pulmonary pharmacology 1

Question 1

what is asthma?

Answer 1

•Episodic Airways Obstruction due to;

–Bronchospasm - bronchial smooth muscle hyperactivity

–Cholinergic nerve over-activity

–Increased mucus secretion

–Pulmonary inflammation

•

•Symptoms

–Dyspnoea

–Wheezing,

–Cough

Question 2

What causes asthma?

Answer 2

genetic predisposition -

environmental factors

• infections (particlarly viral)
• allergens
• pharmacological triggers like NSAIDs, or beta blockers
• exercise (we don’t know why- but we assume the cold air elicits an inflammatory response)
• emotional stress

etc

Question 3

describe the pathophysiology of asthma?

Answer 3

• overactivity of cholinergic signaling causing the msucles to contract
• exposure to the trigger allergen is bound to IgE linked to mast cells
• leads to other inflammatory mediators to drive vasodilation and these chemokines and cytokines stimulate production of mucus etc.
• further plasma leakage and dilation lead to more constriction of the airway

Question 4

how does the autonomic nervous system contribute to the pathophysiology of asthma?

Answer 4

parasympathetic =

• Predominant innervation of airway smooth muscle - Vagus (Xth)
• Occupation of M3 receptors by Ach causes bronchoconstriction and increased mucous secretion.

sympathetic =

• No direct sympathetic supply of smooth muscle.
• Circulating adrenaline acts at B2 adrenoceptors on airway smooth muscle, and inhibits bronchoconstriction.

Question 5

how do beta 2 agonists work?

Answer 5

normally adrenaline binds to the receptor, which turns on adenylate cyclase - producing cyclic AMP which activate protein kinase A - which activates a number of pathways to relax the smooth muscle

• Causes relaxation of bronchial smooth muscle (bronchodilation) by increasing cAMP via G-protein linked activation of adenylate cyclase.
• Inhibits mediator release from mast cells
• May also increase mucociliary clearance

Question 6

what is the short acting beta2 agonist drug we use

Answer 6

Salbutamol (Ventolin)

Terbutaline

Question 7

what LONG acting beta 2 agonist do we use?

Answer 7

Salmeterol / Formoterol / Indacaterol / Vilanterol

Long acting compounds bind to an exoreceptor beside the B2 receptor causing repeated activation

• these are particularly good for patients who have poorly controlled asthma or COPD

Question 8

what are the systemic side effects of Beta2 agonists?

Answer 8

Systemic Side Effects:

tremor,

arrhythmias (when they bind to beta 1)

hypokalemia (due to beta 2 adrenergic receptors in the pancreas secreting insulin and therefore potassium)

muscle cramps, (very rarely, rhabdomyolysis)

Question 9

MLC20 is responsible for what?

Answer 9

when it is phosphorylated = contraction

when it is dephosphorylated = relaxation

Question 10

He always asks about Classes of drugs- not individual drugs just so you know

Question 11

how do muscarinic antagonists work?

Answer 11

inhibit action of acetyl choline at M1 M2 and/or M3

(odd numbered are attached to activating receptors)

Question 12

how do xanthines work?

Answer 12

Inhibition of phosphodiesterase (PDE), the enzyme that degrades cAMP. Increased concentrations of cAMP cause bronchodilation. (this blocking also prevents the release of cytokines from immune cells- preventing further immune response)

Inhibition of the release of intracellular calcium, thereby decreasing smooth muscle contraction (bronchoconstriction)

Competitive antagonism of adenosine on the adenosine receptor

Question 13

what are the side effects of xanthines?

Answer 13

narrow therapeutic range

can caue nausea, anorexia, arrythmias, and nervousness/tremor/seizures

Question 14

what are the pharmacokinetics of xanthines?

Answer 14

Metabolised in the liver

T1/2 increased by liver disease, heart failure and

decreased by smoking and heavy drinking

Question 15

where is xanthine metabolised?

Answer 15

in the liver by cytochrome P450 1A2 - therefore you should avoid other drugs which can compete for this binding site (like erythromicin)

If you do give another P450 drug, it can result in reduced plasma concentrations and decreased effects of drugs which are extensively metabolised by these enzymes

Question 16

describe the inflmmatory response in asthma

Answer 16

allergen recognized by IgE

mast cell releases histamine - broncho constriction

Interleukins - inflammation and mucosal oedema

Question 17

how do glucocorticoids work?

Answer 17

binds to receptor and translocates to the nucleus - when the receptor is bound to the steroid it binds to glucocorticoid response element - switching on target gene that is anti-inflammatory in nature

• It can also transprepress - where it translates into the nucleus and it not only upregulates anti-inflammatory genes, but it also downregulates inflammatory genes (so long as there is no coactivator present)
• it can also form a repressive complex with transcription factors - stopping them from interacting witht the promoter regions that drive inflammation

Question 18

what is the net effect of corticosteroids?

Answer 18

upregulation of anti-inflammatory mediators

down regulation of inflammatory mediators -

Question 19

why is it dangerous to give glucocorticoids orally too often?

Answer 19

b/c adding artificial glucocorticoids we turn off the negative feedback loop that naturally occurs with our pituitary gland -

therefore we have longterm adrenal suppression - which can lead to Cushing’s syndrome etc. -

Question 20

what is the effect of glucocorticoids on your metabolism?

Answer 20

can lead to glucose intolerance over long term use

Question 21

how do Cromones work?

Answer 21

they block the degranulations of mast cells - they essentially stabilize the mast cells by inhibiting Ca+ influx

they have a bit of a bronchodilatory effect - by inhibition of sensory neurons

they also reduce IgE production and inhibit eosinophil accumulation in lungs

Question 22

why are Cromones used in younger patients?

Answer 22

Whilst not as effective as inhaled steroids, fewer side effects.

Hence first choice anti-inflammatory agent in children

Question 23

what is the precursor of leukotrienes?

Answer 23

arachidonic Acid

Question 24

What are the two types of leukotriene modifyiers?

Answer 24

receptor antagonists and inhibitors of 5-lipoxygenase

Question 25

in what condition are anti-leukotrienes most effective in?

Answer 25

benefit seen in 50% of patients but most effective in exercise induced bronchoconstriction, cold induced broncho constriction and aspirin/NSAID induced bronchoconstriction

they have a low side effect profile