2. Smooth and Cardiac muscle

Question 1

What are the three main types of muscle in the body?

Answer 1

Skeletal
Cardiac
Smooth

Question 2

Describe skeletal muscle

Answer 2

Voluntary muscle
Anchored to bone by tendons
Multinucleate - these are peripherally located
Clear cross striations of actin and myosin
Important in locomotion and breathing
No cellular junctions
Neuromuscular junctions

Question 3

Describe cardiac muscle

Answer 3

Involuntary muscle
Fibres have centrally located nuclei
Cardiac myocytes are organised in a branched meshwork of fibres which run in various directions
Intrinsic myogenic activity - responsible for beating of the heart
Contractile elements are similar to skeletal muscle - actin and myosin comprised of a sarcomere
Intercalated disks have gap junctions
No neuromuscular junctions

Question 4

Describe smooth muscle

Answer 4

Involuntary
Non-striated
Spindle-shaped fibres (wide in the middle and tapered at both ends)
Single nucleus
Provides mechanical control of organ systems
Gap junctions
No neuromuscular junctions

Question 5

Describe the composition of cardiac muscle in detail

Answer 5

Have myofibrils that are comprised of sarcomeres - run from Z disk to Z disk containing actin (thin) and myosin (thick)
Packed full of mitochondria - requires ATP for contraction
Contains sarcolemma - specialised plasma membrane in muscle cells - arranged so it runs into the fibres and action potentials can get right to where they’re needed
Contains gap junctions - connect the cells to each other - allow ions and very small molecules to pass through
Intercalated disks join the fibres together - these are sites of thickening of the sarcolemma where the cardiac myocytes are joined together

Question 6

Describe cardiac myocytes and how they work with one another

Answer 6

These form ‘electrical syncytium’ or ‘functional syncytium’
The electrical impulses can propagate freely between cells in every direction
Cells contract in synchronous fashion - this is important for the pumping action of the heart
Wave of depolarisation propagates to the adjacent cells via the gap junctions in the intercalated disks - this allows rapid, synchronous depolarisation of the myocardium

Question 7

Describe the composition of cardiac muscle in detail

Answer 7

Have myofibrils that are comprised of sarcomeres - run from Z disk to Z disk containing actin (thin) and myosin (thick)
Packed full of mitochondria - requires ATP for contraction
Contains sarcolemma - specialised plasma membrane in muscle cells - arranged so it runs into the fibres and action potentials can get right to where they’re needed
Contains gap junctions - connect the cells to each other - allow ions and very small molecules to pass through
Intercalated disks join the fibres together - these are sites of thickening of the sarcolemma where the cardiac myocytes are joined together
These disks also contain desmosomes and gap junctions - gap junctions link the cells electrically

Question 8

Describe cardiac myocytes

Answer 8

These form ‘electrical syncytium’ or ‘functional syncytium’

The electrical impulse

Question 9

Describe the sequence of action potentials in cardiac muscle

Answer 9

In muscle cells, the action potential is the first step in the chain of events which lead to the contraction
Many action potentials in the heart - properties of these vary with different locations of cardiac cells in the heart e.e. SA node, AV node, bundle of His, atrium, ventricle

Question 10

What are the two different tissue types/types of cells in the heart?

Answer 10

Pacemaker tissue

Ventricular cells

Question 11

Describe pacemaker tissue of the heart

Answer 11

SAN and AVN
Spontaneously depolarise
Have automaticity SO ability to initiate their own beat
Contain different ion channels - allows for initiation of different action potentials
Don’t have a steady, flat baseline - have a leaky baseline that causes the depolarisation

Question 12

How is the cardiac muscle modulated by the autonomic nervous system

Answer 12

The autonomic nervous system can have both sympathetic and parasympathetic effects on the cardiac muscle/cardiac myocytes

Question 13

Give the mechanisms of calcium signalling during cardiac contraction

Answer 13

1. Depolarisation of the sarcolemma due to influx of Na+ causes opening of Ca2+ VGCs
2. Cardiac contraction is initiated by the influx of the Ca2+ through the L type VGCs (LTCC) in the sarcolemma
3. The rise in intracellular Ca2+ triggers further Ca2+ release from the sarcoplasmic reticulum (store of calcium) by the RYANODINE RECEPTOR (RyR)
4. The calcium associates with troponin C in the sarcomere and this stimulates sarcoplasmic reticulum (systole)
5. Release of Ca2+ from the sarcomere causes the relaxation (diastole) and it’s re-uptake into the sarcoplasmic reticulum by SERCA

Question 14

List common areas where smooth muscle is found

Answer 14

(Provides mechanical control of organ systems)
Bladder
Uterus
Upper respiratory tract

Question 15

Briefly describe smooth muscle

Answer 15

Involuntary
Non-striated muscle
Heterogenous group of muscle
Wide range of physiological properties

Question 16

List common areas where smooth muscle is found

Answer 16

(Provides mechanical control of organ systems)
Bladder
Uterus
Upper respiratory tract
Gut (oesophagus, stomach, intestines)
Blood vessels
Bronchi
Urethra
Erector pili in the skin

Question 17

Describe in detail the structure of smooth muscle

Answer 17

Loose lattice of actin and myosin - these run obliquely across the muscle (SO not striated)
Cytoskeletal intermediate filaments - these aid the transmission of force within muscle contraction
Dense bodies - serve as attachments for the actin and myosin (equate to Z lines in striated muscle)
Two types of attachment:
-Mechanical attachment between cells
-Gap junctions provide provide a pathway for electrical signals

Question 18

List common areas where smooth muscle is found

Answer 18

(Provides mechanical control of organ systems)
Bladder
Uterus
Upper respiratory tract

Question 19

Describe in detail the structure of smooth muscle

Answer 19

There

Question 20

What are the two different types of smooth muscle in terms of the way it is innervated?

Answer 20

Multiunit smooth muscle (works more like skeletal)

Single unit smooth muscle (works more like cardiac)

Question 21

Describe the mechanism of contraction of smooth muscle

Answer 21

Innervation occurs via the autonomic nervous system
Nerves make multiple contacts with the muscle cells called VARICOSITIES - these release neurotransmitter in space surrounding the membrane and the receptors are widely spread across the post-synaptic membrane
Gap junctions also permit electrical coupling between cells
Both are used in cells and the degree of each usage is tissue specific

Question 22

What are the two different types of smooth muscle?

Answer 22

Multiunit smooth muscle (works more like skeletal)

Single unit smooth muscle (works more like cardiac)

Question 23

Describe single unit smooth muscle

Answer 23

ANS innervates single cell within a sheet or bundle
Action potential is propagated by gap junctions to neighbouring cells
Contraction occurs as a bundle or sheet as a functional SYNCYTIUM
Generally produces slow, steady contractions - allows substances to move through the body e.g. digestive tract

Question 24

Where is single unit smooth muscle found?

Answer 24

Found in the walls of all visceral organs (apart from the heart)

Question 25

Describe single unit smooth muscle

Answer 25

ANS innervates single cell within a sheet or bundle
Action potential is propagated by gap junctions to neighbouring cells
Contraction occurs as a bundle or sheet as a functional SYNCYTIUM
Generally produces slow, steady contractions

Question 26

Where is single unit smooth muscle found?

Answer 26

Found in the walls of all visceral organs (apart from the heart)

Question 27

Describe the different action potentials that occur in smooth muscle

Answer 27

There are different types - simple spike, spikes followed by a plateau, spikes on top of slow waves
Action potentials last much longer than in skeletal muscle
Dependent on the opening of Ca2+ VGCs (sometimes Na+)
Ca2+ VGC open more slowly than Na+ and so there is a slower contraction compared to skeletal muscles
Contribution of each ion depends on the type of muscle

Question 28

Describe how smooth muscle can be regulated

Answer 28

Contraction stimulated by:
Hormones
Neural stimulation
ANS
Local factors
In certain locations, e.g. walls of visceral organs, stretching of muscle stimulates contraction (stretch-relaxation response)
Smooth muscle also expresses wide variety of neurotransmitter and hormone receptors

Question 29

Give the mechanism of contraction of smooth muscle

Answer 29

• Thin filaments slide past the thick filaments and pull on the dense bodies
• These dense bodies pull on the intermediate filament network throughout the sarcoplasm
• This arrangement causes the entire muscle fibre to contract - ends are pulled towards the centre and the midsection bulges

Question 30

Describe how smooth muscle can be regulated

Answer 30

Contraction stimulated by:
Hormones
Neural stimulation
ANS
Local factors
In certain locations, e.g. walls of visceral organs, stretching of muscle stimulates contraction (stretch-relaxation response)
Smooth muscle also expresses wide variety of neurotransmitter and hormone receptors

Question 31

What are the two different types of smooth muscle?

Answer 31

Vascular smooth muscle

Bronchial smooth muscle

Question 32

Describe vascular smooth muscle

Answer 32

Found within, and composes, majority of the wall of blood vessels

Question 33

Describe the sympathetic impact on bronchiole smooth muscle

Answer 33

Causes bronchiole dilation
Adrenaline/Noradrenaline - B2 adrenergic receptor
Short acting beta agonists or long acting beta agonists

Question 34

Describe the parasympathetic impact on bronchiole smooth muscle

Answer 34

Causes bronchiole constriction
Mucus secretion
Actylcholine - muscarinic receptprs (M3)
Short acting or long acting - can be used as treatments

Question 35

Describe the sympathetic impact on bronchiole smooth muscle

Answer 35

Causes bronchiole dilation
Adrenaline/Noradrenaline - B2 adrenergic receptor
Short acting beta agonists or long acting beta agonists

Question 36

What is meant by the ‘excitation - contraction’ coupling in smooth muscle?

Answer 36

Excitation of the smooth muscle stimulates and is followed by the contraction of the smooth muscle
These two stages happen consecutively