BIO 360 - Exam 3 - Chapter 11 Review Questions Flashcards
Name the two efferent divisions of the peripheral nervous system. What type of effectors does each control?
Somatic motor—skeletal muscles.
Autonomic—smooth and cardiac muscle, glands, some adipose tissue.
The autonomic nervous system is sometimes called the nervous system. Why is this an appropriate name? List some functions controlled by the autonomic nervous system.
Visceral nervous system because it controls internal organs (viscera) and functions such as heart rate and digestion.
What are the two branches of the autonomic nervous system? How are these branches distinguished from each other anatomically and physiologically?
Sympathetic—fight-or-flight; parasympathetic—rest-and-digest.
Sympathetic neurons exit the spinal cord in the thoracic and lumbar regions; ganglia are close to the spinal cord.
Parasympathetic exit from the brain stem or sacral region; ganglia on or close to their targets.
Which neurosecretory endocrine gland is closely allied to the sympathetic branch?
adrenal medulla
Neurons that secrete acetylcholine are described as ______ neurons, whereas those that secrete norepinephrine are called either______, ______ or ______neurons.
Cholinergic—acetylcholine, adrenergic or noradrenergic—norepinephrine.
List four things that can happen to autonomic neurotransmitters after they are released into a synapse.
(1) Diffuse away from the synapse
(2) broken down by enzymes in the synapse
(3) taken back into the presynaptic neuron
(4) bind to a membrane receptor
The main enzyme responsible for catecholamine degradation is ______, abbreviated as ______.
monoamine oxidase, MAO
What is acetylcholinesterase? Describe its action.
enzyme that breaks down ACh
Somatic motor pathways
(a) are excitatory or inhibitory?
(b) are composed of a single neuron or a preganglionic and a postganglionic neuron?
(c) synapse with glands or with smooth, cardiac, or skeletal muscle?
(a) excitatory, (b) single neuron, (c) synapse with skeletal muscle
What kind of receptor is found on the postsynaptic cell in a neuromuscular junction?
nicotinic cholinergic receptors
What is the advantage of divergence of neural pathways in the autonomic nervous system?
Divergence allows one signal to affect multiple targets.
Compare and contrast:
(a) neuroeffector junctions and neuromuscular junctions
(b) alpha, beta, muscarinic, and nicotinic receptors. Describe where each is found and the ligands that bind to them.
(a) Neuroeffector junction—distal ends of autonomic axons, anywhere there is a varicosity.
Neuromuscular junction—axon terminals of the somatic motor neuron.
(b) Alpha and beta adrenergic;
nicotinic and muscarinic cholinergic.
Nicotinic—on skeletal muscle and postganglionic autonomic neurons.
Adrenergic and muscarinic receptors—autonomic targets.
Compare and contrast:
(a) autonomic ganglia and CNS nuclei
(b) the adrenal medulla and the posterior pituitary gland
(c) axon terminals and varicosities
(a) Autonomic ganglia—nerve cell bodies of postganglionic autonomic neurons. CNS nuclei—nerve cell bodies in the brain and spinal cord. (b) Both have true endocrine tissue and neuroendocrine tissue. (c) Boutons—ends of axons; varicosities—strung out along the ends of autonomic neurons.
Create a concept map comparing the somatic motor division and the sympathetic and parasympathetic branches of the autonomic division. You may add terms.
acetylcholine
alpha receptor
beta receptor
cholinergic receptor
endocrine gland
ganglion
nicotinic receptor
one-neuron pathway
skeletal muscle
somatic motor division
two-neuron pathway
adipose tissue
autonomic division
cardiac muscle
efferent division
exocrine gland
muscarinic receptor
norepinephrine
parasympathetic branch
smooth muscle
sympathetic branch
Use Figs. 11.9 and 11.10 to create this map.
If a target cell’s receptor is ______(use items in left column), the neuron(s) releasing neurotransmitter onto the receptor must be ______ (use all appropriate items from the right column).
(a) nicotinic cholinergic
(b) adrenergic a
(c) muscarinic cholinergic
(d) adrenergic b
(1) somatic motor neuron
(2) autonomic preganglionic neuron
(3) sympathetic postganglionic neuron
(4) parasympathetic postganglionic neuron
(a) 1, 2; (b) 3; (c) 4; (d) 3
Nicotinic cholinergic - somatic motor & autonomic preganglionic
Adrenergic a - sympathetic postganglionic
Muscarinic cholinergic - parasymathetic postganglionic
Adreneric b - sympathetic postgangionic