Pharmacology 1 - Asthma (1)

Question 1

What neurotransmitter do all preganglionic fibres of the sympathetic and parasympathetic division use?

Answer 1

Acetylcholine

Question 2

Where are cell bodies of the preganglionic fibres of the parasympathetic division located?

Answer 2

In the brainstem (this is where they synapse onto the post-synaptic fibre)

Question 3

Where are the cell bodies of the postganglionic fibres located (parasympathetic) in the respiratory system?

Answer 3

In the walls of the bronchi and bronchioles

Question 4

What does stimulation of postganglionic cholinergic fibres cause in terms of bronchial smooth muscle?What is this mediated by?

Answer 4

Bronchial smooth muscle contractionM3 muscarinic ACh receptors on airway smooth muscle cellsIncreased mucus secretion mediated by M3 muscarinic ACh receptors on goblet cells

Question 5

What does stimulation of postganglionic noncholinergic fibres cause (parasympathetic division)?

Answer 5

Bronchial smooth muscle relaxation mediated by NO and VIP (instead of ACh which would cause contraction)

Question 6

What are nitric neurones?

Answer 6

nerve cells where transmission is mediated by NO

Question 7

What 2 effects can the parasympathetic system have on airway smooth muscle and what is each mediated by?

Answer 7

Contraction = cholinergic post-synaptic neurone (uses ACh)Relaxation = nitrergic post ganglionic neurone (uses NO and VIP)

Question 8

Does the sympathetic nervous system supply the lungs?

Answer 8

Post-ganglionic fibres supply submucosal glands and smooth muscles of blood vesselsThere is NO innervation of bronchial smooth muscle

Question 9

What does stimulation of the sympathetic nervous system cause in terms of the lungs? (4)what is each mediated by?

Answer 9

Bronchial smooth muscle relaxation via B2-adrenoceptors on airway smooth muscle cells activated by adrenaline released from the adrenal glandDecreased mucus secretion mediated by B2 adrenoceptors on goblet cellsIncreased mucociliary clearance (mediated by B2 adrenoceptors on epithelial cells)Vascular smooth muscle contraction mediated by alpha1-adrenoceptors on vascular smooth muscle

Question 10

How does airway smooth muscle contract at the cellular level - G-protein-coupled receptor mechanism?

Answer 10

The transmitter or hormone activated the G-protein coupled receptor (in lungs this is M3)This activates the membrane bound enzyme PLC PLC degrades PIP2 to IP3 which is a secondary messengerIP3 diffuses through the cytoplasm until it encounters the IP3 receptor on the sacroplasmic reticulumIP3 opens the channel and calcium diffuses out of the reticulum and into the cytoplasm which causes contraction

Question 11

What is the sarcoplasmic reticulum?

Answer 11

The main calcium ion store in the cell

Question 12

How many ways can smooth muscle be stimulated to contract (cellular level)?

Answer 12

Either by the activation of G protein coupled receptors (most important)Depolarisation activating a calcium channel on the cell surface

Question 13

How does airway smooth muscle contract at the cellular level - calcium channel mechanism?

Answer 13

Depolarisation activates a Ca2+ channel on the cell surfaceCalcium moves down the concentration gradient into the cell This is an amplification stopCalcium binds to the calcium activated calcium channel (ryanodine receptor) on the sarcoplasmic reticulum membrane which causes the channel to open and calcium to leave the internal Ca2+ store causing contraction

Question 14

How does the release of calcium from the sarcoplasmic reticulum initiate contraction of smooth muscle?

Answer 14

Increase in intercellular calcium concentration is sensed by a calcium binding molecule within the cytoplasm called Calmodulin (this is a regulatory protein - not an enzyme)When Calmodulin binds to Ca2+, it undergoes a conformational change and becomes an active complex which can integrate with downstream targetsCa2+-Calmodulin wraps itself around inactive MLCK activating itActive mLCK tips the terminal phosphate from ATP = ADP and Pithis Pi phosphorylates the myosin cross bridge forming an actin myosin cross bridge which can bind actin

Question 15

What does MLCK stand for?

Answer 15

Myosin light chain kinase

Question 16

In terms of the regulatory myosin light chain, what causes contraction of smooth muscle cells?

Answer 16

phosphorylation of MLC in the presence of elevated intracellular Ca2+

Question 17

How does smooth muscle relax?

Answer 17

Due to dephosphorylation fo MLC by myosin phosphatase (MLCK and myosin phosphates activity opposes each other)

Question 18

What does myosin light chain kinase do?

Answer 18

Phosphorylates (adds a phosphate) to the myosin light chain causing contraction

Question 19

What does myosin phosphatase do?

Answer 19

Dephosphorylates the myosin light chain = relaxation

Question 20

What happens to the enzymes in the presence of elevated intracellular Ca2+

Answer 20

the rate of phosphorylation exceeds the rate of dephosphorylationTherefore for relaxation the intracellular Ca2+ concentration must return to basal level (achieved by primary and secondary active transport)

Question 21

What happens when B2 adrenoceptor is stimulated by adrenaline in terms of phosphorylation?

Answer 21

B2 adrenoceptor is coupled to Gs which activates adenyl cyclase (AC)AC causes the conversion of ATP to cAMP which binds to protein kinase A (PKA) activating it (cAMP is degraded by Phosphodiesterase (PDE))PKA phosphorylates the myosin light chain kinase inhibiting it and phosphorylates myosin phosphatase stimulating itThis results in relaxation of bronchial smooth muscle

Question 22

What happens to vascular smooth muscle due to release of adrenaline and through what receptors?

Answer 22

Activation of B2 = vasodilation at lungsActivation of alpha 1 = vasoconstriction in rest of body

Question 23

What is asthma?

Answer 23

Recurrent and reversible (in the short term) obstruction of the airways in response to substances (or stimuli) that are not necessarily noxious and normally do not affect non-asthmatic subjects

Question 24

What is acute severe asthma?What is another name for this?

Answer 24

an acute exacerbation of asthma that does not respond to standard treatments of bronchodilators (inhalers) and steroids.Status asthmaticus

Question 25

what can happen if chronic asthma is not treated?

Answer 25

It can develop into an obstruction of the airways which is only partially reversible

Question 26

What pathological changes to the bronchioles can occur in chronic asthmatics due to long standing inflammation? (5)

Answer 26

Increased mass of smooth muscle (hyperplasia and hypertrophy)Accumulation of interstitial fluid (oedema)Increased mucus secretionEpithelial damage (exposing sensory nerve endings)Sub-epithelial fibrosis(airway narrowing by inflammation and bronchoconstriction increases airway resistance decreasing FEV1 and PEFR)

Question 27

What causes increased sensitivity of the airways to bronchoconstrictor influences in asthmatic?

Answer 27

Epithelial damage, exposing sensory nerve endings (C-fibres, irritant receptors) causes increased sensitivity of the airways to bronchoconsitrctor influences (may cause neurogenic inflammation due to release of various peptides)

Question 28

what is hypersensitiviy?

Answer 28

having extreme physical sensitivity to particular substances or conditions.

Question 29

What is hyper-reactivity?

Answer 29

a state characterised by easily triggered bronchospasm

Question 30

What are the 2 components of bronchial hyper-responsivness in asthma?

Answer 30

HypersensitivityHyper-reactivity

Question 31

What type of hyper-responsivness will a patient with mild asthma have?What effect does this have on the curve of concentration of inhaled bronchoconstrictor against fall in FEV1 have?

Answer 31

HypersensitivityShifts it to the left

Question 32

What type of hyper-responsivness will a patient with severe asthma have?What effect does this have on the curve of concentration of inhaled bronchoconstrictor against fall in FEV1 have?

Answer 32

Hypersensitivity and hyperreactivityShifts the curve to the left and also increases the peak

Question 33

What are the 2 phases of an asthma attack? What causes each phases?What type of hypersensitivity reaction is each phase?

Answer 33

Immediate (mainly bronchospasm - some acute inflammation) - type I hypersensitivity reactionDelayed (inflammatory reaction) - type IV hypersensitivity reaction

Question 34

What are the 2 different types of T helper cells?

Answer 34

Th1Th2

Question 35

What type of T helper cell response leads to mild to moderate asthma?

Answer 35

Th2

Question 36

What type of T helper cell response leads to severe asthma?

Answer 36

Th2 response predominates but Th1 response also contributes

Question 37

What happens to nonatopic individuals when exposed to an allergen?

Answer 37

Phagocytosis by an antigen presenting (dendritic) cell causing a low level Th1 response (cell-mediated immune response involving IgG and macrophages)

Question 38

What is a Th1 response?

Answer 38

Cell mediated immune reins involving IgG and macrophages

Question 39

What is a Th2 response?

Answer 39

Antibody-medited immune response involving IgE

Question 40

What happens to atopic individuals when exposed to an allergen?

Answer 40

Phagocytosis by antigen presenting (dendritic) cell causes a strong Th2 response

Question 41

What is thought to favour a Th1 response when exposed to an allergen?

Answer 41

Exposure early in life to microbes favouring Th1 reponse

Question 42

What is though to favour a Th2 response when exposed to an allergen?

Answer 42

A hygienic “western lifestyle”

Question 43

What causes the initiation phase of the development of allergic asthma?

Answer 43

Initial presentation of an antigen (e.g. dust mite protein or pollen) initiates an adaptive immune response

Question 44

What is another name for CD4+ cells?

Answer 44

Helper T cells

Question 45

what is involved, in terms of cells, with the induction phase of the development of allergic asthma?

Answer 45

Antigen presenting cell (dendrite) in the airway epithelium presents an aeroallergen to T CD4+ cells (T helper cells)This causes Th0 cells to preferentially mature to Th2 cells (instead of Th1 cells)Th2 cells activate B cells by binding to them and by IL-4 productionB cells mature to IgE secreting plasma cells

Question 46

What is another name for CD8+ cells?

Answer 46

Cytotoxic T cells

Question 47

What can Th0 cells do?

Answer 47

Mature to Th1 or tH2 cells

Question 48

What are interleukins?

Answer 48

any of a group of naturally occurring proteins that mediate communication between cells

Question 49

what are cytokines?

Answer 49

any of a number of substances, such as interferon, interleukin, and growth factors, which are secreted by certain cells of the immune system and have an effect on other cells.

Question 50

What is involved, in terms of cells, with the effector phase of the development of allergic asthma?

Answer 50

The IgE produced during the induction phase can attach to a number of inflammatory cells in the airways (in particular eosinophils and mast cells)Eosinophils differentiate and activate in response to Il-5 released from Th2 cells allowing IgE receptors to be expressed on their membraneMast cells in the airway tissue express IgE receptors in response to il-4 and IL-13 released from Th2 cells

Question 51

What happens when asthmatics are subsequently presented with the aeroallergen antigen?

Answer 51

The antigen crosslinks IgE receptors stimulating calcium entry into the mast cells and release of Ca2+ from intracellular stores causing:-release of secretory granules containing preformed histamines and the production and release of other agents e.g. leukotrienes causing airway smooth muscle contraction-release of substances (e.g. prostaglandins) which attract cells causing inflammation (e.g. eosinophils) into the area

Question 52

What 2 phases does the development of allergic asthma involve?

Answer 52

Induction phaseEffector phase

Question 53

What interleukin produced by Th2 cells activates B cells causing them to mature to IgE secreting plasma cells?

Answer 53

IL-4

Question 54

What interleukin released by Th2 causes eosinophils to differentiate and activate?

Answer 54

IL-5

Question 55

What interleukins released by Th2 cells causes mast cells to express IgE receptors?

Answer 55

IL-4 and IL-13

Question 56

What cells are involved in the immediate stage of an asthma attack?What does this lead to the late phase?

Answer 56

Allergen activates mast cells and other mononuclear cells = release of histamine, etc. which leads to bronchospasm and early inflammationRelease of chemotaxins and chemokines leads to the late phase

Question 57

What does cytokine released in the immediate phase lead to (what happens in the late phase) in terms of cells?

Answer 57

Infiltration of cytokine releasing Th2 cells and monocytes and activation of inflammatory cells (particularly eosinophils)

Question 58

What does the late phase cause in terms of the lungs?

Answer 58

Epithelial damage
Airway hyper-responsivness
Airway inflammation
Bronchospasm, wheezing, mucus over secretion and cough