D5 Hormones and metabolism

Question 1

What are endocrine glands?

Answer 1

Structures that decrete chemical messengers (hormones) directly into the blood

Question 2

Where are hormones secreted from endocrine glands transported to?

Answer 2

specific target cells (figure 1)

Question 3

What 6 types of hormones can there be?

Answer 3

• steroids
• proteins
• glycoproteins
• polypeptides
• amines
• tyrosine dreivatives

Question 4

What 6 types of hormones can there be?

Answer 4

• steroids
• proteins
• glycoproteins
• polypeptides
• amines
• tyrosine dreivatives

Question 5

What does this show?

Answer 5

A cross section through a thyroid gland follicle

Question 6

What do thyroid hromones regulate?

Answer 6

Body’s metabolism

Question 7

What does the follicle consist of?

a cross-section through a thyroid gland follicle

Answer 7

A layer of cells (pink) around a central storage chamber

Question 8

How do the components of the thyroid gland follicle work together to end up with hormones transporting around the body?

cross-section through a thyroid gland follicle

Answer 8

• the layer of cells (pink) produce the thyroid hormones
• hormones are secreted into the central chamber where they are stored in a viscous fluid colloid (yellow)
• follicle is surrounded by blood vessels (red), which transport the hormones around the body

Question 9

What do thyroid hormones refer to?

Answer 9

• two similar hormones derived from tyrosine
• Triiiodithyronine (T3) and tetraiodothyronine (T4)

Question 10

What is the difference between triiiodithyronine (T3) and tetraiodothyronine (T4)?

Answer 10

triiiodithyronine (T3): contains 3 iodine atoms
and tetraiodothyronine (T4): contained 4 iodine atoms

Question 11

What does correct functioning of the thyroid require?

Answer 11

iodine in diet

Question 12

What is a consequence of dietary insufficiency of iodine in diet?

Answer 12

Goiter

Question 13

What is a goiter?

Answer 13

A condition
* inability to produce the thyroid hrmones because of thr absence of iodine
* hypothalamus and the anterior pituitary continuously stimulate the thyroid and enlargement of the thyroid results

Question 14

What can iodine deficiency during pregnancy lead to?

Answer 14

• Affect fetal nervous development
• mental retardation in children

Question 15

What effort has been made to eliminate iodine deficiency?

Answer 15

The international council for thr control of iodine deficiency disorders (ICCIDD), a non government organization (NGO) is partnered with UNICEF and WHO to mainly push for universal iodization of salt

Question 16

What effort has been made to eliminate iodine deficiency?

Answer 16

The international council for thr control of iodine deficiency disorders (ICCIDD), a non government organization (NGO) is partnered with UNICEF and WHO to mainly push for universal iodization of salt

Question 17

What do peptide hormones and lipid hormones differ?

Answer 17

In solubility

Question 18

What does the difference in solubility of peptide and liipid hormones lead to?

Answer 18

Different mechanisms of action

Question 19

What do peptide and lipid hormones have in common?

Answer 19

They act by binding to a receptor

Question 20

What is the mechanisms of action of steroid hormones?

Answer 20

1. cross directly through the plasma membrane
2. Bind to receptor protein in cytoplasm
3. cross through the nuclear membrane
4. the receptor-hormone complex then serves as a transcription factor, promoting or inhibiting the transcription of a certain gene

Question 21

How are steroid hormones able to pass directly through the plasma membrane and nuclear membrane?

Answer 21

It is lipid-soluble

Question 22

What are 2 example of steroid hormones?

Answer 22

Estrogen and progesterone

Question 23

What are 4 example of steroid hormones?

Answer 23

Estrogen, progesterone, testosterone, calciferol

Question 24

What do receptor-hormone complex promote?

Answer 24

the transcription of specific genes

Question 25

What can calciferol hormone affect?

Answer 25

absorption of calcium from the intestine

Question 26

What is the mechanisms of action of steroid hormone calciferol?

Answer 26

1. crosses the intestinal cell membrane
2. binds to a receptor within the nucleus of the cell
3. the receptor-hormone complex effects expression of the calcium transport protein calbindin in the small intestine which allows for the absorption of calcium from the intestine

Question 27

In which two organs does cortisol act on to increase blood glucose?

Answer 27

liver and pancreas

Question 28

How does cortisol affect raise blood glucose?

Answer 28

In liver cells
1. enter the nucleus
2. activates many of the genes needed for gluconeogenesis (conversion of fat and protein into glucose, raising blood glucose
3. at the same time, it decreases the expression of the insulin receptor gene (prevent glucose from being stored in the cells and also raising blood glucose)

In pancreas
1. cortisol-receptor complex inhibits the transcription of insulin genes

Question 29

Why cant protein/peptide hormones pass through the membrane directly?

Answer 29

They are hydrophilic

Question 30

What do protein/peptide hormones do instead since they cant pass through the membrane directly?

Answer 30

• bind to surface receptors
• trigger a cascade reaction
• mediated by chemicals called second messengers

Question 31

Where are the receptors that peptide hormones bind to?

Answer 31

in the plasma membrane of the target cell

Question 32

What are second messengers and what do they do?

Answer 32

small water soluble molecules that can quickly spread throughout the cytoplasm and relay signals throughout the cells

Question 33

What are the 2 most common second messengers?

Answer 33

Calcium ions and cyclic AMP (cAMP)
* a large number of proteins are sensitive to the concentration of these molecules

Question 34

What is epinephrene?

Answer 34

A hormone that mediates the “fight or flight” response when released

Question 35

What do an organims need when under threat?

Answer 35

a supply of blood glucose as an energy source

Question 36

What does epinephrene do when it reaches the liver?

Answer 36

1. it binds to G-protein couple receptor (a receptor)
2. the binding activates the G-protein
3. G-protein then uses guanosine triphosphate (GTP) as an energy source to activate the enzyme adenylyl cyclase
4. This converts ATP to cAMP
5. the cAMP then activates protein kinase enzymes
6. which in turn activate the processes of glycogen breakdown and inhibit glycogen synthesis

Gives supply of energy when epinephrene is released during fight or flight

Question 37

What do hormones secreted by the pituitary gland control?

Answer 37

• growth
• Developmental changes
• reproduction
• homeostasis

Question 38

What hormones do the anterior pituitary gland synthesize and secrete?

Answer 38

FSH, LH, prolactin

Question 39

What hormones is secreted by the posterior pituitary gland?

Answer 39

Oxytocin and ADH

Question 40

Where are the hormones secreted by the posterior pituitary gland synthesised?

Answer 40

in unusual cells called neurosecretory cells found in the hypothalamus

Question 41

Where can neurosecretory cells be found?

Answer 41

In the hypothalamus

Question 42

How is a hormone synthesised in neurosecretory cells and secreted by the posterior pituitary gland?

Answer 42

1. the hormones travel down the axons of the neurosecretory cells
2. are stored at the axons
3. until impulses pass down the axon from the hypothalamus
4. stimulating secretion

Question 42

How is a hormone synthesised in neurosecretory cells and secreted by the posterior pituitary gland?

Answer 42

1. the hormones travel down the axons of the neurosecretory cells
2. are stored at the axons
3. until impulses pass down the axon from the hypothalamus
4. stimulating secretion

Question 43

What controls hormone secretion by the anterior and posterior lobes of the pituitary gland?

Answer 43

the hypothalamus

Question 44

What 2 systems in the body plays a role in homeostasis and in the control of other processes including reproduction?

Answer 44

Nervous and endocrine system

Question 45

What links the nervous system to the endocrine system?

Answer 45

The hypothalamus via the pituitary gland

Question 46

How is the pituitary gland effectively different glands?

Answer 46

the pituitary gland is made up of two parts with different mode of operation

Question 47

How is the pituitary gland effectively different glands?

Answer 47

the pituitary gland is made up of two parts with different mode of operation

Question 48

What is the role of the hypothalamus in hormone secretion?

Answer 48

• it secrete releasing factors
• which stimulate the secretion of the anterior pituitary gland’s hormones
• the releasing factors are carried from the hypothalamus to the anterior pituitary gland by a portal vein

Question 49

What are the releasing factors from the hypothalamus carried by to the anterior pituitary gland?

Answer 49

by a portal vein

Question 50

Why is the portal vein an unusual type of blood vessel?

Answer 50

it links two capillary networks
* one in the hypothalamus which unites to form the portal vein and another in the anterior pituitary gland, from which blood flows on to the rest of the body

Question 51

How is negative feedback involved in the control of secretion of pituitary hormones?

Answer 51

e.g. ADH
* when blood solute concentration is too high
* impulses are sent along the axons of neurosecretory cells
* cause ADH secretion to increase
* ADH acts on the kidney
* If the blood solute concentration decreases too much, it is detected by the osmoreceptors in the hypothalamus
* fewer or no impulses are sent via neurosecretory cells
* ADH secretion reduces or stops
* allows blood solute concentration to rise

Question 52

How is the prodution and secretion of milk controlled?

Answer 52

By hormonal control
by oxytocin and prolactin

Question 53

What is prolactin?

Answer 53

A hormone produced by the anterior pituitary.
* stimulates mammary glands to grow and it also stimulates the production of milk

Question 54

How is the ejection of milk acheived after pregnancy?

Answer 54

during pregnancy
* high levels of estrogen increase prolactin production but inhibit the effects of prolactin on mammary glands

After delivery
* abrupt decline in estrogen and progesterone
* removed inhibition of prolactin on mammary glands
* production of milk begins

Release of milk
* dependent on hormone oxytocin
* nursing by an infant stimulates the continued creation of prolactin
* stimulates oxytocin release
* oxytocin stimulates the contraction of cells that surrounds the structures holding the milk leading to the ejection of milk

Question 54

How is the ejection of milk acheived after pregnancy?

Answer 54

during pregnancy
* high levels of estrogen increase prolactin production but inhibit the effects of prolactin on mammary glands

After delivery
* abrupt decline in estrogen and progesterone
* removed inhibition of prolactin on mammary glands
* production of milk begins

Release of milk
* dependent on hormone oxytocin
* nursing by an infant stimulates the continued creation of prolactin
* stimulates oxytocin release
* oxytocin stimulates the contraction of cells that surrounds the structures holding the milk leading to the ejection of milk

Question 55

Where is oxytocin produced and stored?

Answer 55

By the neurosecretory cells of the hypothalamus and is stored in the posterior pituitary gland

Question 56

What type of hormone are growth hormones? where are they produced?

Answer 56

polypeptide hormone
produced in the anterior pituitary

Question 57

What is the main target of growth hormones?

Answer 57

receptors in liver cells

Question 58

What does the binding of growth hormone to liver cells do? Additional effect?

Answer 58

• stimulates the release of insulin-like growth factor which circulates in the blood
• stimulates bone and cartilage growth

Additional effects
* increase in muscle mass

Question 59

Why is growth hormone used as a performance enhacing drug?

Answer 59

• increase muscle mass
• increased availability due to development of genetically modified organisms that can produce it in large quantities

Question 60

Why is growth hormone used as a performance enhacing drug?

Answer 60

• increase muscle mass
• increased availability due to development of genetically modified organisms that can produce it in large quantities

Question 61

How does growth hormone acting as performance enhacing drugs benefit athletes?

Answer 61

• there is a correlation between muscle size and strength = so competitors that require short bursts of expolisve strength would benefit
• allows tired muscles to recover more quickly = can train harder and more often

Question 62

How does growth hormone acting as performance enhacing drugs benefit athletes?

Answer 62

• there is a correlation between muscle size and strength = so competitors that require short bursts of expolisve strength would benefit
• allows tired muscles to recover more quickly = can train harder and more often

Question 63

Why are performance enhacing drugs banned?

Answer 63

The benefits provided in terms of enhanced performance are small or non-existent compared to the risks of injecting the hormone