HUMAN BIOLOGY

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the MUSCULar SYSteM 111

hoW does the nervous system control the
contraction of muscle cells?


  • Nerve impulses spark the release of calcium ions from a
    membrane system around a muscle cell’s myofibrils.

  • Nerve impulses pass from a neuron to a muscle cell across
    neuromuscular junctions.


takE-homE mEssagE

motor neuron Type of
neuron that carries nervous
system signals to skeletal
muscles.
neuromuscular junction
Sites where endings of
neuron axons come close
to the cell membranes of
muscle fibers.
neurotransmitter A chemi-
cal messenger that carries
signals from a neuron to
a receiving cell across a
synapse.

Botox is potentially quite dangerous, since it blocks
the release of ACh. Yet each year millions of people
around the world receive Botox injections for cosmetic
and medical purposes. Research this topic on the
website of the National Institutes of Health (www
.nih.gov) to learn more about both the potential
health dangers of Botox and how it is used in medical
treatments.

ThiNk OuTsiDE ThE bOOk


Axon ending of
motor neuron

Muscle fiber

Muscle fiber receptor for ACh

Synapse

Vesicles containing ACh molecules

Each year in the United States
about 2 million people have injec-
tions of Botox to smooth out facial
wrinkles. Made by the bacterium
Clostridium botulinum, Botox blocks
the release of ACh, so the muscle
contractions that produce wrinkles
stop for a while. The muscle-relaxing
effect lasts four to six months and
can have side effects, such as droopy
eyelids. Botox also is used to treat
disorders. For example, it may relieve
abnormal muscle contractions that
trouble stroke patients. Only a physi-
cian can legally prescribe Botox.

neurons signal muscle cells
at neuromuscular junctions


A motor neuron has long extensions called axons that carry
nerve impulses. The nerve impulses that stimulate a skele-
tal muscle fiber arrive at neuromuscular junctions. These
are places where the branched endings of axons come close
to muscle fiber membranes, as you can see in Figure 6.9B
and 6.9D, and in Figure 6.11. Between the neuron endings
and each muscle cell is a gap called a synapse. A type of
chemical messenger, a neurotransmitter called ACh (for
acetylcholine), carries the signals from a motor neuron
across the gap.
The signaling between a neuron and a muscle cell takes
place in steps. As these steps take place, calcium ions from
the extracellular fluid flow inside the axon endings, and
vesicles in each ending release ACh. If enough ACh binds
to receptors on the muscle cell membrane, the events that
cause the muscle cell to contract may get under way. ACh
can excite or inhibit muscle and gland cells, as well as some
cells in the brain and spinal cord.


Figure 6.10 Animated! Proteins uncover and then cover
sites on actin where myosin can attach. Calcium ions must
bind to the protein troponin and then release it in order for the
sliding filament mechanism of muscle contraction to operate.
(© Cengage Learning)


Figure 6.11 Ach carries signals across a neuromuscular junction. It is
a type of chemical messenger called a neurotransmitter.
(© Cengage Learning)

Nerve impulse Calcium released

Myosin binds
to actin

Actin Tropomyosin Troponin

Myosin
head

Troponin in actin
binding site


1

Troponin moves,
twisting tropomyosin
and uncovering the
site on actin. Now
myosin can attach
at the site.


2

Troponin covers
the actin binding
site again


3

Nerve impulse stops No calcium

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