Smooth Muscle Contraction

Question 1

Describe smooth muscle

Answer 1

Elongated, spindle-shaped cells with tapered ends which may occasionally be bifurcated.
Shorter than skeletal muscle fibres containing only one nucleus which is elongated and centrally located.
Individual muscle fibres are arranged roughly parallel to one another

Question 2

Where is smooth muscle found?

Answer 2

Smooth muscle surrounds blood vessels, GI tract, bronchial airways

Question 3

What are the two types of functional smooth muscle in regards to their connectivity?

Answer 3

Unitary, single unit, visceral, phasic

Multiunit, tonic

Question 4

What is unitary/single unit/visceral/phasic functional smooth muscle?

Answer 4

sheets of electrically coupled cells which acts in unison (a ‘syncytium’ e.g., gut and blood vessels

Question 5

What is multiunit/tonic functional smooth muscle?

Answer 5

Tissue of discrete bundles of cells which are densely innervated and contract only in response to its innervation (e.g., vas deferens, iris, piloerectors)

Question 6

Describe the structure of the filaments of smooth muscle

Answer 6

• Contains actin and myosin filaments, however not aligned by Z discs so no visible striations
• Actin and myosin filaments aligned diagonally along long axis of cells
• Filaments anchored at dense bodies (α-actinin-rich) scattered throughout sarcoplasm
• Contractile arrays fixed by intermediate filaments (vimentin and desmin)

Question 7

What connects contractile arrays to the sarcolemma in smooth muscles?

Answer 7

Dense plaques

Question 8

What are contractile arrays anchored to in smooth muscle?

Answer 8

The sarcolemma

Question 9

What connects smooth muscle cells?

Answer 9

focal adhesions (adherens junctions)

Question 10

Describe the tertiary structure of thick (myosin) filaments

Answer 10

Tertiary structure similar but amino acid sequence different to thin filaments*

Contains 2 myosin heavy chains (MHCs)
And
2 myosin light chains (MLCs)

Question 11

What* are the 2 myosin heavy chains (MHCs) found in thick (myosin) filaments?

Answer 11

Head (contains ATPase and actin binding site)

Neck regions

Question 12

What are the 2 myosin light chains (MLCs) found in the thick (myosin) filaments?

Answer 12

Essential light chains

Regulatory light chains or MLC20

Question 13

Describe the thin (actin) filaments

Answer 13

Two smooth muscle actin(SMA) isoforms
Smooth muscle thin filaments do contain tropomyosin BUT do not contain troponin
Thin filaments associate with 2 other regulatory proteins instead
Mechanism of interaction is different too

Question 14

How are actin sites exposed in thin (actin) filaments?

Answer 14

Actin sites exposed by interaction of regulatory proteins with high concentrations of Ca2+-calmodulin (CaM) or phosphorylation of proteins by Ca2+-calmodulin dependent protein kinase

Question 15

What are the two smooth muscle actin(SMA) isoforms?

Answer 15

α SMA, dominant in vascular smooth muscle

γ SMA, largely restricted to the GI tract

Question 16

What are the 2 regulatory proteins found in thin (actin) filaments but not thick (myosin) filaments?

Answer 16

Caldesmon – is an actin associated myosin ATPase inhibitor

Calponin – also an actin associated myosin ATPase inhibitor

Question 17

What fulfils the role of the absent T(transverse)-tubules in the sarcoplasmic reticulum in smooth muscle?

Answer 17

Caveolae (flask-shaped sarcolemmal pockets) at the plasma membrane

Question 18

How does the sarcoplasmic reticulum of smooth muscle differ from that of skeletal muscle?

Answer 18

Sarcoplasmic reticulum not as extensive as in skeletal or cardiac muscle
Ca2+ sequestered in extracellular space near caveoli

Question 19

How does the intracellular stimulus of smooth muscle contraction differ from that of skeletal muscle?

Answer 19

It doesn’t, it is still an increase in intracellular Ca+ ie same as skeletal muscle.

This can be caused by nerve or hormonal stimulation

Question 20

How does contraction occur in smooth muscle?

Answer 20

only phosphorylated form of myosin can bind to actin and undergo cross-bridge cycling

Question 21

What phosphorylates myosin in smooth muscle?

Answer 21

Myosin light chain kinase (MLCK)

Question 22

How does relaxation occur in smooth muscle?

Answer 22

myosin must be dephosphorylated as dephosphorylated myosin is unable to bind to actin

Question 23

How is dephosphorylation of myosin mediated in smooth muscle?

Answer 23

by myosin light-chain phosphatase (MLCP)

Question 24

What are the 6 steps of smooth muscle contraction?

Answer 24

1. Initiated by calcium from ECF or SR.
2. Calcium binds to calmodulin (instead of troponin as in skeletal muscle)
3. Ca-calmodulin-MLCK complex leads to phosphorylation of MLC (requires 1 ATP)
4. MLC is part of myosin head
5. Phosphorylated myosin head binds to actin and power stroke occurs automatically
6. A second ATP is required to release myosin head from actin

Question 25

Describe the 3 steps of smooth muscle relaxation continuing on from smooth muscle contraction?

Answer 25

7. Calcium concentration dips below a critical level due to being pumped out of the cell or into the SR*?(caveoli?)
8. Calcium is released from calmodulin
9. MLCP removes phosphate from the MLC, causing detachment of the myosin head from the actin filament, causing relaxation

Question 26

What are the types of factors that help increase the Cai2+ in excitation contraction coupling in smooth muscle?

Answer 26

– 2 sources of Ca2+ contribute to increase in Cai2+

– 3 mechanisms can lead to increase in Cai2+

Question 27

What are the 2 sources of Ca2+ that contribute to increase in Cai2+ in excitation contraction coupling in smooth muscle?

Answer 27

Sarcoplasmic reticulum (SR)

Cao2+ entering the cell through plasma-membrane Ca2+ channels

Question 28

What are the 3 mechanisms can lead to increase in Cai2+ in excitation contraction coupling in smooth muscle?

Answer 28

– Voltage-gated L-type Ca2+channels (Cav) leading to Calcium-induced calcium release (CICR) via Ryanodine (RYR) receptor activation
– Receptor-operated Ca2+ channels (ROCCs) leading to IP3 receptor activation amd calcium release
– Store operated Ca2+ channels (SOCs)

Question 29

What allows smooth muscle to maintain high force for long periods?

Answer 29

The formation of latchbridges

unique and fundamental to smooth muscle

Question 30

What are latchbridges?

Answer 30

A position in which the myosin head is held that allows for contraction over long periods of time and uses minimal ATP due to an intrinsically slow cycling rate
Occurs when myosin is dephosphorylated while still attached to actin (“latches” in place)

Question 31

What are required for latchbridges to occur?

Answer 31

Latchbridges are contractile events - can only occur if intracellular Ca2+levels remain elevated above background

Question 32

Where do the Ca2+ ions go in relaxation of smooth muscle cells?

Answer 32

• Ca2+ removed either to the SR or back to the extracellular fluid
  variable amounts of Ca2+may be extruded from the cell

Question 33

How is Ca2+ transported in relaxation of smooth muscle cells?

Answer 33

Ca2+ ATPase (SERCA)

Na+- Ca2+ exchangers

Question 34

How does the sarcoplasmic reticulum refill its Ca2+ stores in relaxation of smooth muscle?

Answer 34

SR containstore-operated Ca2+channel(SOCs)
These refill SR stores
occurs at specialized regions where SR encounters the sarcolemma

Question 35

When do store-operated Ca2+channels(SOCs) open?

Answer 35

Store depletion is sensed byStim1, which signals toOrai

SOCs then open leading to Ca influx

Question 36

What may regulate the contractile activity of a smooth muscle cell?

Answer 36

• Spontaneous electrical activity in muscle cell
• Stretch
• Neurotransmitter released by autonomic neurons
• Hormones
• Locally induced changes in chemical composition (paracrine factors, acidity, oxygen, osmolarity, ion concentrations) of extracellular fluid around myocytes

Question 37

What is the pacemaker potential?

Answer 37

pacemaker potential is the slow, positive increase in voltage across the cell’s membrane (the membrane potential) that occurs between the end of one action potential and the beginning of the next action potential

Question 38

Discuss spontaneous electrical activity in the smooth muscle

Answer 38

Some smooth muscle cells generate action potentials spontaneously in the absence of any neural or hormonal input
Membrane potential change during spontaneous depolarization to threshold - pacemaker potential

Some smooth muscle cells have a different pattern of activity
Membrane potential drifts up and down – these periodic fluctuations are called slow waves

Question 39

Where are pacemaker cells found in smooth muscle and what is their purpose?

Answer 39

Pacemaker cells are found throughout the gastrointestinal tract, and thus gut smooth muscle tends to contract rhythmically even in the absence of neural input

Question 40

Where do the synapses occur in smooth muscle?

Answer 40

swollen regions known as varicosities;

Unlike skeletal muscle fibers, smooth muscle cells do not have a specialized motor end-plate region

Question 41

Discuss varicosities

Answer 41

Varicosities contain neurotransmitter filled vesicles
Varicosities from a single axon may be located along several muscle cells
Varicosities originate from postganglionic fibers of both sympathetic and parasympathetic neurons
Several smooth muscle cells are influenced by neurotransmitters released by a single neuron, and a single smooth muscle cell may be influenced by neurotransmitters from more than one neuron

Question 42

Are neurotransmitters responsible for stimulating contractile activity in smooth muscle?

Answer 42

Yes, but others also decrease contractile activity

Sometimes the same neurotransmitter may have opposite effects on different types of small tissue

Question 43

What does noradrenalin do in smooth muscle?

just an example

Answer 43

noradrenaline released from postganglionic sympathetic neurons
Stimulates contraction of most vascular smooth muscle by acting on α-adrenergic receptors but produces relaxation of airway (bronchiolar) smooth muscle by acting on β2-adrenergic receptors

Question 44

What does the response to a neurotransmitter signal depend on?

Answer 44

Type of response (excitatory or inhibitory) depends not on the chemical messenger per se, but on the receptors the chemical messenger binds to in the membrane

Question 45

What local factors help mediate smooth muscle?

Answer 45

Paracrine signals, acidity, O2 and CO2 levels, osmolarity, ion composition of the extracellular fluid, can all alter smooth muscle tension
Allows for alteration of smooth muscle contraction in response to changes in environment – ‘fine tuning’
Many local factors induce smooth muscle relaxation
Nitric oxide (NO) produces smooth muscle relaxation acting in a paracrine manner

Some smooth muscles respond to stretch by contracting
Activates mechanosensitive (stretch-activated) ion channels leading to membrane depolarization
Resulting contraction opposes the forces acting to stretch the muscle

Question 46

What activates myosin light chain. kinase (MLCK)?

Answer 46

Calmodulin

Question 47

Where are the filaments of of smooth muscle anchored?

Answer 47

at alpha actinin rich dense bodies scattered throughout the sarcroplasm

Question 48

What fixes contractile arrays in smooth muscle?

Answer 48

Intermediate filaments (Vimentin and desmin)