Origin of smooth muscle
Smooth muscle cells arise from undifferentiated mesenchymal cells. These
cells differentiate first into mitotically active cells,
myoblasts, which contain a few myofilaments. Myoblasts
give rise to the cells which will differentiate into mature smooth muscle
cells.
Types of smooth muscle
Two broad types of smooth muscle can be distinguished on the basis of the
type of stimulus which results in contraction and the specificity with which
individual smooth muscle cells react to the stimulus:
- The multiunit
type represents functionally independent smooth muscle cells which
are often innervated by a single nerve terminal and which never contract
spontaneously (e.g. smooth muscle in the walls of blood vessels).
- The visceral
type represents bundles of smooth muscle cells connected by GAP
junctions, which contract spontaneously if stretched beyond a certain
limit (e.g. smooth muscle in the walls of the intestines).
Suitable Slides
Sections of
the intestines (duodenum, jejunum, ileum or colon) - H&E
Jejunum, baboon
- H&E
The outer part of the tube forming the intestines consists of two layers of
smooth muscle - one circular layer and one longitudinal layer. If you look at
the tissue close to the border between the two layers of smooth muscle, you
will be able to see both longitudinally sectioned smooth muscle cells and
transversely sectioned smooth muscle cells. The smooth muscle cells are much
longer than their nuclei. Transversely sectioned smooth muscle cells may not
have their nuclei in the plane of the section.
Occasionally you will find small nerves between the two
muscle layers, and, if you are lucky and/or patient, you will also see some
very large nuclei in this region. These nuclei belong to peripheral nerve
cells (ganglion cells of the myenteric plexus), which regulate the contraction
of the muscle around the gastrointestinal tract.
Draw a small area which contains both longitudinally sectioned
and transversely sectioned smooth muscle at high magnification.
The only tissues which perhaps could be confused with
smooth muscle are dense regular connective tissues and peripheral nerves. Both
the number of nuclei and their shapes clearly distinguish smooth muscle from
dense regular connective tissues. Nuclei are much more frequent and larger in
smooth muscle, and they are very elongated if cut longitudinally. Peripheral
nerves will be surrounded by a capsule of cells and connective tissue - the
perineurium. The thickness of longitudinally cut nerve fibres is constant while
smooth muscle cells are spindle shaped. Also, axon and nodes of Ranvier should
be visible in peripheral nerves
Skeletal Muscle
- Skeletal muscle consists of
very long tubular cells, which are also called muscle fibres.
The average length of skeletal muscle cells in
humans is about 3 cm (sartorius muscle up to 30 cm, stapedius muscle only
about 1 mm). Their diameters vary from 10 to 100 µm.
- Skeletal muscle fibres
contain many peripherally placed nuclei.
Up to several hundred rather small nuclei with 1 or
2 nucleoli are located just beneath the plasma membrane.
- Skeletal muscle fibres show
in many preparations characteristic cross-striations. It is therefore also
called striated muscle.
- Skeletal muscle is
innervated by the somatic nervous system.
- Skeletal muscle makes up
the voluntary muscle.
Structure of skeletal muscle
Muscle fibres in skeletal muscle occur in bundles,
fascicles,
which make up the muscle. The muscle is surrounded by a layer of connective
tissue, the
epimysium, which is continuous with
the muscle fascia. Connective tissue from the epimysium extends into the muscle
to surround individual fascicles (
perimysium). A
delicate network of loose connective tissue composed of fine collagenous and
reticular fibres (
endomysium) is found between
the muscle fibres of a fascicle. Finally, each muscle fibre is surrounded by a
basement membrane.
Origin of skeletal muscle
The myoblasts of all skeletal muscle fibres originate from the paraxial
mesoderm. Myoblasts undergo frequent divisions and coalesce with the formation
of a multinucleated, syncytial muscle fibre or
myotube.
The nuclei of the myotube are still located centrally in the muscle fibre. In
the course of the synthesis of the myofilaments/myofibrils, the nuclei are
gradually displaced to the periphery of the cell.
Satellite cells are small cells which are closely
apposed to muscle fibres within the basal lamina which surrounds the muscle
fibre. Their nuclei are slightly darker than those of the muscle fibre.
Satellite cells are believed to represent persistent myoblasts. They may
regenerate muscle fibres in case of damage.
Sections of
skeletal muscle, tongue or upper esophagus - H&E
Tongue,
Skeletal Muscle, human - H&E
Skeletal muscle in the tongue is arranged in bundles which typically run at
right angles to each other. Both longitudinally and transversely cut skeletal
muscle fibres are present. In both section planes you can see that the nuclei
are located in the periphery of the muscle fibre. Myofibrils may be visible
as very fine dots in some of the transversely muscle fibres. Striations
formed by the A- and I-Bands of the sarcomeres are visible in longitudinally
cut fibres. Z-lines and H-bands can be identified in well-preserved tissue.
Details of the sarcomeres stand out more clearly if you
close the iris diaphragm of the microscope. Remember
to open the diaphragm after you have seen the striations clearly !
In the connective tissue between the muscle fibres, the endomysium, numerous
capillaries supply the muscle with oxygen and nutrients.
Draw a small section of longitudinal and transversely cut
skeletal muscle at high magnification.
The muscle
surrounding the upper one-third of the oesophagus is skeletal muscle. Smooth
muscle surrounds its lower one-third. In section of the middle of the
esophagus it is usually possible to identify both muscle types and their
appearances can be compared.
|
![thumbnail]( "Origin of smooth muscle")
Title:
Origin of smooth muscle
by:
om
at
2013-02-15T03:08:00+07:00
Rating: 4.8
of 5 Reviews
Origin of smooth muscle