HUF 2-82 Pharmacology of autacoids and anti-inflammatory drugs III Flashcards
1
Q
Kinin-Kallikrein System
A
Kininogen LMWK (many tissues) ↓ (Tissue Kallikrein) Kallidin ↓ (Aminopeptidase) Bradykinin
Kininogen HMWK (liver → circulation)
↓ (Plasma Kallikrein)
Bradykinin
Plasma Kallikrein
- converted from inactive precursor prekallikrein by coagulation factor XII (blood coagulation cascade)
2
Q
Bradykinin
A
- pain/hyperalgesia (peripheral sensitisation of nociceptors)
- vasodilation (may ↓↓ BP)
- ↑ vascular permeability
- B1R: inducible w/i hours by inflammation & tissue damage
` agonist: bradykinin(1-8) by kininase I
` antagonist: [Leu8’-bradykinin(1-8), des-Arg10 Hoe140 - B2R: constitutively expressed in many tissues
3
Q
Roles of bradykinin in inflammation
A
- B2R (acute phase of inflammation)
=> vasodilation, ↑ vascular permeability, edema, inflammatory pain - B1R (chronic phase of inflammation)
=> chemotaxis of leukocytes, hyperalgesia (immune cells, sensory n.)
4
Q
Chronic inflammations
A
- persistent infections
- persistent contact with irritant / toxic substances
- autoimmune diseases
5
Q
Simple outlines of glucocorticoid usage
A
- Asthma
- orally with inhaled / oral glucocorticoids - Rheumatoid arthritis
- suppress self-immune attach to joints
- used w/ DMARD
6
Q
Effects of glucocorticoids
A
- Anti-inflammatory
- inhibit PLA2 (via lipocortin-I)
- inhibit COX2
- inhibit proinflammatory mediators
- stabilise lysosomal membrane
- ↓ vascular permeability - Immunosuppresive
- cell-mediated immunity
- lympholysis
7
Q
Mechanisms of glucocorticoids
A
- Genomic actions
- intracellular receptors => gene transcription
- activate anti-inflammatory genes
(e. g. lipocortin-I, IL-1Ra)
- repress pro-inflammatory genes
(e. g. COX2, IL6, TNF-α) - Non-genomic action
- direct release of lipocortin-I from leukocytes
- inhibit PLA2, AA, PG…
- inhibit leukocyte trafficking
- other anti-inflammatory actions
8
Q
PK profile of glucocorticoids
A
- short t1/2 (~ 90 mins)
- plasma albumin / corticosteroid-binding globulin
=> biologically inactive
=> ↑ t1/2 (~ 8 hrs) - diffusion → cells
- metabolised in liver
- excreted by kidney
- cortisone → hydrocortisone
- prednisone (prodrug) → prednisolone
9
Q
Other clinical uses of glucocorticoids
A
- prevention of tissue rejection in solid organ transplant recipient
e. g. prednisone - replacement therapy for adrenal insufficiency
e. g. hydrocortisone - functional test for hypothalamic-pituitiary-adrenal hormonal control axis
- anti-emetics during chemotherapy
e. g. dexamethsone - treatment for psoriasis & eczema
e. g. topical corticosteriods
10
Q
Undesirable effects of long-term use of glucocorticoids
A
- Suppression of hypothalamic-pituitary-adrenal axis
- -ve. feedback to ACTH & cortisol
- atrophy of zona fasciculata & reticularis - Response of endogenous glucocorticoid to stress is reduced or absent
=> takes long time to recover
∴ abrupt discont. => 2° adrenal insufficiency
∴ gradually temper withdrawal of exogenous glucocorticoid after chronic treatment (>2 weeks) - Iatrogenic Cushing’s syndrome
11
Q
Iatrogenic Cushing’s syndrome
A
- Protein degradation
- CT: thinning of skin, easy bruising, striae formation, poor wound healing
- muscle: muscle wasting
- children: stunted growth - Lipogenesis
- truncal obesity, moon face, buffalo hump supraclavicular fat pad - Anti-insular effect
- endocrine: insulin resistance => DM
- ↑ BG & insulin levels - Renal & CNS effects
- mineralocorticoid effect, hypokalaemia
- hypertension - Side effects
- bone: osteoporosis / osteopenia
- immune system: ↑ susceptibility to infections
- CNS: euphoria, irritability, depression, emotional lability
12
Q
Drugs for rheumatoid arthritis
A
- NSAID
- symptomatic relief, pain relief - Glucocorticoid
- suppress immune actions against damaged joints - DMARD
- various mechanisms
- very slow onset of action
- NSAID ‘cover’ in induction phase
- successful => concomitant NSAID can be reduced
e. g. methotrexate, sulphasalazine, chloroquine, immunosuppressive drugs, monoclonal Ab
