Exam 4 Flashcards

Question 1

Q

Serotypes

Answer

A

numerous strains of the same pathogen existing as a means to evade the immune system

Question 2

Q

S. pneumoniae

Answer

A

has 90 different serotypes that differ in capsular polysaccharide but only one antibody can recognize one serotype capsule

Question 3

Q

epidemics

Answer

A

local population spread

Question 4

Q

influenza virus

Answer

A

displays genetic variation since antibodies rise against is tend to bind to hemagglutinin and neuroamindiase (glycoprotein of viral coat)

Question 5

Q

antigenic drift

Answer

A

RNA replication is error prone and can introduce mutations; this evolution through mutation allowing for survival is this.

Question 6

Q

pandemic

Answer

A

world wide spread i.e. viruses that emerge and are quite different from predecessors that can infect almost everyone

Question 7

Q

antigenic shift

Answer

A

strains that cause pandemics are recombinate viruses that derive from some RNA genome from a human influenza virus and some from an influenza virus that infects a different species

Question 8

Q

Trypanosomes

Answer

A

protozans like trypanosma brucei (sleeping sickness), S. typhimurium, N. honorrhoease.

Question 9

Q

gene conversion

Answer

A

what happens when a variable surface glycoprotein is produced one at a time but rearrangment makes the expression site into requred for synthesis

Question 10

Q

VSG gene

Answer

A

variable surface glycoproteines….for T. brucei there are more that 100 genes encoding this weird trypanosome surface glycoprotein

Question 11

Q

hemagglutinin and neuraminidase

Answer

A

glycoproteins of influenza’s viral envelope and where antibodies tend to bind

Question 12

Q

Trypanosome life cycle

Answer

A

involves both insect and human host where the insects transmit it to humans through bite.

Question 13

Q

Trypanosome surface

Answer

A

made of glycoprotein and has 1000 genes encoding for varibale surface glycoproteins (VSGs), but only produce one at a time. Need rearrangement into the expression site for synthesis, VSG genes are moved into this expression site by gene conversion. Different human antibodies have to be made every time the VSG switches.

Question 14

Q

Normal virus elimination

Answer

A

established viral infections are terminated by CD8 cytotoxic T cells after MHC class I presentation. Great for handling rapidly replicating viruses since there are more proteins around.

Question 15

Q

Viral latency

Answer

A

dorment non-replicating state of virus where they do not produce enough proteins form MHC class I presentation

Question 16

Q

M. tuberculosis and L. monocytogenesis

Answer

A

bacteria that live intracellularly after phagocytosis

Question 17

Q

Toxoplasma gondii

Answer

A

creates a specialized intracellular environment

Question 18

Q

Treponema pallidum (syphilis) and schistosome

Answer

A

coat themselves with human proteins

Question 19

Q

Ways viruses subvert immune system

Answer

A

capuring cytokine genes, inhibition of complement, and inhibition of MHC class 1 presentation and synthesis

Question 20

Q

Human Cytomegalovirus (HCMV)

Answer

A

Makes proteins aimed at MHC class 1 molecules. Some of the proteins lower MHC class 1 at the surface (should increase NK action) and other proteins block NK inhibitory receptor action responsible for sensing MHC class I

Question 21

Q

Staphylococcal enterotoxins and toxic shock syndrome toxin-1

Answer

A

These are superantigens

Question 22

Q

Superanitgens

Answer

A

Bind MHC class II and T-cell receptors together in absence of a specific antigen. This causes T cells to divide and differentiate randomly (polyclonal response) so the adaptive immune response is not specific or functioning. Causes a lot of IL-1, IL-2, TNF-a and thus systemic shock

Question 23

Q

Normal monomeric Iga

Answer

A

normally functions as an opsonin for delivery to phagocyte

Question 24

Q

Staphylococcal superantigen-like protein 7

Answer

A

(SSLP7) protein made by S. aureus which has binding sites for IgA and C5. Prevents IgA and C5 from working and stops bacteria from being phagocytosed

Question 25

Q

Pathology

Answer

A

the disease symptoms

Question 26

Q

Respiratory syncytial virus

Answer

A

(RVS) all of the symptoms are caused by T(h)2 cells responding to the infection and causing wheezing bronchiolitis. Vaccine just makes it worse by activating T(h)2 cells that produce cytokines on subsequent infection thus exacerbating the disease

Question 27

Q

Schistosoma mansoni

Answer

A

parasite who lays eggs which can get stuck in the liver. T(h)2 cells cause inflammation, hepatic fibrosis, and liver failure

Question 28

Q

Which of the following explains why Streptococcus pneumoniae can infect an individual recurrently?

Answer

A

Immune responses against S. pneumoniae are serotype-specific and protect only against strains that possess the same capsular polysaccharide antigens

Question 29

Q

The mode of evolution responsible for the production of recombinant influenza viruses composed of a genome derived from two different influenza variants is called .

Answer

A

antigentic shift

Question 30

Q

Which of the following contribute to new epidemics and the long-term survival of the influenza virus in the human population? (Select all that apply)

a. New viral strains possess epitopes not recognized by antibodies made in the previous epidemic
b. The first influenza strain provoking a primary immune response constrains the types of antibodies made during a subsequent encounter with a different strain
c. The RNA genome of the influenza virus is subject to point mutations during viral replication
d. The virus loses the capacity to express hemagglutinin, thereby rendering neutralizing antibodies useless
e. The virus uses gene rearrangement to achieve antigenic variation, which creates new epitopes

Question 31

Q

Trypanosomes escape from adaptive immunity by altering the type of expressed on the parasite surface.

Answer

A

variable surface glycoprotein

Question 32

Q

Which of the following are used by the herpes simplex virus to subvert host immune responses? (Select all that apply)

a. a virus-encoded Fc receptor
b. a virus-encoded complement receptor
c. inhibition of MHC class I expression
d. inhibition of peptide transport by transporter associated with antigen processing (TAP)
e. inhibition of ICAM-1 expression

Answer

A

a, b, c, d

Question 33

Q

Herpes simplex virus favors neurons for latency because of the low level of ____, which reduces the likelihood of killing by CD8 T cell.

a) LFA-3
b) Tool-like receptors
c) MHC Class I
d) MHC Class II

Answer

A

c) MHC Class I

Question 34

Q

The process whereby random mutations lead to viral evasion from previously developed immune responses, leading to epidemics is:

a) antigentic shift
b) antigentic drift
c) serotype switching
d) gene conversion

Answer

A

b) antigenic drift

Question 35

Q

“good” of inherited immunodeficiencies

Answer

A

There are over 150 with some more sever then others. However, their study and treatment has revealed a lot about the immune system

Question 36

Q

Inherited Immunodeficiency classification

Answer

A

dominant, recessive, or x-linked

Question 37

Q

Normal INF-gamma

Answer

A

major cytokine that activates macrohpages, induces phagocytosis, important in intravesicular infections (mycobacterial) is made by NK cells, T(h)1 CD4 T cells, and cytotoxic CD8 T cells.

Question 38

Q

Normal INF-gamma receptor

Answer

A

functions as a dimer to bind to Jak with activates STATs

Question 39

Q

INF-gamma receptor mutations

Answer

A

can be recessive or dominant and cause INF-gamma Receptor Deficiency

Question 40

Q

Recessive INF-g Receptor Mutation

Answer

A

no INF-gamma receptor at the surface leading to complete absence of INFgR1

Question 41

Q

Dominant INF-g Receptor Mutation

Answer

A

leads to no Jak binding and partial INFgR1 chain

Question 42

Q

Antibody deficiency

Answer

A

causes increase in infections by pyogenic bacteria (S. pyogenes, S. aureus)

Question 43

Q

pyrogenic bacteria

Answer

A

encapsulated like S pyogenes and S aureus, that cannot be recognized by professional phagocytes without antibody opsonization

Question 44

Q

X-Linked Agammaglobuinemia

Answer

A

(XLA was first immunodef found) Defective Btk kinase which is needed for growth and development of pre-B cells preventing mature B cells from forming. Females will have normal development in B cells with inactivated mutated X chromosome)

Question 45

Q

X-Linked Hyper IgM Syndrome

Answer

A

lack of functional CD40 needed for isotype switching

Question 46

Q

Complement Deficiency

Answer

A

Also tends to cause pyogenic infections, but can also cause buildup of immune complexes since early components of complement are important in elimination of immune complexes

Question 47

Q

Complement Activation Protein Deficiencies

Answer

A

can lead to increased infections and autoimmune-like states

Question 48

Q

C1, C2, C4 Deficiency

Answer

A

immune-complex disease

Question 49

Q

C3 Deficiency

Answer

A

Susceptibility to pyogenic bacteria

Question 50

Q

C5-C9 Deficiency

Answer

A

Susceptibility to Neisseria

Question 51

Q

Factor D, P Deficeincy

Answer

A

Susceptibility to encapsulated bacteria and Neisseria but no immune-complex disease

Question 52

Q

Factor I Deficiency

Answer

A

similar to C3 with increased pyogentic infections

Question 53

Q

DAF, CD59 Deficiency

Answer

A

Autoimmune-like conditions including paroxysmal nocurnal hemoglobinuria

Question 54

Q

C1INH Deficiency

Answer

A

Hereditary angioedemia (HAE)

Question 55

Q

Hereditary Angioneurotic Edema

Answer

A

HANE is an autosomal dominant disease caused by deficiency in complement regulator C1 inhibitor (C1INH). Causes swelling of face, laryn, abdomen, inactivates C1 protease, inhibits blood clotting proteases.

Question 56

Q

serpin

Answer

A

serine/cysteine protease inhibitor family…C1INH is one

Question 57

Q

Bradykinin

Answer

A

if high levels and fluid leaking out of the blood (edema)…due to C1INH not being around since it inhibits blood clotting proteases

Question 58

Q

Phagocyte Deficiency

Answer

A

Any defect in phagocytosis has a profound effect on infection clearance

Question 59

Q

Leukocyte adhesion deficiency

Answer

A

lack of integrin necessary for phagocyte homing….results in persistent extracellular bacterial infection

Question 60

Q

Chrongic granulomatous disease

Answer

A

CDG - defective NADPH oxidase….results in persistent bacterial infection and granuloma formation

Question 61

Q

Chediak-Higashi Syndrome

Answer

A

defect in vesicle fusion (phagocytosed material not delivered to lysosome)

Question 62

Q

Severe Combined Immune Dificiency

Answer

A

SCID can be caused by many different aspects of bad T cell development. Infants need to be in pathogen free environment and need bone marrow transplant and passive administration of antibodies

Question 63

Q

SCID causes

Answer

A

X-Linked (mutation in common gamma chain cytokine receptor, and Wiskott-Aldrich Syndrome), deficiency in Purine degradation, and Bare lymphocyte syndrome

Question 64

Q

Wiskott-Aldrich Syndrome

Answer

A

mutation in protein involved in cytoskeletal rearrangement needed for sytokine release and signaline

Answer 64

A

(adenosine deaminase and purine nucleoside phosphorylase) thought to lead to an increase in dATP whic hindibits nucleotide biosynthesis and thus DNA synthesis needed for proliferation

Answer 65

A

lack of MHC molecules from lack of AID or AIRE I think

Answer 66

A

Also increases intracellular bacterial infections (linked to INF-g defeciecies)

Answer 67

A

On NK and MO which are activated by IL-12 and leads to secreation of INF-g and macrophage activation. Oh T cells, IL-12 will induce differentiation into T(h)1 cells which then secrete INF-g for MO activation. On cytotoxic T cells, IL-12 activated leading to secretion of INF-g

Answer 68

A

immunodeficiency in SH2D1A (unknown function) leading to increased persistence of Epstien Barr Virus (EBV), which can lead to lymphoma

Answer 69

A

Bone marrow transplant, somatic gene therapy since most immunodeficiencies affect hematopoietic cells

Answer 70

A

Patient’s bone marrow destroyed by radiation and chemotherapy, followed by transplations of a graft from a healthy donor to reconsitute the entire hematopoiteic system

Answer 71

A

replacing the defective gene is being explored as an option

Answer 72

A

HLA Matching

Answer 73

A

reduces graft-versus-host disease, and ensures reconstitution of immune system. The recipient’s HLA molecules is what drives positive selection in T cell development, but the donor HLA molecules will be doing the presentation of peptides to T cells by antigen-presenting cells

Answer 74

A

response to allogeneic MHC molecules

Answer 75

A

driven by recipient HLA molecules

Answer 76

A

due to the donor HLA molecules

Answer 77

A

b) Hereditary Angioneurotic Endema (mutation of C1INH)

Answer 78

A

Early 1980s characterized by a large reduction in CD4 T cells and subsequent infection by pathogens that normally don’t infect healthy individuals, or by very aggressive lymphomas

Answer 79

A

isolated in 1983 (actually two types HIV-1 and HIV02 but HIV-1 is the principal cause

Answer 80

A

Late 1950s, its believed that the virus was caused by antigenic shift from primate virus

Answer 81

A

WHO estimated 33 million people are infected

Answer 82

A

RNA virus with ribonucleoprotein core, Retrovirus, nucleocapsid proteins (protease, reverse transcriptase, integrase) uses host cells transcription and translatio machinery to make virions

Answer 83

A

uses an RNA genome to direct synthesis of a DNA intermediate

Answer 84

A

HIV nucleocapsid protein, cleaves glycoprotein to produce gp41 and gp120 at surface

Answer 85

A

converts viral RNA genome into a complementary DNA (cDNA)

Answer 86

A

cDNA is integrated into the genome

Answer 87

A

1) virion binds to CD4 and co-receptor on T cell
2) Viral envelope fuses with cell membrane, and viral genome enters cell
3) reverse trascriptase copies viral RNA genome into double-stranded cDNA
4) Viral cDNA enters nucleus and integrates into host DNA
5) T-cell activation induces some transcription of provirus
6) RNA trascriptions are spliced to allow synthesis of early proteins Tat and Rev
7) Tat amplifies transcription of viral RNA. Rev increases transport of RNA to cytoplasm
8) Gag, Pol, and Env are made and assembled with viral RNA into virions which bud from the cell

Answer 88

A

CD4 T cells, dendritic cells, and macrophages since they all express CD4

Answer 89

A

is on outside of HIV and binds tightly to CD4 and a co-receptor (CXCR4(lymphocyte) or CCR5(MO))

Answer 90

A

mediates fusion of the viral envelope with the host cell plasma membrane

Answer 91

A

requires T cell activation since T-cell activation causes activation of transcription factor NF-kB which binds the promoter of the provirus, thus directing RNA transcription of viral RNAs

Answer 92

A

viral protein that binds long terminal repeat of viral mRNA known as the trascriptional activation region (TAP) to increases viral RNA transcription

Answer 93

A

viral protain that controls supply of viral RNA to the cytoplasm and RNA splicing

Answer 94

A

RNA to encode viral proteins

Answer 95

A

viral genomes

Answer 96

A

made from provirus and is the precursor to gp41 and gp120 after protease cleaves it.

Answer 97

A

either asymptomatic or flu-like, but dramatic decline of CD4 T cells, possible immune response with antibodies and cytotoxic T cells activation

Answer 98

A

2-6 weeks after initial HIV infection, when first exhibition of anti-HIV antibodies inblood serum. Slight rebound of CD4 T cells and patient is asymptomatic. Lasts 2-15 years (average 10) and the CD4 T cell population steadily declines until half of normal levels making effeciive immune response unlikely (sympotmatic phase)

Answer 99

A

Effective immune response does not exist, lasts until 20% of CD4 T cells remain…after full blown AIDs

Answer 100

A

Most HIV-infected individuals will progess to AIDs without medical treatment (seen by studying infection of hemophiliacs with contaminated blood.

Answer 101

A

Very small group of HIV infected people who do not progress to AIDs even with extensive exposure to virus like sex workers. Some even have cytotoxiv lymphocytes and T(h)1 cells directed against infected cells.

Answer 102

A

Causes resistance to HIV infection. Causes mild immunodeficenty. Might have come from selection for this mutation during plague and smallpox

Answer 103

A

plays a role as a chemokine receptor (also the MO co receptor that tightly binds to gp41 of HIV)

Answer 104

A

the mutation that causes the CCR5 deficiency. Only found in caucasians, and 10% of the population is heterozygous, 1% homozygous)

Answer 105

A

speeds up the progession to AIDs but there are some allotypes that slow the progression (present HIV peptides and activate NK cells)

Answer 106

A

Reverse transcriptase inhibitors, Protease inhibitors, Fusion/Entry inhibitors, Integrase inhibitors, multi-drug combinations, maturation inhibitors…31 FDA-approved drugs on market (ish)

Answer 107

A

nucleoside and non-nucleoside…prevent action of reverse transcriptase

Answer 108

A

prevents production of infectious viral particles

Answer 109

A

prevents viral fusion with host cell membrane

Answer 110

A

blacks integrase, required for viral cDNA incorporation

Answer 111

A

combines more than one drug class into a single product to prevent resistance…HAART

Answer 112

A

in development, prevent virion assembly and then prevent HIV outer coat assembly or viral budding)

Answer 113

A

highly active antiretrovial therapy…combo of antiretorviral drugs

Answer 114

A

very high since RNA has lack of proofreadind of reverse transcriptase. complicates vaccine development and effectiveness of antiviral drugs.

Answer 115

A

when drugs target a specific HIV viral process, the drug will lose effectivness as the virus mutates to be resistant to the drug. Resistance to protease drugs can start within days but then months for reverse transcriptase.

Answer 116

A

1) productive infection of CD4 T cells accounts for more than 99% of virus in plasma
2) Infected cells are short-lived (3-4days) so HIV must continually infect new cells
3) if virus production is blocked by a drug, the virus is rapidly cleared from the blood (neutralizing antibodies, complement, phagocytes)
4) CD4 T cell numbers will rapidly increase to replace those lost by infection

Answer 117

A

When during therapy the CD4 T cell numbers increase.. During this, a vast number of viruses and CD4 cells are produced and dying

Answer 118

A

Even with clinical latency, CD4 T cells will continue to decline until adaptive immune response is not effective and individuals are susceptible to other infections (resembles SCID)

Answer 119

A

usually from opportunistic infections with infectious agents already present in our body but normally under conrol.

Answer 120

A

Tend to be in oral and respiratory tract (Candida, M, tuberculosis)

Answer 121

A

herpesvirus reactivation can lead to shingles, B cell lymphoma (EBV), and Kaposi’s sarcoma (endothelial tumor)

Answer 122

A

very common caused by Pneumocystis carinii

Answer 123

A

Tend to recognize one or four epitopes on gp120 (all epitopes are in functinally relevant locations) and can be polyractive between two different antigens (gp120 and CD4)

Answer 124

A

1 in 500 make antibodies that neutralize a broad range of HIV-1. Targeting this natural production or using passive immunization could be HIV treatments.

Answer 125

A

overreactions of the immune system to harmless environmental agents

Answer 126

A

environmental agents that drive hpersensitivity reactions

Answer 127

A

10-40% of the population in developed countries

Answer 128

A

Inhaled (pollen, dust mite feces), Injected (insect venom, drugs), Ingested Material (peanuts, shellfish), Contacted Material (plant oil, metal)

Answer 129

A

binding of antigen to IgE, principally on mast cells (typically inhaled antigens) – sometimes referred to as immediate hypersensitivity

Answer 130

A

covalent binding of small molecules producing foreign-looking particles – B cell response leads to IgG production (e.g. penicillin allergy)

Answer 131

A

immune complexes deposit on tissue walls and cause damage (e.g. nonhuman antibodies and proteins used in therapy)

Answer 132

A

lipid-soluble antigens covalently bind to intracellular proteins, yielding abnormal peptides during MHC presentation – thus effector T cells are involved (also called delayed-type hypersensitivity)

Answer 133

A

Too large to be easily phagocytosed so expulsion is the major immune response. IgE is protective in multicellular parasite infections and central component of T(h)2 response.

Answer 134

A

Helminth stimulates T(h)2/IgE to aid in poly clonal response. Adaptive immune further kicks in the cytokines, IgG, expanded eosinophil, basophil, mast cell populations. 1.5 billion people persistently infected)

Answer 135

A

vaccination, improved, hygiene and antibiotics are great but might hold back a child’s developing immune system. Could lead to immune system being poorly educated and overreacting to false dangers…like allergies

Answer 136

A

B cells have highly specific immunoglobulins on the surface but are committed to only one. Mast cells bind soluble antibodies to their receptors in a non antibody-specific way….leads to polyspecific mast cells

Answer 137

A

Expressed on mast cells, eosinophils, basophils which all have granules containing inflammatory mediators. When IgE binds to its antigen, degranulation causes release of inflammatory mediators.

Answer 138

A

IgE has an extremely high affinity for the Fc receptor Fc(e)RI and binds even in the absence of antigen. IgE can also bind to the Fc(e)RII receptor

Answer 139

A

Action is immediate (no cell proliferation needed) and cells can have multiple IgE receptors bound.

Answer 140

A

present in mucosal tissue, spithelial tissues, and vascularized tissue. There to alert the immune system to local trauma and help repair damage from wounds and infection. Contain 50-200 inflammatory mediator filled granules. Can also use cytokines to recruit other cells to infected tissued

Answer 141

A

Histamine, Heparin, TNF-a, Proteases, other degenerative enzymes

Answer 142

A

happens withing seconds of IgE molecules crosslinking

Answer 143

A

Exerts a variety of responses included vessel permeability and smooth muscle contraction. Depending on the effected tissue, can induce sneezing, caughing, wheezing, vomiting, and diarrhea.

Answer 144

A

promotes leukocyte homing

Answer 145

A

prostaglandins and leukotrienes which both come from arachidonic acid

Answer 146

A

will act similar to histamine

Answer 147

A

promotes dilation and vessel permeability. enzyme that produces is target for aspirin and thus inactivates the prostaglandin.

Answer 148

A

most reside in tissue, gruanules contain arginine-rich basic proteins and toxic molecules aimed at microorganisms and parasites, also make prostaglandinss, leukotrienes, and pro inflamm cytokines, controlled by presence at low levels and modulation of Fc receptor presence

Answer 149

A

presence of high numbers of eosinophils which can cause heart damage and neurophathy

Answer 150

A

Granules similar to mast cells, <1% WBC, seems important for T(h)2 response (secretes Th2 cytokines), activated via TLR, express CD40 lignad to allow for B cell activation and driving of isotype switching to IgE and IgG4

Answer 151

A

Systemic anaphylaxis intravenous or after rapid absorption or drugs, serum, venom, peanutes. Wheal and flare from subcutaneous insect bites or allergy testing. Allergic rhinitis (hy fever) from inhaled pollens. Bronchial asthma from inhaled pollens. Food allergy for oral eating.

Answer 152

A

Most are small, soluble proteins on dried up particles of plants or animals (pollen or cat dander). Inhalation and association with mucus rehydrates dried particle releasing antigen. Takken up by APC, then Th2 response. This promotes IgE response

Answer 153

A

The dust mite that produces a protease which is related to proteases used in meat tenderizing, laundrgy detergent, and medicine. 20% of allergies in North America caused by this.

Answer 154

A

the predisosed state to allergies. up to 40% of the population is more likely to develop allegies.

Answer 155

A

only 50% of atopy is due to genetics but is very complicated with different polymorphisms in many different genetic loci. 6 loci in asthma predisposition are involved in stimulation of antigen-specific IgE while others are tissue specific.

Answer 156

A

Produced within a few minutes of immediate reaction from allergen injection. Caused by IgE-mediated degranulation of mast cells causing local swelling. Last up to 30 minutes for Immediate-Phase Response.

Answer 157

A

6-8 hours after the immediate action during allerby testing, there can be more widespread swelling.

Answer 158

A

skin tests cannot assess allergens that cause asthma (breathing must be monitored)

Answer 159

A

depends on the location since only the mast cells at the site of exposure degranulate so that molecules and reactions are short lived. Normally mucus of respiratory and GI tract, blood, or connective tissue. ALso wanting to expulse antigen

Answer 160

A

when allergen in bloodstream causes widespread activation of connective tissue mast cells. Increases vascular permeability and constriction of smooth muscle, loss of fluid from blood, death with asphyxiation by airway constriction and epiglottis swelling. From venoms, drugs, peanuts.

Answer 161

A

loss of fluid from blood causing rapid lowering of blood pressure

Answer 162

A

epinephrine, which reduces permeability and relaxes bronchial smooth muscle.

Answer 163

A

hemolytic anemia (destruction of red blood cells) and or thrombocytopenia (destruction of platelets)

Answer 164

A

Become coated in C3b since complement is activated from the bacterial infection the penicillin is treating. MO uptake these and present peptides of penicillin-protein conjugate to CD4 T cells which become Th2 cells. Be cells also activated, activate Th2, plasma cells make IgE for penicillin, arm mast cells, anaphylaxis

Answer 165

A

most common entry of allergens come from inhalation causing this

Answer 166

A

allergic rhinitis - sneezing and runny nose caused by inhaled allergens that stimulate mast cells in mucosa of nasal passages – can also spread to eyes, ears and throat, leading to accumulation of fluid and potential bacterial infection

Answer 167

A

130 million people world wide. triggered by mucosal mast cells in respiratory tract getting activated by inhaled allergens. Causes mucus secretion and brochial constriction. Can be acute or chronic.

Answer 168

A

Chronic inflammation in asthma patients can cause chronic asthma, where inflammation develops even in the absence of allergen (likely caused by other environmental factors or infections of the respiratory tract)

Answer 169

A

the itchy swelling things when mast cells in the skin cause histamine release (also if allergen is in the blood)

Answer 170

A

can happen if activation of mast cells in deeper subcutaneous tissue occurs (also if allergen is in the blood)

Answer 171

A

more prolonged allergic response that causes skin rash and fluid discharge

Answer 172

A

Occurs when people that are sensitized to a particular protein eat a food containing it and the degradation of the proteins lead to peptides that can be presented to T(h)2 cells. Very few food peptides recognized by IgE. Reaction from mast cells in GI tract causing fluid leakage, smooth muscle contraction, cramping, vomiting, diarrhea.

Answer 173

A

Behavior and environment modification, parmacological, immunological

Answer 174

A

avoid foods, refunish house, pollen avoided

Answer 175

A

Antihistamines, corticosteroids, cromolyn sodium, epinepherine

Answer 176

A

reduce rhinitis and urticaria

Answer 177

A

suppress asthma, eczema, rhinitis

Answer 178

A

asthmatic inhaler

Answer 179

A

prevent anaphylactic reactions

Answer 180

A

shifts antibody response from producing IgE to IgG through desensitization (gradual increase of exposure to and allergen or vaccination or an allergen)

Answer 181

A

have a non-random X inactivation in their B cells

Answer 182

A

Wiskott-Aldrich syndrome protein (WASP)

Answer 183

A

adenosine deaminase (ADA)

Answer 184

A

absence of proofreading capability of reverse transcriptase

Answer 185

A

cyclooxygenase

Answer 186

A

From RBC types having different carbohydrates on glycolipids. ABO.

Answer 187

A

Genetic barriers are not extreme, erythrocytes lack MHC so it is only dependent on ABO and rhesus antigens. Patients and donors typed to see if antibodies react with donor blood

Answer 188

A

expressed on endothelial blood vessels which becomes important for solid organ transplant

Answer 189

A

ABO reaction that would produce antibodies that fix complement in the vasculature throughout the graft. Similar to a type II hypersensitivity. Can also be caused by HLA class I molecules on vascular endothelium.

Answer 190

A

cross-match testing done before transplant to see if any antibodies will induce complement-mediated lyksis of donor lymphcytes

Answer 191

A

could be present before a transplant due to pregnancy, blood transfusion, or from a previous transplant

Answer 192

A

can stimulate alloreactive immune response – placenta segregates fetal and maternal circulation to prevent maternal B and T cells from being stimulated by fetal alloantigens

Answer 193

A

can enter maternal circulation during birth which can make antibodies against paternal HLA

Answer 194

A

HLA-incompatible leukocytes can promote antibody production

Answer 195

A

PRA assessing sensitization of an individual to population

Answer 196

A

antigens that vary between members of the same species

Answer 197

A

depends on the type of tissue. transplant rejection (solid organs targeting of transplanted tissue) and graft-versus-host disease (bone marrow, attack of recipient tissue)

Answer 198

A

when there is an organ transplant performed across HLA differences and the recipient T cells produce a response that destroys organ graft. can be prevented/reduced with immunosuppressive drugs and/or anti-T cell antibodies

Answer 199

A

inflamed state activates donor dendritic cells which drain inot secondary lympoid tissues; alloreactive T cells are activated by donor dendritic cells and directly target graft tissue

Answer 200

A

loss of blood to organ…seen in inflammed organs. usually already a problem for someone receiveng an organ

Answer 201

A

can take months or years to develop and is characterized by thickening of the vasculature vessel walls and narrowing of the lumina, Causes decreased blood supply (ischemia), loss of graft function, and graft death. 50% of kidney and heart transplants within 10 years of transplats. Correlated with antibodies to HLA class I

Answer 202

A

donor dendritic cells die by apoptosis, membrane fragments (may include donor HLA molecules) taken up by recipient dendritic cells so recipient dendritic cells present HLA fragments via Class II mechanism and activated CD4 T cells which active B cells to produce anti-HLA antibodies

Answer 203

A

Anti-inflammatory properties that change gene expression by binding to intracellular receptors associated with Hsp90 causing release fro Hsp90 so the steroid receptor can travel into nucleus and bind sterouid regulator elements. Inhibits NF-kB

Answer 204

A

Made of microbial products that inhibit T cell activation. Cyclosporin binds to cyclophilins and inhibits calcineurin so NFAT cannot be activated.

Answer 205

A

immunosuppresive drug with similar action of cyclosporin.

Answer 206

A

inhibit T cell activation but also inhibit B cell activation and granulocytes (no t cells to activate these). they dont target dividing cells

Answer 207

A

immunosuppressive drug that block IL-2 signaling and inhibits T/B cell activation

Answer 208

A

example is serum sickness which used to be caused by horse serum being injected to treat scarlet fever, diptheria, and tetanus.

Answer 209

A

deposition of small immune complexes of antibodies against horse protain or if monoclonal antibodies are used as therapeutics and sometimes those who’s heart attack is treated with streptokinase to dissolve blood clots

Answer 210

A

potent negatice regulator of T-cell activation by binding to B7 on APC

Answer 211

A

soluble form of CTLA4 fused to immunoglobulin constant region to block B7 on APC binding to CD28 on T cells ….is immunosuppressive drug

Answer 212

A

block high-affinity IL-2 receptor and blocks T cell activation

Answer 213

A

kill prolierating lymphocytes by inhibiting DNA replication by inhibiting purine or pyrimidine biosynthesis, crosslinking DNA molecules, or something else

Answer 214

A

Kills all dividing cells so it focuses on bone marrow, intestinal epithelium, and hair follicles, but can also cause tissue damage leading to cancer

Answer 215

A

azathioprine, merceptopurine, thioinosinic acid, mycophenolic acid, methotrexate, cyclophophamide, phesphoramid mustard

Answer 216

A

inherited genetic diseases of white and red blood cells systems, some cancers are treated with autologus transplants and some with allogentic

Answer 217

A

comes from self

Answer 218

A

comes form donor

Answer 219

A

minimize transplant complications and also vital for normal immune cell function

Answer 220

A

all blood cells including APC come from hematopoietic system (donor) and T cells develop in recipien’s thymus so HLA molecules in the thyum are responsible for positive selection (revipient) must resemble those of APC (donors)

Answer 221

A

most common alloreaction and acute autoimmunity can be fatal. mature T cells from graft (donor) will interact with recipient dendritic cells where they will be stimulated and differentiated into effector cells. Can create inflammation in tissues including skin, intestinal epithelium, and liver via cytokine storm

Answer 222

A

almost all bone marrow transplants result in graft-versus-host diease but the severity depends on how close the HLA matching is

Answer 223

A

removal of patient’s own bone marrow cells and saving of non-tumor stem cells for reimplantation

Answer 224

A

now we can just isolate hematopoetic stem cells from peripheral blood instead of taking bone marrow

Answer 225

A

H-Y antigens derived from proteins on Y chromosome which can lead to GVHD even after HLA cross-matching between siblings (especailly bad for males). Presented by HLA class I

Answer 226

A

remove T cells from graft before transplant…will reduce GVHD but increases graft failure and cancer replapse

Answer 227

A

can be used as an alternative to chemotherapy and irradiation, especaily when patient cannot find HLA-match donor. Alloreactive T cells target the leukemia cells.

Answer 228

A

when family member may share one HLA haplotype

Answer 229

A

after T cells are removed and anti-T cells antibodies are infused (prevent GVHD), NK cells can go against leukemia cells needed to prevent relapse based on action of KIR receptors

Answer 230

A

failures in maintenance of self tolerance and by action of the immune system itself attacking cells of the body but can vary widely in tissues attacked and symptoms caused

Answer 231

A

autoantibodies, and T cells that recognize autoantigens (reffered to as autoimmune T cells)

Answer 232

A

regulatory proteins prevent fixation of compliment on human cells, innate imunity recognition molecules can distinguish between microbial and human componenets, B and T cells are subjected to negative selection or become anergenic, regulatory T cells also actively suppress autoimmune cells, and tissues like the brain, eyes, testies, pregnant uteruses are not accessible to ciruclating leukocytes

Answer 233

A

by the effector mechanisms that cause the disease and three types correspond to types II, III, and IV hypersensitivity in terms of effector mechanisms

Answer 234

A

antibody against cell-curface or matrix antigens

Answer 235

A

Immune-complex disease

Answer 236

A

T cell-mediated disease

Answer 237

A

corresponds to type II - IgG and IgM bind to components of RBC and activate classical compliment )

Answer 238

A

cause lysis (membrane attack complex) and or phaocytosis (spleen)

Answer 239

A

facillitates phagocytosis but WBC can still function with autoantibodies and complement on suface

Answer 240

A

treatment for WBCs with autoantibodies and complement

Answer 241

A

express tissue-specific proteins and there is vascularization of tissue…makes very prone to autoimmune disease and the majority of autoimmune diseases

Answer 242

A

when autoimmune diseases affect endocrine glands and target one type of cell in that gland

Answer 243

A

malfuntion can cause autoimmunity called APECED

Answer 244

A

hashimoto’s thryoiditis, Graves’ disease, subacute tyroiditis, isiopathic hypothyroidism

Answer 245

A

Type 1 diabetes, Type 2 diabetes

Answer 246

A

Addison’s disease

Answer 247

A

a lot…especailly finish people

Answer 248

A

antibodies against type IV collagen (in basement membranes…extracellular protein…rare) then deposit in renal tubules and glomeruli casing renal inflammation and failure while blood not being filtered. Treatment is plasma exchange and immunosuppressive drugs

Answer 249

A

(systemic autoimmune disease) autoantigens for almost every cell of body specifically ciruclateing IgG for cell curface, cytoplasm and nucleus, including nucleic acids.

Answer 250

A

antibodies against cell surface moelcules cause finlammation, cell destruction, and release of intracellular antigens…exacerbating symptoms.

Answer 251

A

majority will have failure of vital tissues like kidneys and brain….the frist system is butterfly rash on face. 1/500 women of african or asian descent affected

Answer 252

A

how the broad antibody response in lupus develops - destruction of cells by surface recognition causes release and recognition of intracellular contents

autoreactive T cells recognize peptides from nucleosomal complex and then activate multiple B cell types that can present the complex
activated b cells further amplify T cell response by activating different T cells that recongize different nucleosmal components

Answer 253

A

regulates basal metabolic rate through the action of two hormones – tri-iodothyronine (T3) and thyroxine (T4) – iodinated derivatives of tyrosine while the epithelial cells make thyroglobulin which needs iodine.

Answer 254

A

normally when metabolic rate increase is needed, the pituitary secretes this

Answer 255

A

stimulates endocytosis of thryoglobulin which then degrades to release T3 and T4 (then shuts down TSH release)

Answer 256

A

thyrogolbulin, thyroid peroxidase, TSH receptor, thryoid iodide transporter

Answer 257

A

– antibodies to TSH receptor – mimics TSH and causes overproduction of thyroid hormones (hyperthyroid conditions) – results in heat intolerance, nervousness, irritability, weight loss – treatment is drugs to inhibit thyroid function

Answer 258

A

– thyroid loses capacity to produce thyroid hormones (destruction of thyroid tissues) – treatment is replacement of thyroid hormones

Answer 259

A

infiltrating immune-system cells that organize into structures resembling microstructures of secondary lympoid tissue (feature of hashimoto) and even can do similar functions (B and T cell activation, B cell somatic hypermutation and isotype switching)

Answer 260

A

drives formation of ectopic lymphoid tissue

Answer 261

A

rheumatoid arthritis, graves, MS, and is other chronicaaly infected individuals

Answer 262

A

healthy people also have autoimunity!

Answer 263

A

mother with graves has anti-TSHR antibodies, cross placents, baby has it, plasmapheresis removes maternal anti-TSHR antibodies and cures infant

Answer 264

A

insulin-dependent - destruction of insulin producing cells in pancreus …1/300 europeans

Answer 265

A

responsible for secretion of pancreas hormones

Answer 266

A

raises antibodies and T-cell responses to insulin, glutamate decarboxylase, and other specialized proteins of the pancreatic beta cells causing their destruction and insulitis

Answer 267

A

commonly affects joints causing inflammation. the inflammatory response caused by secretion of prostaglandins, leukotrienes, lysosomal enzyems, TNF-a, IL-1, IL-6, IL-17.

Answer 268

A

most common rheumatological disease affecting 1-3% of US with chronic joint inflammation. Rheumatoid factor normally present

Answer 269

A

IgM, IgG, and IgA antibodies sepecific for Fc region of IgG (anti-immunogolbulin antibodies)

Answer 270

A

combination of phsiotherapy and anti-inflammatory and immunosuppresive drugs

Answer 271

A

infliximab and rituximab (biologics)

Answer 272

A

anti-TNF-a monoclonal antibody which eliminates the cytokine and reduces C-reactive protein driven inflammation

Answer 273

A

– anti-CD20 monoclonal antibody which depletes B cells through antibody-mediated cytotoxicity

Answer 274

A

MS, Myasthenia gravis

Answer 275

A

autoimmune response against myelin sheath of nerve cells – causes motor weakness, impaired vision, lack of coordination, spasticity

Answer 276

A

TH1 CD4 T cells and IFN-g which activates macrophages that release proteases and cytokines leading to demyelination

Answer 277

A

IFN-b1 injections and high doses of immunosuppressive drugs

Answer 278

A

disruption of neuromuscular junction signalins where autoantibodies to acetylcholine receptors cause internalization and destruction. treat with pyridostigmine

Answer 279

A

inhibitor of cholinesterase (degrades acetylcholine

Answer 280

A

immune response to gluten proteins so that CD4 T cells respond to the peptides activate tissue MO thus secreteing pro-inflammatory cytokines into SI. Atrophy of villi, no nutrient absorption, diarrhea

Answer 281

A

genetic predisposition to celiacs because peptides with glutamine residues converted to glutamate presented by this allotype

Answer 282

A

drives cancer

Answer 283

A

encapsulated tumors

Answer 284

A

continually increase size and invade adjacent tissues

Answer 285

A

spreading of cancer in blood/lymph to secondary site

Answer 286

A

mutated gene in cancer that normally positively contributes to growth

Answer 287

A

genes that prevent unwanted proliferation of mutatnt cells

Answer 288

A

germline mutation that is a genetic factor influencing cancer development

Answer 289

A

chemical agents, UV light, radiation, cigarette smoke

Answer 290

A

generally cause single base subsititutions

Answer 291

A

cause grosser DNA damage by breaking dna, crosslinking nucelotides, and abnormal recomination

Answer 292

A

viruses that can transform cells and are thus associated with 15% of human cancers

Answer 293

A

typrical method by being chronic and override normal cell division control (Epstein-Barr drives B cell proliferation)

Answer 294

A

prevent normal tumor suppressor function and thus predispose for cancer (papillomavirus proteins inhibit p53 and Rb) and then other virusus just lead to cancer through tissue damage and renewal

Answer 295

A

there is a lowering of MHC class I which NK cells sense and cytotoxic T cells aid in cancer immunosurveillance

Answer 296

A

can go years without imune system noticing since there isn’t any tissue damage or inflammation.

Answer 297

A

some cancer patients see tumor shrinkage

Answer 298

A

almost all cancer patients make tumor antigens

Answer 299

A

antigens expressed on tumor cells but not normal cells

Answer 300

A

antigens expressed at higher amounts by tumor cells

Answer 301

A

means of deriving some tumor peptide antigens

Answer 302

A

tumor cells normally have increased MIC expression
NKG2D on NK and gamma:delta T cells bind to MIC, killing the tumor cells
a variant tumor cell expresses a protease that cleaves MIC from its surface
soluble MIC binds NKG2D on lymphocytes
variant tumor not killed and proliferates causing cancer

Answer 303

A

tumor antigens can be presented to T cells by dendritic cells that lack B7 which causes T cell anergy for the T cells that recognize the tumor-specific antigen

Answer 304

A

promotes immune response and degradation of tumor cells causing cancer regression

Answer 305

A

tumor treatment that uses cells engineered to combat tumors or to present tumor-antigens to activate the immune response. either specific target or a ‘vaccine’ to prime immune response

Answer 306

A

if for tumor-specific antigens, then can be used to diagnose tumors/where they originated but they can also be used to target tumor cells

Answer 307

A

use of monoclonal antibodies to target tumor cells

Answer 308

A

cytotoxic drugs, biological toxins, radioactive isotopes….aka immunotoxins

Answer 309

A

anti-CD30 antibody that binds to lymphoma, internalization delivers the anti-mitotic drug aurstain to prevent division.

Answer 310

A

transplant rejection

Answer 311

A

cause hyperacute rejection

Answer 312

A

the more limited the number of suitable transplant donors

Answer 313

A

dendritic cells; donor

Answer 314

A

acute graft-versus-host disease

Answer 315

A

Mature T cells

Answer 316

A

Kaposi’s sarcoma

Answer 317

A

Epstein-Barr virus; B cells

Answer 318

A

cleavage of MIC at the cell surface by a protease

Answer 319

A

pituitary gland; thyroglobulin

Answer 320

A

rheumatoid factor

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Exam 4 Flashcards

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