Smooth Muscle

Question 1

Where does one find smooth muscle and what is its function?

Answer 1

• Surrounds hollow organs and blood vessels

- contraction/repulsion and vascular resistance

Question 2

Innervation of smooth muscle

Answer 2

-autonomic

Question 3

Nucleus of smooth muscle

Answer 3

mono nucleated: can reenter cell cycle and proliferate unlike skeletal and cardiac

Question 4

Electrical description of smooth muscle cells

Answer 4

-can either be isolated (like skeletal muscle) or connected to neighboring cells (cardiac)

Question 5

Unlike skeletal muscles, smooth muscles usually are slower and involve continuously ongoing ______ contraction/force

Answer 5

tonic

Question 6

________ are not readily observed in smooth muscle

Answer 6

• striations

- actin and myosin are not organized into sarcomeres in smooth muscle

Question 7

Tropomyosin is present in smooth muscle in about the same ration to actin content as in skeletal muscle, and is similarly associated with actin filaments. One major difference in protein content is the complete absence of _______

Answer 7

-troponin complex (I,C, and T) which confer Ca2+ sensitivity upon the skeletal and cardiac muscle contractile systems

Question 8

Instead of troponin proteins, smooth muscle cells are seen to contain either ______ or ________. The function of these isn’t exactly known, but they likely play modulatory functions in fine tuning the smooth muscle contractile characteristics.

Answer 8

• Caldesmon

- Calponin

Question 9

Compare amounts of actin in smooth muscle to actin in skeletal muscle

Answer 9

-twice as plentiful in smooth

Question 10

Several actin filaments in smooth muscle may pass through or terminate in a protein-rich _________ or __________ which acts as a point of thin filament anchorage for the transmission of generated force.

Answer 10

• Dense bodies

- Desmesomes

Question 11

Some dense bodies appear bound to the plasma membrane and others suspended in cytoplasm. In order to support these cytoplasmic anchorage points, a network of _________ made up of _______ interconnects membrane and cytoplasmic dense bodies.

Answer 11

• Intermediate filaments

- Desmin/Vimentin/both

Question 12

In addition to desmin, the proteins ________ and _______ have been identified in both skeletel muscle Z banks and muscle muscle dense bodies.

Answer 12

• Alpha-actinin

- Tropomyosin

Question 13

The role of desmin filaments in skeletal muscle cell however is to maintain lateral registration of myofibrillar Z bands. These similarities in protein content and function support the notion that the intermediate filament lattice/dense body network is essentially _________.

Answer 13

A dispersed Z band or more appropriately, that Z bands arose as an aggregate of dense bodies

Question 14

Smooth muscles may have less myosin than striated muscle, but it can generate larger forces still because?

Answer 14

-The myosin is longer (and more actin)

Question 15

Smooth muscle myosin must be activated (turned on) to be functional. How is this accomplished?

Answer 15

-Phosphorylation of myosin light chain (MLC)

Question 16

If troponin is missing in smooth muscles, how does Ca2+ activate contraction?

Answer 16

• Calcium enters cells and binds to calmodulin
• Calmodulin can now bind and activate MLCK
• MLCK will phosphorylated MLC and turn on myosin

Question 17

Dense bodies are composed of mainly __________, the major protein of the Z-line, and act to anchor the thin filaments, much like the Z line in striated muscle

Answer 17

-Alpha actinin

Question 18

Intermediate filaments, _________ and ________, attach intracellular dense bodies to the membrane dense bodies

Answer 18

-Desmin and vimentin

Question 19

The forces generated by actin and myosin interaction are transmitted to the cell membrane, and the contractile apparatus of adjacent cells are linked between membrane attachment-plaques, or desmesome-like attachments to do what?

Answer 19

-Transmit force of contraction across cells

Question 20

Because of structure of smooth muscle, individual cells have can shorten by _____________.

Answer 20

-Over 70% of their resting length

Question 21

Thick/thin filament interaction in smooth muscle can be termed _________, as the individual thin filaments are not bound by a sarcomere to only associated with a single thick filament.

Answer 21

• Plastic

- Plasticity has important implications for force-length relationships

Question 22

4 types of junctions between smooth muscle cells

Answer 22

• Simple opposition and Intermediate contact (no electrical or mechanical connectivity)
• Desmesome (mechanical, no electrical connectivity)
• Gap junction (electrical connectivity)

Question 23

Smooth muscle is regulated by _______, but does not contain the protein ______.

Answer 23

Calcium

Troponin

Question 24

__________ phosphorylates MLC and _________ dephosphorylates/deactivates MLC

Answer 24

• MLCK
• MLC phosphatase
• By regulating the activity of these 2 enxymes, smooth muscle is able to increase and decrease the p-lation of MLC and thus either contract or relax

Question 25

At low Ca2+, MLCK is ________. What happens as calcium increases?

Answer 25

• Inactive
• Increase calcium, increase calmodulin bound to calcium ( homologous to troponin C)
• After binding 4 calcium molecules to calmodulin, it binds to and turns on MLCK

Question 26

2 sources of calcium for smooth muscle contraction

Answer 26

1. Electromechanical coupling

2. Pharmacological coupling (depolarization independent)

Question 27

Electromechanical coupling

Answer 27

-Smooth muscle contracts in response to rise in intracellular Ca2+
This can be derived through L-type Ca2+ channels or other receptors

Question 28

Pharmacomechanical coupling

Answer 28

• Smooth muscle can contract without a change in Vm
• Cell membrane has many GPCRs that activate phospholipase C, hydrolyze PIP2 into IP3 and DAG
• IP3 receptor on SR and high sequence homology to RyR in cardiac muscle
• Increase in Ca2_ induced by binding of an agonist to its receptor without a change in Vm is called pharmacomechanical coupling

Question 29

Does smooth muscle have T-tubules?

Answer 29

-No

Question 30

Smooth muscle forces varies with ____________.

Answer 30

• MLC phosphorylation
• force shows a linear increase with MLC phosphorylation until approximately 60% of MLC is phosphorylated, after which force is constant (isometric)

Question 31

The linear relationship between Ca and phosphorylation and force holds for contractions triggered by depolarization. However, for agonist stimulation, what occurs? What is this phenomenon called?

Answer 31

• at any particular [Ca2+], force is higher than for a contraction stimulated by depolarization
• This phenomenon is called agonist-induced calcium sensitization of the contractile filaments

Question 32

What is the mechanism for this extra force in agonist depolarization?

Answer 32

• Appears to be a G-protein coupled regulation of MLC phosphatase
• With agonist activation, MLC phosphatase activity is decreased, and at any Ca2+ concentration, MLC phosphorylation is increased and more force is generated

Question 33

2 sources to regulate smooth muscle contraction

Answer 33

1. Increase MLCK activity: increasing calcium activated MLCK which phosphorylates RLC
2. Inhibit MLC phosphatase: this is the mechanism agonist activation relies on

Question 34

2 pathways by which agonists increase contraction through inhibiting MLC phosphatase

Answer 34

• G-protein activation of rho, leads to activation of rho kinase, that p-lates the MBS of MLC phosphatate causing inactivation
• PKC inactivates MLC phosphatase via CPI-17

Question 35

Mechanism of agonist activation of smooth muscle relies on _________.

Answer 35

Inhibition of MLC phosphatase

Question 36

Similar to cardiac muscle, there is no _________ for smooth muscle.

Answer 36

-Antagonist

Question 37

Relaxation of smooth muscle requires dephosphorylation of the MLC. How can this be achieved?

Answer 37

-Increase in activity of MLC phosphatase or decreased activity of MLCK

Question 38

3 ways to relax smooth muscle (looking for mechanisms)

Answer 38

1. Decreasing calcium leads to less MLCK activation and MLC phosphatase dephosphorylates RLC (pumps in SR and PM to do this)
2. Subset of smooth muscle: NO (EDRF) increases cGMP, which activated PKG, which binds and activates MLC phosphatase; important in vasculature
3. B-receptor stimulation: increased cAMP leads to phosphorylation of MLCK, which decreases MLCK activity; also occurs in vasculature

Question 39

Intermediate filaments, similar to compresses spring, generate forces opposing shortening and _________ the smooth muscle cells to their original length

Answer 39

-Re-lengthen

Question 40

Mechanism of viagra

Answer 40

-Inhibits the phosphodiesterase that hydrolyzes cGMP and increases the relative concentration.

Question 41

Mechanism of relaxation of smooth muscle by activating MLC phosphatase is termed ________.

Answer 41

Calcium desensitization

Question 42

cAMP target in smooth muscle

Answer 42

• Converts MLCK to an inactive pool that cannot be activated by Ca2+-CaM
• Phosphodiesterase inhibitors can lead to increased relaxations because cAMP will last longer

Question 43

In patients with COPD, why is it beneficial to use selective B1 (cardiac -specific) Beta blockers to lower heart rate?

Answer 43

-If used non selective beta blocker, the effect in airway smooth muscle would be to cause constriction which exacerbate symptoms of COPD
in addition to affecting the heart rate

Question 44

Electromechanical coupling involves__________ and pharmacological coupling involves _________.

Answer 44

• Entry of calcium via v-gated calcium ion channels (L-type)

- Receptor operated Ca2+ channels and SR Calcium release via GPCR and IP3

Question 45

Smooth muscle has a unique property of being __________.

Answer 45

resistant to fatigue

Question 46

Smooth muscle force maintenance

Answer 46

-Force persists despite calcium levels and MLCK levels falling
During force maintenance, rate of ATP hydrolysis falls to low levels

Question 47

Phasic contraction vs. Tonic contraction

Answer 47

Phasic is in smooth muscle of GI and fires AP. twitch-like response

Tonic: vasculature, doesnt fire AP so need to hold stimulation. But in order to hold isometric force, cross bridges slow down and less ATP is used

Question 48

Slow ATPase cycling allows vasculature to hold force with ______.

Answer 48

Little ATP expenditure

Question 49

True or False: Due to smooth muscles lacking sarcomeres, they do not have optimal length-tension curves

Answer 49

-False

Question 50

Force vs Velocity relationship of Smooth muscle

Answer 50

• hyperbolic shape
• like cardiac muscle, Vmax is dependent on level of activation. Both cardiac and smooth muscle have internal load that is responsible for relengthening of the tissue after contraction. Because of this internal load, when both cardiac and smooth muscle contract, the force that the muscle must generate must be greater than the internal load for shortening to occur

-As the level of activation (MLC P-lation) increases, the velocity at any after load increases

Question 51

What type of smooth muscle cells are single unit vs. multi-unit neuronally regulated?

Answer 51

-Single unit: GI tract, bladder, uterine. electrically coupled to contract as single unit

Multi-unit: vascular, similar to skeletal muscle

Question 52

Tonic vs Phasic functional classification examples of smooth muscle

Answer 52

Tonic: arterial; resting tone and slow contraction, slowing cycling Myosin isoform

Phasic: GI tract; more rapid contraction and relaxation; fire APs and faster myosin isoform

Question 53

For a multi-unit smooth muscle, each smooth muscle cell is ________.

Answer 53

Independent

Single nerve fiber will innervate several smooth muscle cells and and individual smooth muscle cell may have input from more than a single nerve

Question 54

For tonic smooth muscle, in absence of extracellular Ca2+, contraction occurs which suggests what?

Answer 54

• Major source for Ca2+ of contraction is internal SR stores

- This type of smooth muscle maintains a continuous resting tone, and is thus referred to as tonic smooth muscle

Question 55

Primary source of calcium for single unit smooth muscle:

Answer 55

-transmembrane Ca2+ flux during AP

Question 56

Tonic smooth muscle velocities

Answer 56

• Force activation, force relaxation, actomyosin ATPase activity and maximum velocity of muscle shortening are all slow
• All rapid in phasic muscle