Introduction to the Endocrine System Flashcards

1
Q

What is the endocrine system?

A

System that integrates and controls organ function via secretion of hormones from cells, tissues or glands which are then carried in the blood to target organs, distal from the site of hormone synthesis where they influence the activity of the target

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2
Q

What is a hormone?

A

Any member of a class of signalling molecule, produced by glands in milticellular oganisms that are transported in the circulatory system to target distant organs to regulate physiology

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3
Q

What is a neurohormone?

A

A hormone such as vasopressin or noradrenaline produced by nerve cells and secreted into circulation

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4
Q

What is endocrinology?

A

The study of the endocrine system in the human body

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5
Q

How does the timing of response to hormones vary?

A

Could be fast (within seconds, such as heart rate increase in response to adrenaline) or slow (over days, such as increased protein synthesis in response to growth hormone)

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6
Q

Endocrine hormones should not be confused with paracrine chemicals, autocrine chemicals and exocrine chemicals, what are these?

A

Paracrine - act local to the site of synthesis, do not travel to distant sites

Autocrine - act on/in the same cell that synthesises the hormone

Exocrine - released from exocrine glands via ducts to the external enviornment including the GI tract

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7
Q

What is an example of a paracrine chemical?

A

Histamine

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8
Q

What are examples of autocrine chemicals?

A

Cytokines

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9
Q

What are examples of exocrine chemicals?

A

Saliva, sweat and bile

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10
Q

What system does the endocrine system work with to communicate with and control all body functions?

A

Nervous system

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11
Q

What are hormones detected by at target tissues?

A

Specific receptors in/on the cell

No receptor means no response

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12
Q

How does the nervous system communicate?

A

Releasing neurotransmitters from presynaptic neurons which travel accross the synaptic cleft to postsynaptic cell to influence activity

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13
Q

What does neuroendocrine mean?

A

Endocrine and nervous systems combine, nerves release hormones which enter the blood and travel to their target cells

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14
Q

Do hormones have the same effect in every cell?

A

No they can have different effects in different cells, such as insulin

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15
Q

What effect does insulin have in the liver?

A

Increased glycogenesis

Decreased gluconeogenesis

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16
Q

What effect does insulin have in skeletal muscle/adipose tissue?

A

Increased glucose uptake

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17
Q

What is glycogenesis?

A

Formation of glycogen from glucose

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18
Q

What is gluconeogenesis?

A

Formation of glucose from non-carbohydrate substances

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19
Q

What are examples of principle endocrine glands?

A

Hypothalamus

Pituitary gland

Thyroid gland

Parathyroid gland

Pancreas

Adrenal glands (suprarenal)

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20
Q

What are some features of an endocrine hormone?

A

Produced by a cell or group of cells

Secreted from those cells into blood

Transported via blood to distant targets

Exert their effect at very low concentrations (range of 109-1012)

Act by binding to receptors on target tissues

Have their action terminated, often via negative feedback loops

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21
Q

Do hormones act at high or low concentrations?

A

Capable of acting in low concentrations (109-1012)

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22
Q

What are the different classifications (types) of endocrine hormones?

A

Peptide or protein hormones

Amine hormones

Steroid hormones

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23
Q

What are peptide or protein hormones composed of?

A

Chains of amino acids

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24
Q

What are amine hormones derived from?

A

One of two amino acids (tryptophan or tyrosine)

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25
Q

What are steroid hormones derived from?

A

Cholesterol

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26
Q

What is the most common classification of hormone?

A

Peptide hormone

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27
Q

What are examples of peptide hormones?

A

TRH

FSH

Insulin

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28
Q

Explain the process of forming peptide hormones?

A
  1. Original peptide hormone produced by ribosomes is large and inactive (preprohormone), which contains one or more copies of the active hormone in their amino acid sequence
  2. Cleaved into smaller units in endoplasmic reticulum but still inactive proteins called prohormones
  3. Packaged into vesicles in golgi apparatus, along with proteolytic enzymes which break the prohormone down into active hormone and other fragments
  4. Stored in vesicles in endocrine cells until release is triggered and all vesicle contents are released in plasma (co-secretion)
  5. Measuring inactive fragments in plasma can be useful clinically, such as C-peptide in diabetes
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29
Q

What are peptide hormones synthesised as?

A

Preprohormone which needs cleaved into prohormone and stored in vesicles until required

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30
Q

What is the original peptide hormone produced by?

A

Ribosomes

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31
Q

Where is preprohormone cleaved into smaller units called prohormones?

A

Endoplasmic reticulum

32
Q

Where is prohormone packaged into vesicles?

A

Golgi apparatus

33
Q

What is prohormone packaged into vesicles with?

A

Proteolytic enzymes, which break prohormone down into active hormone and other fragments

34
Q

What is an example of an inactive fragment produced during the formation of peptide hormone?

A

C-peptide

35
Q

What is C-peptide?

A

Inactive fragment cleaved from the insulin prohormone

36
Q

What does the levels of C-peptide in plasma or urine indicate?

A

A measure to indicate endogenous insulin production from the pancreas

37
Q

By what ratio is C-peptide present compared to insulin?

A

5x higher due to insulin being metabolised faster

38
Q

Are peptide hormones hydrophillic or hydrophobic?

A

Hydrophillic (lipophobic)

39
Q

Explain the mechanism of action of peptide hormones?

A

1) Water soluble so dissolves easily in plasma for transport
2) However, means cannot cross cell membrane so binds to membrane bound receptors on target cells
3) Once bound receptors create fast biological responses (seconds to minutes)
4) Most peptides work via modulating either the GPCR or tyrosine kinase linked signilling pathways
5) These pathways phophorylate existing proteins in the cell and modify their function

40
Q

What are the two signilling pathways that peptide hormones normally use?

A

G protein couple receptor (GPCR)

Tyrosine kinase linked receptor

41
Q

What do the GPCR and tyrosine kinased linked signilling pathways do?

A

Phosphorylate existing proteins in the cell and modify their function (such as open or close ion channels, activate or inactivate enzymes)

42
Q

What happens when peptide hormones bind to G protein couple receptor?

A

Activates second messenger system and/or ion channels leading to modification of existing proteins

(these second messengers could also alter gene expression)

43
Q

What happens when peptide hormones bind to tyrosine kinased linked receptor?

A

Alters gene expression

44
Q

Which of G protein couple receptor and tyrosine kinased linked receptor produces a faster response?

A

GPCR - rapid response

Tyrosine kinase - slower, longer lasting activity

45
Q

Are peptide hormones vulnerable to degradation before reaching their target compared to other classes of hormones?

A

Yes, also have a short half life in plasma which is usually minutes so prolonged action therefore requires continued secretion

46
Q

What does GPCR stand for?

A

G protein coupled receptor

47
Q

What are the different classes of amine hormones?

A

Catecholamines

Thyroid hormones

48
Q

What are examples of catecholamine hormones (and therefore amine hormones)?

A

Dopamin (CNS neurotransmitter)

Norepinephrine (neurotransmitter)

Epinephrine (hormone released by adrenal medulla)

49
Q

Do catecholamines have a similar mechanism of action to peptide hormones or steroid hormones?

A

Peptide hormones (are hydrophillic)

50
Q

Do thyroid hormones have a smiliar mechanism of action to peptide hormones or steroid hormones?

A

Steroid hormones (lipophillic)

51
Q

What are most amine hormones derived from?

A

Tyrosine, only one not is melatonin which is derived from tryptophan

52
Q

What is the function of melatonin?

A

Regulate circadian rhythm

53
Q

Are steroid hormones stored or synthesised directly as needed?

A

Synthesised directly, unlike other hormones which are stored and then released when needed

54
Q

Why are steroid hormones produced as needed and not stored?

A

They are high lipophillic so cannot be retained within lipid membranes

Once synthesised they diffuse across the mambrane into the ISF and then blood

55
Q

How are steroid hormones transported in blood?

A

Bound to carrier proteins (such as albumin) due to being poorly soluble in water

56
Q

What are advantages of steroid hormones binding to proteins for transport?

A

Stabilises their transport through plasma and protects them from enzymatic degradation

Increases half life (to 60-90 minutes from 2 minutes for amine hormones)

57
Q

What are examples of organs that produce steroid hormones?

A

Gonads (testes and ovaries - sex steroids)

Placenta (hCG, sex steroids)

Kidney (vitamin D3)

Adrenal cortex (corticosteroids)

58
Q

What is the specific steroid hormone ultimately produced determined by?

A

All steroid hormones are derived from cholesterol, the one finally produced is determined by different cells having different enzymes synthesising different derivatives of cholesterol

59
Q

Explain the mechanism of steroid hormones?

A

1) Lipophillic so cross the plasma membrane easily, both in and out of cells
2) So receptors are located inside cells *cytoplasmic or nuclear receptors) and trigger either activation or inhibition of gene function within the nucleus (genomic effect)
3) Genes control synthesis of proteins so this either increases or decreases protein synthesis
4) Relatively slow process so time lag between hormone release and biological effect (hours to days) but effects persist for around the same time

60
Q

Are steroid hormone receptors on the cell surface or inside the cell?

A

Inside as they are lipophillic so can cross plasma membrane easily

Some evidence suggests there may be come surface receptors also

61
Q

Is the mechanism of action of steroid hormones a slow or fast process compared to other classes?

A

Slow response (hours to days)

62
Q

For steroid/thyroid hormone, what side is the free hormone:hormone-protein complex ratio leaning towards?

A

Much in favour of bound (complexed) hormone, which is important as only free hormone is physiologically active

63
Q

Why in health does the amount of free hormone remain constant?

A

Law of Mass Action dictates that as free hormone leaves plasma (taken up by cells) more hormone is released from carriers

Typically one minute quantities of hormone are required for phusiological functions

64
Q

What is the total plasma hormone level composed of?

A

Free hormone + complexed hormone

65
Q

Why do steorid/thyroid hormones bind to carrier proteins?

A

They have poor solubility in plasma

66
Q

What are the different kinds of carrier proteins that steroid/thyroid hormones can bind to?

A

Specific (such as corticosteroid-binding globulin)

Non-specific (such as albumin)

67
Q

What are the advantages of steroid/thyroid hormones binding to carrier proteins?

A

Increases solubility

Protects from degradation, increasing half-life to more than 60 minutes

68
Q

What is hormone concentration in the plasma determined by?

A

Balance between secretion and degradation/excretion

69
Q

In most endocrine pathways, what is hormone secretion responsive to?

A

Negative feedback reflexes

Some also respond to neural feedback loops

70
Q
A
71
Q

In addition to loops, what else can the secretion of some hormones be subject to?

A

Multiple control mechanism, such as insulin which is subject to:

plasma [glucose]

Autonomic nerve activity

Presence of food in gut

Additional hormones such as glycogen

72
Q

What is the homeostatic response to prolonged exposure to low [hormone]plasma?

A

Leads to up-regulation of receptor number (increased tissue sensitivity to hormone)

Conversely, prolonged exposure to high [hormone]plasma leads to down-regulation of receptor number (decreases tissue sensitivity to hormone)

73
Q

What are the different ways that hormone concentration can effect receptors for other hormones?

A

Permissive effects (presence of one hormone enhances the effect of another)

Antagonist effect (presence of one hormone greatly reduces the effect of another)

74
Q

What is an example of a hormone having a permissive effect on another hormone?

A

Epinephrine causes only modest lipolysis in adipose tissue but when thyroid hormones are also present there is greatly increased lipolysis

This is because thyroid hormone increases number of receptors for epinephrine in adipocytes

TH itself has no effect on lipolysis but is permissive to epinephrine

75
Q

What is lipolysis?

A

When triglycerides are broken down (hydrolysed) into glycerol and three free fatty acids

76
Q

What is an example of a hormone having an antagonistic effect on another hormone?

A

Growth hormone impairs response to insulin by decreasing number of insulin receptors on tissues

77
Q

Should measurement of hormones in plasma, clinically, be an instantaneous measurement or average over 24 hours?

A

Average over 24 hours due to hormones being released in short bursts and [hormone] varying wildly