PHRM 736 Drug Action II IBD PDF

Summary

This document appears to be lecture notes on the pharmacology of drugs to treat inflammatory bowel disease (IBD). It covers different types of IBD, drugs used for treatment, mechanisms of action, side effects, and other related information.

Full Transcript

PHRM 736 | Drug Action II | Pharmacology of Drugs to Treat IBD
Dr. Bennett | Objectives | Exam 1 Material
1. Differentiate between ulcerative colitis (UC) and Crohn’s disease (CD), areas
being affected, differences in immunologic properties being activated, and
primary symptoms of the disease.
two types of idiopathic inflammatory bowel disease:
o ulcerative colitis = mucosal inflammation, affecting the rectum and colon
§ humoral mediated immunity; B cells
o Crohn’s disease = transmucosal inflammation, affecting any part of body
§ cell mediated immunity; T cells
symptoms: bloody diarrhea

2. Identify names and classes of drugs used to treat IBD.
anti-inflammatory drugs: aminosalicylates; 5-ASA (5-aminosalicyclic acid)
o azo: Azulfidine, Dipentum, Colazal
o mesalamine (5-ASA): Pentasa, Azacol, Rowasa, Canasa, Lialda
others:
o glucocorticoids: prednisone, prednisolone, budesonide, methylprednisone
o thiopurines: azathioprine, 6-mercaptopurine
o immunosuppressives: methotrexate, cyclosporine
o anti-TNF ∝: infliximab, adalimumab, certolizumab pegol, natalizumab
o IL-receptor antagonist: ustekinumab
o janus kinase inhibitors: tofacitinib

3. Identify MOA, ADRs, active compounds, and supplementation of
sulfasalazine.
MOA inhibits synthesis of prostaglandins (anti-inflammatory); azo
(N=N) is broken down to 5-ASA (active compound)
side effects sulfa allergy, headache, rash, n/v/d, bone marrow
suppression, yellow-orange discoloration of skin/urine
active compounds mesalamine = 5-ASA
DDI folic acid (may need supplementation – 1 g/day)
Þ has the most side effects but is the least expensive!!
Þ bone marrow suppression due to depletion of folate
 PHRM 736 | Drug Action II | Pharmacology of Drugs to Treat IBD
Dr. Bennett | Objectives | Exam 1 Material
4. Identify MOA and ADRs of glucocorticoids.
MOA inhibit production of cytokines
cushing’s syndrome, adrenal suppression, insomnia, behavior
side effects changes, peptic ulcers, hyperglycemia, impaired wound
healing, immunosuppression, osteoporosis, increase intraocular
pressure, hypertension, hypokalemia
Þ all are pregnancy category C, EXCEPT budesonide (pregnancy category B)
Þ patients need to be on high protein and potassium-rich diets (due to hypokalemia)
Þ avoid abrupt discontinuation
Þ patients who are unresponsive to glucocorticoids, cannot take them!!
Þ patients who are dependent on glucocorticoids, must take a small dose for life

5. Identify MOA, ADRs, and DDI effects of thiopurines.
6-TG (active compound) suppresses purine nucleotide metabolism
MOA and DNA synthesis à inhibits cell division and proliferation
inhibits B and T cell function
side effects n/v, hepatotoxicity, lymphoma, leukopenia, thrombocytopenia
boxed warning lymphoma, leukopenia, thrombocytopenia
DDIs: allopurinol
Þ must monitor CBC and LFTs
Þ if a patient has both gout and IBD, a high dose of allopurinol is still
needed, so you must decrease dose of 6-TGN (azathioprine)
o allopurinol = xanthine oxidase inhibitor

6. Identify metabolites being made and slow/fast metabolizers of thiopurines.

6-mercaptopurine (6-
MP) must be taken on
an empty stomach!!

Þ azathioprine and 6-MP are metabolized 3 different ways:
o oxidative pathway: XO à 6-TU = inactive
o s-methylation: TPMT à 6-MMP = inactive
o HGPRT à active nucleotide 6-TGN
§ must decrease dose in poor metabolizers (patients who don’t have
TPMT) due to increased risk of bone marrow suppression
§ must increase dose in rapid metabolizers
PHRM 736 | Drug Action II | Pharmacology of Drugs to Treat IBD
Dr. Bennett | Objectives | Exam 1 Material
7. Identify MOA, ADRs, use, & antidote of methotrexate at a low and high dose.
MOA low dose: inhibits AICAR à inhibits IL-2 à decreases inflammation
high dose: inhibits cell-mediated immunity à decreases inflammation 4 cancer
uses Crohn’s disease, autoimmune diseases, rheumatoid arthritis, psoriasis,
lupus, dermatomyositis, cancers, immunosuppressant
side effects myelosuppression, oral ulceration/stomatitis, renal effects, n/v, increased
LFTs, pneumonitis, photosensitivity, alopecia, crystalluria (high dose)
antidote leucovorin
Þ must monitor LFTs
Þ stay hydrated and make urine basic (using bicarb) to prevent renal toxicity

8. Define MOA, identify drug names, and ADRs of anti-TNF-alpha agents.
MOA inhibit TNF à decrease cytokine release
drug names infliximab, adalimumab, certolizumab, golimumab
side effects ↑infections, reactivation of latent TB, hep B, lymphoma
Þ should not be given to immunocompromised patients
Þ how to name monoclonal antibodies:
o -mab or -monab = monoclonal antibody
o the letter before mab indicates the source of antibody
§ o = mouse | u = human | xi = chimeric
o the internal letter indicates therapeutic use
§ “tu” = tumor | “vi” = virus | “ci” = circulation
o ex: rituximab à chimeric human murine-monoclonal antibody
PHRM 736 | Drug Action II | Pharmacology of Drugs to Treat IBD
Dr. Bennett | Objectives | Exam 1 Material
9. Identify drugs with more potency and the reason for potency of anti-TNF-
alpha agents.
infliximab and adalimumab are more potent because they contain an Fc
portion that activates the complement pathway
o Fc portion binds to membrane bound NTF à activates complement
pathway à increases potency
certolizumab is less potent because it lacks the Fc portion

10. Identify MOA, ADRs, and drug names of integrin receptor antagonist,
janus kinase inhibitor, cyclosporine, and inhibitors of IL-12/23.

integrin receptor antagonist; adhesion molecule antagonist
humanized mab à blocks migration of lymphocytes
natalizumab side effects: infusion reactions, headache, fatigue, brain
infection (PML)
binds to alpha-4-beta-7 integrin à blocks interaction of
integrin with MadCAM-1 à inhibits migration of memory
vedolizumab T cells into inflamed GI tissue
side effects: nasopharyngitis, headache, arthralgia, brain
infection (PML)
Þ for infusion reactions, take Tylenol or benadryl!!
o if an allergic reaction, STOP TAKING
Þ if there is no therapeutic benefit in 12 weeks, d/c treatment for natalizumab!!

janus kinase inhibitor
MOA inhibits janus kinase à inhibits immune cell functions
drug names tofacitinib (Xeljanz)
side effects increased LFTs, increases lipids, infusion reactions, infections
Þ not a monoclonal antibody but a small molecule that can be taken PO
Þ mostly used for rheumatoid arthritis but shows benefits in IBD
PHRM 736 | Drug Action II | Pharmacology of Drugs to Treat IBD
Dr. Bennett | Objectives | Exam 1 Material
cyclosporine (CsA)
suppresses cell mediated immune reactions
MOA binds to cyclophilin to prevent formation of IL-2
calcineurin inhibitor
drug names Sandimmune à low bioavailability (PO)
Neoral; Gengraf à better bioavailability
side effects nephrotoxic, neurotoxic (tremors), hepatotoxic, increased risk
of lymphoma, infections, HTN, gingival hyperplasia
DDIs ketoconazole, grapefruit juice
boxed warning renal impairment, lymphoma, infections, HTN
Þ most effective immunosuppressive drug
o lymphoma and infection risk are common with immunosuppressive agents

IL-12/23 inhibitors
MOA decrease IL-12/23 à disrupt immune cells that cause
inflammation
drug names ustekinumab (Stelara)
side effects pneumonia, increases risk of TB, cancers, infusion reactions
Þ also used for psoriasis
Þ these are biologic monoclonal antibodies
Þ watch youtube video on this!!