Transplant Immunology

Question 1

Transfer of one’s own tissue from one site to another.

Answer 1

Autograft

Question 2

Transfer of tissue between identical twins.

Answer 2

Isograft

Question 3

Transfer of tissue between genetically different species.

Answer 3

Xenograft

Question 4

Transplant into an anatomical normal recipient site.

Answer 4

Orthotopic transplant

Question 5

Transplant into anatomically abnormal site.

Answer 5

Heterotopic transplant

Question 6

Are transplants ever rejection-free?

Answer 6

No - always have some degree of rejection.

Question 7

What is rejection?

Answer 7

An immune-mediated response; immune cells are attacking a foreign body. This is particularly problematic for organs and tissues that are highly vascularized.

Question 8

What causes rejection?

Answer 8

Recognition of foreign MHC antigens by T cell activation.

Question 9

What does not express MHC? How is matching done for this?

Answer 9

RBC - recipients must be matched for ABO and Rh blood types.

Question 10

Explain the mouse experiment.

Answer 10

Mouse B got some Mouse A bits transplanted onto it. Acute rejection occurred 10-14 days out. Another Mouse B got some Mouse A bits transplanted onto it, as well as first Mouse B’s bits. Acute rejection occurred 3-7 days out. 3rd Mouse B got Mouse A bits and an injection of 2nd Mouse B’s lymphocytes. Hyperacute rejection occurred 3-7 days out - added leukocytes to presensitized donor tissue and response is quicker.

Question 11

Do we have antibodies for our own antigens?

Answer 11

No

Question 12

What do we make antibodies to in terms of blood?

Answer 12

The antigen we lack in the ABO blood group system

Question 13

Explain the antibodies and antigens of blood.

Answer 13

2 antigens (agglutinogens A & B) on surface of RBC that allow immune system to recognize cell as self. 2 antibodies (agglutins - anti-A & anti-B) in the plasma. H antigen is foundation upon which A & B antigens are built. A gene codes for a transferase that adds N-acetylgalactosamine to terminal sugar of H-antigen. B gene codes for enzyme that adds D-galactose to terminal sugar of H antigen.

Question 14

What is Rh factor?

Answer 14

Rhesus factor - protein that 85% of the population contains in their blood (RhD+).

Question 15

ABO blood typing that determines antigens on patient’s or donor’s blood. Cells are tested with the antisera reagents anti-A, anti-B.

Answer 15

Forward typing

Question 16

ABO blood typing that determines antibodies in patient’s or donor’s serum of plasma. Serum is tested with reagent A1 and B cells.

Answer 16

Reverse typing.

Question 17

Why is it a problem for an Rh(-) mother to be pregnant with an Rh(+) baby?

Answer 17

Blood mixing happens during birthing. The mother’s blood will be exposed to fetal blood, causing a Type II hypersensitivity response. Antibody binding to antigen activates the classical complement pathway, leading to MAC, which causes blood lysis and hemolysis in the mother’s next pregnancy, as during this one she will have antibodies against her baby’s Rh(+) blood.

Question 18

Matching MHC Class I (especially HLA-_) and Class II HLA-__ alleles is more important for ________ _______ than matching other MHC antigens.

Answer 18

….B…..DR…..successful transplantation….

Question 19

Transplants must always be matched for what type of antigens?

Answer 19

Blood type

Question 20

What types of molecules are MHC Class I?

Answer 20

Almost all nucleated cells

Question 21

What types of molecules are MHC Class II?

Answer 21

APCs, B-cells

Question 22

What is the name of the following phenomenon involving MHC: multiple variants of each gene within the population as a whole?

Answer 22

Polymorphism

Question 23

What are the 2 mechanisms of allogenic transplant rejection?

Answer 23

Direct presentation/alloreactivity

Indirect presentation/alloreactivity

Question 24

This mechanism of allogenic transplant rejection involves replication of an intact MHC molecule displayed by donor APC in the graft. Self MHC molecules recognize the structure of an intact allogenic MHC molecule. It is most common in acute rejection and involves both CD8 & CD4 T cells.

Answer 24

Direct presentation/alloreactivity

Question 25

What are the HLA loci for MHC Ia?

Answer 25

A, B, C

Question 26

What are the HLA loci for MHC Ib?

Answer 26

E, F, G, H

Question 27

This mechanism of allogenic transplant rejection involves donor MHC that is processed and presented by recipient APC (basically handled like any other antigen). It is more common in chronic infection and involves only CD4+ T cells (MHC Class II antigen presentation).

Answer 27

Indirect presentation/alloreactivity

Question 28

What can you do to detect tissue incompatibility, i.e. decrease likelihood of rejection?

Answer 28

Blood typing & mixed leukocyte reaction

Question 29

What are you doing when you take leukocytes from both donor and recipient, irradiate them to stop proliferation, then mix them all together? Why do this?

Answer 29

Mixed leukocyte reaction (MLR) - low responses = better tissue match for transplant

Question 30

Which type of rejection is extremely rare?

Answer 30

Hyperacute

Question 31

Which type of rejection occurs hours to days after transplantation, targets the vascular endothelium (immediate thrombosis), within 24-48 hours causes antibody-mediated and complement-dependent graft destruction by coagulative necrosis, and has preformed antibodies specific to MHC?

Answer 31

Hyperacute

Question 32

Which types of cells are mediators of hyperacute rejection?

Answer 32

B cells & preformed antibodies

Question 33

Which type of rejection is most commonly seen (45-70% of patients)?

Answer 33

Acute

Question 34

Which type of rejection occurs days to months after transplant (usually 3 months), is T cell mediated (predominantly CD4 & CD8 T cells, directed against donor MHC antigens), and is the target of current immunosuppression?

Answer 34

Acute

Question 35

Which types of cells are mediators of acute rejection?

Answer 35

T cells, predominantly CD4 & CD8

Question 36

Which type of rejection occurs in 2-5% of patients?

Answer 36

Chronic

Question 37

Which type of rejection is a slow, indolent process occurring months to years after transplantation; has immune and non-immune components; causes ischemic injury; is characterized by arteriole thickening and interstitial fibrosis; and is untreatable?

Answer 37

Chronic

Question 38

How would you manage chronic rejection?

Answer 38

Immunosuppressant therapy

Question 39

What types of hypersensitivities are involved with chronic rejection?

Answer 39

Type II & Type IV (unclear, but Type III may play a role)

Question 40

An immunologically competent graft is transplanted into an immunologically suppressed recipient. Patient presents with fever, pancytopenia, weight loss, rash, and diarrhea. Patient may present with hepatosplenomegaly. What does this patient have? Explain what’s happening.

Answer 40

Graft vs. host disease - grafted cells survive and react against the host cells

Question 41

What type of tissue is more likely to succumb to graft vs. host disease? Why?

Answer 41

immunocompetent tissue - bone marrow, skin; continued immunocompetent cell production, which may trigger an immune response against the host

Question 42

What are some prevention and treatment options for allograft rejection?

Answer 42

Immunosuppression
Reduction of allograft immunogenicity
Induction of donor specific tolerance

Question 43

What are methods of immunosuppression for the prevention and treatment of allograft rejection?

Answer 43

Drugs that inhibit/kill T lymphocytes
Toxins that kill proliferating T cells
Antibodies that deplete/ihibit T cells
Anti-inflammatory agents

Question 44

What are methods for reducing immunogenicity of allografts in the prevention and treatment of allograft rejection?

Answer 44

ABO blood typing

HLA typing and matching

Question 45

How can you induce donor specific tolerance for the prevention and treatment of allograft rejection?

Answer 45

Blood transfusion

Question 46

Name 8 types of immunosuppressant drugs.

Answer 46

Corticosteroids
Azathioprine
Cyclosporin
Tacrolimus
ALG (antilymphocyte globulin)
OKT3
Rapamycin
CTLA4-Ig