Muscles

Question 1

What are myocytes and sarcoplasms?

Answer 1

Myo—> myocyte—> muscle cell

Sarco—> sarcoplasm(cytoplasm), sacrolemma (plasma membrane

Question 2

What are myofilaments?

Answer 2

Muscle tissue contains filamentous cytoplasmic organelles —> myofilaments which gives the tissue its contractile property

Question 3

What’s the function of muscle?

Answer 3

Contraction of muscle tissue produce movement of body parts and changes in volume and shape of internal organs and vessels

Question 4

What does the arrangement of myofilaments?

Answer 4

The arrangement of myofilaments allows for morphological classification based on the appearance under light microscope

Question 5

What are striated muscle?

Answer 5

These tissue subtypes have visible cross striations due to regular arrangement of contractile organelles within their cells

Question 6

Describe smooth muscle

Answer 6

No cross striations

Question 7

What are the types of striated muscle?

Answer 7

Skeletal- voluntary

Cardiac- involuntary

Visceral- voluntary

Question 8

Where is skeletal muscle found?

Answer 8

Somatic/body wall

Question 9

Where is visceral muscle found?

Answer 9

Soft tissue origin. Tongue,pharynx, larynx, diaphragm and upper esophagus

Question 10

What are the locations for cardiac muscle?

Answer 10

Heart and roots of great veins that empty into heart

Question 11

Where are smooth Muscle located?

Answer 11

Walls of visceral organs, stomach, gut tube

Question 12

Compare smooth, cardiac and skeletal muscle

Answer 12

Skeletal muscle- multiple nuclei peripherally nucleated, long cylindricAl cells, striations

Cardiac muscle-intercalated cells, centrally located nucleus, branched cells striations

Smooth- spindle-shaped cells, centrally located nucleus

Question 13

What is dystrophin?

Answer 13

A rod-shaped cytoskeletal protein which links to ECM proteins laminin & argin found in the external lamina of the myocyte —> Clinical route: Duchenne & Becker’s muscular dystrophy

Question 14

What does dystrophin do?

Answer 14

Forms a complex with two groups of transmembrane proteins:

• Dystroglycans —> links dystrophin and laminin of the ECM
• Sarcoglycans—> associated with membrane dystroglycans—> clinical correlate: limb girdle associated dystrophy

Congenital muscular dystrophy: is another group of muscular dystrophy associated with ECM components

Question 15

What causes duchenne muscular dystrophy ?

Answer 15

Results from a defect in the gene coding for dystrophin associated proteins on X chromosome —> muscular fiber fragility

• Most common inherited myopathy
• more prevelant in males
• X-linked recessive

Question 16

What are the symptoms of Duchenne Muscular Dustrophy?

Answer 16

Patients are unable to stand unaided in early childhood and develop progressive muscle weakness, becoming wheelchair-bound by their mid-teens and typically dying in early adult life

Question 17

What are the other muscular dystrophy?

Answer 17

• Becker muscular dystrophy
• limb bridle dystrophy
• congenital muscular dystrophy

Question 18

What is the triad?

Answer 18

1 T tubule + 2 terminal cisternae at the A-I junction

Question 19

What are sarcoplasmic reticulum?

Answer 19

Forms a network arounf the myofibrils (calcium reservoir)

-Extends-from one A-I junction to the next A-I

Forms the terminal cisterna at the end of each network

Question 20

What is a transverse tubule?

Answer 20

Invagination of the sarcolemma at the A-I junction.

Have voltage sensor protein/ channels activated by membrane depolarization

Question 21

Where. Is a myofibrils arranged?

Answer 21

Arranged in the center 9f the cell, surrounded by mitochondria

Question 22

How does the transverse tubule work?

Answer 22

Depolarization of t tubule membrane triggers release of Ca2+ from terminal cisterna & initiates muscle contraction cycle

Question 23

Describe the neuromuscular Junction

Answer 23

Neuromuscular junction or motor end plate

-Contact between the terminal branches of an axon and muscle fiber

• Axons branch as they near the muscle and give rise to twigs that end on individual muscle fibers= motor unit
  - All muscles within a motor unit are of the same type (I,IIa, or IIb etc.)

Covered by thin portion of external Lamina

Question 24

What is involved in a muscle contraction physiologically?

Answer 24

1 neuromuscular junction per muscle fiber

Enters close to the origin of the muscle fiber

Depolarization is propagated along the entire length in a sequential manner

-Each sarcomere contracts independently allowing for smooth singular action in a particular direction

Question 25

Explain the struct7ure of the neuromuscular junction

Answer 25

Presynaptic membrane : synapt8c vesicles contain ACh can be observed

Synaptic cleft(SnC) where acetylcholine is released

Post synaptic membrane (of the muscle): junctional folds with acetylcholine receptors

NMJ is covered by Schwann cell external lamina

Question 26

What is a muscle spindle?

Answer 26

• encapsulated sensory receptors
• specialized stretch receptor located in the muscle belly
• Senses changes in muscle length or stretch
• Contains modified muscle fibers or spindle cells

Question 27

What is the Golgi tendon organ?

Answer 27

• encapsulated prioceptor located in the myotendinous junction
• senses tension in the muscle
• Sensiry component of the Golgi tendon reflex

Question 28

What 8s myasthenia grav8s?

Answer 28

• myasthenia Gravis is an autoimmune disease which affects neuromuscular junction
• common cause: ACh receptor antibodies, which block and attack ACh receptors in the postsynaptic membrane.

Fewer ACh receptors results in:
-Fluctuating weakness and fatigue of skeletal muscles

-OCCULAR, bulbar, limb and respiratory muscles are affected

Question 29

What are the requirements for skeletal muscle?

Answer 29

Myofibril

Sarcoplasmic reticulum

Transverse tubules

Mitichondria

Question 30

What are the structural requirements f9r contraction in cardiac muscle?

Answer 30

Sarcoplasmic reticulum

Transverse tubule

Diad

Question 31

What is the function of the sarcoplasmic reticulum in cardiac muscle?

Answer 31

• single network along the sarcomere
• extends fromZ line to Z line
• Less developed than in skeletal muscle
• Terminal cisterna
  
  • Contain Ca2+ release channels
    
    • Release Ca2+ into sarcoplasm

Question 32

Describe the transverse tubular system in cardiac muscle

Answer 32

Located at Z line (compare to skeletal muscle)

-T tubules contain voltage-sensor proteins

Question 33

What is the Diad in cardiac muscle?

Answer 33

Complex of o;e t tubule and one aadjacent terminal cisternae at the Z line

Question 34

Describe intercalated discs in cardiac muscles

Answer 34

Intercalated discs are attachment sites between adjacent cardiac myocytes

The transversely oriented parts of the intercalated disk (T) which is at right angle to the myofibril like the risers of a stairway

The longitudinal or lateral parts (L) are parallel to myofibrils like the steps of a stairway

Mitochondria(m) are abundant in card8ac muscle due to high metabolic demands of these cells

Question 35

Describe the “arterial component of the intercalated d7sc

Answer 35

Gap junctions (communicating junctions)

Macula adherens(desmosomes)

Question 36

Describe the transverse component in intercalated disks

Answer 36

Fascia adherents (adhering junctions)
-Major structural element

• Binds cardiac muscle cells at their ends
• Serves as attachment site for thin filaments in terminal sarcomere

(MA) Macula adherens (desmosomes)
-Bind individual muscle cells to each other

• Reinforce fascia adherens
• Found in both transverse & lateral components

Question 37

What are Purkinje fibers?

Answer 37

Large, modified muscle cells located just deep to the endocardium in the subendicardial connective tissue

Specialized to conduct impulses of the A-V valve bundle and allow synchronization of ventricle contraction

Abundant in mitichondria

Question 38

Why are Purkinje fibers pale staining ?

Answer 38

• few myofibrils (these are located peripherally)

- Large amount of glycogen

Question 39

How are smooth muscles connected?

Answer 39

Interconnected by gap junctions or nexus

• Communicating junctions
• Small molecules & ions pass from cell to cell
• Provode communication links to regulate contraction of entire bundle or sheet

Sarcoplasmic reticulum

Pinocytic vesicles

Dense bodies

Question 40

Explain smooth muscles secreting connective tissue matrix

Answer 40

• Well developed rER & Golgi
• Synthesize both type IV collagen and type III collagen
• Elastin, proteoglycans, and multi-adhesive glycoproteins
• Vascular and uterine SM also secrete large amounts of type 1 collagen and elastin

Question 41

What do the thick filaments of smooth muscle contain?

Answer 41

• Myosin II scattered throughout the sarcoplasm

- Side polar vs striated muscle where it is oriented towards the center of the sarcomere

Question 42

What do thin filaments contain in smooth muscle?

Answer 42

• Actin
• Tropomyosin (no associated protein)
• Smooth muscle specific proteins Caldsmon and Calponin which bind to Actin proteins blocking the myosin binding site

Question 43

What are the accessory proteins of smooth muscle?

Answer 43

• Myosin light chain kinase(MLCK): initiates contraction
• a-actinin (see dense bodies)
• Calmodulin- Ca2+ binding protein
• Ca2+ calmodulin complex binds & activates MLCK

Question 44

Describe dense bodies of smooth muscles

Answer 44

Cytoplasmic densities) which attach thin and intermediate filaments
-Contain a-actinin

-analogs of Z lines in striated muscle

• Distributed throughout the sarcoplasm in a network of intermediate filaments
  
  • Desmin
  • Vascular smooth muscles contains vimentin in addition to desmin

Question 45

Describe smooth muscles having no T tubules systems

Answer 45

-Analogous system of:
Caveolae—> invaginations of cell membrane

Sarcoplasmic reticulum

Cytoplasmic vesicles

Question 46

Summarize smooth muscle contraction

Answer 46

• Contractile myofilaments are oriented obliquely to the long axis of the myocyte
• These are anchored to cytoplasmic and cell membrane densities
• Therefore during concentration there is a net shortening of the cell
• The cell adopts a globular shape and the nucleus adopts a “cork screw” shape

Question 47

What are the steps in smooth muscle contraction

Answer 47

Contraction regulated by the Ca2+-calmodulin-MLCK system

1. Increase in Ca2+ concentration
2. Ca2+ binds to calmodulin forming the Ca2+ -calmodulin complex
3. Ca2+ xcalmodulin complex binds MLCK

4 . MLCK-phosphorylates regulatory light chain of myosin

5. Actin-binding site kf myosin head is activated & attaches to actin

Question 48

How is smooth muscle contraction regulated?

Answer 48

Mechanical: passive stretching of vascular smooth muscle activates myogenic reflex

Electrical: neural stimulation leading to release of ACh and NE

Chemical: Angiotensin II, vasopressin, thromboxane A2- uses second m3ssanger pathways such as IP3, and NO-cGMP pathways

Question 49

Why can the force of smooth muscles be sustained for such long periods of time ?

Answer 49

Latch state when the myosin head is unable to detach from actin filament

Question 50

Which muscles undergo hypertrophy?

Answer 50

All muscle types - cardiac in hypertensive cardiomyopathy

Question 51

Which muscle types with injury repair?

Answer 51

Cardiac and skeletal don’t undergo hyperplasia

Smooth muscle undergoes hyperplasia, the uterine proliferates during the normal menstrual cycle and pregnancy

SM of blood vessels increase in size as well as number due to hypertensive conditions etc.

Question 52

How does skeletal muscle respond to atrophy?

Answer 52

Skeletal- limited capacity

Satellites cells are myogenic precursor cells located between the sarcolemma of a muscle fiber and its external lamina

Satellite cells are responsible for skeletal muscle regeneration

Regenerative capacity is limited

Question 53

How does cardiac muscle respond to injury?

Answer 53

No regenerative capacity

After the death of cardiac muscle cells, the tissue is replaced with fibrous connective tissue. Cardiac function is lost at site of injury

Question 54

How does smooth muscle respond to injury?

Answer 54

Smooth muscle of blood vessels divide regularly differentiating from Mesenchymal stem cells in the adventitia or from division and differentiation of endothelial cells and pericytes in capillaries and post-capillary venues during the repair process following a vascular injury