer 32

lymphocytes and antibodies that react with alloantigens or xenoantigens

Question 33

What are the 3 ways alloantigens are recognized by T cells?

Answer 33

direct presentation, indirect presentation, and antibody mediated recognition

Question 34

When does direct recognition occur?

Answer 34

when the T cell of the host recognizes that the MHC of the donor is not the same

Question 35

Every APC found in the transplanted tissue is going to be ________ ___, which explains why MHC is so important for transplant

Answer 35

non-self MHC

Question 36

Intact MHC molecules displayed by cells in the graft are recognized by _________ _ _____ without a need for process by host APCs

Answer 36

recipient T cells

Question 37

Why are T cell responses very strong?

Answer 37

because there is a high frequency of T cells that can directly recognize any single allogenic MHC molecule

Question 38

What is indirect recognition of alloantigens?

Answer 38

picks up antigens from the donor and presents antigen on surface to the self T cell to recognize the foreign antigen from donor tissue

Question 39

Each allogenic MHC molecule can have _______ ________ that are foreign for the host, each recognized by different clones of T cells

Answer 39

multiple peptides

Question 40

True or False: T cell rejection can happen even if the MHCs are matched really well

Answer 40

True

Question 41

The direct pathway is….

Answer 41

the APC from the donor presenting to the TCR of the recipient

Question 42

What two things are required for triggering the T cell response for the direct pathway?

Answer 42

antigen itself and MHC

Question 43

The indirect pathway is when…

Answer 43

the APC of the host is presenting foreign antigen only to the host T cell

Question 44

If the MHC is matched really closely between donor and host, then the direct pathway is…

Answer 44

unlikely to stimulate donor rejection, but the indirect pathway is almost impossible to avoid

Question 45

What APCs transport alloantigens to the lymph node?

Answer 45

dendritic cells

Question 46

What types of cells cause rejection by distinct mechanisms?

Answer 46

Alloreactive CD4+ and CD8+ T cells that are activated by graft alloantigens

Question 47

What is the outcome of sensitization in activation of alloreactive T cells?

Answer 47

activation of T cells, generation of effector T cells by direct and indirect antigen presentation

Question 48

CTLA-4 induces what?

Answer 48

an inhibitory signal that downregulates T cell activation and is the target of induction regiments

Question 49

Leukocyte depletion strategies use what?

Answer 49

antibodies such as thymoglobulin designed to bind to peripheral alloreactive lymphocytes allowing an allograft to settle in

Question 50

Most of the antibodies produced in graft recipients that undergo rejection are usually target at what?

Answer 50

foreign MHC proteins (MHC mismatch), leading to strong antigen stimulation of B cells, T cells, and rejection

Question 51

What is the most significant factor for why there is rejection in transplants?

Answer 51

MHC matching

Question 52

High affinity alloantibodies are mostly produced by what types of cells?

Answer 52

helper T cell-dependent activation of alloreactive B cells

Question 53

Label the rejection stages of allograft rejection in order

Answer 53

hyperacute → acute → chronic

Question 54

What happens during hyperacute rejection?

Answer 54

once graft is put in, there are antibodies already there that react to it. Then, those antibodies will bind to their antigen and activate complement and platelets leading to blood clots

Question 55

What is vascular occlusion?

Answer 55

blood clots will prevent blood flow to the new organ and grafted organ will suffer ischemic necrosis

Question 56

What is ischemic necrosis?

Answer 56

no blood flow and no oxygen so tissue will die

Question 57

What is acute cellular rejection?

Answer 57

activation of CD4+ helper T cells and CD8+ CTLs and cytokines produced by helper T cells that lead to inflammation and CTL-mediated killing of graft cells

Question 58

What is acute antibody-mediated rejection?

Answer 58

activation of B cells with T cell help with high affinity antibodies specific to that donor tissue lead to binding of tissue and complement activation

Question 59

B cells with high-affinity antibodies are targeted at what in acute antibody-mediated rejection?

Answer 59

a donor tissue that results in loss of the graft tissue

Question 60

When does chronic rejection happen?

Answer 60

when we don’t have preexisting antibodies

Question 61

What is chronic rejection?

Answer 61

accumulation of chronic inflammatory responses

Question 62

In chronic rejection, alloantigen-specific CD4+ T cell start interacting with APCs. This results in what?

Answer 62

The APCs present antigens on self MHC and over time there are some antigens that cause a small response leading to release of some proinflammatory cytokines causing muscle cells to proliferate reducing O₂ capacity to the organ

Question 63

What immune mechanism mediates blood transfusion reactions?

Answer 63

complement

Question 64

Which individual’s immune cells are responsible for GVHD?

Answer 64

the donor

Question 65

Which protein is tested when recipients are looking for a “match” for organ or stem cell transplantation?

Answer 65

HLA genes

Question 66

What is the main challenge in xenotransplantation?

Answer 66

human immune cells and antibodies react to antigens from other species

Question 67

What is an allograft?

Answer 67

tissue from an individual is transferred into another of the same species

Question 68

If a transplant recipient already has antibodies against the donor tissue when the transplant occurs, what type of rejection would you expect?

Answer 68

hyperacute

Question 69

In mice, if a donor mouse is genetically identical to the recipient mouse, what is the result of a transplant?

Answer 69

no rejection

Question 70

If a donor mouse gives a tissue transplant to a recipient mouse that is 1/2 the same strain and 1/2 a different strain, what is the result of the transplant?

Answer 70

no rejection

Question 71

What are the general characteristics of the microenvironment?

Question 72

How can the immune system recognize cancer?

Question 73

What T cell types are important for cell-mediated

Question 74

How to target cancer cells if they are “self”?

Answer 74

mutations lead to a change in proteins to form neoantigens, which are cancer-specific and exempt from central tolerance

Question 75

______ ____ ________ can also be detected along with neoantigens

Answer 75

normal self antigens

Question 76

What is the main mechanism for killing tumors?

Answer 76

CD8+ CTLs

Question 77

Antibody significance may kill tumor cells by what two methods?

Answer 77

activating complement and ADCC

Question 78

What innate cells can contribute to immune surveillance against cancers and kill tumor cells?

Answer 78

NK cells

Question 79

What are two ways innate immune cells can promote tumor growth

Answer 79

M2 macrophages and innate cells generate free radicals causing DNA damage and leading to mutations

Question 80

What adaptive immune cells can contribute to tumor growth?

Answer 80

Increase in Tregs and Th1

Question 81

What are the different ways your immune system fights tumors?

Answer 81

blocking T cell inhibitory pathways, vaccination with tumor antigens, adoptive cellular therapy with antitumor cells, passive immunotherapy with antibodies, cytokine therapy, and non-specific inflammatory stimuli

Question 82

What happens in blocking T cell inhibitory pathways?

Answer 82

Inhibiting the inhibitor to activate the cell

Question 83

What is the goal of inhibiting inhibitors?

Answer 83

activate T cells in site of the anti-activation environment around tumors

Question 84

Vaccines with tumor antigens are composed of what?

Answer 84

killed tumor cells, recombinant tumor antigens, or dendritic cells incubated with tumor antigens

Question 85

What is the process of personalized tumor

Question 86

What are the three types of adoptive cellular therapies?

Answer 86

tumor infiltrating lymphocyte therapy (TIL), chimeric antigen receptor (CAR) T-cell therapy, and endogenous T-cell (ETC) Therapy

Question 87

What happens in chimeric antigen receptor (CAR) T-cell therapy?

Answer 87

design a specific receptor that binds to a specific antigen and T cells react strongly against that antigen which are infused back into patient and those T cells bind to cancer cells and kill them

Question 88

What is the drawback of CAR T cell therapy?

Answer 88

potential off target toxicity effects if CAR T cell can bind to other things besides the cancer cell

Question 89

What are the three ways to develop passive immunotherapy with antibodies?

Answer 89

direct tumour cell killing, immune-mediated tumuor cell killing, vascular and stromal cell ablation

Question 90

T cells cannot proliferate without what cytokine?

Answer 90

IL-2

Question 91

High doses of ___ is clinically approved treatment for advanced melanoma and renal cell carcionoma

Answer 91

IL-2

Question 92

___ and ____ are effector antitumor agents in animal models

Answer 92

TNF; IFN-ɣ

Question 93

What is the mechanism responsible for hypersensitivity disorders?

Question 94

How soon after the exposure of hypersensitivity disorders does the response occur?

Question 95

What is immunodeficiency?

Answer 95

underactivation of the immune system

Question 96

Type I is an ______ type of reaction and based on ___ mediation

Answer 96

allergic; IgE

Question 97

Type II involves ___, ___, and ________ cells

Answer 97

IgG; IgM; Cytotoxic

Question 98

Type III is an _____ ______-_______ , in which antibodies and antigens are stuck together causing inflammation

Answer 98

immune complex-mediated

Question 99

Type __ results in production of cytokines?

Answer 99

IV

Question 100

_____ ________ happens when you don’t have a response, but you will have antibodies the next time you’re exposed

Answer 100

First exposure

Question 101

When __-______ happens, ____ binds causing release of histamines

Answer 101

re-exposure; IgE

Question 102

IgE antibodies respond to what types of organisms?

Answer 102

helminths

Question 103

What are the two ways antibody-mediated diseases are produced?

Answer 103

1. antibodies bind to antigens on particular cells or in extracellular tissues 2. antigen-antibody complexes that form in the circulation and are deposited in cell walls

Question 104

Immune complexes that can cause disease may be composed of what?

Answer 104

antibodies bound to either self antigens or foreign antigens

Question 105

Many systemic immunological diseases in humans are caused by what?

Answer 105

the deposition of immune complexes in blood vessels

Question 106

Type __ is the only type of hypersensitivity that does not involve antibodies

Answer 106

IV

Question 107

Type IV is a classic _________ response

Answer 107

autoimmunity

Question 108

_______-____ ________________ is another type of type IV hypersensitivity

Answer 108

Delayed-Type Hypersensitivity (DTH)

Question 109

In tuberculosis, T cells can only be activated if…

Answer 109

you have previously encountered that pathogen

Question 110

chronic DTH reactions happen when

Answer 110

innate immune cells throw themselves on top of the phagocytosed microbes

Question 111

granulomatous inflammation is caused by what?

Answer 111

prolonged cytokine signals

Question 112

What antibody isotype is associated with Type I hypersensitivity?

Answer 112

IgE

Question 113

Which Hypersensitivity type is associated with antibody immune complexes?

Answer 113

Type III

Question 114

How do T cells mediate hypersensitivity reactions?

Answer 114

CD8 T cell direct killing, CD4 T cells produce cytokines, and induce inflammation

Question 115

Will a delayed type hypersensitivity response occur in an individual the first time they are exposed to an antigen?

Answer 115

No

Question 116

Which hypersensitivity type is associated with IgM and IgG antibodies that attach to cells and induce complement and cytotoxic responses?

Answer 116

Type II

Question 117

Cytochrome c is present in the ___________ _____________ _____ during normal cell function and is released into the _________ when apoptosis is initiated

Answer 117

mitochondrial intermembrane space; cytoplasm

Question 118

What is the basic mechanism of general anti-inflammatory drugs (NSAIDS and SAIDS)?

Answer 118

inhbiit the secretion of cytokines and other mediators of inflammation

Question 119

What type of hypersensitivity do general anti-inflammatory drugs target?

Answer 119

Bring down the inflammation and reduce symptoms (not sure abt this one)

Question 120

What are the four the basic mechanisms of anti-cytokine therapy?

Answer 120

soluble cytokine receptor, anti-cytokine antibodies, cytokine receptor antagonists, and small molecule inhibitors (JAK kinases)

Question 121

What type of hypersensitivity does anti-cytokine therapy target?

Answer 121

Type IV

Question 122

What is the basic mechanism of depletion of cells/antibodies?

Answer 122

CD20 (depletes B cells), CD3 (depletes T cells), and CD52 (depletes B and T cells)

Question 123

What type of hypersensitivity does depletion of cells/antibodies target?

Question 124

What are the three basic mechanisms of other biologic agents (anti-receptor anti-integrin antibody treatment)?

Answer 124

Blocks B7 costimulators (CTLA-4-IG), inhibits leukocyte migration into tissues (Anti-c4 integrin), and block T cell-mediated activation of B cells and macrophages (Anti-CD40)

Question 125

What type of hypersensitivity does other biologic agents (anti-receptor anti-integrin antibody treatment)?

Question 126

What are the five basic mechanisms of intravenous Ig (IVIG) therapy?

Answer 126

• inhibits activation and function of -DCs, monocytes, macrophages, neutrophils, and NK cells
• neutralizes activated complement components
• modulates B-cell functions and plasma cells
• reciprocally regulates Treg cells and effector T cells, such as Th2 and Th17 subsets
• downregulates the production of inflammatory cytokines

Question 127

What type of hypersensitivity does intravenous Ig (IVIG) therapy target?

Question 128

What is the basic mechanism of tolerance inducing therapies?

Answer 128

induce tolerance in disease-producing T cells (promote activation of regulatory cells without activating effector cells)

Question 129

What type of hypersensitivity do tolerance inducing therapies target?

Question 130

What are the two functions of integrins?

Answer 130

help cytotoxic T cells bind to their antigens and help with cells get to the place via diapedesis

Question 131

What drugs can strongly prevent inflammation?

Answer 131

corticosteroids

Question 132

What is an example of a tolerance-inducing therapy?

Answer 132

induce Tregs with low dose IL-2

Question 133

Which type of hypersensitivity does anti-cytokine therapy primarily target?

Answer 133

type IV

Question 134

Which type of hypersensitivity does antibody depletion therapy most likely target?

Answer 134

type II and III

Question 135

How might low-dose IL-2 induce tolerance to treat autoimmune disorders?

Answer 135

promoting activation and proliferation of Tregs

Question 136

What kind of antibodies are part of an IVIG treatment?

Answer 136

all immunoglobulins isolated from the blood plasma of donors

Question 137

What is the main mechanism of corticosteroids to suppress inflammatory signals?

Answer 137

reduce cytokine release

Question 138

What is the difference between immediate allergic reactions and late-phase reactions?

Question 139

How is Th2 cells involved in

Question 140

How are mast cells involved in allergy?

Question 141

What does granulation do in early allergy?

Question 142

What does granulation do in late allergy?

Question 143

Allergy is also known as

Answer 143

Type I hypersensitivity

Question 144

What is an allergen?

Answer 144

an antigen that causes a response in an inappropriate way?

Question 145

What happens during first exposure to antigen (none of which are noticeable)?

Answer 145

T-cell dependent production of IgE, Th2 cells stimulate class switching in B cells, plasma cells secrete IgE, and IgE binds to high affinity IgE receptors on Mast cells

Question 146

FcεR1 represents what?

Answer 146

constant region of IgE

Question 147

IgE comes from what?

Answer 147

B cells that are activated by T cells

Question 148

Eosinophils are identified based on what?

Answer 148

granules contain basic proteins that bind acidic dyes

Question 149

Polyvalent means what?

Answer 149

multiple epitopes that bind to the same antigen

Question 150

What happens upon second exposure to allergen?

Answer 150

antigen binds to mast cell, cross-links the antibody, and releases all the granules inside

Question 151

Vascular and smooth muscle response causes what (histamine and other mediators)?

Answer 151

immediate reaction

Question 152

True or False: Mast cells respond only to cross-links

Answer 152

False, mast cells do not respond only to cross-links

Question 153

Cytokine has to be expressed from the _____

Answer 153

genes

Question 154

What are the two outcomes of the signaling pathway of granule exocytosis?

Answer 154

vascular dilation, smooth muscle contraction and tissue damage

Question 155

What are the two outcomes of the signaling pathway of enzymatic modification of arachidonic acid?

Answer 155

vascular dilation and smooth muscle contraction

Question 156

What is the outcome of the signaling pathway of transcriptional activation of cytokine genes?

Answer 156

inflammation (leukocyte recruitment)

Question 157

After second exposure, there is an _______ reaction and a ___ ____ reaction

Answer 157

immediate; late phase

Question 158

Late phase is driven by _________

Answer 158

cytokines (causing inflammation)

Question 159

Immediate phase is driven by __________

Answer 159

histamines

Question 160

Upon first exposure to an allergic antigen, what key cell types are activated?

Answer 160

Th2 and B cells

Question 161

Upon second exposure to an allergic antigen, what cells are activated?

Answer 161

eosinophils, basophils, and mast cells

Question 162

What antibody isotype is associated with allergic responses?

Answer 162

IgE

Question 163

What mechanisms lead to the immediate allergic reaction?

Answer 163

mast cells degranulate vasoactive amines and lipid mediators

Question 164

What mechanisms lead to the late-phase allergic reaction?

Answer 164

cytokines produced by mast cells recruit leukocytes

Question 165

What are the differences and similarities between primary (congenital) and secondary (acquired) immunodeficiency?

Answer 165

In primary immunodeficiency, genetic defect results in an increased susceptibility to infection that is frequently. In secondary

Question 166

What are the general principles behind innate cell deficiencies?

Question 167

What are the general principles behind

Question 168

Serum Ig levels test whether or not you can make what?

Answer 168

antibodies

Question 169

What is T cell receptor excision circles?

Answer 169

during VDJ, VDJ recombinase brings two combinases and forms a loop and then cuts off that loop

Question 170

______ and ______ are your first line of defense

Answer 170

phagocytes; complement system

Question 171

Complement is responsible for what three purposes?

Question 172

Chronic Granulomatous Disease is caused by what?

Answer 172

mutations in components of the phagocyte oxidase (phox) enzyme complex

Question 173

Another example of immunodeficiency is

Answer 173

leukocyte adhesion deficiencies

Question 174

What is leukocyte adhesion deficiency?

Answer 174

inflammation doesn’t work the way it’s supposed to

Question 175

APCs are triggered by ___

Answer 175

toll-like receptor signaling

Question 176

What is severe combined immunodeficiency (SCID)?

Answer 176

any immunodeficiency that affects both B cells and T cells

Question 177

What types of cells lead to SCID?

Answer 177

T cells

Question 178

Genetic defects that cause SCIDs are _________ ________ or ________

Answer 178

autosomal recessive; X-linked

Question 179

RAG1, RAG2, and artemis are involved in what process?

Answer 179

VDJ

Question 180

MHC class II is involved in what process?

Answer 180

positive or negative selection of the thymus

Question 181

What is the consequence of RAG1 and RAG2 being knocked out in a patient?

Answer 181

no mature B cells or T cells

Question 182

________ __________ can be a major part of causing immunodeficiency

Answer 182

cytokine signaling

Question 183

A severe type of SCID is

Answer 183

no VDJ recombination

Question 184

No signaling from TCR stage, then what happens to the T cell?

Answer 184

the T cell will not continue

Question 185

MHC class II deficiency, or Bare lymphocyte syndrome, results in what?

Answer 185

no CD4+ T cells (and also no B cells)

Question 186

SCID can be caused by what type of defective cell activation?

Answer 186

defective T cell activation

Question 187

What are selective immunoglobulin isotype deficiencies caused by?

Answer 187

a problem of the signaling of certain cytokines in B cells

Question 188

How does early phase response differ from late phase response?

Question 189

Why do people get allergies?

Question 190

How do different modes of entry alter the immune response to allergens?

Question 191

How do antihistamines work?

Question 192

What is anaphylaxis and how is it treated?

Question 193

What is bronchial asthma and how is it treated?

Question 194

What is sensitization/desensitization?

Question 195

Immediate phase is driven by what?

Answer 195

histamines

Question 196

Late phase is characterized by what?

Answer 196

inflammation, primarily by eosinophils

Question 197

Immediate reaction is the [first or second] exposure to antigen?

Answer 197

second

Question 198

Immediate reaction is also known as what?

Answer 198

Wheal and Flare Response

Question 199

Why do individuals develop allergies?

Answer 199

genetics, microbiota, and exposure to environment

Question 200

People are more likely to have allergies when they develop strong ___ responses

Answer 200

Tₕ2

Question 201

Responses to the [same or different] allergen may have the [same or different] manifestations depending on the tissue targeted

Answer 201

same; different

Question 202

Histamine acts primarily on what receptor?

Answer 202

H1 receptor

Question 203

In chronic allergic inflammation, histamine effects on inflammatory cells cause what?

Answer 203

cellular activation and release of proinflammatory mediators

Question 204

What is anaphylaxis?

Answer 204

a systemic reaction in which a patients come into contact with something they’re allergic to

Question 205

Anaphylaxis is driven by what?

Answer 205

histamines and other amines

Question 206

What is a treatment for anaphylaxis?

Answer 206

epinephrine

Question 207

What are the two ways epinephrine treats anaphylaxis?

Answer 207

causes peripheral vasoconstriction and relaxes smooth muscles for bronchodilation

Question 208

What are the two major targets for asthma?

Answer 208

prevention and reversal of inflammation

Question 209

What can reduce bronchial constriction?

Answer 209

leukotriene antagonists and muscle relaxants

Question 210

Antihistamines [are or are not] effective treatments for asthma?

Answer 210

are not

Question 211

What can be used to treat atopic dermatitis?

Answer 211

corticosteroids

Question 212

Desensitization uses the ___ to regulate the environment and prevent inflammation from occuring

Answer 212

gut

Question 213

How does desensitization occur?

Answer 213

by inducing small doses of allergen over time

Question 214

What is the early phase of an allergic response in the skin?

Answer 214

Wheel and flare

Question 215

True or False: There is a strong genetic component to a person’s susceptibility to developing an allergic response

Answer 215

True, there is a strong genetic component to a person’s susceptibility to developing an allergic response

Question 216

For what type of hypersensitivity are antihistamines the most effective and why?

Answer 216

Type I, because antihistamines counter the effects of degranulation of granulocytes

Question 217

Eczema is an allergic response, but where do allergens (most commonly) come from?

Answer 217

exposure to airborne allergens

Question 218

What allergic response is NOT helped with treatment using antihistamines?

Answer 218

asthma

Question 219

What are some of the causes and mechanisms of acquired immunodeficiency?

Question 220

What is the viral lifecycle of HIV?

Question 221

and how it infects cells and causes diseases at the cellular level?

Question 222

What is secondary (acquired) immunodeficiencies?

Answer 222

immunodeficiency due to something that was acquired during life

Question 223

Malnutrition and immunodeficiency is associated with what?

Answer 223

impaired cellular and humoral immunity to microorganisms

Question 224

All the immune cells come from where?

Answer 224

the bone marrow

Question 225

What are some ways immunodeficiency can cause cancer?

Question 226

What are the two ways to suppress the immune system?

Answer 226

functionally inactivate lymphocytes and inactivate cytokines

Question 227

HTLV-1 infects and transforms what types of cells?

Answer 227

CD4+ T cells, reducing the number of T cells that can fight infection

Question 228

Why would we need the immune system to fight viral tumors?

Answer 228

immune system is responsible for fighting tumors

Question 229

What work to shut down viral production?

Answer 229

restriction factors

Question 230

HIV enters immune cells via what method?

Answer 230

chemokine receptors

Question 231

CD8 T cells responds at what point during the immune response to HIV?

Answer 231

Day 20

Question 232

What types of receptors detect virally infected cells?

Answer 232

TLRs and RIG-I

Question 233

The initial adaptive immune response to HIV infection is characterized what?

Answer 233

expansion of CD8+ T cells specific for HIV peptides

Question 234

What are the two mechanisms of immune evasion by HIV?

Answer 234

HIV has a high mutation rate and down-regulate class I MHC

Question 235

What are the 3 mechanisms that contribute to the loss of CD4+ cells in HIV?

Answer 235

cytopathic effects of viral infection, killing by antigen-specific CTLs, and activation of inflammosome and elimination of infected cells by pyroptosis

Question 236

The most prominent defects caused by HIV are in [humoral or cell-mediated] immunity with results from the destruction of [CD4+ or CD8+] T cells

Answer 236

cell-mediated; CD4+

Question 237

What is the primary form of treatment for HIV?

Answer 237

target replication of the virus (antiretroviral therapy)

Question 238

How do anti-HIV treatments target the virus?

Answer 238

inhibit enzymes and proteins required for viral infection

Question 239

How does HIV lead to immunodeficiency?

Answer 239

it targets and infects CD4 T cells

Question 240

How does HIV evade the immune system?

Answer 240

it has an extremely high mutation rate, preventing detection by antigen-specific T cells & antibodies

Question 241

What about HIV makes it especially challenging to design a vaccine for?

Answer 241

the high rates of mutations makes the target antigen a moving target

Question 242

What is NOT something that leads to acquired immunodeficiency?

Answer 242

genetics

Question 243

No detectable vascular reactions from an immediate reaction happen in what disease?

Answer 243

bronchial asthma