Midterm 1

Question 1

How does heroin enter into the brain?

Answer 1

Heroin crosses the blood-brain barrier quickly because it is a very lipid soluble.

Very strong opiate

Question 2

How does morphine enter into the brain?

Answer 2

Morphine crosses the blood-brain barrier a bit slower than heroin because it is a less lipid soluble.

Question 3

How does Imodium Anti-Diarrheal enter into the brain?

Answer 3

It does not enter into the brain because it does not cross the blood-brain barrier.

Question 4

What do barbiturates do?

Answer 4

They have a sedative and depressive effect. The sedative effect shows tolerance, but the depressive effect does not.

Question 5

Name the concept:
- It occurs when a drug becomes more and more effective through repeated use.

Answer 5

Sensitization

Question 6

How do you study the brain and get to know what each part of the brain does?

Answer 6

You study people who have damage in that specific area of the brain you are trying to research.

Question 7

What does CT scan stand for?

Answer 7

Computerized Tomography

Question 8

Why are CT scans a good option to photograph the brain?

Answer 8

They are relatively cheap and fast.

Question 9

What are the cons of CT scans?

Answer 9

The resolution of the photographs is not great for soft tissues like the brain.

Question 10

What is the mechanism of CT scans?

Answer 10

An X-ray beam, is projected through the head of the patient to an X-ray detector. The X-ray beam is delivered from all angles.

A computer then translates the information received from the X-ray detector into a series of pictures of the skull and brain.

Question 11

What does MRI stand for?

Answer 11

Magnetic Resonance Imaging

Question 12

What happens when a strong magnetic field is applied to the body?

Answer 12

The spin of very hydrogen atom proton assumes a particular direction inline with the magnetic field.
Radio frequency waves are administered to the body. This energy is absorbed by protons, changing the direction of their spin. These protons then emit their own radio waves when their spin immediately flips back to that determined by the magnet.

Question 13

What is the mechanisms used by MRIs?

Answer 13

A strong magnetic field is applied to the body, which changes the direction of the spin of hydrogen atom protons.

By triangulating where the emitted radio waves are coming from, the scanner provides an estimate of the relative density of protons in each area of the body.

Question 14

What do MRI scans primarily reveal?

Answer 14

The density of lipid molecules

Question 15

What stands for DTI?

Answer 15

Diffusion Tensor imaging

Question 16

What is DTI?

Answer 16

A variation of the MRI technique that measures the direction and speed of the diffusion of water molecules instead of hydrogen atom protons

Question 17

What is DTI used to identify?

Answer 17

It is used to identify axon tracts in the brain.

Question 18

What does fMRI stand for?

Answer 18

Functional magnetic resonance imaging

• Of spontaneous human brain activity.

Question 19

How do fMRI scans function?

Answer 19

The oxygenated blood slightly distorts the magnetic field. We can infer the movement of oxygenated blood around the brain by rapidly collecting a series of images and measuring the movement of these magnetic field distortions over time.

Question 20

Wha mechanism do fMRI scans use?

Answer 20

A rapid series of MRI scans.
It’s possible to detect changes in blood oxygenation, which reflects blood flow and correlates with neural activity. When a brain region is active, blood flow to that region quickly increases.

Question 21

Why is fMRIs popular?

Answer 21

It’s popular because it doesn’t involve needles, surgery or radioactivity. It provides both structural and functional information with decent spatial resolution and temporal resolution.

Question 22

What do PET scans stand for?

Answer 22

Positron Emission Tomography

Question 23

What are the mechanisms of PET scans?

Answer 23

It involves injecting a person with radioactive compound. Radioactive sugar molecules are commonly used to detect changes in energy use in the brain.

The scanner identifies where radioactive molecules are located over time.

Question 24

What molecules do PET scans use?

Answer 24

Radioactive sugar molecules

• Similar to glucose, but it does not break down as easily as sugar, do it stays around for hours.

Question 25

What do PET scans measure?

Answer 25

It is used as a general measure of neural activity.

Also used to measure changes in the expression levels of neurotransmitter receptors across weeks.

Question 26

What are macroelectrodes?

Answer 26

Metal discs that are attached to the scalp

Question 27

What does an EEG measure?

Answer 27

It measures the electrical activity in the brain that uses macroelectrodes attached to the scalp.

It records the summed population-level activity of millions of neurons.

Question 28

What can an EEG be used for?

Answer 28

It can be used as a diagnostic tool, since specific patters of EEG activity are associated with different states of consciousness, stages of sleep and types of cerebral atrophy.

Question 29

What does EEG stand for?

Answer 29

Electroencephalogram

Question 30

What is an experimental ablation?

Answer 30

It’s a lesion study. It involves the removal or destruction of a portion of the brain. Presumably, the functions that can no longer be performed following the surgery are the ones the brain region normally controls.

Question 31

How can radio frequency be used to create lesions in the brain?

Answer 31

Small lesions can be made by passing radiofrequency current through a metal wire that is insulated everywhere but the tip.

This electric current produces heat that burns cells around the tip of the wire.

Size and shape of lesion determine by duration + intensity of burn

Question 32

What is the downside of radio frequency lesions?

Answer 32

Axons just passing through will also be burned.

Question 33

What is an excitotoxic lesion?

Answer 33

It’s a brain lesion produced by intracerebral injection of a glutamate rejector agonist. These drugs cause so much excitation that the affected neurons often undergo apoptosis, while axons passing through are usually spared.

Question 34

What is a sham lesion?

Answer 34

“Placebo” procedure that duplicates all steps of producing brain lesion except for one that actually causes extensive brain damage.

Question 35

What is a reversible lesion?

Answer 35

A temporary lesion can be achieved by injecting drugs that block or reduce neural activity in a given region.

Question 36

What are some of the common drugs used to create reversible lesions?

Answer 36

• Voltage-gated sodium channel; blockers (stops all action potential)
• GABA receptor agonists (which hyperpolarize cell bodies

Question 37

What are microelectrodes?

Answer 37

Thin metal wires with a fine tip that can record the electrical activity of individual neurons.

Question 38

What can microelectrodes be used as?

Answer 38

They can be used in behaving animals to record every action potential from a given neuron. And with the newest microelectrodes, it is possible to record from hundreds of single neurons simultaneously.

Question 39

During which surgery are microelectrodes implanted in the brains of animals?

Answer 39

Stereotactic surgery

Question 40

What is the difference between chronic electrical recordings and acute recordings?

Answer 40

chronic electrical recordings are made over an extended period of time.

Acute electrical recordings are made over a relatively short period of time.

Question 41

What do we use electrical stimulation for?

Answer 41

To know how the activity of specific receptors or cell populations influences behaviour.

Question 42

How does electrical stimulation work?

Answer 42

It involves passing an electrical current through a wire inserted into the brain.

This will affect everything in the area.

Some electrical stimulation patterns counterintuitively, tend to produce the same behavioural effects as lesioning the brain area.

Question 43

How do chemical stimulations work?

Answer 43

Is achieved with drugs. They are administered through a guide cannula implanted into a particular brain region.

Question 44

What are ontogenetic?

Answer 44

It refers to the use of light to control neurons which have been made sensitive to light though the introduction of foreign DNA. This foreign DNA encodes light-sensitive proteins known as opsins. Opsins are proteins that are sensitive to light.

Question 45

What are opsins?

Answer 45

Opsins are proteins that are sensitive to light.

Question 46

What are the steps to ontogenetics?

Answer 46

1) a light-sensitive protein from algae
2) Take the gene for this protein
3) Insert the DNA into specific neurons in the brain
4) Neurons communicate by firing. This is an electrical signal created by opening and closing ion channels

Question 47

What can opsins be used for?

Answer 47

It can be used to either pulse light or leave it on to drive action potential activity. It can also be used to inhibit action potential activity in animals.

Question 48

What are the steps to Viral-Meditated Gene delivery?

Answer 48

1) You take a light-sensitive protein from algae. It’s a protein that is an ion channel and opens in response to blue light.

2) You take the gene for this protein and insert it into the DNA of a hollowed-out virus.

3) You insert the virus into the brain

Question 49

What is a virus?

Answer 49

It’s a type of DNA delivery system. Viruses normally replicate by injecting viral DNA into a host organism. Virus DNA contains instructions on how to make more virus.

It’s a small infectious agent that replicates inside the cells of other organisms.

Question 50

We can target opsin expression to specific neurons in the brain according to?

Answer 50

1) where their soma are located
2) Where their axons are located
3) The proteins they express
4) Whether they recently had more action potentials than normal

Question 51

Why is monitoring GCaMP protein fluorescence a good way to measure neural activity?

Answer 51

Researchers modified it to bind to calcium and fluoresce much brighter when it does. Since a little calcium influx always occurs during action potentials, the cells will fluoresce bright and we can measure neural activity this way.

Question 52

What is retrograde labeling?

Answer 52

Tracing afferent axons
- It is used to label the cells that innervate (project to) a given region.

Question 53

What is anterograde labeling?

Answer 53

Tracing efferent axons

• It is used to label where the axons from a particular region go to.

Question 54

What is stereotactic surgery?

Answer 54

It’s a surgical intervention that uses a stereotactic apparatus. That is a device that permits a surgeon to put something into a very specific part of the brainé

It is used to inject things into the brain, such as drugs, viruses, or tracer molecules.

It can be used to permanently implant things, like cannula, electrodes or fibre optic cable.

Question 55

What is the Bregma?

Answer 55

It’s the junction where pieces of skull fuse together. It is often used as a reference point for a stereotactic brain surgery.

Question 56

What are the common reasons stereotactic surgery is used for?

Answer 56

• Lesion a brain area
• Lesion a specific type of cell in a particular brain area
• To change gene expression
• To implant a guide cannula to allow for later infusions of drugs
• To implant microelectrodes for stimulation or recording experiments
• To implant fibre optic cables to allow for imaging or stimulation using ontogenetic techniques

Question 57

What can microdialysis be used for?

Answer 57

It can be used in behaving animals to measure changes in neurotransmitter levels in a given brain region.

Question 58

Name the technique:
- Refers to the use of a semipermeable membrane to either deliver molecules to or measure the amount of molecules in some solution or brain area.

Answer 58

Dialysis

Question 59

What is a microdyalisis probe?

Answer 59

Small metal tube that holds dialysis tubing. These can be places in the animal’s head.

Question 60

Name the method:
- A histological method that is used to label proteins and peptides in biological tissue.

Answer 60

Immunohistochemistry

Question 61

What is immunihistochemistry used for?

Answer 61

It is the most common technique for identifying cells that make a specific protein. This technique takes advantage of antibodies, which are proteins made by the immune system of mammals.

Question 62

How do researchers use immunohistochemistry?

Answer 62

They have made fluorescent antibodies that selectively bind to all different types of protein. When these fluorescent antibodies are washed over a brain slice, the protein of interest will becom fluorescent lay labeled, and under a microscope, it is easy to identify which cells contain these proteins.

Question 63

How do researchers identify cells that make and release classical neurotransmitters?

Answer 63

They use antibodies agains the enzymes that make those neurotransmitters . Therefore, the antibodies that label a certain enzyme can say what neurotransmitter is associated with which neurotransmitter.

Question 64

What is acetylcholine?

Answer 64

Neurotransmitter

Question 65

What is the primary role of acetylcholine?

Answer 65

It primarily acts as a neuromodulator, often at axoaxonic synapses.
~ In the central nervous system ~

Question 66

What is Acetylcholine’s role in the peripheral nervous system?

Answer 66

It activates the fast excitatory ionotropic receptors on muscle cells that cause muscle contraction.

Question 67

How does synaptic vesicle recycling work?

Answer 67

Vesicles release neurotransmitters on the membrane and then move to the recycling site where they recuperate the neurotransmitters and bring them back to the recycling pool to be reused in the next action potential.

Question 68

Which neurotransmitter release is triggered by the black widow spider venom?

Answer 68

Acetylcholine

Question 69

What is the botulinum toxin (Botox)?

Answer 69

It is produced by bacteria that grow in improperly canned food.

• It’s an acetylcholine system antagonist, because it prevents the release of acetylcholine causing muscle paralysis.

Question 70

name the drug:
- Drug that inhibits activity of actylcholinesterase, which is the enzyme that breaks down acetylcholine in the synaptic cleft. It causes acetylcholine to hang around the synapses for longer periods of time.

Answer 70

Neostigmine

Question 71

In which hereditary autoimmune disorder does one’s own immune system attack their healthy acetylcholine receptors?

Answer 71

Myasthenia Gravis.

Question 72

What do antipsychotics do in the brain?

Answer 72

They bind to more than one type of receptor, but the one action they all have in common is they directly block the dopamine D2 receptor, which is an inhibitory metabotropic receptor expressed by neurons all over the brain.

Question 73

Name 4 drugs that directly activate serotonin 2A receptors.

Answer 73

• Mescaline
• Psilocybin
• LSD
• Lisuride

Question 74

How do hallucinogens cause hallucinations?

Answer 74

• When they bind, they launch an intracellular signaling cascade that starts with the G protein. They also activate an additional G protein known as G i/o. It’s this second G protein that causes hallucinations.

Question 75

What is biased agonism?

Answer 75

When a metabotropic ligand causes the receptor to preferentially activate one type of intracellular G protein, whereas another ligand at the same receptor might preferentially activate a different G protein.

Question 76

What is the difference between direct agonists/antagonists and indirect agonists/antagonists?

Answer 76

Direct affect postsynaptic receptor activity by directly binding to postsynaptic receptors.

WHILE

Indirect affect postsynaptic receptor activity in an indirect manner, the proteins they bind to are not postsynaptic receptors.

Question 77

By which criteria’s are drugs categorized?

Answer 77

• According to their behavioural effects
• According to their physiological effects
• According to their actions on specific proteins
• According to their effects on postsynaptic receptor activity

Question 78

What are competitive agonists and antagonists?

Answer 78

Competitive agonists
- Activate the receptor by binding where the neurotransmitter normally binds
- Full agonists

Competitive antagonists
- Attaches to the same binding where the neurotransmitter normally binds, but it doesn’t activate the receptor.
- Full antagonists

Question 79

What are non-competitive agonists and antagonists ?

Answer 79

Non-competitive agonists
- Fully or partially activates the receptor

Non-competitive antagonists
- Fully blocks receptor activation. It doesn’t compete for the neurotransmitter binding site. It always wins without competing by binding to an alternative site.

Question 80

What are allosteric modulators?

Answer 80

non-competitive drugs that only influence receptor activity when the neurotransmitter is also bound to the receptor.

Question 81

Where are conventional neurotransmitters made ?

Answer 81

In axon terminals.

Question 82

What are conventional neurotransmitters made from?

Answer 82

Precursor molecules (generally from amino acids).

Question 83

What controls the synthesis of neurotransmitter from precursor molecules?

Answer 83

It is controlled by enzymes.

Question 84

What controls the clearance of neurotransmitters from the synapse?

Answer 84

Reuptake transporter proteins

Enzymatic deactivation

Question 85

Which drugs block the reuptake of cat Echols mine neurotransmitters, block the dopamine and norepinephrine reuptake transporters?

Answer 85

Methylphenidate and cocaine, etc.

Question 86

Which drugs reverse catecholamine transporters, causing dopamine and norepinephrine molecules to flow directly out of the presynaptic terminal?

Answer 86

Adderall + Crystal meth

Question 87

What is a dose response curve?

Answer 87

It’s a graph of the magnitude of an effect of a drug as a function of the amount that is administered. It is obtained by giving subjects various doses of drug.

Question 88

Name the process:

• Process by which drugs are absorbed, distributed within the body, broken down and excreted.

Answer 88

Pharmacokinetics

Question 89

What are the 3 key considerations when choosing a route of administrations?

Answer 89

1) Does the drug naturally cross the blood-brain barrier?

2) Is it better to have a high concentration of a drug for a short time or a low concentration of drug for a long time?

3) Where in the body are the enzymes that break down the drug? (Stomach, blood, liver, brain…)

Question 90

What are the first cells during development called?

Answer 90

Neural progenitor cells

Question 91

After how many days does symmetrical cell division end and asymmetrical cell division during development start?

Answer 91

40 days after conception

Question 92

What is the midbrain?

Answer 92

A collection of nuclei that orchestrate complex reflective behaviours

Consists of two parts
- Tectum
- Tegmentum

Question 93

What are the superior colliculi of the tectum involved in?

Answer 93

They are involved in orienting the animal to things seen in peripheral vision.

Question 94

What do the inferior colliculi of the tectum involved in?

Answer 94

They are involved in orienting to unexpected sounds.

Question 95

What does the Tegmentum do?

Answer 95

It includes several structures that coordinate and motivate complex species-typical movements. Some areas process pain and orchestrate behavioural responses to threats.

Question 96

What is the role of the hypothalamus?

Answer 96

Regulates autonomic nervous system activity.
- Involved in behaviours that directly relate to survival
- Control body temperature, sleep-wake cycles, hunger, social behaviour, etc.
- Link to nervous system and endocrine system via the pituitary gland.

Question 97

What does the thalamus do?

Answer 97

It relays ascending sensory information to different regions of the cerebral cortex.

Question 98

What is the difference between gray matter and white matter.

Answer 98

Gray matter —> high concentration of cell bodies

white matter —> large concentration of myelinated axons. Very few neurons in this area.

Question 99

What are the 4 lobes of the cerebral cortex and their roles?

Answer 99

Frontal lobe —> controls movement

Parietal lobe —> processes touch information

Occipital lobe —> processes visual information

Temporal lobe —> processed auditory information

Question 100

Where is taste processed?

Answer 100

Insular cortex

Question 101

Where is smell processed?

Answer 101

Piriform cortex

Question 102

Name the primary cortical areas.

Answer 102

• Primary motor cortex
• Somatosensory cortex
• Primary visual cortex
• Primary auditory cortex
• Insular cortex

Question 103

Where is the primary motor cortex located?

Answer 103

Frontal lobe

Question 104

Where is the somatosensory cortex located?

Answer 104

Parietal lobe

Question 105

Where is the primary visual cortex located?

Answer 105

Occipital lobe

Question 106

Where is the primary auditory cortex located?

Answer 106

Temporal lobe

Question 107

Where is the insular cortex located?

Answer 107

Hidden in the lateral fissure

Question 108

What does the sensory association cortex do?

Answer 108

Perception takes place there and memories are stored there.

Receives information from each primary sensory area of the cortex.

Question 109

What is the role of the basal ganglia?

Answer 109

Regulate intentional movements, motivation, reinforcement learning and habits.

Question 110

What is the role of the hippocampus?

Answer 110

Critical for explicit memory formation

Question 111

What is the role of the amygdala?

Answer 111

Critical for feeling and recognizing emotions, particularly fear.

Question 112

What are the classical neurotransmitters?

Answer 112

Glutamate
GABA
Dopamine
Norepinephrine
Acetylcholine
Serotonin

Question 113

What are the 4 main neuromodulators?

Answer 113

Dopamine
Norepinephrine
Acetylcholine
Serotonin

Question 114

What is the main excitatory neurotransmitter?

Answer 114

Glutamate

Question 115

What is the main inhibitory neurotransmitter?

Answer 115

GABA

Question 116

Why are the neuromodulators distinguished from the other classical neurotransmitters?

Answer 116

• They don’t produce simple excitatory or inhibitory effects in the central nervous system
• Most of their receptors are G protein coupled receptors
• They often diffuse short distances outside of the synapse —> influence activity of neighbour neurons

Question 117

What are the monoamine neuromodulators?

Answer 117

Serotonin, dopamine, norepinephrine

Question 118

What are monoamine neuromodulators?

Answer 118

They are all packed by the protein vesicular monoamine transporter.

Question 119

How does the G protein work?

Answer 119

It uses GTP molecules, instead of ATP molecules. G proteins ar activated temporarily because they have a tendency to convert GTP to GDP.

Question 120

How do G protein-gated ion channels work?

Answer 120

1) Neurotransmitter binds to a metabotropic receptor
2) Activated G proteins transmit the message inside the cell.
3) Some ion channels are gated by activated G proteins.

Question 121

Where can synapses form?

Answer 121

1) Dendrites
2) Dendritic spines
3) Soma
4) Other axon terminals

Question 122

What is an autoreceptor?

Answer 122

A receptor located on presynaptic membrane that gets activated when the cell releases its own neurotransmitter.

• gated by neurotransmitter that the cell releases.
• Generally metabotropic and inhibitory.

Question 123

What are the anatomical directions?

Answer 123

Dorsal

Anterior. O. Posterior
|
/ \

                         Ventral

Question 124

What is the definition for contralateral?

Answer 124

Structures on opposite side of the body

Question 125

What are the ipsilateral?

Answer 125

Structures on the same side of the body.

Question 126

What is myelin created by in the central nervous system?

Answer 126

oligodendrocytes

Question 127

What is myelin created by in the peripheral nervous system?

Answer 127

Schwann cells

Question 128

What is the blood-brain barrier?

Answer 128

Semipermeable barrier between the blood and the brain.

Question 129

What are the 3 types of meninges?

Answer 129

• Dura mater
• Arachnoid membrane
• Pia mater

Question 130

What is the dura mater?

Answer 130

Outer layer of meninges. Thick, tough, unstretchable tissue.

Question 131

What is the arachnoid membrane?

Answer 131

Middle layer of the meninges. Soft, spongy, web-like appearance.

Question 132

What is the pia mater?

Answer 132

Third layer. Closest to the brain.
Space above it has blood vessels.

Question 133

What subarachnoid space?

Answer 133

Between the arachnoid membrane and pia mater and is filled with cerebrospinal fluid (CSF).

Question 134

What is the cerebrospinal fluid made of?

Answer 134

Choroid plexus

Question 135

What is the principal function of the spinal cord?

Answer 135

Distribute motor fibres to the effector organs of the body and to collect somatosensory information to be passed on to the brain.

Certain degree of autonomy on reflexes.

Question 136

What are the two major divisions of the nervous system?

Answer 136

• Somatic
• Autonomic

Question 137

What is the somatic nervous system?

Answer 137

It interacts with the external environment.
- Afferent nerves —> carry sensory signals from 5 senses to central nervous system
- Efferent nerves —> carry motor signals FROM the CNS to skeletal muscles

Question 138

What is the autonomic nervous system?

Answer 138

Regulates body’s internal environment.
- Afferent nerves —> carry sensory signals from internal organs TO CNS
- Efferent nerves —> Carry motor signals FROM CNS to internal organs.

Question 139

Sympathetic autonomic nervous system vs Parasympathetic autonomic nervous system.

Answer 139

Sympathetic
- Primes the body for action, life threatening situations
- Fight or flight response
- Higher blood flow, respiration, etc.
- Stops unimportant to survival systems like reproductive and hunger.

Parasympathetic
- Supports activities when body is in a relaxed state.
- involved in increasing the body’s energy stores (digestion).
- Sexual arousal, defecation, urination, salvation.
- Rest and digest state.

Question 140

What are the functions of the medulla oblongata?

Answer 140

Heart rate
Blood flow
Breathing
Vomiting
Sneezing, etc.
Reticular formation
- Sleep and arousal

Question 141

What are the functions of the pons?

Answer 141

Hearing
Balance
Taste
Sensations and movements of the face

Question 142

What are the functions of the cerebellum?

Answer 142

Motor control.
- Does not initiate movement, but contributes to its coordination, precision, accurate timing.
- Smoothing effect on movement.
- Motor learning

Question 143

In genetics, what is a promoter?

Answer 143

A region of DNA that initiates transcription of a particular gene. They indicate what kind of cells should read the gene and when.

Question 144

What are glial cells and what are their roles?

Answer 144

Found all around neurons.
- Help traffic nutrients and maintain molecular stability in the extracellular space.

3 types of glial cells
- Astrocyte
- Microglia
- Oligodendrocytes

Question 145

What are the 3 types of glial cells?

Answer 145

-Astrocyte
- Microglia
- Oligodendrocytes

Question 146

What does an Astrocyte glial cell do?

Answer 146

Provides physical support and cleans up debris in the brain through phagocytosis

Question 147

What is the function of Microglia?

Answer 147

They provide an immune system for the brain and protect the brain from invading microorganisms.

Question 148

What is the function of oligodendrocytes?

Answer 148

They produce myelin sheaths.

Question 149

What is the impact of myelination on action potential?

Answer 149

Action potential appears to jump from one node of Ranvier to the next, where there are ion channels. Action potential is much faster and more certain.

Question 150

What are ionotropic receptors?

Answer 150

Ion channels

Question 151

What are metabotropic receptors?

Answer 151

G protein coupled receptors that can open ion channels through intracellular signaling cascade

Question 152

Which two mechanisms keep neurotransmitter signaling in the synapse brief?

Answer 152

• Enzymatic deactivation
• Reuptake