Skeletal Muscle Physiology – Structure & Types Of Muscle Fibers

Neelam Maurya

8 years ago

Skeletal Muscle Physiology – Structure & Types Of Muscle Fibers

SKELETAL MUSCLE PHYSIOLOGY – STRUCTURE & TYPES OF MUSCLE FIBERS

Skeletal muscle constitutes nearly 40% of total body mass

COMPONENTS OF SKELETAL MUSCLE:

Made up of numerous muscle fibers/muscle cells.
“Sarcolemma”:
Cell membrane surrounding each muscle cell/fiber.
Contains thousands of myofibrils.
Myofibril consists of series interlocking actin & myosin myofilaments.

TYPES OF MUSCLE PROTEINS:

Four major muscle proteins involved:
Actin.
Myosin.
Tropomyosin.
Troponin.

Additional structural proteins in skeletal muscles:

Actinin.
Titin.
Desmin.

CHARACTERISTICS OF SKELETAL MUSCLE FIBER:

Well-developed cross striation.
Produced by refractive index difference in different myofibrils parts.
Mixture of isotropic & anisotropic areas to polarized light.
Referred respectively as “I” bands & “A” bands.
Hence, visible as light & dark bands of myofibrils, respectively.

STRUCTURE OF SARCOMERE:

Z line – Divides each myofibril into compartments.
Sarcomere –
Portion of myofibril between two Z lines.
Basic contractile unit of muscle

Filament types within sarcomere:

Thin filament (made of actin)
Thick filament (made of myosin).

Actin/thin filaments:

Attached to Z line at their periphery.
I & A bands are seen alternately.
A band – Entire length made of thick/myosin filament.

H Zone –

Comparatively lighter zone in middle of A band.
Due to non-overlapping of actin over myosin filament in central portion.
Hence, is light.
Absence of actin filament is characteristics feature.
H-zone disappears on muscle contraction.
Due to complete actin overlapping on myosin

MUSCLE DURING CONTRACTED STATE:

Two Z-lines come closer.
H-Band disappears.
Decreased sarcomere length.
I band-width decreased.
Unchanged A band-width.

SARCOLEMMA:

Cell membrane of muscle cell/fiber.
Lipid Bilayer.

Components:

Lipid –
Phospholipids
Cholesterol

Proteins – 2 Types:

Integral/Transmembrane proteins –
Dystroglycan
Sarcoglycans (SG)
Caveolin-3
Integrins (β, α).

Peripheral/surface proteins:

Dystrophin
Dysferlin
Calpain.

Carbohydrates:

Associated always with lipid/protein.
Eg: Glycolipids & glycoproteins.

SARCOTUBULAR SYSTEM:

Sarcoplasm/cytoplasm of skeletal muscle contains sarcotubular system.
Consists of,
T system/T-tubules.
Sarcoplasmic reticulum.

T-system contains –

Transverse tubules.
Infoldings of cell membrane/sarcolemma at each junction of A & l -bands
Thus two T-tubules in each sarcomere.
T-tubules allows penetration of electrical membrane discharge to inner core of muscle cell.

“L-tubules”:

Sarcoplasmic smooth surfaced endoplasmic reticulum extending between two T-tubules in longitudinal fashion.
Has high calcium concentration.
Concerned with sarcomeric calcium transport.

Two Portions: –

“Terminal cistern” –

Dilated portions at both ends close to T-tubules.
Stores maximum calcium – Hence, “Storehouse of calcium ions”

“Triad” –

Central longitudinal part with 2 cisterns on both ends.

“Foot processes”:

Connects T-tubules with terminal cisterns.
Mainly, are Dihydropyridine receptors (DHPR).
Interact with Ryanodine receptors (RyR) of terminal cisterns.
Ryanodine receptors function as calcium channels.
DHPRs-RyR interaction leads to calcium ions release from cisternae.

Conditions associated:

Gene mutation on Ryanodine receptor causes malignant hyperthermia.
Due to excessive uncontrolled calcuim release.

TYPES OF MUSCLE FIBERS:

Two fibers types:
Type I/red fibers
Type II/white fibers.

Motor unit contains only one muscle fibers type:

I.e., All motor unit fibers are either type-I or type II.
Hence, named accordingly.
CHARACTERISTICS OF MUSCLE FIBER TYPES:

Parameters/Characteristics	Type I muscle fiber	Type II muscle fiber
Difference according to fiber type	Red – Due to ↑ed myoglobin & mitochondrial content.	White – Lack myoglobin & have few mitochondria.
Subtypes	– Nil –	Type IIA & Type IIB IIA – Oxidative & glycolytic. IIB – Glycolytic. Usually type IIB fibers refer type II fibers.
Other names	1. “Slow-twitch” fibers: Due to small fiber length & diameter. Maintain relatively sustained contraction. 2. “Slow motor units” Have early recruitment.	1. “Fast-twitch” fibers – Short duration of twitch. Due to bigger diameter & ↑ed myosin & actin filaments. Generate greater tension comparatively. 2. Type IIa/”Fast Fatigue Resistant” (FR) units: Intermediate fatigability. 3. Type IIb/“Fast fatigable units”: Late recruitment threshold
Metabolism	Aerobic. Slow oxidative.	Anaerobic. Fast glycolytic.
Glycolytic capacity &glycogen content	Low	High
Sarcoplasmic reticulum	Normal	Extensive
Blood supply	High	Normal
Myosin ATPase activity	Low	High
Conduction velocity	Slow	Fast
Contractile properties	Slow time to peak tension	Type IIa – Fast time to peak tension. Type IIb – Fastest time to peak tension.
Type of muscle	Red muscles – In muscles required for prolonged contraction. Also with muscles maintaining posture. Back muscles (At back of hip) Gluteus muscles . Calf muscles.	White/Pale muscles – Muscles helpful in rapid contractions & finer movements. Hand & extraocular muscles.

Exam Question

SKELETAL MUSCLE PHYSIOLOGY – STRUCTURE & TYPES OF MUSCLE FIBERS

Skeletal muscle constitutes nearly 40% of total body mass.
“Sarcolemma” – Cell membrane surrounding each muscle cell/fiber.
Myofibril consists series of interlocking actin & myosin myofilaments.
Presence of well-developed cross striation – Characteristics of skeletal muscle fiber.

Sarcomere –

Portion of myofibril between two Z lines.
Basic contractile unit of muscle

Two types of sarcomeric filaments –

Thin filament (made up of actin)
Thick filament (made up of myosin).

H Zone –

Comparatively lighter zone in middle of A band.
Due to non-overlapping of actin over myosin filament in central portion.
Absence of actin filament.
Disappears on muscle contraction.

Changes in muscle during contraction:

Two Z-lines come closer
H-Band disappears.
I bandwidth decreased.

SARCOLEMMA:

Has two protein types:

Integral/Transmembrane proteins –
Dystroglycan.
Sarcoglycans (SG).

Peripheral/surface proteins:

Dystrophin.
Sarcotubular T-system contains “Transverse tubules”
Infoldings of cell membrane/sarcolemma.
Allows penetration of electrical membrane discharge to inner core of muscle cell.
Sarcoplasmic reticulum contains high calcium concentration.
Is concerned with sarcomeric calcium transport.
“Triad” – Central longitudinal part with two cisterns at both ends.
Terminal cistern is where maximum calcium is stored. Hence, “Storehouse of calcium ions”.
Foot processes are mainly of Dihydropyridine receptors (DHPR).
Ryanodine receptors function as calcium channels.
Gene mutation on Ryanodine receptor encoding causes malignant hyperthermia.
Due to excessive uncontrolled calcuim release.

Characteristics of:

Type I/red fibers
Type II/white fibers.

Parameters/Characteristics	Type I muscle fiber	Type II muscle fiber
Difference according to fiber type	Red – Due to ↑ed myoglobin & mitochondrial content.	White – Have few mitochondria.
Subtypes	– Nil –	Type IIA & Type IIB Oxidative & glycolytic – IIA. Glycolytic – IIB. Type II fibers usually refer Type IIB fibers.
Other names	1. “Slow-twitch” fibers: Due to small fiber length & diameter. Maintain relatively sustained contraction.	“Fast-twitch” fibers Due to bigger diameter & ↑ed myosin & actin filaments. “Fast fatigable units”/Type IIb Late recruitment threshold
Glycolytic capacity & glycogen content	Low	High
Sarcoplasmic reticulum	Normal	Extensive
Blood supply	High	Normal
Myosin ATPase activity	Low	High
Type of muscle	Red muscles – Seen in, Back muscles. Gluteus muscles Calf muscles.	White/pale muscles – Seen in hand muscles & extraocular muscles.

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