Midterm Exam

Question 1

Why is a cell can depolarize ?

Answer 1

Because the cell receives signal from other cells.

Question 2

What is the concept that is happening at +40 mV when sodium ions rushing in equals potassium ions rushing out of the cell ?

Answer 2

Equilibrium potential

Question 3

On which ion those action potentials depends on and why ?

Answer 3

Sodium because at -40 mV, the voltage-gated sodium channels open.

Question 4

The resting membrane potential is dependent of which ion and why ?

Answer 4

Potassium because at rest, it is only potassium that goes in and out of the cell (the other doors are locked)

Question 5

What are the two kinds of refractory period and describe them ?

Answer 5

Absolute refractory period: Complete insensitivity to stimuli (no more action potential).

Relative refractory period: A period of reduced sensitivity during which only strong stimulation produces an action potential.

Question 6

The conduction velocity in the axon varies with what ?

Answer 6

The diameter of the axon and the myelin sheathing

myelination is better than bigger diameter

Question 7

Where does the action potential is taking place and is regenerated ?

Answer 7

Nodes of Ranvier

Question 8

How is the phenomena named in which action potential flies through the other node of Ranvier ?

Answer 8

Saltatory conduction

Question 9

Why does a neuron generated action potentials ?

Answer 9

To communicate with other neurons.

Question 10

True or false.

At the axon terminal, the chemical signal of the action potential is usually converted into a electrical signal (neurotransmitter).

Answer 10

False.

At the axon terminal, the electrical signal of the action potential is usually converted into a chemical signal (neurotransmitter).

Question 11

How does the electrical signal is converted into a chemical signal ? (Synaptic Transmission)

Answer 11

When the action potential arrives in the axon terminal, it depolarize the region and then voltage-gated calcium channels open and calcium (Ca2+) rushing in by diffusion (because there are less calcium inside the cell than outside).

Because of the influx of calcium, synaptic vesicles migrates to the presynaptic membrane.

With v-SNAREs that are attached to the vesicle and t-SNAREs attached to the presynaptic membrane, the vesicle docks to the presynaptic membrane promoting exocytosis, the fusion of vesicles with the presynaptic membrane, which releases transmitter into the cleft.

Transmitter molecules cross the cleft to bind to special receptor molecules in the postsynaptic membrane, leading to the opening of ion channels in the postsynaptic membrane.

This ion flow creates a local EPSP or IPSP in the postsynaptic neuron.

Synaptic transmitter is either degraded by enzymes or removed from the synaptic cleft by transports.

Synaptic transmitter may also activate presynaptic autoreceptors, regulating future transmitter release.

Question 12

What are the two types of release ?

Answer 12

Kiss and run

Full release

Question 13

What are the two prompt cessation of transmitter ?

Answer 13

Degradation: transmitter is broken down by a special enzyme (acetylcholinesterase)

Reuptake: transmitter is taken up into the presynaptic cell via transport

Question 14

What is the role of autoreceptors ?

Answer 14

They inform the presynaptic cell about the net concentration of neurotransmitters in the cleft.

The message comes from the neurotransmitters that didn’t cross the cleft.

Question 15

What are the two types of ligands ?

Answer 15

Endogenous ligand: neurotransmitters or hormones

Exogenous ligand: drugs, toxins from outside the body

Question 16

When activated by a neurotransmitter, ionotropic receptors may… ?

Answer 16

Change shape

Question 17

When activated by a neurotransmitter, metabotropic receptors may… ?

Answer 17

Alter chemical reactions in the target cell

Question 18

What are the two types of postsynaptic potentials ?

Answer 18

Excitatory postsynaptic potential (EPSP)

Inhibitory postsynaptic potential (IPSP)

*work the same but have opposite effects on postsynaptic neurons

Question 19

In which case a postsynaptic neuron will generate an action potential ?

Answer 19

If the integration of these postsynaptic potentials depolarizes the axon hillock enough.

Question 20

What are the two types of summation ?

Answer 20

Spatial summation: summing potentials from different locations

Temporal summation: summing potentials across time

Question 21

What is a chemical substance made within the body ?

Answer 21

Endogenous ligand

Question 22

What are the six criteria of a substance to be considered a classic neurotransmitter ?

Answer 22

1) The substance exists in presynaptic axon terminals
2) The presynaptic cell contains appropriate enzymes for synthesizing the substance.
3) The substance is released in significant quantities when action potentials reach the terminals
4) Specific receptors that recognize the released substance exist on the postsynaptic membrane
5) Experimental application of the substance produces changes in postsynaptic cells
6) Blocking release of the substance prevents presynaptic activity from affecting the postsynaptic cell

Question 23

Where does the raw material are produced ?

Answer 23

It is produced in the nuclei and transport by anterograde.

Question 24

What are the three big families of transmitters

Answer 24

Amino Acids: GABA, glutamate

Amines: Acetylcholine (ACh), norepinephrine, epinephrine, dopamine

Neuropeptides: Oxytocin, nitric oxide (gas)

Question 25

What is co-release ?

Answer 25

The appearance of ore than one neurotransmitter in a given vesicle.

Question 26

What are the most abundant neurotransmitters in the brain ?

Answer 26

Amino Acids

Question 27

True or false.

Glutamate and aspartate are the most prevalent inhibitory neurotransmitters in the brain.

Answer 27

False.

Glutamate and aspartate are the most prevalent EXCITATORY neurotransmitters in the brain.

Question 28

Glutamate is also associated with which phenomena ?

Answer 28

Excitotoxicity. The property by which neurons die when overstimulated, as with large amount of glutamate.

Question 29

What glutamatergic transmission employs ?

Answer 29

Ionotropic receptor (AMPA, kainate, NMDA), Fast-acting

Metabotropic receptor (mGluR’s), slow-acting

*the names of these receptor subtypes refer to drugs that activate them

Question 30

What is making NMDA receptors different from AMPA or kainate receptors ?

Answer 30

Magnesium is blocking the way. So, the postsynaptic cell’s inside needs to depolarize to pop out the Mg2+. The magnesium is popped out by electrostatic repulsion. (Magnesium is a positive ion and the inside of the cell is more positive)

Question 31

How can a postsynaptic cell can depolarize if channels are closed ?

Answer 31

There are other receptors that can allowed a depolarization.

Question 32

Which amino acids have an inhibitory effect ?

Answer 32

GABA and glycine

Question 33

What GABA-ergic transmissions employs ?

Answer 33

Ionotropic receptors: (GABAa, GABAc) Fast-acting

Metabotropic receptors: (GABAb) Slow-acting

Question 34

Why some receptors are fast-acting and others are slow-acting ?

Answer 34

Because the fast-acting receptors are ionotropic, which means that they allow need a ligand to bind to the receptor and then, the channel will open.

Slow-acting receptors are metabotropic, which means that they work through a second messenger.

Question 35

What happened when channels are opened by GABA knowing that they have a inhibitory effect ?

Answer 35

Channels let negatively charge ions to go through (chloride). They go through the channel by diffusion because there is a higher concentration of chloride outside the cell than inside.

Question 36

What are the two types of ACh receptors ?

Answer 36

Nicotinic: mostly ionotropic and excitatory, important in muscle contraction

Muscarinic: metabotropic, ionotropic or excitatory

Question 37

What are the two main classes of amines ?

Answer 37

Catecholamines: dopamine, norepinephrine and epinephrine

Indoleamines: serotonin and melatonin

Question 38

True or false.

Dopamine can be a neurotransmitter or an hormone

Answer 38

True.

Question 39

What is the amino acid that all catecholamines synthesized from ?

Answer 39

Tyrosine

Question 40

The indoleamine neurotransmitters derived from which amino acid ?

Answer 40

Tryptophan

Question 41

What are the two main indoleamines neurotransmitters ?

Answer 41

Melatonin and serotonin

Question 42

What happen if we don’t have the enzyme that synthesized dopamine ?

Answer 42

We don’t have a dopamine and the other neurotransmitters synthesis.

Question 43

What are the main catecholamine neurotransmitters ?

Answer 43

Dopamine, norepinephrine and epinephrine

Question 44

What is cholinergic cell ?

Answer 44

Cell that use acetylcholine as their synaptic transmitter.

Question 45

What is common with both muscarinic and nicotinic cells ?

Answer 45

They both respond to their specific chemical response and acetylcholine

Question 46

Which dopamine receptors activates the second messenger ?

Answer 46

D1 and D5 receptors.

Question 47

Which dopamine receptors inhibit the second messenger ?

Answer 47

D2, D3, D4 receptors

Question 48

When we talk about dopamine, the second messenger is involved. What is the first messenger ?

Answer 48

The first messenger is the neurotransmitter (dopamine)

Question 49

What are the names of the two pathways that dopaminergic neurons projected ?

Answer 49

Mesolimbocortical pathway

Mesostriatal pathway

Question 50

Norepinephrine receptors are ionotropic or metabotropic ?

Answer 50

Metabotropic

Question 51

What do we need to synthesize serotonin ?

Answer 51

Tryptophan

Question 52

True or false.

Serotonin can be both excitatory and inhibitory.

Answer 52

True.

Question 53

What is the abbreviation of serotonin ?

Answer 53

5-HT

Question 54

What are exogenous ligands ?

Answer 54

Drugs, toxins (outside the body)

Question 55

What are the roles of nitric oxide (NO) ?

Answer 55

Stimulates the production of second messengers.

Serves as retrograde transmitters (diffuses from the postsynaptic neuron back to the presynaptic neuron)

Question 56

True or false.

Drugs can’t affect stages of neural conduction and synaptic transmission.

Answer 56

False.

Drugs can affect stages of neural conduction and synaptic transmission.

Question 57

True or false.

Presynaptic events can be modified by drugs.

Answer 57

True.

Question 58

What are the three effects of drugs on Transmission Production ?

Answer 58

Inhibition of transmitter synthesis

Blockade of axonal transport

Interference with the storage of transmitters

Question 59

What are the three effects of exogenous ligands on Transmission Release ?

Answer 59

Prevention of synaptic release: by blocking voltage-gated Na+ channels

Alteration of synaptic transmission release: by blocking Ca+ influx

Alteration of transmitter release through modulation of presynaptic activity: via autoreceptors

Question 60

Where autoreceptors are located ?

Answer 60

In the presynaptic cell membrane.

Question 61

In a neural transmission context, what happen when we drink coffee ?

Answer 61

The caffeine blocks the autoreceptors effects of adenosine. By blocking adenosine, caffeine increases catecholamine release, resulting in the arousal.

Adenosine acts as a neuromodulator; it is normally co-released with primary transmitters to control synaptic activity by inhibiting transmitter release.

Question 62

What is the role of transporters ?

Answer 62

They take back excess neurotransmitters to the presynaptic terminal.

Question 63

What are the three effects of drugs on Transmitter Clearance ?

Answer 63

Inactivation of transmitter reuptake: by blocking transporters

Blockade of transmitter degradation: by inhibiting specific enzymes that normally break down neurotransmitters molecules in the axon terminal or in the synaptic cleft. As a result, transmitter remains active longer and to greater affect.

Question 64

What is the mechanisms that make the movement of substances from blood vessels into brain cells more difficult than exchanges in other body organs and affording the brain greater protection from exposure to some substances found in the blood ?

Answer 64

Blood-brain barrier

Question 65

What is the difference between affinity and efficacy ?

Answer 65

Affinity: The degree of chemical attraction between a ligand and a receptor. Even at low doses, high affinity drugs will bind to the receptor. Lower affinity drugs will bind fewer receptor molecule.

Efficacy: The extent to which a drug activates a response when it binds to a receptor.

Question 66

Neurotransmitters are high-affinity ligands or low-affinity ligands ?

Answer 66

Low-affinity ligands because it allows them to rapidly dissociate from receptors.

Question 67

What is a ligand that initiates the normal effects of the transmitter on a receptor.

Answer 67

Agonist ligand

Question 68

What is a ligand that binds to the receptor but does not activate it ?

Answer 68

Antagonist ligand

Question 69

Can a ligand be agonist and competitive ?

Answer 69

Yes.

Question 70

What is a substance that directly competes with the endogenous ligand for the same binding site on a receptor molecule ?

Answer 70

Competitive ligand.

Question 71

What is a substance that alters the response to an endogenous ligand without interacting with the endogenous ligand’s binding site

Answer 71

Noncompetitive ligand.

Question 72

'’Some substances bind to receptors but do not activate them. Instead, they simply block agonists from binding to the receptors.’’ How are they classified ?

Answer 72

Competitive antagonist ligands.

Question 73

True or false.

Agonists have low-efficacy. Antagonists have high-efficacy.

Answer 73

False.

Agonists have high-efficacy. Antagonists have low-efficacy.

Question 74

Why is the combination of affinity and efficacy is important ?

Answer 74

Because it determines the overall action of a drug.

Question 75

What is up-regulation ?

Answer 75

Increase in the number of receptors.

Question 76

What is down-regulation ?

Answer 76

Decrease in the number of receptors.

Question 77

What are the 6 types of chemical communication that organisms use ?

Answer 77

Endocrine communication

Synaptic communication

Autocrine communication

Paracrine communication

Phrenomone communication

Allomone communication

Tip: ESAPPA

Question 78

What are the two types of communication that are considered Ectocrine communications ?

Answer 78

Phrenomone communication

Allomone communication

Question 79

What is an autocrine communication ?

Answer 79

A released chemical acts on the releasing cell itself and thereby affects its own activity (autoreceptors)

Question 80

What is a paracrine communication ?

Answer 80

The released chemical signal diffuses to nearby target cells. The strongest impact is on the nearest cells.

Question 81

What is the difference between phrenomone communication and allomone communication ?

Answer 81

Phrenomone: Chemical signal that is released outside the body of an animal and affects other members of the SAME species.

Allomone: Chemical signal that is released outside the body by one species and affects the behavior of OTHER species.

Question 82

True or false.

Neural messages are slower that hormonal messages

Answer 82

False.

Neural messages are faster that hormonal messages

Question 83

What is a neuroendocrine cell ?

Answer 83

A neuron that release hormones into the blood.

Question 84

In ancient civilizations, how did we learn that testes are important in the production and the release of testosterone ?

Answer 84

By the effects of castration.

Question 85

What is an endocrine gland ?

Answer 85

A gland that secretes hormones into the bloodstream to act on distant targets.

Question 86

True or false.

Hormones act as a on-off switch on target cells

Answer 86

False.

Hormones act by changing the probability or intensity of a behavior. It takes more time than neural messages.

Question 87

Some hormones can be controlled by what ?

Answer 87

Circadian clock

Question 88

True or false.

Hormones can only affects cells with a receptor protein for that hormone.

Answer 88

True.

Question 89

What are the three main classes of hormones ?

Answer 89

Peptide/Proteins hormones

Amines hormones

Steroid hormones

Question 90

What is a hormone that is composed of string of amino acids ?

Answer 90

Peptide/ Proteins hormones

Question 91

What is the difference between a peptide hormone and a protein hormone ?

Answer 91

Peptide is small protein - a short string of amino acids (less than 50)

Protein hormone (more than 50)

Question 92

What is a hormone composed of modified version of single amino acid ?

Answer 92

Amine hormone

Question 93

What are the two classes of amine hormones ?

Answer 93

Catecholamines and indoleamines

Question 94

What hormone is derivate of cholesterol ?

Answer 94

Steroid hormone

Question 95

What hormone can easily pass through cell membrane ?

Answer 95

Steroid hormone because they can dissolve easily in lipids.

Question 96

Which type of hormones are binding to receptors that are on the surface of the target cell membranes ?

Answer 96

Peptide hormones and amines hormones.

Question 97

Which type of hormones that will pass through the cell membrane and will bind to specific receptors inside the cell ?

Answer 97

Steroid hormone

Question 98

What happen when adrenocorticotropic hormone (ACTH) interacts with receptors on the membrane of cells in the adrenal gland ?

Answer 98

An increase in cAMP leads to the synthesis and release of other hormones.

Question 99

Which type of hormones act faster ?

Answer 99

Peptide/protein hormones

Question 100

Named one specific characteristic of steroid hormones regarding their receptors.

Answer 100

They can pass through the cell membrane (dissolve readily in lipids)

Question 101

How do we named the binding between a steroid hormone and his receptor ?

Answer 101

Steroid-receptor complex

Question 102

How do we named steroid hormones that act on more than one receptor ?

Answer 102

Receptor isoforms

Question 103

What are two feedback systems ?

Answer 103

Positive feedback: Produced more !

Negative feedback: Stop producing !

Question 104

What are the two main parts of the pituitary gland ?

Answer 104

Anterior pituitary (adenohypophysis)

Posterior pituitary: (neurohypophysis)

Question 105

Which part of the pituitary gland connected the anterior and posterior gland ?

Answer 105

Pituitary stalk

*The axons extend only to the posterior pituitary

Question 106

How does the posterior pituitary is working ?

Answer 106

Neuroendocrine cells bodies in the hypothalamus produce oxytocin and vasopressin.

Axons from these neurons pass through the pituitary stalk and terminate on capillaries of the posterior pituitary

When action potential arrives at terminal, hormones directly released into bloodstream.

Question 107

What is the major role of vasopressin ?

Answer 107

Inhibits the formation of urine (ADH). This action helps conserve water.

Question 108

What is the major role of oxytocin ?

Answer 108

Triggers the milk letdown reflex, the contraction of mammary gland cells that ejects milk into the breast ducts.

Question 109

What type of hormones are produced in the anterior pituitary ?

Answer 109

Tropic hormones

Question 110

What is the name of tropic hormones released by the anterior pituitary ?

Answer 110

By the release of various hormones from the hypothalamus, the anterior pituitary releases:

ACTH (adrenocorticotropic hormone)

TSH (Thyroid-stimulating hormone)

LH (Luteinizing hormone)

FSH (Follicle-stimulating hormone)

Prolactin

GH (growth hormone)

Question 111

Which gonadotropic hormone (GnRH or GnIH) inhibits gonadotropin secretions ?

Answer 111

GnIH

Question 112

What is the releasing hormone that is involved in adrenocorticotropic hormone (ACTH) production and secretion ?

Answer 112

Corticotropin releasing hormone (CRH)

Question 113

What is the releasing hormone that is involved in production and secretion of Follicle stimulating (FSH) and Luteinizing Hormone (LH) ?

Answer 113

Gonadotropin releasing hormone (GnRH)

Question 114

What is the role of adrenocorticotropic hormone (ACTH) ?

Answer 114

Controls production and release of adrenal cortex steroid hormones

Question 115

True or false.

FSH triggers ovulation and development of corpus luteum in female and testosterone produce in mens

LH stimulates growth of egg-containing follicles in females and the production of sperm in mens

Answer 115

False.

FSH stimulates growth of egg-containing follicles in females and the production of sperm in mens

LH triggers ovulation and development of corpus luteum in female and testosterone produce in mens

Question 116

What tropic hormones are stimulating mostly ?

Answer 116

The adrenal glands, the gonads

Question 117

Where adrenal glands are located in the body ?

Answer 117

On top of kidney

Question 118

What is the name of the subgroup involved with glucose metabolism ?

Answer 118

Glucocorticoids (ex: cortisol)

Question 119

What is the name of the subgroup that affect ion concentration in tissue ?

Answer 119

Mineralocorticoids

Question 120

What hormones adrenal medulla is releasing ?

Answer 120

Catecholamines (epinephrine and norepinephrine)

Question 121

What is uncommon about the releasing hormones of the adrenal medulla ?

Answer 121

They are controlled by the sympathetic nervous system NOT tropic hormones.

Question 122

What are the two gonads ?

Answer 122

Ovaries and testes

Question 123

What are the two subcompartments of gonads ?

Answer 123

Sex steroids that produce hormones

Egg and sperm that produce gametes

Question 124

Why gonadal hormones are important ?

Answer 124

Because they are triggering both reproductive behavior and gamete production.

Question 125

What are the 4 ways that endocrine and neural systems work together ?

Answer 125

Neural-to-neural

Neural-to-endocrine

Endocrine-to-endocrine

Endocrine-to-neural