Anti-Inflammatories

Question 1

What is inflammation?

Answer 1

A protective response by the body to something harmful.
Pathological inflammation is inflammation that is inappropriate or over-exubrerant

Question 2

List the clinical signs/symptoms of inflammation

Answer 2

Rubor (Redness)
Calor (Fever)
Tumor (Swelling)
Dolor (Pain)
Loss of function

Question 3

What are the 2 components of inflammation

Answer 3

Innate non-adaptive immunological response

Adaptive (specific) immunological response

Question 4

Describe the steps of acute inflammation

Answer 4

A trigger is recognised by the immune cells present in the tissues (PAMPs & DAMPs)
PAMPs and DAMPs bind to the pathogen recognition receptor on sentinel cells.

Following recognition, cells release inflammatory meditators.
Vascular component:
Vasodilation
Increased vascular permeability = oedema

Cellular component:
Recruitment of leukocytes

=Elimination of pathogens

Trigger >
Recognition of immune cells present in the tissue (PAMPs & DAMPs) >
PAMPs & DAMPs bind to the pathogen recognition receptors on sentinel cells >

Following recognition, cells release inflammatory mediators

Vascular component:
Vasodilation
Increased vascular permeability = oedema

Cellular component:
Recruitment of leukocytes

=Elimination of pathogens

Question 5

Describe the process of leukocyte recruitment

Answer 5

Cytokines (TNF-alpha) are released

Acts on endothelial cells

Expression of adhesion molecules

Immune cells circulating in the blood attach

Immune cells enter into the tissue

Destroy pathogen

Question 6

What cells are involved in the adaptive immune response

Answer 6

Lymphocytes: B cells, T cells, Antigen presenting cells

Question 7

Briefly explain the adaptive immune response

Answer 7

Antigen presenting cells (APCs) present the antigen on Major histocompatibility complex (MHC) to T cells.

Co stimulatory signals: CD86/80 on APCs interact with CD28 on T cells

= Activation of T cells

= Activation of other T and B cells (Cytotoxic T cells and B cells)

Question 8

What are the different classes of anti-inflammatory drugs

Answer 8

NSAIDs
Glucocorticoids
DMARDs: Conventional DMARDs, Biologics, Targeted synthetic DMARDs

Question 9

Discuss NSAIDs.
MOA
Different classes + examples
NSAID properties

Answer 9

NSAIDs inhibit cyclooxyrgenase enzymes (Isoforms COX1 & COX2)

2 classes of NSAIDs
Non-selective NSAIDs: Aspirin, Ibuprofen

Selective NSAIDs: Celecoxib

NSAIDs have anti-inflammatory, antipyretic and analgesic effects

Question 10

Discuss glucocorticoids
MOA
Examples
Properties
Side effects

Answer 10

Binds to glucocorticoid receptor > Translocation to the nucleus > Alters gene transcription

Prednisone, cortisone

*Highly anti-inflammatory effects
Rapid onset of action

Long term use is associated with:

High blood pressure
Cushing’s disease

Question 11

What are DMARDs (its purpose).
State the different types of DMARDs, give an example for each

Answer 11

DMARDs are used to control symptoms and stop/slow the progression of chronic inflammatory diseases.

Types:
Conventional DMARDs i.e. Sulfasalazine

Biologics i.e. Adalimumab

Targeted synthetic DMARDs i.e. Tofacitinib

Question 12

What are conventional DMARDs?

Answer 12

Small molecules, with non-specific MOA, have anti-proliferative and cytotoxic effects

Affect activation/proliferation of lymphocytes = Immunosuppressive effects

But also affects other rapidly dividing cells = Side effects

E.g. Sulfasalazine, Hydroxychloroquine

Question 13

What are Biologics
Give an example

Answer 13

Therapeutic agents produced using living organisms or their components (such as cells, proteins, nucleic acids, or tissues).

These drugs are typically large and complex molecules

E.g. Adalimumab, Golilumab, Etanercept

Question 14

Compare and contrast Biologics and Conventional DMARDs

Answer 14

Biologics:
Highly complex manufacturing process, Difficult to replicate
Large molecules (cannot be administered orally)
More unstable and sensitive to external conditions

csDMARDs:

Easy manufacturing process that is easy to replicate
Small molecules
Stable

Question 15

What are the different types of bDMARDs +MOA

Answer 15

Anti TNF-alpha therapies:
Binds to TNF-α, preventing cytokine from interacting with cell surface receptors (TNFR1 and TNFR2)

Interleukin inhibitors: Anakinra competitively inhibits the binding of IL-1 to its receptor, preventing the signaling cascade that leads to inflammation.

IL-6 inhibitor: Tocilizumab
Tocilizumab inhibits IL-6 from binding to its receptor, thereby disrupting the signaling pathway and reducing inflammatory processes.

IL-1 inhibitor: Anakinra
Anakinra competitively inhibits the binding of IL-1 to its receptor, preventing the signaling cascade that leads to inflammation.

T-cell activation inhibitors: abatercept

B-cell depletion: Ritixumab

Question 16

Adalimumab

Answer 16

Human Monoclonal antibody
TNF-α therapy

Question 17

Golilimumab

Answer 17

Human Monoclonal antibody
TNF-α therapy

Question 18

Tocilizumab

Answer 18

Monoclonal antibody. IL-6 inhibitor

Binds to the IL-6 receptor and inhibits intracellular signalling pathways, reducing inflammatory processes.

Question 19

Etanercept

Answer 19

TNF-α therapy - fusion protein

Question 20

Anakinra

Answer 20

IL-1 therapy - recombinant human interleukin-1 receptor antagonist

Anakinra competitively inhibits the binding of IL-1 to its receptor, preventing the signaling cascade that leads to inflammation.

Question 21

Abatacept

Answer 21

T cell activation inhibitor - Fusion protein: part CTLA-4 +. Fc portion of human IgG1

Selective co-stimulation modulator.
Binds to CD80, CD86 and blocks interaction with CD28.

Blocking this interaction inhibits the second costimulatory signal required for T-cell activation

Question 22

Tofacitinib

Answer 22

JAK1 & JAK3 inhibitor - Targeted synthetic DMARD

Inhibits JAK1 ND JAK3 phosphorylation = reduced cytokine-induced phosphorylation of the JAK/STAT pathway

Question 23

State 3 pro-inflammatory Cytokines. What is used to target this?

Answer 23

Tumor necrosis factor: TNF-alpha: Adalimumab (human mab), Etarnercept (fusion protein) Golilumab (human mab)

Interleukins: IL-1, IL6

Anakinra (Recombinant antagonist protein of IL-1 receptor) IL-1
Tocilizumab (recombinant humanized monoclonal antibody) IL-6

Question 24

State the advantages of bDMARDs

Answer 24

Specific MOA
High efficacy
Fewer side effects compared with csDMARDs
Faster onset of action compared with csDMARDs (bDMARDs: weeks, csDMARDs: months)

Question 25

State the disadvanatges of bDMARDs

Answer 25

Side effects
Unstable (Must be stored appropriately)
Manufacturing process is highly complex and difficult to replicate
High price

Question 26

What are JAK/STAT inhibitors?

Answer 26

small molecules, with a very specific MOA
- Comparable efficacy to TNF inhibitors
- Common side effect: Infections
- Oral administration
- Rapid onset of action: days

Question 27

Describe the JAK/STAT pathway

Answer 27

-Cytokines bind to the cytokine receptor
-Receptor is activated -> auto-phosphorylation of JAK kinases
This attracts STAT proteins, which are also phosphorylated and bind to each other
-STAT proteins bind to the activated receptor and are phosphorylated
-Phosphorylated STAT proteins (dimer)go to the nucleus > impact on transcription of inflammatory related genes