Chapter 6
A presynaptic location where neurotransmitter molecules are stored.
Synaptic vesicles
Receptor desensitization
Temporary inability of a receptor to respond to its ligand due to prior ligand binding
Large nuclei just below the cerebrum that serve as synaptic relay stations for inputs to the cerebral cortex
Thalamus
You are studying a cross-sectional tissue slice of a nerve using a transmission electron microscope. You find an area where there appears to be a small amount of cytoplasm surrounded by about 100 layers of stacked cell membranes. You conclude that you have found
a myelinated axon
During the action potential, a second stimulus, no matter how strong, will not produce a second action potential because the membrane is in its __ period.
absolute refractory
The central nervous system (CNS) is composed of the __ in the skull and the __ in the vertebral column.
brain, spinal cord
During this time, some of the voltage-gated Na⁺ channels have returned to their __ state, and could therefore open again.
closed
The movement of electrical charge is called __ and the charge carriers in biological systems is/are __.
current, ions
The net movement of ions causes a slight ___ of the membrane.
depolarization
In most neurons, generation of a/an __ causes the release of __ which communicate with other cells.
electrical signal, neurotransmitters
At the resting membrane potential of -70 mV, the __ gradient for K⁺ favors flux into the cell, while the __ gradient favors flux __ cell.
electrical, concentration, out of the
However, in cells that do not actively transport Cl-, the ECl is __ to the resting membrane potential.
equal
The equilibrium potential for an ion is the membrane potential at which the flux from the ion concentration gradient and the flux from the electrical gradient are ___ in magnitude but ___ in direction.
equal, opposite
The resting membrane potential is not at the ___ for either Na+ or K+.
equilibrium potential
This is called a/an ___, and its function is to bring the membrane potential of the postsynaptic cell closer to ___.
excitatory postsynaptic potential, threshold
At a/an ___ chemical synapse, activated receptors on the postsynaptic membrane is/are ___.
excitatory, non-selective cation channels
When the membrane potential is at the equilibrium potential for a particular ion, there is ___ of the ion through open ion channels, but no ___.
flux, net flux
Therefore, as Cl- channels open, Cl- enters the cell, producing a/an __ called a/an __.
hyperpolarization, inhibitory postsynaptic potential
At a/an __ chemical synapse, activated receptors on the postsynaptic membrane allow influx of __ or efflux of __ through channels specific for those ions.
inhibitory, Cl⁻, K⁺
At the resting membrane potential of -70 mV, both the electrical and concentration gradients for Na⁺ favor flux __ the cell.
into
The magnitude of the resting membrane potential depends on two factors: differences in specific __ in the intracellular and extracellular fluids and the membrane __ to those ions.
ion concentrations, permeabilities
The difference in electrical charge between two points
is called the potential difference between those points
During this time, a second action potential can be produced, but only if the stimulus strength is __ than usual.
larger
Finally, with increased K+ permeability, more K+ ions __ the cell and the membrane moves closer to the EK, causing an IPSP.
leave
Alternatively, activated receptors may act indirectly on separate ion channels through a G protein and/or second messenger, a type referred to as __ receptors.
metabotropic
In biological systems, membrane potential is measured in the units, __.
millivolts
Action potential propagation occurs rapidly in the axons of neurons covered by __.
myelin
In cells that actively transport Cl- out of the cell, the ECl is more __ than the resting membrane potential.
negative
The resting membrane potential exists because of a tiny excess of __ ions inside the cell and an excess of __ ions outside that are electrically attracted to each other across the __ of the cell.
negative, positive, plasma membrane
The basic unit of the nervous system is the individual nerve cell, or __.
neuron
The bulk of the intracellular and extracellular fluids remain __.
neutral
The spaces between adjacent sections of myelin where the axon's plasma membrane is exposed to the extracellular fluid are the __.
nodes of Ranvier
Opening these channels that are permeable to small positively charged ions therefore results in the simultaneous movement of a small number of potassium ions ___ the cell and a larger number of sodium ions ___ the cell.
out of, into
The __ consists of the nerves that connect the CNS with the body's __, glands, and sense organs.
peripheral nervous system (PNS), muscles
The difference in the amount of charge between two locations is called a/an __.
potential
Eventually, the action potential reaches the terminal of the __ neuron.
presynaptic
This is the __ period, which coincides roughly with the period of hyperpolarization.
relative refractory
All cells under resting conditions have a potential difference across their plasma membranes called the __, with the inside of the cell __ charged with respect to the outside.
resting membrane potential, negatively
Finally, neurotransmitters are removed from the synaptic cleft by __ into the presynaptic axon terminal, by diffusion away from the receptor site, or by destruction by __.
reuptake, diffusion, enzymes
As action potentials propagate along a myelinated fiber, they jump from one node of Ranvier to the next, and for this reason such propagation is called ___.
saltatory conduction
Therefore, a rise in Cl⁻ permeability does not change the membrane potential, but it makes it more difficult for other ion types to change the potential by __ the membrane at the resting level.
stabilizing
An experimentor uses an electrical stimulator to inject a resting neuron with 3 different currents: 5, 10, and 25 microamps. No action potential occurs at 5 and 10 microamps, so those are called __.
subthreshold stimuli
Neurotransmitters diffuse across the __ and bind to receptors within the membrane of the __ neuron that are ion channels, which designates them as __ receptors.
synaptic cleft, postsynaptic, ionotropic
Ca²⁺ entering during depolarization binds to a family of proteins known as __ that are associated with __ located within the axon terminal.
synaptotagmins, vesicles
An action potential does occur at 25 microamps, so it is called a/an __.
threshold stimulus
Depolarization in the terminal induces the opening of __.
voltage-gated Ca²⁺ channels
General regions of the CNS where myelinated axons are found
white matter
If the neuron was stimulated with a 50 microamp current, an action potential __ occur, and it would be __ in size to the 25 microamp-induced action potential.
would, similar
Area between the brain and spinal cord involved with motor functions, cardiovascular and respiratory control, regulation of sleep and wakefulness, and containing nuclei for processing information from most of the cranial nerves
Brainstem
In the __, the __ form myelin sheaths around multiple axons.
CNS, oligodendrocytes
The electrochemical gradient for __ favors the flux of this ion __ the axon terminal.
Ca²⁺, into
Highly branched lobular structure found behind the brainstem that is an important center for coordinating movements, posture, and balance
Cerebellum
Highly folded structure developed most extensively in humans; functions in perception, generation of skilled movements, reasoning, learning, and memory
Cerebrum
A location where neurotransmitter signals link the electrical activity of two cells.
Chemical synapse
A group of neuronal axons that connect the right and left sides of the CNS
Commissure
Multiple presynaptic neurons synapse on a single postsynaptic neuron.
Convergence
A single presynaptic neuron branches to synapse on multiple postsynaptic neurons.
Divergence
A location where gap junctions provide a low-resistance electrical connection between two cells.
Electrical Synapse
Presynaptic facilitation
Excitatory input to neurons through synapses at the presynaptic nerve terminal
An event at this location brings a postsynaptic cell's membrane potential closer to threshold.
Excitatory synapse
T or F? A neuron receives information on it's axons and delivers it to other neurons through its dendrites.
False
T or F? As the distance between oppositely charged particles becomes greater, the force of attraction between them also becomes greater.
False
T or F? Electrical potential is defined as the movement of electrical charge.
False
T or F? Glucose freely diffuses through the lipid bilayer of cell membranes, so is not inhibited from entering the brain.
False
T or F? Materials that have a low resistance to the flow of electrical current are known as insulators.
False
T or F? Morphine readily crosses the blood brain barrier, while the drug heroin does not.
False
T or F? The blood brain barrier consists of three membranes: the dura, arachnoid, and pia mater
False
T or F? The units of electrical current flow are volts.
False
Groups of neuronal cell bodies outside the CNS
Ganglia
The greater permeability of __ through leak channels maintains the resting membrane potential at a value near the equilibrium potential for this ion.
K⁺
While for ___, the electrical gradient opposes the concentration gradient.
K⁺
Immediately after an action potential, some of the voltage-gated __ channels that repolarized the membrane are still __.
K⁺, open
Temporal summation
Membrane potential produced when two or more inputs from a single source occur closely enough in time to add together; the potential change is greater than that caused by a single input
At rest, the ___ establishes and maintains the concentration gradients for these ions across the plasma membrane.
Na+/K+-ATPase pump
There are both electrical and concentration gradients driving ___ into the cell.
Na⁺
This occurs because the voltage-gated __ channels are either already open or have proceeded to the __ state.
Na⁺, inactivated
A group of neuronal axons traveling together in the PNS
Nerve
Groups of neuronal cell bodies within the CNS
Nuclei
A location where neurotransmitter receptors are clustered.
Postsynaptic density
Axo-axonic synapse
Presynaptic synapse where an axon stimulates the presynaptic terminal of another axon
Autoreceptors
Receptors on a cell affected by a chemical messenger released from the same cell
What would occur if the concentration of ATP were depleted in a typical nerve cell?
Resting membrane potential would become less negative
This binding triggers a conformational change in the __ complex that leads to membrane fusion and the release of __.
SNARE, neurotransmitters
In the PNS, cells called __ form individual myelin sheaths at regular intervals along the axons.
Schwann cells
Action potential
- all or none - initiated by a graded potential - is conducted without decrement - is only a depolarization - threshold is usually about 15 mV depolarized relative to the resting potential - cannot be summed - has a refectory period - mechanism depends on the voltage-gated channels
Both CNS and PNS
- axons of efferent neurons - axons of afferent neurons
CNS
- axons of interneurons - axon terminals of interneurons - dendrites of interneurons - cell body of somatic efferent neurons - cell body of interneurons - dendrites of somatic efferent neurons
Graded potential
- can be summed - mechanism depends on ligand-gated channels or other chemical or physical changes - has no refectory period - amplitude varies with size of the initiating event - has no threshold - is conducted decremental; amplitude decreases with distance
PNS
- cell body of afferent neurons - peripheral processes of afferent neurons - axon terminals of efferent neurons - sensory receptors of afferent neurons
Oligodendrocytes
- form myelin
interneuron characteristics
- function as integrators and signal changers - have wide range of physiological properties, shapes, and functions - lie entirely within the CNS, account for 99% of all neurons
autonomic nervous system characteristics
- has two-neuron chain between the CNS and effectors - neurons release norepinephrine that binds to adrenergic receptors located on the effector organs - receptors on effector organs are also responsive to epinephrine that is released into the blood by the adrenal medulla - can lead to excitation or inhibition of the effectors - innervates smooth and cardiac muscle, glands, and GI neurons - neurons release acetylcholine that binds to muscarinic acetylcholine receptors located on the effector organs
Microglia
- provide immune functions
Ependymal Cells
- regulate production and flow of cerebrospinal fluid
Astrocytes
- remove K⁺ and neurotransmitters from ECF near synapses - help create blood-brain barrier - sustain the neurons metabolically - serve as guides for developing neurons
somatic nervous system characteristics
- single neuron between the ins and effectors - neurons are also called motor neurons - activates skeletal muscles - can lead only to excitation of the effectors - neurons release acetylcholine that binds to nicotinic acetylcholine receptors located on the effector organs
Efferent neuron characteristics
- transmit info away from CNS - second most abundant type of neuron - axons terminate on muscles, glands, or other neurons - cell body, dendrites, and small segment of axon are in the CNS
Afferent neuron characteristics
- transmits info toward CNS - least abundant type of neuron - contain sensory receptors at their peripheral endings - cell body and long peripheral process of the axon are in the PNS
The resting membrane potential of a typical neuron is ___ mV.
-70
With an extracellular concentration of 5 mmol/L and an intracellular concentration of 150 mmol/L, the equilibrium potential for K⁺ in a typical neuron is __ mV.
-90
Spatial summation
Adding together effects of simultaneous inputs to different places on a neuron to produce potential change greater than that caused by a single input
General regions of the CNS where cell bodies are found
Gray Matter
Cluster of nuclei at the base of the forebrain that is the master command center for integration of neural and hormonal regulation of homeostasis
Hypothalamus
Presynaptic inhibition
Inhibitory input to neurons through synapses at the presynaptic nerve terminal
An event at this location can either stabilize or hyperpolarize a postsynaptic cell's membrane potential.
Inhibitory synapse
A group of neuronal axons traveling together within the CNS
Tract
T or F? According to Ohm's law, if resistance stays the same and electrical potential increases, the electrical current will increase.
True
T or F? Alcohol has rapid effects on the brain because it is highly soluble in lipid membranes of the blood-brain barrier.
True
T or F? Electrical forces increases as the quantity of charged particles increases.
True
T or F? Membranes that form the blood-brain barrier contain physiological transporters that allow permeation of some hydrophilic substances.
True
T or F? Negatively charged particles will tend to be attracted to move in the direction of positively charged particles.
True
T or F? Ohm's law states that current is proportional to voltage and inversely proportional to resistance.
True
T or F? The blood-brain barrier dresses the access of some therapeutic substances to the brain.
True
T or F? The permeability of the plasma membrane to potassium ions is much greater than its permeability to sodium ions.
True
