Introduction to the Physiology and Pharmacology of the Endocrine System

Question 1

The endocrine system essentially consists of many ___________ glands

Answer 1

The endocrine system essentially consists of many ductless glands

Question 2

How is the specificity of signalling achieved in the endocrine system?

Answer 2

1. Chemically distinct hormones
2. Specific receptors
3. Distinct distribution of receptors across target cells

Question 3

Why is specificity of signalling required in the endocrine system?

Answer 3

Hormones in the blood stream can reach any tissue

(and only “need” to act on certain tissues)

Question 4

What are the 4 main secretion types from endocrine glands?

Answer 4

1. Modified amino acids
2. Steroids
3. Peptides
4. Proteins

Question 5

Give an example of a modified amino acid secretion from an endocrine gland?

Answer 5

1. Adrenaline
2. Thyroxine (T4)
3. Triiodothyronine (T3)

Question 6

Give an example of a steroid hormone

Answer 6

1. Cortisol
2. Progesterone
3. Testosterone

Question 7

What do all steroid hormones originate from?

Answer 7

Cholesterol

Question 8

Give an example of a peptide hormone

Answer 8

1. Adrenocorticotropic hormone (ACTH)
2. Anti-diuretic hormone (ADH)
3. Oxytocin

Question 9

Peptide hormines come from _________ ___________ proteins

Answer 9

Peptide hormines come from larger precursor proteins

Question 10

Give an example of a protein hormone

Answer 10

Insulin

Question 11

What are the 7 main endocrine organs?

Answer 11

1. Pituitary gland
2. Thyroid gland
3. Parathyroid glands
4. Adrenal glands
5. Pancreas
6. Ovary
7. Testis

Question 12

What is autocrine signalling?

Answer 12

When a cell is both the originator and recipient of the signal

Question 13

What is paracrine signalling?

Answer 13

Signalling molecules travel short distances by diffusion and act on cells close by

(they do not enter systemic circulation)

Question 14

What is endocrine signalling?

Answer 14

Hormone is released into the circulation and reaches the target organ this way

Question 15

Hormones can only function in one of the following three ways, autocrine, paracrine or endocrine. True or false?

Answer 15

False

(hormones can function in more than 1 way)

Question 16

Why do receptors for endocrine hormones have very high affinity for hormone?

Answer 16

Organ function is regulated at very low hormone concentrations

Question 17

Endocrine hormones have high ________

Answer 17

Endocrine hormones have high potency

Question 18

Due to the scarcity of the endocrine hormone signal, what does the target cell do to combat this?

Answer 18

Signal transduction pathways amplify the original signal

Question 19

The onset and duration of hormone action is fairly consistent.

True or false?

Answer 19

False

It is highly variable froms seconds to days

Question 20

The onset and duration of hormone action depends on deactivation of enzyme, but which two locations does this mainly occur at?

Answer 20

1. Enzyme mediated deactivation in the liver
2. Deactivation at the site of action

Question 21

Which two categories of functions can hormones have?

Answer 21

1. Complementary
2. Antagonistic

Question 22

Are amines either presynthesised or synthesised and secreted on demand?

Answer 22

Presynthesised

Question 23

When would amines be released?

Answer 23

In response to stimuli by Ca²⁺ dependent exocytosis

Question 24

What are the three key characteristics of amines?

Answer 24

1. Small
2. Water soluble
3. Released on demand

Question 25

Are peptides and proteins either presynthesised or synthesised and secreted on demand?

Answer 25

Presynthesised

Question 26

When would peptides and proteins be released?

Answer 26

In response to Ca²⁺ dependent mechanisms

Question 27

In terms of peptides and protein hormones, what is the general term given to enzymes which alter the precursor to the mature hormone?

Answer 27

Convertases

Question 28

Cholesterol is converted to steroid hormones via which intermediate?

Answer 28

Pregnenolone

Question 29

Are steroids either presynthesised or synthesised and secreted on demand?

Answer 29

Synthesised and secreted on demand

Question 30

How do steroid hormones travel in the plasma and why?

Answer 30

Via steroid binding proteins

They are very sparingly soluble in water (mostly hydrophobic)

Question 31

What three things do carrier proteins (for steroid hormones) allow?

Answer 31

1. More hormone to be transported in blood
2. Provides a reservoir of hormone
3. Extends hormone half life

Question 32

Why do carrier proteins increase the half life of steroid hormones?

Answer 32

The protein prevents kidney filtration into the urine

Question 33

Which carrier protein will bind cortisol and some aldosterone?

Answer 33

Cortisol-binding globulin

Question 34

Which carrier protein will bind thyroxine and triiodothyronine?

Answer 34

Thyroxine-binding globulin

Question 35

Which carrier protein will bind testosterone and some oestradiol?

Answer 35

Sex steroid-binding globulin

Question 36

Which general carrier binding protein is associated with steroids and thyroxine?

Answer 36

Albumin

Question 37

Which general carrier protein is associated with thyroxine and some steroids?

Answer 37

Transthyretin

Question 38

In surges of steroid hormone production, why do hormone levels not immediately skyrocket?

Answer 38

Carrier proteins act as a buffer

They mop up excess proteins and maintain an equilibrium between free and bound hormone

Question 39

The rate of hormone secretion is ultimately dependent on what?

Answer 39

Plasma concentration of hormone

Question 40

Hormones function in a negative/postive feedback loop?

Answer 40

Negative

Question 41

Using cortisol as an example, what are the steps which ensure cortisol is secreted from the adrenal cortex?

Answer 41

1. Low cortisol levels (or stress requiring cortisol)
2. Hypothalamus releases corticotropin-releasing hormone
3. Corticotropin-releasing hormone acts on the anterior pituitary
4. Anterior potuitary secretes adrenocorticotropic hormone (ACTH)
5. ACTH acts on the adrenal cortex
6. Adrenal cortex secretes cortisol

Question 42

In the control of cortisol secretion pathway, what is the short range inhibition loop?

Answer 42

High cortisol levels act on the anterior pituitary preventing ACTH hormone production

This prevents further cortisol production

Question 43

In the control of cortisol secretion pathway, what is the long range inhibition loop?

Answer 43

High cortisol levels act on the hypothalamus preventing corticotropin-releasing hormone from being secreted

This prevents cortisol production further down the pathway

Question 44

The secretion rate of certain hormones fluctuates with certain times in the day (ambient light level), what is the term given to this rhythm?

Answer 44

Diurnal (Circardian) rhythm

Question 45

The plasma concentration of a hormone is dependent on which two things?

Answer 45

1. Rate of secretion/production
2. Rate of elimination

Question 46

What are the 3 classes of hormone receptors?

Answer 46

1. G-protein coupled receptors
2. Receptor kinases
3. Nuclear receptors

Question 47

Which types of hormones will generally utilise G-protein coupled receptors?

Answer 47

Amines

Some proteins and peptides

Question 48

What are the three classes of nuclear receptors?

Answer 48

1. Those activated by steroid hormones
2. Those activated by lipids
3. Those with hybrid activation

Question 49

Nuclear receptors which are activated by steroid hormones are always in the nucleus.

True or false?

Answer 49

False

They are mainly located in the cytoplasm and move to the nucleus when activated

Question 50

Nuclear receptors which are activated by lipids are always found in the nucleus.

True or false?

Answer 50

True

Question 51

What is the receptor for insulin?

Answer 51

A receptor kinase

Question 52

What is the receptor kinase for insulin comprised of?

Answer 52

Alpha and beta subunits

(2 of each)

Question 53

What happens when insulin binds to its receptor kinase?

Answer 53

1. Conformational change
2. Autophosphorylation occurs at the beta subunits
3. Insulin receptor protein subunits are subsequently phosphorylated
4. These carry out cell actions

Question 54

What is a G-protein and what is it comprised of?

Answer 54

Guanine nucleotide binding protein

3 subunits (alpha, beta and gamma)

Question 55

How do steroid molecules enter cells?

Answer 55

Diffusion

(they are lipophilic)

Question 56

How can steroid hormones influence the transcription of certain proteins?

Answer 56

1. They diffuse into cells
2. Bind to intracellular receptors, displacing inhibitory heat shock proteins (HSPs)
3. The receptor/steroid complex forms a dimer and enters the nucleus
4. It binds to hormone response elements in DNA
5. Transcription of certain genes is influenced
6. Mediator protein levels are influenced

Question 57

Name a hormone which can act on a G-protein coupled receptor

Answer 57

1. Angiotensin II
2. Gonadotrophin releasing hormone
3. Thyrotropin releasing hormone

Question 58

When a G-protein coupled receptor and Gq is activated, what does the Gq act on and what is the effect?

Answer 58

Acts on phospholipase C

Starts the conversion of phosphatidylinositol (4,5) bisphosphate (PIP2) to the soluble messenger molecule inositol (1,4,5) trisphosphate (IP3).

Question 59

Once IP3 is produced, what occurs within a cell?

Answer 59

1. IP3 binds to IP3 receptors of the endoplasmic reticulum
2. This causes calcium release
3. This initiates a cellular response e.g. muscle contraction

Question 60

What is DAG, how is it produced and what is its function?

Answer 60

Diacylglycerol

1. It is also produced by phospholipase C when it is activated
2. It stays in the membrane and recruits protein kinase C from the cytosol
3. The action of protein kinase C leads to phosphorylation of serine/threonine residues in target proteins
4. This results in different cellular effects