Steve Irwin's Immunology Intellegence Flashcards

Question 1

Q

Lymph nodes are

Answer

A

secondary lymphoid organs that have many afferents, 1 or more efferents. Encapsulated, with trabeculae. Functions are nonspecific filtration by macrophages, storage of B and T cells, and immune response activation. Functions are nonspecific filtration by macrophages, storage of B and T cells and immune response activation.

Question 2

Q

Follicle of a lymph node

Answer

A

Site of B cell localization and proliferation. In outer cortex. primary follicles are dense and dormant. secondary follicles have pale central germinal centers and are active

Question 3

Q

Medulla of lymph node

Answer

A

Consists of medullary cords (closely pack lymphocytes and plasma cells) and medullary sinuses. Medullary sinuses communicate with efferent lymphatics and contain reticular cells and macrophages.

Question 4

Q

Paracortex of lymph node

Answer

A

Houses T cells. Region of cortex between follicles and medulla. Contains high endothelial venules through which T and B cells enter from blood. Not well developed in patients with DiGeorge syndrome.

Question 5

Q

Cervical Lymph nodes drain what area of the body

Answer

A

Head and Neck

Question 6

Q

Hilar Lymph nodes drain what area of the body

Question 7

Q

Mediastinal Lymph nodes drain what area of the body

Answer

A

Trachea and esophagus

Question 8

Q

Axillary Lymph nodes drain what area of the body

Answer

A

Upper limb, breast, skin above umbilicus

Question 9

Q

Celiac Lymph nodes drain what area of the body

Answer

A

Liver stomach spleen pancreas and upper duodenum

Question 10

Q

Superior mesenteric Lymph nodes drain what area of the body

Answer

A

Lower duodenum, jejunum, ileum, colon to splenic flexure

Question 11

Q

Inferior Mesenteric Lymph nodes drain what area of the body

Answer

A

Lower rectum to anal canal above the pectinate line, bladder, vagina (middle third), prostate

Question 12

Q

Para-aortic Lymph nodes drain what area of the body

Answer

A

Tests, ovaries, kidneys, uterus

Question 13

Q

Superficial inguinal Lymph nodes drain what area of the body

Answer

A

Anal canal (below pectinate line), skin below umbilicus (except popliteal territory)

Question 14

Q

Popliteal Lymph nodes drain what area of the body

Answer

A

Dorsolateral foot posterior calf

Question 15

Q

Right lymphatic duct drains what are

Answer

A

drains right side of body above diaphragm

Question 16

Q

Sinusoids of spleen

Answer

A

long, vascular channels in red pulp with fenestrated barrel hoop basement membrane. Macrophages found nearby

Question 17

Q

Where are T and B cells found in spleen

Answer

A

T cells: found in periarterial lymphatic sheath within the white pulp
B cells: found in follicles within the white pulp of the spleen.

Question 18

Q

What happens in the marginal zone of spleen

Answer

A

In between the red and white pulp: contains APCs and specialized B cells, where APCs present blood-borne antigens

Question 19

Q

Macrophages in the spleen do what?

Answer

A

Remove encapsulated spleen

Question 20

Q

Splenic dysfunction will lead to what

Answer

A

Decreased IgM leading to decreased complement causing decreased C3b opsonization and increased susceptibility to encapsulated organisms
Leads to infections form SHiNE SKiS:
Strep pneumoniae, H Influenza, Neisseria meningitidis, E coli, Salmonella, Klebsiella pneumoniae, group b Strep.

Question 21

Q

Thymus function:

Answer

A

Site of T cell differentiation and maturation. Encapsulated. from epithelium of 3rd pharyngeal pouch. Lymphocytes of mesenchymal origin. Cortex is dense with immature T cells; medulla is pale with mature T cells and Hassal corpuscles containing epithelial reticular cells.

Question 22

Q

Components of innate immunity

Answer

A

Neutrophils, macrophages, monocytes, dendritic cells, NK cells (lymphoid origin), complement

Question 23

Q

Components of adaptive immunity

Answer

A

T cells, B cells, circulating antibodies

Question 24

Q

What are the secreted proteins of innate immunity

Answer

A

lysozyme, complement, CRP, defensins

Question 25

Q

How does innate immune system recognize pathogen

Answer

A

Toll like receptors: pathogen recognition receptors that recognize pathogen-associated molecular patterns (PAMPs). Examples of PAMPs are LPS, flagellin, ssRNA

Question 26

Q

Gene loci of MHC I

Answer

A

HLA-A, HLA-B, HLA-C

Question 27

Q

Gene loci of MHC II

Answer

A

HLA-DR, HLA-DP, HLA-DQ

Question 28

Q

MHC I: binds

Answer

A

TCR and CD8

Question 29

Q

MHC II: binds

Answer

A

TCR and CD4

Question 30

Q

Function of MHC I

Answer

A

Present endogenously synthesized antigens (e.g. viral) to CD8+ cytotoxic T cells

Question 31

Q

Function of MHC II

Answer

A

Present exogenously synthesized proteins (e.g. bacterial proteins, viral capsid proteins) to T-Helper Cells

Question 32

Q

How is antigen loaded in MHC I

Answer

A

antigen peptides loaded onto MHC I in RER after delivery via TAP peptide transporter

Question 33

Q

How is antigen loaded in MHC II

Answer

A

Antigen loaded following release of invariant chain in an acidified endosome

Question 34

Q

HLA subtypes associated with: Hemochromatosis

Question 35

Q

Diseases associated with B27 HLA

Answer

A

Psoriatic arthritis, Ankylosing spondylitis, arthritis of Inflammatory bowel disease, Reactive arthritis (PAIR)
This group of disorders is called seronegative arthropathies

Question 36

Q

HLA subtypes associated with: Celiac disease

Question 37

Q

Diseases associated with HLA DR2

Answer

A

Multiple sclerosis, hay fever, SLE, Goodpasture syndrome

Question 38

Q

Diseases associated with HLA DR3

Answer

A

Daibetes mellitus type 1, SLE, Graves disease

Question 39

Q

Diseases associated with HLA DR4

Answer

A

Rheumatoid arthritis, diabetes mellitus type 1

“there are 4 walls in a rheum”

Question 40

Q

Diseases associated with HLA DR5

Answer

A

pernicious anemia causing vitamin B12 deficiency, Hashimoto thyroiditis

Question 41

Q

Natural killer cells

Answer

A

Uses perforin and granzymes to induce apoptosis of virally infected cells and tumor cells. Only lymphocyte member of innate immune system.
Actively enhanced by IL-2, IL-12, IFN-beta, and IFN-alpha
induced to kill when exposed to a nonspecific activation signal on target cell and/or to an absence of MHC 1 on target cell surface.
Also kills via antibody-dependent cell-mediated cytotoxicity (CD16 binds Fc region of bound Ig, activating the NK cell).

Question 42

Q

Major functions of B cells

Answer

A

Recognize antigen-undergo somatic hypermutation to optimize antigen specificity. Produce antibody-differentiate into plasma cells to secrete specific immunoglobulins.
Maintain immunologic memory-memory b cells persist and accelerate future response to antigen

Question 43

Q

major functions of T cells

Answer

A

CD4+: help B cells make antibody and produce cytokines to activate other cells of immune system
CD8+: T cells kill virus infected cells directly. Delayed cell-mediated hypersensitivity (Type IV)
Acute and chronic cellular rejection
Rule of 8 “MHC 2 x CD4=8 and MHC 1 x 8=8”

Question 44

Q

Differentiation of T cells: Positive selection

Answer

A

happens in thymic cortex, T cells expressing TCRs capable of binding surface self MHC molecules survive

Question 45

Q

Differentiation of T cells: negative selection

Answer

A

Medulla. T cells expressing TCRs with high affinity for self antigens undergo apoptosis

Question 46

Q

How to get to a Th1 cell from a helper T cell

Question 47

Q

how to get to a Th2 cell from a helper T cell

Question 48

Q

How to get to a TH17 cell from a helper T cell

Answer

A

TGF-beta + IL-6

Question 49

Q

How to get to a Treg cell from a helper T cell

Question 50

Q

Naive T cell activation

Answer

A

foreign antigen is phagocytosed by dendritic cell
foreign antigen is presented on MHC II and recognized by TCR on Th (helper) cell. Antigen is presented on MHC I to Tc (cytotoxic) cell.
Costimulatory signal is given by interaction of B7 (on dendritic) and CD28 (on T cell)
Th cell activates and produces cytokines. Tc cell activates and is able to recognize and kill virus infected cell

Question 51

Q

B cell activation and class switching

Answer

A

helper T cell activation is completed
B cell receptor-mediated endocytosis; foreign antigen is presented on MHC II and recognized by TCR on Th cell.
CD40 receptor on B cell binds CD40 ligand on Th cell
Th cell secretes cytokines that determine Ig class switching of B cell. B cell activates and undergoes class switching, affinity maturation, and antibody production

Question 52

Q

Th1 helper T cell: activated by? Activates? Inhibited by?

Answer

A

Secretes IFN-gamma
Activates macrophages and cytotoxic T lymphocytes (CD8)
Inhibited by IL-4 and IL-10 (from Th2 cells)

Question 53

Q

Th2 cells: activated by? Activates? inhibited by?

Answer

A

secretes IL-4, IL-5, IL-6, IL-13
Recruits eosinophils for parasite defense and promotes IgE production by B cells
Inhibited by IFN-gamma (from Th1 cells)

Question 54

Q

Macrophage-Lymphocyte interaction

Answer

A

Macrophages release IL-12, which stimulates T cells to differentiate into Th1 cells, Th1 cells release IFN-gamma to stimulate macrophages.

Question 55

Q

Cytotoxic T cells

Answer

A

kill virus infected, neoplastic, and donor graft cells by inducing apoptosis.
Release cytotoxic granules containing preformed proteins (perforin-helps to deliver the content of granules into target cell, granzyme B- a serine protease, activates apoptosis inside target cells; granulysin-antimicrobial, induces apoptosis).
Cytotoxic T cells have CD8, which binds to MHC I on virus-infected cells

Question 56

Q

Regulatory T cells

Answer

A

Help maintain specific immune tolerance by suppressing CD4 and CD8 T cell effector function. Identified by expression of cell surface markers CD3, CD4, CD25 (alpha chain of IL-2 receptor), and transcription factor FOXP3
Activated regulatory T cells produce anti-inflammatory cytokines like IL-10 and TGF-beta

Question 57

Q

Fab region of antibody

Answer

A

Antigent-binding fragment

Determine idiotype: unique antigen binding pocket; only 1 antigenic specificity expressed per B cell

Question 58

Q

Fc region of antibody

Answer

A

Constant, Carboxy terminal, Complement binding, Carbohydrate side chains, Determines isotype (IgM, IgD….)`

Question 59

Q

Antibody diversity is generated by

Answer

A

Random Recombination of VJ (light chain) or V(D)J (heavy chain) genes
random combinations of heavy chains with light chains
Somatic hypermutation following antigen stimulation
Addition of nucleotides to DNA during recombination by terminal deoxynucelotidyl transferase

Question 60

Q

what part of antibody recognizes antigen

Answer

A

Variable part of the L and H chains

Question 61

Q

Fc portion of IgM and IgG fixes what

Answer

A

fixes complement

Question 62

Q

What do the heavy and light chains contribute to in the structure of an antibody

Answer

A

Heavy: both Fc and Fab fractions
Light: only Fab fraction

Question 63

Q

What do mature B lymphocytes express on their surface

Answer

A

IgM and IgD
(may differentiate in germinal centers of lymph nodes by isotype switching into plasma cells that secrete IgA, IgE, or IgG

Question 64

Q

IgG

Answer

A

main antibody in secondary (delayed) response to antigen. Most abundant isotype in serum. Fixes complement, crosses the placenta (provides infants with passive immunity), opsonizes bacteria, neutralizes bacterial toxins and viruses.

Answer 59

A

Prevents attachment of bacteria and viruses to mucous membranes; does not fix compliment
Monomer (in circulation) or Dimer (when secreted).
Crosses epithelial cells by transcytosis. Most produced antibody overall, but released into secretions (tears, saliva, mucus) and early breast milk (colostrum). Picks up secretory component from epithelial cells before secretions

Answer 60

A

Produces in the primary (immediate) response to antigen
Fixes complement, does not cross placenta, Antigen receptor on the surface of B cells. Monomer on B cell or pentamer when secreted. Shape of pentamer allows it to efficiently trap free antigens out of tissue while humoral response evolves. #1 antibody if no class switching.

Answer 61

A

Unclear formation. found on the surface of many B cells and in serum

Answer 62

A

Bind mast cells and basophils; cross-links when exposed to allergen, mediating immediate (type-1) hypersensitivity through release of inflammatory mediators such as histamine. Mediates immunity to worms by activating eosinophils. Lowers concentration in serum.

Answer 63

A

Antigens lacking a peptide component (e.g. lipopolysaccharides form gram - bacteria); cannot be presented by MHC to T cells. Weakly or nonimmunogenic; vaccines often require boosters (e.g. pneumococcal polysaccharide vaccine). So major antibody will be IgM since no class switching

Answer 64

A

Antigens containing a protein component (e.g. diptheria vaccine). Class switching and immunologic memory occur as a result of direct contact of B cells with Th cells (CD40-CD40 ligand reaction).

Answer 65

A

Factors whose serum concentrations change significantly in response to inflammation; produced by the liver in both acute and chronic inflammatory states. Induced by IL-1, 6, TNF alpha, and IFN-gamma

Answer 66

A

Upregulated: prolonged elevation can lead to amyloidosis

Answer 67

A

Upregulated: opsonin that fixes complement and facilitates phagocytosis

Answer 68

A

Upregulated: Binds and sequesters iron to inhibit microbial scavenging

Answer 69

A

Upregulated: Coagulation factor; promotes endothelial repair; correlates with ESR

Answer 70

A

upregulated: Prevents release of iron bound by ferritin can lead to anemia of chronic disease

Answer 71

A

downregulated: reduction conserves amino acids for positive reactants

Answer 72

A

Downregulated: internalized by macrophages to sequester iron

Answer 73

A

Gram negative bacteria

Answer 74

A

Classic, Alternative and Lectin

Answer 75

A

Classic: IgG or IgM mediated
Alternative pathway: microbe surface molecules
Lectin pathway: mannose or other sugars on microbe surface

Answer 76

A

opsonization, helps clear immune complexes

Answer 77

A

anaphylaxis

Answer 78

A

anaphylaxis

Answer 79

A

anaphylaxis and neutrophil chemotaxis

Answer 80

A

cytolysis by membrane attack complex

Answer 81

A

Decay-accelerating factor (DAF, aka CD55) and C1 esterase inhibitor help prevent complement activation on self cells (e.g. RBC)

Answer 82

A

Causes hereditary angioedema. ACE inhibitors are contraindicated

Answer 83

A

Increases risk for severe, recurrent pyogenic sinus and respiratory infections; increase susceptibility to type III hypersensitivity reactions

Answer 84

A

Increase susceptibility to recurrent Neisseria bacteremia

Answer 85

A

Causes complement-mediated lysis of RBCs and paroxysmal nocturnal hemoglobinuria

Answer 86

A

secreted from macrophages
An endogenous pyrogen also called osteoclast-activating factor
Causes fever, acute inflammation. Activates endothelium to express adhesion molecules; induces endothelium to express adhesion molecules; induces chemokine secretion to recruit leukocytes.

Answer 87

A

secreted by macrophages and Th2 cells
an endogenous pyrogen
causes fever and stimulates production of acute-phase proteins

Answer 88

A

Secreted by macrophages

Major chemotactic factor for neutrophils.

Answer 89

A

secreted by macrophages

induces differentiation of T cells into Th1 cells. Activates NK cells. Also secreted by B cells

Answer 90

A

secreted by macrophages

Mediates septic shock. Activates endothelium. Causes leukocyte recruitment, vascular leak

Answer 91

A

Secreted by all T cells

Stimulates Growth of helper, cytotoxic and regulatory T cells

Answer 92

A

Secreted by all T cells

Supports the growth and differentiation of bone marrow stem cells. Functions like GM-CSF

Answer 93

A

Secreted from Th1 cells
Has antiviral and anti-tumor properties. Activates NK cells to kill virus-infected cells, Increases MHC expression and antigen presentation in all cells

Answer 94

A

Secreted from Th2 cells
Induces differentiation into Th2 cells. Promotes growth of B cells. Enhances class switching to IgE and IgG

Answer 95

A

Secreted from Th2 cells
Promotes differentiation of B cells. Enhances class switching to IgA. Stimulates the Growth and differentiation of eosinophils.

Answer 96

A

Secreted form Th2 cells and regulatory T cells
Modulates inflammation response. Inhibits actions of activated T cells and Th1.
TGF-Beta has similar actions to IL-10 because it it involved in inhibiting inflammation

Answer 97

A

IL-1, IL-6, IL-8, IL-12, INF alpha

Answer 98

A

IL-2, IL-3

Answer 99

A

IL-2, IL-3 (all t cells)

Interferon-gamma

Answer 100

A

IL-2, IL-3 (all t cells)

IL-4, IL-5, IL-10

Answer 101

A

Interferes with viruses
A part of innate host defense against both RNA and DNA viruses. Interferons are glycoproteins synthesized by viral-infected cells that act locally on uninfected cells, “priming” them for viral defense. When a virus infects “primed” cells, viral dsRNA activates: RNAase L (degrades viral/host mRNA) and Protein kinase (inhibition of viral/host protein synthesis)
Essentially results in apoptosis, thereby interrupting viral amplifications

Answer 102

A

TCR (binds antigen-MHC complex)
CD3 (associated with TCR for signal transduction)
CD28 (binds B7 on APC)

Answer 103

A

CD4 and CD40 ligand

Answer 104

A

Ig (binds antigen)
CD-19, CD 20, CD21 (receptor for EBV), CD40
MHC II, B7
(has CD5 when premature, if mature and has CD5 then they have Chronic lymphocytic leukemia)

Answer 105

A

CD14, CD40
MHC II, B7
Fc and C3b receptors (enhanced phagocytosis)

Answer 106

A

CD16 (binds Fc of IgG), CD56 (unique marker for NK)

Answer 107

A

Self-reactive T cells become nonreactive without co-stimulatory molecule. B cells also become anergic, but tolerance is less complete than in T cells

Answer 108

A

cross-link Beta region of the T cell receptor to the MHC class II on APCs. Can activate any t cell, leading to massive release of cytokines.

Answer 109

A

stimulate macrophages by binding to endotoxin receptor CD14; Th cells are not involved

Answer 110

A

Receive preformed antibodies
Rapid Onset
Short span of antibodies (3 week half life)
Examples: IgA in breast milk, maternal IgG crossing placenta, antitoxin (Tetanus, botulinum, HBV, Rabies), humanized monoclonal antibody

Answer 111

A

Exposure to foreign antigens gives you the immunity
Slow onset
Long-lasting protection
Examples would be natural infection, vaccines, toxoid

Answer 112

A

Hepatitis B and Rabies

Answer 113

A

Autism

Source: jennymaccarthy_antivax_naturopathy@blogspot.com

Answer 114

A

Microorganism loses its pathogenicity but retains capacity for transient growth within inoculated host. Mainly induces a cellular response.
Induces strong often lifelong immunity
May revert to virulent form and often contraindicated in pregnancy and immune deficiency
Examples: MMR, Sabin polio, intranasal influenza, varicella, yellow fever

Answer 115

A

Pathogen in inactivated by heat or chemicals; maintaining epitope structure on surface antigens is important for immune response. Humoral immunity induced.
Stable and safer than live vaccines
Weaker immunity response; booster shots usually required
Examples: Cholera, Hepatitis A, Polio (salk), influenza injection form, rabies

Answer 116

A

Anaphylactic and atopic- free antigen cross links IgE on presensitized mast cells and basophils, triggering immediate release of vasoactive amines that act at postcapillary venules (i.e. histamine). Reaction develops rapidly after antigen exposure because of preformed antibody. Delayed response follows due to production of arachidonic acid metabolites (e.g. leukotrienes)
Get urticaria (hives)
Tests: skin test for specific IgE

Answer 117

A

Cytotoxic (antibody mediated) IgM, IgG bind to fixed antigen on “enemy” cell, leading to cellular destruction.
3 Mechanisms: 1. Opsonization leading to phagocytosis or complement activation 2. Complement-mediated lysis 3. Antibody dependent cell-mediated cytotoxicity, usually due to NK cells or macrophages.
Type II is cy-2-toxic
Antibody + complement leads to MAC
Test: direct and indirect Coombs’

Answer 118

A

Detect antibodies that have adhered to patient’s RBCs (e.g. test an RH + infant of an Rh - mother)

Answer 119

A

Detects antibodies that can adhere to other RBCs (e.g. test an Rh- woman for Rh+ antibodies)

Answer 120

A

Immune complex- antigen antibody (IgG) complexes activate complement, which attracts neutrophils; neutrophils release lysosomal enzymes
Type 3=3 things get stuck together= antigen-antibody-complement

Answer 121

A

An immune complex disease (type 3) in which antibodies to foreign proteins are produced (takes 5 days). Immune complexes form and are deposited in membranes, where the fix complement (leads to tissue damage). More common that Arthus reaction
Most serum sicknesses are now caused by drugs (not serum) acting as haptens. Fever, urticaria, arthralgias, proteinuria, lymphadenopathy 5-10 days after antigen exposure.

Answer 122

A

a local subacute antibody mediated hypersensitivity (type 3) reaction. Intradermal injection of antigen induces antibodies, which form antigen-antibody complexes in the skin. Characterized by edema, necrosis, and activation of complement
Antigen-antibody complexes cause the Arthus reaction
Test: immunofluorescent staining
(e.g. tetanus booster causing swelling in arm, you already have pre formed antibodies which react with antigen)

Answer 123

A

Delayed (t cell mediated) type- sensitized T lymphocytes encounter antigen and then release lymphokines (leads to macrophage activation; no antibody involved)
Cell mediated=not transferable by serum
4T’s= T lymphocytes, Transplant rejections, Tb skin test, Touching (contact dermatitis).

Answer 124

A

Type 1 hypersensitivity reaction against plasma proteins in transfused blood.
Get Urticaria, pruritus, wheezing, fever.
Treat with antihistamines

Answer 125

A

severe allergic reaction. IgA-deficient individuals must receive blood products that lack IgA
Get dyspnea, bronchospasm, hypotension, respiratory arrest, shock.

Answer 126

A

Type II hypersensitivity reaction. Host antibodies against HLA antigens and leukocytes
Get Fever, Headaches, chills, flushing

Answer 127

A

Type II hypersensitivity reaction. Intravascular hemolysis (ABO blood group incompatibility) or extravascular hemolysis (host antibody reaction against foreign antigen on donor RBCs).
Get fever, hypotension, tachypnea, tachycardia, flank pain, hemoglobinemia (intravascular), jaundice (extravascular hemolysis)

Answer 128

A

Myasthenia gravis

Answer 129

A

Goodpasture Syndrome

Answer 130

A

Limited scleroderma (CREST)

Answer 131

A

Pemphigus vulgaris

Answer 132

A

Type 1 diabetes

Answer 133

A

bullous pemphigoid

Answer 134

A

Drug-induced lupus

Answer 135

A

Polymyositis, Dermatomyositis

Answer 136

A

Hoshimoto thyroiditis

Answer 137

A

Primary Biliary cirrhosis

Answer 138

A

SLE, nonspecific

Answer 139

A

Scleroderma (diffuse)

Answer 140

A

Autoimmune hepatitis

Answer 141

A

Sjorgen syndrome

Answer 142

A

Graves disease

Answer 143

A

Mixed connective tissue

Answer 144

A

Granulomatosis with polyangiitis (Wegener)

Answer 145

A

Celiac disease

Answer 146

A

Microscopic polyangitis, Churg-Strauss Syndrome

Answer 147

A

Rheumatoid arthritis

Answer 148

A

Fine unless you get SHiNE SKiS

Strep pneumoniae, H influenza type b, Neisseria meningitidis, E coli, Salmonella, Klebsiella pneumoniae, group b Strep

Answer 149

A

fine unless you get, staphylococcus, Burkholderia cepacia, Serratia, Nocardia
Then you cannot fight it off

Answer 150

A

Be fine, unless you get Neisseria (no MAC)

Answer 151

A

CMV, EBV, JCV, VZV, Chronic infection with respiratory/GI viruses

Answer 152

A

Enteroviral encephalitis, poliovirus

And do not give live vaccine

Answer 153

A

Candida, PCP (not the drug! Pneumocystis pneumonia)

Answer 154

A

Candida, Aspergillus

Answer 155

A

T cell deficiency: tend to produce more recurrent fungal and viral infections
B cell deficiency: tend to produce more recurrent bacterial infections

Answer 156

A

Defect in BTK, a tyrosine kinase gene leading to no B cell maturation. X-linked recessive
Presents: recurrent bacterial and enteroviral infections after 6 months (lose maternal IgG)
Findings: normal CD19+ B cell count, decrease pro-B, decrease Ig of all classes. Absent/scanty lymph nodes and tonsils

Answer 157

A

unknown. most common primary immunodeficiency. decreased IgA=> increase class switching to IgE=> more atopy (allergies)
Presentation: Majority asymptomatic, can see airway and GI infections, Autoimmune disease, Atopy, Anaphylaxis to IgA containing products.
Findings: decreased plasma cells, decreased immunoglobulins

Answer 158

A

Defect in B cell differentiation. Many causes
Presentation: can be acquired in 20s and 30s; increased risk of autoimmune disease, bronchiectasis, lymphoma, sinopulmonary infections.
Findings: decrease plasma cells, decrease immunoglobulins, can still have intact cellular immunity (e.g. will respond to candida skin test)

Answer 159

A

22q11 deletion; failure of 3rd and 4th pharyngeal pouches to develop leading to absent thymus and parathyroids.
Presentation: Tetany (hypocalcemia), recurrent viral/fungal infections (T-cell deficiency), conotruncal abnormalities (e.g. tetrology of Fallot, Truncus arteriosus).
Findings: decreased T cells, decreased PTH, decreased Calcium. Abscent thymic shadow on CXR, 22q11 deletion seen on FISH

Answer 160

A

Decreased Th1 response. Autosomal recessive
Presentation: Disseminated mycobacterial and fungal infections; may present after administration of BCG (TB) vaccine.
Findings: decreased IFN-gamma

Answer 161

A

Deficiency of Th17 cells due to STAT3 mutation leading to impaired recruitment of neutrophils to sites of infection
Presentation: FATED; coarse Facies, cold (noninflamed) staphylococcal Abscesses, retained primary Teeth, increased igE, Dermatologic problems (eczema)
Findings: Increased IgE and decreased IFN-gamma

Answer 162

A

T-cell dysfunction. Many causes
Presentation: Noninvasive Candida albicans infections of skin and mucous membranes.
Findings: Absent in vitro T-cell proliferation in response to Candida antigens. Absent cutaneous reaction to Candida antigens.

Answer 163

A

Several types including defective IL-2R gamma chain (most common, X linked), adenosine deaminase deficiency (autosomal recessive).
Presentation: failure to thrive, chronic diarrhea, thrush. Recurrent viral, bacterial, fungal, and protozoal infections.
Treatment: bone marrow transplant (no concern for rejection)
Findings: T cell receptor excision circles (TRECs); Absence of thymic shadow (CXR), germinal centers (lymph node biopsy), and T cells (flow cytometry)

Answer 164

A

Defects in ATM gene leading to DNA double stranded breaks causing cell cycle arrest
Presentation: cerebellar defects (ataxia), spider angiomas (telangiectasia of eyes and skin), IgA deficiency, increased change of Hodgkins and lymphomas
Findings: Increased AFP; decreased IgA, IgG and IgE; lymphopenia, cerebellar atrophy;
autosomal recessive

Answer 165

A

Most commonly due to defective CD40L on Th cells=class switching defect; X linked recessive
Presentation: Severe pyogenic infections early in life; opportunistic infection with Pneumocystis, Cryptosporidium, CMV
Findings: Increased IgM; Greatly decreased IgG, IgA, IgE

Answer 166

A

Mutation in WAS gene (x-linked recessive); T cells unable to reorganize actin cytoskeleton.
Presentation (WATER): Wiskott-Aldrich, Thrombocytopenic purpura, Eczema, Recurrent infections; increased risk of autoimmune diseases and non hodgkin lymphoma

Answer 167

A

Defect in LFA-1 integrin (CD18) protein on phagocytes; impaired migration and chemotaxis; autosomal recessive.
Recurrent bacterial skin and mucosal infections, absent pus formation, impaired wound healing, delayed separation of umbilical cord (>30 days).
Findings: increased neutrophils, absence of neutrophils at infection sites

Answer 168

A

Defect in lysosomal trafficking regulator gene (LYST); microtubule dysfunction in phagosome-lysosome fusion; autosomal recessive
Presentation: Recurrent pyogenic infections by staph and strep, partial albinism, peripheral neuropathy, progressive neurodegeneration, infiltrative lymphohistiocytosis.
Findings: increased neutrophils, absence of neutrophils at infection site

Answer 169

A

Defect of NADPH oxidase leading to a decrease in reactive oxygen species (e.g. superoxide) and absent respiratory burst in neutrophils; X linked recessive
Presentation: increased susceptibility to catalase positive organisms (PLACESS): Pseudomonas, Listeria, Aspergillus, Candidia, E coli, S. aureus, Serratia
Findings: abnormal dihydrorhodamine (flow cytometry) test. Nitroblue tetrazolium dye reduction test is negative (test out of favor now)

Answer 170

A

graft from self to self

Answer 171

A

from identical twin or clone (because clones are thing…..)

Answer 172

A

From nonidentical individual of same species

Answer 173

A

a graft from a different species

Answer 174

A

occurs within minutes
Pathogenesis: pre-existing antibodies react to donor antigen (type II reaction), activate complement.
Features: widespread thrombosis of graft vessels leading to ischemia/necrosis. Graft must be removed.

Answer 175

A

occurs in weeks to months
Pathogenesis: Cellular: CTLs activated against donor MHCs. Humoral: similiar to hyperacute but antibodies develop after transplant
Features: Vasculitis of graft vessels with dense interstitial lymphocytic infiltrate. Prevent/reverse with immunosuppressants

Answer 176

A

occurs in Months to years
Pathogenesis: Recipient T cells perceive donor MHC as recipient MHC and react against donor antigens present. Both cellular and humoral components
Features: irreversible, T cell and antibody mediated damage. Organ specific: Heart-atherosclerosis, Lungs-bronchiolitis obliterans, Liver-Vanishing bile ducts, Kidney-vascular fibrosis and glomerulopathy

Answer 177

A

Onset varies
Pathogenesis: grafted immunocompetent T cells proliferate in the immunocompromised host and reject host cells with “foreign” proteins leading to severe organ dysfunction.
Features: Maculopapular rash, jaundice, diarrhea, hepatosplenomegaly, Usually in bone marrow and liver transplants (high in lymphocytes). Potentially beneficial in bone marrow transplant for leukemia (graft-versus-tumor effect)

Answer 178

A

Mechanism: calcineurin inhibitor; binds cyclophilin; blocks t cell activation by preventing IL-2 transcription
Uses: transplant rejection prophylaxis, psoriasis, rheumatoid arthritis
Toxicity: !Nephrotoxicity!: hypertension, hyperlipidemia, hyperglycemia, tremor, hirsutism, gingival hyperplasia (all of the hypers)

Answer 179

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Calcineurin inhibitor; binds FK506 binding protein (FKBP) (all -limus drugs bind FKBP). Blocks T cell activation by preventing IL-2 transcription.
Uses. Transplant rejection prophylaxis
Toxicity: similar to cyclosporine (nephrotoxic), increase risk of diabetes and neurotoxicity; no gingival hyperplasia or hirsutism.

Answer 180

A

mTOR inhibitor; binds FKBP. Blocks T cell activation and B cell differentiation by preventing IL-2 transduction.
Uses: Kidney transplant rejection prophylaxis
Toxicity: anemia, thrombocytopenia, leukopenia, insulin resistance, hyperlipidemia; non-nephrotoxic.
Notes: Kidney “sir-vives.” Synergistic with cyclosporine. Also used in drug eluting stents.

Answer 181

A

Monoclonal antibody; blocks IL-2R
Uses: kidney transplant rejection prophylaxis.
Toxicity: edema, hypertension, Tremor

Answer 182

A

antimetabolite precursor for 6-mercaptopurine; inhibits lymphocyte proliferation by blocking nucleotide synthesis.
Uses: Transplant rejection prophylaxis, rheumatoid arthritis, Crohn disease, Glomerulonephritis, other autoimmune conditions
Toxicity: Leukopenia, anemia, thrombocytopenia
Note: 6-MP is degraded by xanthine oxidase so toxicity is increased by allopurinol

Answer 183

A

Inhibit NF-kappaB. Suppress both B and T cell function by decreasing transcription of many cytokines.
Uses: transplant rejection prophylaxis (immune suppression), many autoimmune disorders, inflammation.
Toxicity: hyperglycemia, osteoporosis, central obesity, muscle breakdown, psychosis, acne, hypertension, cataracts, peptic ulcers.
Can cause iatrogenic Cushing syndrome

Answer 184

A

erythropoietin
Treats anemias (Especially in renal failure)

Answer 185

A

Treats thrombocytopenia

Answer 186

A

(IL-11) Treats thrombocytopenia

Answer 187

A

granulocyte colony-stimulating factor

Used for recovery of bone marrow

Answer 188

A

Granulocyte-macrophage colony-stimulating factor)

used for the recovery of bone marrow

Answer 189

A

IL-2

Used for Renal cell carcinoma, metastatic melanoma

Answer 190

A

used for Chronic hep B and C, Kaposi sarcoma, Hairy cell leukemia, condyloma acuminatum, renal cell carcinoma, malignant melanoma

Answer 191

A

Used for multiple sclerosis

Answer 192

A

Used for chronic granulomatous disease

Answer 193

A

targets CD52
used for CLL
aLYMtuzumab for chronic LYMphocytic leukemia

Answer 194

A

target is VEGF

used for: colorectal cancer, renal cell carcinoma

Answer 195

A

target is EGFR

used for Stage IV colorectal cancer, head and neck cancer

Answer 196

A

target is CD20

Clinical use is B cell non hodgkin lymphoma, rheumatoid arthritis (with MTX), ITP

Answer 197

A

Target is HER2/neu
Used for breast cancer, gastric cancer
“HER2-tras2zumab

Answer 198

A

Target is TNF-alpha
used for IBD, rheumatoid arthritis, ankylosing spondylitis, psoriasis
Rheumatoid arthritis “infilx” pain in “da limbs”

Answer 199

A

Target is alpha 4 integrin
Used for Multiple sclerosis, Crohn disease
Notes: alpha 4 integrin is for leukocyte adhesion, also get risk of PML in patients with JC virus

Answer 200

A

Targets Glycoprotein IIb/IIIa
Used as an anti-platelet agent for prevention of ischemic complications in patients undergoing percutaneous coronary intervention
IIb times IIIa equals abSIXimab

Answer 201

A

Target is RANKL
Used for Osteoporosis; inhibits osteoclast maturation (mimics osteoprotegrin)
Notes: denOSumab affects OSteoclasts

Answer 202

A

Target: digoxin

Used as the antidote for digoxin toxicity

Answer 203

A

Target is IgE

Used for allergic asthma; prevents IgI binding to FceRI

Answer 204

A

Targets RSV F protein
used for: RSV prophylaxis for high-risk infants
Notes: paliVIzumab for VIruses

Answer 205

A

Classical because it has C3 which clears complexes and classic pathway is activated by IgM and IgG (alternative pathway is not activated by IgM and IgG)

Answer 206

A

Determines if donor and recipient have matching HLA-A, B, and C (MHC class I), prevents against immune response

Answer 207

A

it is a B cell

Answer 208

A

macrophage

Answer 209

A

Use allotypes from immunoglobulins. They show distinct patterns of inheritance but do not affect the action of the immunoglobulins

Answer 210

A

CD 19, 20, 21

Answer 211

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complement decay-accelerating factor: is on all hemopoietic and non hemopoietic cells: blocks MAC: low levels or absence leads to paroxysmal nocturnal hemoglobinuria

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Steve Irwin's Immunology Intellegence Flashcards

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