Lecture 26 & 27: Immunopharmacology

Question 1

What are the three main applications of immunosuppressive drugs?

Answer 1

suppression of rejection of transplanted organs and tissues (e.g. bone marrow)

suppression of “Graft-Versus-Host” disease (GVHD) which may arise from donor lymphocytes reacting against host, especially in bone marrow transplants

auto-immune diseases - examples include “lupus” (systemic lupus erythematosus), rheumatoid arthritis, psoriasis, ulcerative colitis, idiopathic thrombocytopenic purpura

Question 2

Why do we use immunosuppressants?

Answer 2

during transplantation, we usually think of “rejection” in the context of host recognition of the donor organ

antigens may be recognized as “non-self” and elicit an immune response that attack the donor organ

however, this can also occur “in reverse”, if there are immunocompetent cells in the donor graft that mount an immune response against the host; the main tissues targeted are liver, skin, mucosa, gut

immunosuppressant drugs are used in both contexts

Question 3

What is rheumatoid arthritis?

Answer 3

auto-immune disease primarily affecting the joints (but other tissues also)

Question 4

What is lupus?

Answer 4

multi-organ auto-immune disease (characteristic rash on cheeks, but again many tissues are affected)

Question 5

What are ulcerative colitis?

Answer 5

T-cell infiltration (auto-immune) and ulceration in the colon

Question 6

What is psoriasis?

Answer 6

auto-immune disease leading to scaly patches pf skin

Question 7

What are the key features of the immune response?

Answer 7

we will focus on the “specific immunological response”, not the innate immune response

key phases in the response are the induction phase and the effector phase

the induction phase includes recognition and presentation of foreign antigen, activation and proliferation of naive Th0-cells into Th1 and Th2 cells

the effector phase includes the cell-mediated T-cell responses (cells “killing” infected or foreign cells) derived from Th1 cells, and antibody-mediated responses derived from Th2 cells (leading to activation of B cells)

Question 8

What are the critical steps/regulators are targeted by available immunosuppressant drugs?

Answer 8

inhibition of IL-2 production/action

inhibition of cytokine gene expression (glucocorticoids)

cytotoxicity (killing immune cells or preventing their maturation/expansion)

inhibition of nucleic acid synthesis

blockage of various T-cell surface receptors to prevent immune activation (e.g. antigen presentation machinery)

Question 9

What are calcineurin inhibitors (e.g., cyclosporine, tacrolimus)?

Answer 9

activation of naive Th0-cells, and clonal expansion of T cells requires activation of several signaling pathways including the calcineurin-NFAT (nuclear factor of activated T-cells) pathway

activation of the T-cell receptor generates a Ca2+ signal, leading to activation of calcineurin (phosphate), and dephosphorylation of NFAT

cyclosporine and tacrolimus bind to their targets (cyclophilin, FKBP, respectively); these drug-bound targets suppress calcineurin – this suppresses the pathway that leads to IL-2 gene transcription

Question 10

What is cyclosporine?

Answer 10

key detail of this mechanism is the inhibition of calcineurin by the cyclophilin: cyclosporin complex

this prevents NFAT-mediated gene transcription, leading to inhibition of T-cell maturation and proliferation (IL-2 is a major signal)

Question 11

What is tacrolimus?

Answer 11

key detail of this mechanism is the inhibition of calcineurin by the FKBP: tacrolimus complex

similar to cyclosporine, this prevents NFAT-mediated gene transcription, especially important is the suppression of IL-2

Question 12

What are proliferation signal inhibitors (e.g., rapamycin, AKA sirolimus)?

Answer 12

these drugs interfere with the downstream signals of IL-2 receptor activation

rapamycin binds to FKBP (same target as tacrolimus)

however, rapamycin-FKBP complex does not inhibit calcineurin, it inhibits a protein complex called mTOR (mammalian Target of Rapamycin)

mTOR is a major pathway responsible for promoting cell growth and proliferation

Question 13

What is sirolimus/rapamycin?

Answer 13

key detail of this mechanism is the inhibition of mTOR by the FKBP: sirolimus complex

these effects suppress cellular responses to IL-2 receptor activation

Question 14

What is FKBP?

Answer 14

FKBP is an acronym for FK506-binding protein

FKBP proteins are a family of proteins that are “peptidyl-proline cis-trans isomerases” (role in protein maturation); they also have a variety of endogenous binding partners

FKBRs and cyclophilins are part of the same larger protein family of “immunophilins” - all are proline isomerases

in addition to calcineurin and mTOR, other targets of these proteins include the ryanodine receptor and IP3 receptor (Ca2+ release channels)

Question 15

What are cytotoxic agents?

Answer 15

cyclophosphamide (alkylating agent)

leads to cross-linking of neighboring bases; this interferes with DNA replication

most effective in rapidly dividing cells, so these drugs are useful in cancer treatment, and for suppression of rapidly dividing immune cells

Question 16

What is azathioprine?

Answer 16

azathioprine is metabolized to 6-mercaptopurine, a “fraudulent” nucleotide

this inhibits synthesis of nucleotides and interferes with cell division (effective against rapidly dividing cells during clonal expansion)

Question 17

What is antibody structure?

Answer 17

2 heavy chains
2 light chains

antibodies can be raised to recognize specific antigens that may be selectively expressed in “troublesome” cells (e.g. tumor cells, or hyperactivated immune cells causing an autoimmune disease)

Question 18

What is the Fab region of an antibody?

Answer 18

the Fab regions determines antigen specificity

Question 19

What is the Fc region of an antibody?

Answer 19

the Fc region determines the antibody “class” (IgA, IgC, IgM, etc.); different classes of Fc regions are recognized by receptors on different immune cell types, leading to different immune responses

Question 20

What is the humanization/chimerization of antibody-based therapies?

Answer 20

antibodies are always raised in other animals (monoclonal antibodies are raised in mice); using these antibodies causes a problem because they are recognized by our immune system and rapidly degraded

the solution is to use “chimeric” or “humanized” versions of murine (mouse) monoclonal antibodies; this reduces their antigenicity - increases their lifetime in the body

humanization/chimerization: replacement of conserved regions of the mouse monoclonal antibody with corresponding sequence from human antibodies

therapeutic monoclonal antibodies have names that end with “mab”… current conventions

Question 21

What is alemtuzumab?

Answer 21

alemtuzumab is a humanized IgG1 that recognizes CD52 found on many immune cell types

the IgG1 Fc domain is recognized by phagocytic immune cells (e.g. macrophages, neutrophils, dendritic cells), complement, and NK cells; this leads to cell death by lysis or phagocytosis

healthy and destructive T and B cells are destroyed

Question 22

What is basiliximab?

Answer 22

basiliximab is a chimeric mouse-human IgG1 that binds to CD25, part of the IL-2 receptor (alpha chain) on activated lymphocytes

basiliximab causes immunosuppression by blocking IL-2 from binding to activated lymphocytes (IL-2 antagonist)