Regulation of Gastrointestinal Function Nerves and Smooth Muscle

Question 1

Smooth muscle is unstriated, does it have sarcomeres? Z lines? Dense bodies?

Answer 1

No sarcomeres

No Z lines

Yes on the Dense bodies, whatever they are

Question 2

Does tropomyosin block smooth muscle binding sites?

Answer 2

No

Question 3

What activates myosin in smooth muscle?

Answer 3

Ca2+-dependent phosphorylation of

regulatory light chains

Question 4

In smooth muscle innervation there are multiple contacts between neuron and smooth muscle cell-No true NMJ. What is the term for the axonal swelling at each contact point? What is contained there-in?

Answer 4

Varicosities

neurotransmitters

Question 5

What are the two main types of smooth muscle?

Answer 5

1. Multi-unit smooth
2. single-unit smooth

Question 6

What are the two subtypes of single-unit smooth muscle?

Answer 6

1. Visceral smooth
2. Unitary smooth

Question 7

What allows multi-unit cells finer motor control?

Answer 7

Electrical isolation

Question 8

What allows unitary muscle cells coordinated contraction?

Answer 8

Gap junctions

Question 9

In multi-unit smooth muscle, how is synaptic input distributed?

Answer 9

Each smooth muscle cell recieves its own synaptic input.

Question 10

How is innervation distributed to the unitary smooth muscle?

Answer 10

Only a few of the smooth muscles recieve direct synaptic input. Stimulus is propagated through gap junctions.

Question 11

Characterize in one word the stimulation of multi-unit s. muscle cells.

Answer 11

Neurogenic

Question 12

Characterize in one word the stimulation of single-unit smooth muscle cells.

Answer 12

Myogenic

Question 13

Single-unit smooth muscle cells are myogenic and may exhibit pacemaker activity. How is the oscillation of membrane potential described?

Answer 13

Slow wave

Question 14

Where does one find single-unit S.M. cells?

(5)

Answer 14

1. Gastrointestinal tract
2. -Uterus
3. -Ureter
4. -Bladder
5. -Some blood vessels

Question 15

Where does one find multi-unit smooth muscle cells?

Answer 15

1. Eye: ciliary body, iris
2. -Skin: piloerector m.m.
3. -Some blood vessels
4. -Vas deferens

Question 16

What are the two types of potentials we utilize in the GI tract?

Answer 16

1. Graded Potentials
2. Slow-wave potentials

Question 17

Graded potentials are hyperpolarizing or depolarizing, what kinds of summation (2) and stimulation (3) do they involve?

Answer 17

Summation

1. Spatial
2. Temporal

Stimulation

1. mechanical
2. humoral
3. neural

Question 18

Slow-wave potentials involve G.I. pacemaker cells which initiate spontaneous electrical activity. What are these called? Where are they found?

Answer 18

• Interstitial cells of Cajal
• Between longitudinal and circular muscles of the muscularis externa layer.

Question 19

Repetitive oscillation in V_m = ?

Generally thought to result from?

Answer 19

slow-wave potential

cyclic opening of Ca2+ channels, followed by K+ channels

Question 20

Smooth muscle action potentials are generated in response to? How do they compare to the sk. muscle?

Answer 20

Neural and/or hormonal modulation of membrane potential to threshold.

Slower and longer than sk. muscle

Question 21

Describe the depolarization and repolarization of smooth muscle.

Answer 21

Depolarization: opening of slow Ca2+ channels (slow inactivation); Na+
Repolarization: delayed opening voltage-gated or Ca2+-activated K+ channels

Question 22

Identify steps 1-7

What is of great importance in this, per Dr. Choudry?

Answer 22

1. Voltage gated calcium channels open
2. action potential spike
3. Calcium influx, rise in internal Calcium concentration
4. open Calcium dependent K+ cannels
5. slow hyperpolarization
6. voltage-gated Calcium channels close, and internal [Ca²⁺] decreases
7. Ca²⁺ dependent K⁺ channels close

Calcium influx and potassium efflux

Question 23

What type of contraction do phasic smooth muscles exhibit? Where are they found?

Answer 23

short-lived

GI tract and bladder

Question 24

What type of contraction do tonic smooth muscle exhibit?

Answer 24

prolonged contraction

Question 25

Identify which of the three steps shown is voltage dependent or independent.

Answer 25

1. Voltage gated
2. voltage independent
3. voltage independent

Question 26

How can hormones & neurotransmitters can initiate increased [Ca2+]i?

Answer 26

Via G-protein coupled receptors (voltage independent)

Question 27

What are the three sources of Ca²⁺ in smooth muscle?

Answer 27

1. voltage gated calcium channels
2. sarcoplasmic reticulum
3. store-operated calcium channels (SOCs)

Question 28

What are the three ways calcium is sequestered in smooth muscle?

Answer 28

1. SERCA of the SR
2. Ca²⁺-ATPase pump (sarcolemma)
3. 3Na⁺-1Ca²⁺ antiporter (sarcomlemma)

Question 29

What is the role of Ca2+ in the Excitation-Contraction Coupling of Smooth Muscle?

Answer 29

The activation of myosin

Question 30

How does Calcium activate myosin?

Answer 30

1. 4 Ca2+ binds calmodulin
2. Ca2+- calmodulin complex binds & activates myosin light-chain kinase (MLCK)
3. Activated MLCK phosphorylates myosin regulatory light chain
4. Conformational change of myosin head & increased ATPase activity allows actin interaction & power stroke

Question 31

How is contraction force regulated in smooth muscle?

Answer 31

relative balance between phosphorylated and dephosphorylated MLCs

• [Ca²⁺]_i
• Sensitivity to Ca2+ of MLCK

Question 32

_______________________:

Maintenance of tension in tonic smooth muscle contractions for prolonged periods of time

-Relatively low ATP consumption

(< 300x that of skeletal m. for same force generation)

• Force maintained at lower level of MLCK phosphorylation
• Myosin remains attached to actin for longer duration

Answer 32

Latch State

Question 33

What is the significance of the latch state?

Answer 33

Allows the ability to maintain smooth muscle tone without fatigue.

Question 34

What are the extrinsic innervations of the G.I? Intrinsic?

Answer 34

Extrinsic: Parasympathetic and sympathetic

Intrinsic: submucosal and myenteric plexuses

Question 35

What are the four general GI regulatory mechanisms?

Answer 35

1. Autonomous smooth muscle
2. extrinsic nerves
3. Intrinsic nerve plexuses
4. gastrointestinal hormones

Question 36

What are some examples of GI regulatory hormones?

Answer 36

• Gastrin, Secretin, CCK, GIP
  
  • Paracrines: Somatostatin, Histamine

Question 37

Increased parasympathetic activity promotes?

Answer 37

digestive and absorptive processes; increases motility and secretions

Question 38

What impact does increased ACh have on…

1. salivation
2. defecation
3. lacrimation
4. GIT motility
5. urination
6. muscle contraction

Answer 38

Increases all

Question 39

What impact does decreased ACh have on…

1. salivation
2. defecation
3. lacrimation
4. GIT motility
5. urination
6. muscle contraction

Answer 39

Decrease all

Question 40

What are the prevertebral ganglia? (3)

Answer 40

1. Celiac
2. Superior Mesenteric
3. Inferior Mesenteric

Question 41

Increased sympathetic activity promotes?

Answer 41

decreased motility and secretions; increased sphincter constriction

Question 42

What is the enteric nervous system?

What does it do? (3)

Answer 42

Division of the ANS

1. Coordinates and relays Parasympathetic and sympathetic inputs to the GI tract.
2. Coordinates local reflexes within the GI tract
3. Controls most GI functions (motility and secretions)

Question 43

Can the ENS act independently of extrinsic innervation?

Answer 43

Yes

Question 44

Where is Auerbach’s plexus found?

Answer 44

(A.K.A. the myenteric plexus)

-Between the outer longitudinal and inner circular muscle layers of the muscularis externa throughout the GI tract

Question 45

Where is Meissner’s plexus found?

Answer 45

A.K.A. the submucosal plexus

In the submucosa of the small and large intestines

Question 46

Identify the indicated structures

Answer 46

Question 47

What does the myenteric plexus primarily control?

Answer 47

Motility of the GI smooth muscle

Question 48

What does the submucosal plexus primarily control?

Answer 48

Secretion and blood flow

Question 49

What do mechanoreceptors monitor in the GI lumen? Chemoreceptors?

Answer 49

• distention
• pH, nutrients