14 Skeletal muscle histology_782a2039f3b8f192b73ab5bdb17500df.pptx

Transcript

Skeletal muscle histology

Prepared by
Dr. Ahmed A. Morsi
Assist Prof of Histology & Cell Biology
Learning objectives
By the end of this lecture, you will be able to:-
1.Enumerate 3 types of muscle cells
2.Describe the neuromuscular junction
3.Recognize the structure of skeletal muscle
4.Define triad system & its role
5.Know the ultrastructure of myofibrils & contractile proteins
6.Explain the sequence of nerve stimulation of a skeletal
muscle
 Innervation of skeletal muscle
Skeletal muscle is supplied by motor
nerve (voluntary).
Within the muscle ,The motor nerve
divides into several nerve endings, each
one dilates to form a terminal swelling
which synapses with an individual
muscle fiber forming (neuromuscular
junction/ motor end plate).
 Structure of neuromuscular junction
(MEP)
Presynaptic side (nerve terminal):

contains mitochondria, numerous
synaptic vesicles containing
(acetycholine)
Synaptic cleft: space
Postsynaptic side (sarcolemma of

muscle fiber): are thrown into deep
junctional folds (rich in
acetylcholine receptors so, increase
the surface area)
Structure of skeletal muscle
 Histological structure
 Transverse section (TS):

Skeletal muscle is composed of muscle
fibers, held together by CT that is organized
as follow:-
 Epimysium: dense CT the surround
the whole muscle.
 Perimysium: less dense CT that surround
groups of muscle fibers forming bundles
or fascicle.
 Endomysium: delicate highly vascular
CT that surround the individual muscle
fiber 7
Longitudinal section (LS):
 The skeletal muscle fibers are
long, run parallel
without branching and show
clear
transverse striations.

Nuclei: Multiple flat
peripherally located.

The muscle fibers are separated
by connective tissue.
Skeletal Muscle Cells=
Fiber
 Cytoplasmic organelles & inclusions of
skeletal muscle cell
Myofibrils: contractile units
Sarcoplasmic reticulum:
well developed smooth
endoplasmic reticulum highly
organized as tubular network
around myofibrils.
Mitochondria: numerous

Myoglobin: O2 binding
pigmented protein
Glycogen & lipid granules:
Triad Tubular system (T- system):
 Triad Tubular system (T- system):
They are long finger like
invaginations of the
sarcolemma into sarcoplasm, at
intervals, forming transverse (T)
tubules to encircle every
myofibril.

Each T tubule is flanked, in
both sides by wide terminal
cisternae of the sarcoplasmic
reticulum (SR).

The 3 components, the T tubule
in the center and the 2 terminal
cisternae of SR are called the
triad system of the skeletal
muscle
 Role of Traid system
T tubule → spreading of the nerve impulse to the
interior of the muscle fiber so, all myofibrils are
stimulated at the same time → allow uniform
contraction.

Sarcoplasmic reticulum: Ca pump, releasing Ca
into sarcoplasm during depolarization (contraction) and
its squestration (return back) during relaxation
 Myofibrils
They are parallel contractile units of skeletal muscle
formed of contractile proteins (myofilaments)
Contractile proteins:
1.Thin filaments: actin
2.Thick filaments: myosin
3.Tropomyosin: associated with actin filament
4.Troponin: associated with actin filament
 EM of myofibril
(Arrangement of the contractile proteins )
Each myofibril show alternating
dark and light bands which are
arranged in the same level in
adjacent myofibrils → transverse
striations.
The dark band (A band) shows
central pale region called H zone
The light band ( I band) is
bisected by Z disc
 The dark (A) band → actin and
myosin filaments
The light (I ) band → actin
filament only
The H zone → thick filaments
only
Z line is a dense membrane
bisect the I band
Sarcomere is a portion of a
myofibril between 2 successive Z
line. It is considered as the
functional unit of contraction.
Skeletal muscle contraction
Skeletal muscle
contraction
Clinical application: Myasthenia gravis

Definition:
Autoimmune disease characterized by fluctuating weakness of
striated muscles that worsens with repeated activity.
Pathophysiology: of weakness
Autoimmune dysfunction production of autoantibodies
directed against acetycholine receptors (Anti-AchR) decrease
in the Ach receptors at the post synaptic membrane
impairment of the neuromuscular transmission
Changes that occur in the bands during
contraction
 Changes that occur in the bands during
contraction
The I band → decrease in size
(narrow)

The H zone → shorten
(disappear)

The A band → remain constant

Sarcomere → shorten

The length of actin and myosin
filaments → not changed
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