Neurotransmitters

Question 1

Describe the three parts of a neuron

Answer 1

• Dendrites
• Cell Body (soma)
• Axon

Question 2

What are the three types of neurons?

Answer 2

• Sensory
• Interneurons/Associational
• Motor Neuron

Question 3

Describe the sensory neuron

Answer 3

Carry impulses from peripheral sensory receptors to the CNS

Question 4

Describe the interneuron/associational

Answer 4

Transmit impulses from neuron to neuron (sensory to motor)

Question 5

Describe the motor neuron

Answer 5

Carry away from the CNS to an effector

Question 6

Describes dendrites

Answer 6

they care nerve impulses towards cell body

Question 7

Describe the nucleus

Answer 7

process nerve impulses

Question 8

Describe the axon

Answer 8

conductive conjunctions that carry nerve impulses away from the cell body

Question 9

What is myelin sheath?

Answer 9

-layer of lipid material

• helps propagate speed
• Makes signal travel fast down the axon.

Question 10

Why is myelin sheath important for growth?

Answer 10

babies are born only with axons without the myelin sheath which is why see or talk.

It is critical periods for learning because myelin sheath enables brain signals to travel fast

As you get older, brain will slowly travel fast!

Question 11

Describe the process on how neurotransmitters are released

Answer 11

1. AP travels down axon to the axon terminal
2. This causes the voltage gated calcium channels to open
3. Calcium diffuses into the presynaptic neuron
4. Calcium signals neurotransmitter vesicles
5. Vesicles move to the membrane and protein dock
6. Triggers release of neurotransmitters via exocytosis
7. Neurotransmitters are released into presynaptic cleft
8. Neurotransmitters bind to receptors
9. Causes a signal initiation in postsynaptic cell

Question 12

What happens to neurotransmitter leftovers?

Answer 12

Re-uptake molecules re-uptakes any available neurotransmitters back into presynaptic neuron for later use.

Question 13

Name different ways to alter transmission

Answer 13

• Competitive inhibitors (antagonist can block receptor)
• Block reuptake (drug called SSRI)
• Block calcium channels
• Change the AP
• Interfere neurotransmitter
• Agonist enhances uptake amount
• Change the receptors
• Change the docking protein

Question 14

Describe a neurotransmitter

Answer 14

• chemical messengers
• Work broadly
• Excitatory OR inhibitory OR both

Question 15

What are the classification systems of a neurotransmitter

Answer 15

• Amino acids
• Peptides
• Monamines
• Others

Question 16

Glutamate

Answer 16

• Most abundant neurotransmitter
• Excitatory
• Important for learning, memory, and cognition

-Increase membrane permeability to Na+,
K+ and Ca2+

Question 17

Describe the clinical importance of Glutamate

Answer 17

role in bipolar disorder and schizophrenia

Question 18

Serotonin

Answer 18

• AKA 5HT
• Inhibitory or Excitatory
• Amino acid L-tryptophan
• Can’t be created by body so must be supplied from deity (turkey, eggs, fish, cheese, milk)
• Can increase with light, exercise, diet
• LOVE AND HAPPINESS (high)
• DEPRESSION (little)

Question 19

Describe the clinical importance of Serotonin

Answer 19

• Deficiency- depression
• Anxiety
• Panic
• ADH
• Dementia & Alzheimer’s
• Too much- links to schizophrenia

Question 20

Norepinephrine

Answer 20

• EXCITATORY and inhibitory
• arousal/attention, learning, memory and eating
• Fight or flight

-Main neurotransmitter of sympathetic nerves
in cardiovascular system

Question 21

Describe the clinical importance of norepinephrine

Answer 21

• Can be used to treat heart failure
• depression & ADHD (low levels)
• Anxiety (high levels)

STRESS

Question 22

GABA

Answer 22

Inhibitory

• prevents overstimulation via regulating other excitatory neurotransmitters especially counterbalances glutamate
• Improves mental focus & relaxation
• Motor control, vision

Question 23

Describe the clinical importance of GABA

Answer 23

Too little (epilepsy, anxiety)

Alcohol and benzodiazepines increase GABA which leads to sedation

Question 24

Dopamine

Answer 24

EXCITATORY and Inhibitory

-Motivation Reward

-Involved with movement, decision making
creativity

• LOVE and SCHIZOPHRENIA (high)
• ANXIETY and DEPRESSION (little)

-Vasodilation

Question 25

Describe the clinical importance of Dopamine

Answer 25

SCHIZONPHRENIA (too much)

Parkinson disease

Role in substance abuse

Question 26

Epinephrine

Answer 26

EXCITATORY or Inhibitory

• Fight or flight
• Attentiveness, arousal, mental focus, cognition
• sexual arousal

STRESS

Question 27

Describe the clinical importance of Epinephrine

Answer 27

• High levels- ADHD, anxiety

- Used to treat shock, cardiac arrest & anaphylaxis

Question 28

Acetylcholine

Answer 28

EXCITATORY and Inhibitory

-Primary neurotransmitter in PSNS
Involved in: thought, attention, learning & memory

• activating muscle action

Question 29

Describe the clinical importance of Acetylcholine

Answer 29

-Alzheimer’s- shortage of Ach

-Myasthenia gravis- reduction in acetylcholine
receptors

-Nicotine- increases the release

Question 30

Oxytocin

Answer 30

Excitatory & Inhibitory

-“Love Hormone”- released during hugs!

-Released during and facilitates childbirth
and lactation

Question 31

Histamine

Answer 31

Excitatory and inhibitory

-Involved in: arousal (wakefulness and attention), eating,
cognition

-Best known for its role in immune and inflammatory response (BENADRYL)

Question 32

Describe the clinical importance of Histamine

Answer 32

• Immune, inflammatory and hypersensitivity reactions
• Increases gastric acid secretion- H2 Antagonists
• Side effect of histamine blockers- drowsiness

Question 33

Substance P

Answer 33

-Excitatory &inhibitory

• Vasodilation
• Pain responsive neuron
• Causes pain particularly in arthrities

Question 34

Describe the clinical importance of Substance P

Answer 34

• Too much- fibromyalgia & rheumatoid arthritis

- Some pain medications (morphine) blocks release of substance P

Question 35

Nitric Oxide

Answer 35

• Unconventional neurotransmitter
• Interacts with many other neurotransmitters

-Causes vasodilation (treat angina and
hypertensive emergencies)

-Induces bronchodilation (treat hypoxemia,
pulmonary hypertension)

• Stimulates gastric emptying
• Anti-inflammatory
• Anxiolytic and analgesic