Lecture 14

Question 1

What are the 2 components of the perimysium of skeletal muscle?

Answer 1

fibroblasts and type I collagen fibers

Question 2

What is the cell membrane of a skeletal muscle cell called?

Answer 2

the sarcolemma

Question 3

How is Desmin involved in the molecular structure of skeletal muscle cells? what is the name for the region of the sarcolemma where desmin is anchored?

Answer 3

desmin is an intermediate filament that extends from one myofibril to the other and is anchored in the sarcollema

Costameres are where desmin inserts into the sarcolemma

(desmin filaments span across several myofibrils)

Question 4

how is plectin involved in the molecular structure of skeletal muscle cells?

Answer 4

plectin links adjacent desmin filaments to each other

Question 5

name the 2 components AND their contents, of an intercalated disc in cardiocytes

Answer 5

Transverse component: desmosomes and fascia adherentes

Longitudinal component: gap junctions

Question 6

Name the type of muscle tissue with the following characteristics: voluntary and striated

Answer 6

Skeletal muscle

Question 7

Name the type of muscle tissue with the following characteristics:

Single mononucleated cells w/ central nuclei

No sarcomeric arrangement

Innervated via the ANS or enteric system

Do not respond in the “all or none” fashion

Cells connected via gap junctions

Answer 7

Smooth muscle

Question 8

Name the type of muscle tissue with the following characteristics: single mononucleated cells that are often branched, and feature a centrally positioned nuclei.

Answer 8

Cardiac muscle

Question 9

There is a type of muscle cell that is not directly innervated. name the type of muscle and why it is not directly innervated

Answer 9

Cardiac muscle

They communicate via gap junctions (intercalated discs).

Question 10

What type of myofiber fits the following characteristics?

(Dark or Red fibers) intense staining for oxidative enzymes (NAD)

Rich in NADH transferase, myoglobin, and have many mitochondria

Primarily use oxidative phosphorylation for ATP production

Slow/continuous contraction speed

Answer 10

Type I

Question 11

What type of myofiber fits the following characteristics?

Intermediate NAD staining

Uses both aerobic and anaerobic respiration for ATP production

Medium contraction speed

Resistance to fatigue

Answer 11

Type IIA

Question 12

What type of myofiber fits the following characteristics?

Light NAD staining

Primarily anaerobic respiration for ATP production

Rich in ATPase ( bc they contract very rapidly)

Fatigue quickly

Answer 12

Type IIB

Question 13

What is another name for Type IIB myofibers?

Answer 13

white/light muscle fibers

Question 14

List, from largest to smallest, the “muscle units” of a skeletal muscle

Answer 14

Muscle to fascicle

to bundle of myofibers

to bundle of myofibrils(which are a linear array of sarcomeres)

A sarcomere is made up of thin (actin) and thick (myosin) filaments

Question 15

List, from largest to smallest, the “CT units” of a skeletal muscle

Answer 15

Epimysium (sheet on outside)

to perimysium (surrounds fascicles)

to endomysium (surrounds myofibers)

Question 16

what are the 2 components of the endomysium? how does this effect the distribution of the force of the muscle contraction?

Answer 16

Endomysium consists of basal lamina and reticular collagen fibers

Basal lamina is secreted by muscle cells and anchors muscle fibers to one another so the force of the contraction can be distributed evenly

Question 17

What are the 2 components of the Perimysium?

Answer 17

The perimysium consists of fibroblasts and type I collagen fibers

Question 18

Sarcomeres are separated from one another by transverse discs called ___ _________.

Answer 18

Z discs

Question 19

What makes up A bands? what is their length equal to?

Answer 19

A bands consist of overlapping actin and myosin filaments

their width/length is equal to the length of the bundle of myosin filaments

Question 20

Describe I bands in terms of the overlapping myosin and actin filaments in skeletal muscle. what happens to I bands during contraction?

Answer 20

I bands are the portion of actin filaments that is NOT overlapping the myosin filaments and shrinks during contraction

Question 21

Describe H bands in terms of the overlapping myosin and actin filaments in skeletal muscle. Where are they located and what happens to H bands during contraction?

Answer 21

H bands consists of ONLY the myosin filaments that aren’t overlapping

are located in the middle of the sarcomere and they shrink (or even disappears completely) during a contraction

Question 22

describe the molecular structure of tropomyosin and it’s function (Per molecule) in muscle cells

Answer 22

2 nearly identical alpha-helical polypeptides twisted around each other

1 tropomyosin molecules covers the binding sites on 7 actin monomers

Question 23

Describe troponin and it’s subunits (I,C, and T)

Answer 23

Troponin is a complex of 3 molecules (listed below)

Troponin I: inhibits binding between actin and myosin

Troponin C: binds to Ca2+

Troponin T: Binds to tropomyosin

Question 24

Define the function of αB-crystallin

Answer 24

Hsp that protects desmin from mechanical stress

Question 25

Define the function of Dystrophin

Answer 25

one of the proteins that links alpha-actinin/desmin complexes to the cytoplasmic side of the sarcolemma (which serves to anchor actin to the sarcolemma and reinforce the sarcollema during contraction

Question 26

Define the function of dystroglycan complex

Answer 26

Links dystrophin (intracellular) to laminin-2 (extracellular)

Question 27

Define the function of α-actinin

Answer 27

attaches thing filaments to the z line

Question 28

Define the function of Nebulin

Answer 28

extends from the z disc to the end of the actin filament and serves as a template in order the regulate the length of actin filaments

Question 29

Define the function of Titin

Answer 29

large fibrous protein that extends from the Z-disc to the middle of the H band and connects the ends of thick filaments to Z-line

Provides myosin elasticity and centers thick filaments in the sarcomere

Question 30

Describe the role of Satellite cells

Answer 30

attach to myotubes before basal lamina is laid down, and function as stem cells

Question 31

C-Met receptors are the binding site of what type of growth, when they are associated with skeletal muscle tissue satellite cells?

Answer 31

hepatic growth

they play a role in hematopoiesis

Question 32

Describe what is happening during the regeneration of muscle cells (assisted by satellite cells)

Answer 32

the already present muscle cells are being “built up”

more muscle cells are NOT generated

Question 33

compare and contrast extrafusal and intrafusal muscle fibers. include what motor neurons they are associated with

Answer 33

extrafusal: “within the fusiform portion” are thicker, normal skeletal muscle
associated with alpha motor neurons

Intrafusal: “outside of the fusiform portion” are thinner
associated with gamma motor neurons

Question 34

Extrafusal fibers, intrafusal fibers, alpha motoro neurons, gamma motor neurons, primary afferent fibers, and secondary afferent fibers all all components of what?

Answer 34

the neuromuscular spindle

Question 35

Compare the T tubule system differences between skeletal and cardiac muscle cells

Answer 35

In cardimyocytes the t tubule system is not as extensive as it is in skeletal muscles

each T-tubule interacts with just one cisterna (diad as opposed to the triads in skeletal muscle)

Question 36

List the source and functions of ANP (atrial natriuretic peptide)

Answer 36

Source: secreted by cardiac muscle cells located in the atria (makes sense bc its called Atrial Natriuretic Peptides)
This prohormone is cleaved when it is released upon stretching of the atria

Functions:
Regulate fluid electrolyte balance

Relax vascular smooth muscle (this reduces blood volume and pressure)

Question 37

what is the function of dense bodies in smooth muscle tissue? (2 of them)

Answer 37

To Anchor actin filaments to each other and to the cell membrane

to Communicate force of contraction to cytoskeleton and cell membrane

Question 38

in smooth muscle tissue, where are actin and myosin bundles found?

Answer 38

Actin and myosin bundles are found throughout the cytoplasm, except in the nuclear area

Question 39

Where are dense bodies in smooth muscle found and what do they contain?

Answer 39

Found in the cytoplasm and in the cell membrane

Contain alpha-actinin

Question 40

Compare utilization of calcium by smooth muscle cells with cardiac and skeletal muscle cells.

Answer 40

In smooth muscle cells, all of the Ca2+ needed for contraction comes from the extracellular environment (they don’t have a T-tubule system or extensive SR bc of this)

Smooth muscle cells have pinocytotic vesicles that may transport Ca2+ from extracellular fluids to the SR

Cardiac and smooth muscles use t tubule cisternae to provide Ca2+

Question 41

Define Caveolae

Answer 41

Caveolae: permanent depression of the cell membrane that binds to the cholesterol in the lipid rafts, and forms vesicles that participate in vesicular trafficking

Question 42

Define the composition and location within the cell of Lipid rafts

Answer 42

Lipid rafts: a collection of cholesterol and sphingolipids in the PM

Question 43

What are caveloae and lipid rafts both involved in?

Answer 43

fluid and electrolyte transport