Immunology

Question 1

Second most common cause of severe combined immunodeficiency (SCID) and how does it cause the immunodeficiency?

Answer 1

Adenosine deaminase (ADA) [adenosine ⏩ inosine] deficiency ▶️ ⬆️ Adenosine ▶️ toxic to lymphocytes T and B

Question 2

Which mechanism leads in a asplenic patient to have a severe bacterial infection? Immunologic functions of the spleen.

Answer 2

• 🚫 Systemic bacterial clearance ▶️ ⬆️ risk infections by encapsulated organism (vaccinate against S. pneumoniae, Hib, N. meningitidis)
• Blood filter ▶️ remove circulating pathogens; Major site of opsonizing antibody synthesis

Question 3

What is the different between western blot and ELISA? And the similitude?

Answer 3

• Both identify proteins (Antibodies of the patient)
• ELISA ▶️ patient’s serum is tested directly (Ex look for Ab against some HIV proteins, or Ag as HBsAg)
• WB proteins are first separated by electrophoresis then the antibodies are added (in case to HIV test patient’s serum is added ▶️ Ex confirm that the Ab are specifically for the viral proteins directly extracted from the patient)

Question 4

How is activated the classical complement pathway through C1?

Answer 4

C1 bind at least 2 different molecules of IgM or IgG ▶️ Fc portion near hinge region ▶️ C1 release catalytic factors for rest of pathway

Question 5

How can you avoid the activation of classical complement pathway if no antigen is present?

Answer 5

Ag bind to IgM ▶️ expose region to bind C1; unbounded IgM hide C1 site binding ▶️ avoid activation without antigen.

Question 6

Which enzyme is initially involved in ubiquitine proteasome pathway for the presentation of antigens in MHC type I? Function.

Answer 6

Ubiquitine ligase ▶️ recognize specific protein substrates and catalyze ubiquitine attachment

Question 7

How do you identify a X-linked (Bruton) agammaglobulinemia and which is the gene mutated?

Answer 7

• Recurrent bacterial and enteroviral infections after 6 mo (⬇️ maternal IgG)
• Bruton tyrosine kinase gene (X-linked recessive) ▶️ maturation of B cells ▶️ stop until point to produce mu chain
• ⬇️Ig of all classes, ⬇️ peripheral CD19 cells, BM Bx ▶️ ⬆️ cells with cytoplasmic mu chains

Question 8

What is the objective to administer anti-Rh(D) immunoglobulin to pregnant women? When is it applied?

Answer 8

• Anti-Rh(D) immunoglobulin (IgG anti-D, polyclonal Ab) ▶️ opsonize fetal RBC Rh (+) that enter to the maternal circulation ▶️ induce clearance by maternal reticuloendothelial macrophages (spleen) ▶️ avoid alloimmunization
• Give routinely all Rh (-) pregnancy at 28 weeks and immediately after birth

Question 9

Recurrent skin and mucosal infections, without purulent secretion, absence of CD18 at leukocyte surface. Which other features do you find and what is the disease?

Answer 9

• Leukocyte adhesion deficiency→absence of CD18→no formation of functional beta-2 integrins
• Recurrent periodontal disease, persistent leukocytosis with neutrophilia, wound healing impaired and late separation of the umbilical cord (>21 days)

Question 10

Classic triad of Reactive arthritis and with which genetic marker is associated?

Answer 10

• Nongonococcal urethritis (or enteritis) [1-4 weeks previously to next symptoms], conjunctivitis, oligoarthritis. 20% present sacroiliitis
• HLA-B27

*Seronegative spondyloarthropathy

Question 11

Scenarios which graft vs host disease can develop. Background condition that allow the response and mechanism of disease.

Answer 11

• Bone marrow transplantation, transfusion of non-irradiated blood, organs rich in lymphocytes (as liver)
• Immunocompromised►primary disease or immunosuppressive medications→donor T cells from graft migrate into host tissues→recognize host MHC as foreigns→(+) CD4 and CD8 (no B cells)→host cell destruction

Question 12

Most common organs affected by graft vs host disease.

Answer 12

• Skin→diffuse maculopapular rash with predilection by palms and soles (may desquamate)
• Liver→abnormal liver function tests (if transplant was liver, it could not be affected→recognized as self)
• GI tract→diarrhea, intestinal bleeding, abdominal pain.

Question 13

In which background condition is the hyperacute rejection of a transplant developed?

Answer 13

Tissue recipient has antibodies against donor ABO antigens

*Minutes of transplantation→ischemia and necrosis

Question 14

Substances resulting in degranulation of mast cells and basophils during anaphylaxis.

Answer 14

• Histamine

- Tryptase►specific of mast cells, ↑serum levels→support Dx of anaphylaxis (marker of mast cell activation)

Question 15

How do you differentiate a cellular and humoral mediated acute transplant rejection reaction?

Answer 15

• Humoral→necrotizing vasculitis with a neutrophilic infiltrate, C4d deposition [Host B lymphocyte sensitization]
• Cellular→dense interstitial infiltrate of mononuclear cells (lymphocytes) and arterial intima (endothelitis) [Host T lymphocyte sensitization]

Question 16

Treatment and prevention of acute transplant rejection reaction

Answer 16

• Prevent→calcineurin inhibitors (cyclosporine or tacrolimus)
• Tx→corticosteroids + maintenance calcineurin inhibitors

Question 17

Surface marker for the monocyte-macrophage cell linage

Answer 17

CD14

Question 18

Difference of type of immunity gotten by inactivated and live-attenuated influenza vaccine?

Answer 18

• Inactivated▶️inducing neutralizing antibodies againts hemagglutinin antigen▶️❌binding of hemagglutinin to sialylated receptors on the host cell membrane (humoral response)
• Live-attenuated▶️MHC class I antigen-processing pathway▶️cytotoxic CD8+ T lymphocytes▶️kill infected cells (CMI and humoral response)

Question 19

What type of hypersensitivity reaction is the acute hemolytic transfusion reaction? what is the mechanism?

Answer 19

• Antibody-mediated (type II) hypersensitivity reaction - Minutes to hours.
• Anti-ABO antibodies (mainly IgM)→bind Ag on donor RBC→complement activation►anaphylotoxins (C3a, C5a)→vasodilatation and shock; MAC formation (C5b-C9)→complement-mediated cell lysis

Question 20

Symptoms of acute hemolytic transfusion reaction.

Answer 20

• Fever, chills, hypotension, shock, hemoglobinuria, dyspnea, chest and/or back pain
• May develop DIC, renal failure

Question 21

What do you suspect in a patient with recurrent sinopulmonary or GI tract infections, autoimmune disease associated and anaphylactic reaction during blood products transfusion? Why do they have that anaphylactic reaction?

Answer 21

• Selectively IgA deficiency▶️most common immunodeficiency
• Failure of B cells to differentiate in IgA-secreting plasma cells▶️Severe IgA deficiency▶️forms IgE againts IgA▶️blood products have IgA

Question 22

Uses of Southwestern blotting. Examples.

Answer 22

• Detection of DNA-binding proteins→transcription factors (c-Jun, c-Fos), nucleases, histones

Question 23

What is the difference between lung and intraabdominal solid organ (kidney) chronic rejection?

Answer 23

Chronic lung transplant rejection▶️inflammation of the small bronchioles⏩bronchiolitis obliterans

• Chronic rejection in renal transplant▶️primarily vascular obliteration
• Accelerated atherosclerosis (heart) ƒ
• Chronic graft nephropathy (kidney) ƒ
• Vanishing bile duct syndrome (liver)

Question 24

Where and by whom is made the positive and negative selection of T-lymphocyte? In which each process consists?

Answer 24

• Positive selection (thymus-cortex)→thymic cortical epithelial cells►TCR bind self MHC survive. insufficient affinity→apoptosis
• Negative selection (thymus-medulla)→thymic medullary epithelial cells and dendritic cells►TCR bind with high affinity self MHC→apoptosis [eliminate autoreactive T cells]

Question 25

How may you identify clinically chédiak-higashi syndrome?

Answer 25

• Immunodeficiency→recurrent pyogenic infections by streptococci and staphylocci
• Partial albinism
• Neurologic dysfunction→nystagmus, peripheral and cranial neuropathies
• Infiltrative lymphohystiocytosis

*Autosomal recessive

Question 26

Pathogenesis of chédiak-higashi syndrome.

Answer 26

Defect in lysosomal trafficking regulator gene (LYST)→microtubule dysfunction in phagosome-lysosome fusion in neutrophils

Question 27

Findings in peripheral blood smear of chédiak higashi syndrome.

Answer 27

Giant (lysosomal inclusions) cytoplasmic granules in neutrophils, monocytes and platelets

Question 28

Type of hypersensitivity reaction that is Goodpasture syndrome? Another examples.

Answer 28

Hypersensitivity type II

• Goodpasture syndrome, rheumatic fever, hyperacute transplant rejection→Abs bind to cell surfaces►(+) complement, Fc receptor mediated inflammation
• Myasthenia gravis, Graves disease→Abs bind to cell surface receptors►cellular dysfunction

Question 29

Pathogenesis of ataxia-telangiectasia. Clinical presentation associated.

Answer 29

• Defect in ATM gene→fail to repair broken dsDNA►cell cycle arrest (hypersensitivity to ionizing radiation)
• Triad: Ataxia, Angioma (telangiectasia), IgA deficiency (recurrent sinopulmonary infections)
• ↑Risk of cancer (leukemia, lymphoma)

Question 30

Advantage of innactivated polio vaccine respect oral polio vaccine.

Answer 30

• Oral polio vaccine (OPV)→can revert to a fully virulent form►vaccine-associated paralytic poliomielitis; ability to produce contact immunity by shedding vaccine virus on stool (IgA mucosa immunity); more durable CMI.
• Inactivated polio vaccine (IPV)→lower incidence of complications, cannot revert to a virulent form (killed virus - used in developed countries)