Smooth muscle contraction

Question 1

Name some examples of smooth muscles

Answer 1

Arteries
Guts
Bladder
Reproductive organs

Question 2

What is the name for a nerve terminal

Answer 2

Varicosity - Contains noradrenaline

Question 3

How is noradrenaline released

Answer 3

Activation of sympathetic nerve
Calcium influx
Vesicles fuse with membrane (calcium binds to synaptotagmin)
Synaptotagmin removes inhibition, binding to phospholipid so v-SNARe binds to T-snare to create Snarepin, bringing membranes closer together to release noradrenaline.

Question 4

Describe features of smooth muscle

Answer 4

Junction coupling cells
Dense body
Intermediate filaments
Membrane dense area
Thick and thin filaments
No T tubules
Many G coupled receptors

Irregular myofilament arrangement

Question 5

Describe G protein receptor mechanism

Answer 5

Couple to GAQ -> Phospholipase C activation -> Breakdown of PIP2 to IP3 and DAG, which bind to their receptors and release calcium/promote calcium influx, leading to smooth muscle contraction.

Question 6

What calcium sensor is used in smooth muscle contraction vs skeletal and cardiac?

Answer 6

Troponin - Skeletal/Cardiac
Calmodulin - Smooth

Question 7

A rise in calcium in skeletal and cardiac muscle results in the removal of inhibition. (NO mechanism) What happens instead in smooth muscle contraction?

Answer 7

Myosin is activated (a GO mechanism)

Question 8

How is smooth muscle contraction different to skeletal/cardiac contraction

Answer 8

No troponin
Tropomyosin does not interact with the mysoin binding sites (it blocks in skeletal)
Myosin in smooth muscle is a different isoform (MYH11 in smooth vs MYH1)
Lower ATPase activity
Lower affinity for ATP

Question 9

What does MLCK (kinase) do

Answer 9

Attach phosphate to a protein - In this case, phosphorylation of MLC at ser 19

This increases the ATPase activity of the myosin head (more hydrolysis), and alters the structure of myosin

ATP affinity increased

Question 10

Describe the contractile mechanism for smooth muscle

Answer 10

Calcium influx, calcium released
Calcium binds to calmodulin
MLCK activated
Phosphorylated myosin interacts with actin, actin-myosin complex rings out the smooth muscle.

Question 11

How do smooth muscles maintain force for a long time with low levels of calcium

Answer 11

When de-phosphorylated, low affinity for ATP. This means it is harder for the myosin to detach from actin.

Consequently, smooth muscles can maintain a degree of interaction for long periods.

Question 12

What does a rise in cAMP do in smooth muscle contraction

Answer 12

Activates PKA which inhibits MLCK -> Increase in calcium does nothing as MLCK does not work. Muscles relax

This is why B-adrenoreceptor activation increases cardiac contraction but relaxes arteries (smooth)