Module 2 - Autonomic and Endocrine

Question 1

nerve synapses vs hormones

Answer 1

nerve synapses are very quick process (few ms) compared to sending signals via bloodstream (few s or mins)

Question 2

nerves

Answer 2

coordinate our actions and bodily functions

Question 3

sensory

Answer 3

• afferent
• PNS -> CNS

Question 4

motor

Answer 4

• efferent
• CNS -> PNS

Question 5

somatic

Answer 5

• voluntary
• skeletal muscle
• booth

Question 6

autonomic

Answer 6

• involuntary
• sympathetic / parasympathetic
• cardiac muscle, smooth muscle, glands
• curtis

Question 7

autonomic sensory input

Answer 7

interoceptors (internal sensing)

Question 8

somatic sensory input

Answer 8

• special senses
• somatic senses

Question 9

autonomic control of output

Answer 9

involuntary
- limbic system (inner structure)
- hypothalamus
- brain stem
- spinal cord

Question 10

somatic control of output

Answer 10

• cerebral cortex (outer layer of brain)

Question 11

autonomic effectors

Answer 11

• smooth muscle
• cardiac muscle
• glands

Question 12

somatic effectors

Answer 12

skeletal muscle

Question 13

somatic motor neuron

Answer 13

• myelinated
• acetylcholine
• need to go to particular muscle

Question 14

autonomic preganglionic neuron

Answer 14

• myelinated
• acetylcholine
• go to autonomic ganglion

Question 15

autonomic postganglionic neuron

Answer 15

• unmyelinated
• acetylcholine (parasympathetic, sympathetic sweat glands) or norepinephrine (sympathetic other)
• goes to various organs simultaneously

Question 16

somatic motor neuron pathway

Answer 16

one neuron pathway

Question 17

autonomic motor neuron pathway

Answer 17

two neuron pathway to diffuse signal
- preganglionic
- postganglionic

Question 18

autonomic divisions

Answer 18

• sympathetic (alarm response)
• parasympathetic (relaxation response)

Question 19

sympathetic division associated with

Answer 19

• exercise
• emotion
• excitement
• sensing danger

Question 20

sympathetic division process

Answer 20

nervous system -> adrenal glands -> adrenaline -> short burst of energy for response

Question 21

sympathetic division effects

Answer 21

•Heart: Increase rate and contraction force
•Eyes: Dilate pupils
•Mouth: Decrease saliva
•Lungs: Dilate bronchi and breathe faster
•Skin:
- Constrict peripheral blood vessels
- Contract arrector pili muscles
- Increase sweat secretion
•Gut: Decrease digestion
•Increase blood sugar
•Increase blood pressure and water retention

Question 22

raynaud disease

Answer 22

• excessive sympathetic stimulation following emotional stress / exposure to cold
• chronic vasoconstriction
• extremities become ischemic, cold, white

Question 23

ischemic

Answer 23

lack of blood => don’t get nutrients

Question 24

parasympathetic associated with

Answer 24

• repletion
• rest
• relaxation
• resistance

Question 25

parasympathetic effects

Answer 25

•Heart: Decrease rate and contraction force
•Eyes: Contract pupils
•Mouth: Increase saliva
•Lungs: Constrict bronchi, breathe more slowly
•Skin: Dilate peripheral blood vessels
•Gut: Increase digestion

Question 26

hypothalamus

Answer 26

controls internal organs via
- autonomic nervous system
- pituitary gland (links to other parts of body via endocrine system)

Question 27

autonomic + endocrine systems regulate

Answer 27

• behaviour patterns
• circadian rhythm
• body temperature
• eating / drinking

Question 28

endocrine organs function

Answer 28

secrete hormones into bloodstream that affects what’s happening in other body parts

Question 29

endocrine organs

Answer 29

hypothalamus, pituitary, pineal gland, thyroid, skin, thymus, heart, liver, stomach, adrenal glands, pancreas, kidney, small intestine, ovary, testes

Question 30

types of hormones by release/effect

Answer 30

• endocrine hormones
• paracrine hormones
• autocrine hormones

Question 31

endocrine hormones

Answer 31

through bloodstream, distant target cell

Question 32

paracrine hormones

Answer 32

nearby target cell

Question 33

autocrine hormones

Answer 33

same target cell

Question 34

hormone producing cell

Answer 34

synthesis -> storage -> release

Question 35

control of hormone release

Answer 35

hormone releasing cell -> blood -> desired response (target cell) -> feedback signal

Question 36

types of hormones by solubility

Answer 36

• lipid soluble hormones
• water soluble hormones

Question 37

lipid soluble hormones

Answer 37

1) soluble transport protein (blood is aqueous environ)
2) hormone diffuses into cell across lipid bilayer
3) hormone binds to nucleus receptor
4) activated receptor-hormone complex alters gene expression
5) newly formed mRNA directs synthesis of specific proteins
6) new protein alters cell’s activity

Question 38

water soluble hormones

Answer 38

1) hormone binds to receptors in plasma membrane
2) G protein activated which activates adenylyl cyclase
3) adenylyl cyclase converts ATP -> cAMP
4) activated protein kinases phosphorylate other enzymes
5) phosphorylated enzymes catalyse reactions that produce physiological responses
6) phosphodiesterase inactivates cAMP

Question 39

cAMP

Answer 39

second messenger to activate protein kinase

Question 40

importance of indicibility

Answer 40

important to regulate up/down and keep things controlled

Question 41

cholera toxin

Answer 41

binds to G protein => G protein locked in activated state => high cAMP => Cl- pumped into intestines => water efflux => chronic diarrhoea

Question 42

anterior pituitary releases

Answer 42

GH, TSH, ACTH, FSH, LH, PRL

Question 43

anterior pituitary responds to

Answer 43

releasing and inhibiting hormones from ventral hypothalamus: GHRH, GHIH, TRH, CRH, GnRH, PIH

Question 44

anterior pituitary connects to

Answer 44

hypothalamus via the hypophyseal portal system
=> vascular connection

Question 45

posterior pituitary releases

Answer 45

oxytocin + ADH

Question 46

posterior pituitary responds

Answer 46

directly to hypothalamic neurons

Question 47

posterior pituitary connects to

Answer 47

hypothalamus via the hypothalamic hypophyseal tract
=> neural connection

Question 48

infundibulum

Answer 48

stalk that connects pituitary to brain

Question 49

hypothalamus

Answer 49

• 9 hormones
• releasing / inhibiting hormones to control pituitary

Question 50

pituitary

Answer 50

• 7 hormones
• controlling endocrine organs

Question 51

hypophyseal portal veins

Answer 51

allows hypothalamus to communicate via hormones with anterior pituitary

Question 52

hypothalamus/pituitary together regulate

Answer 52

• growth
• development
• metabolism
• homeostasis

Question 53

hypothalamus/pituitary hormone flow

Answer 53

axon termini -> portal vein -> secondary plexus -> pituitary target cells

Question 54

axon termini

Answer 54

releasing and inhibitory hormones released from here

Question 55

parts of adrenal gland

Answer 55

• capsule (keep integrity)
• cortex (outer layer)
• medulla (diff type of cell => diff function - inner layer)

Question 56

adrenal medulla associated nervous system

Answer 56

sympathetic nervous system
- neuron triggers medulla to release its hormones into nervous system

Question 57

adrenal medulla pathway

Answer 57

sympathetic preganglionic neuron -> modified postganglionic neurons (adrenal medulla) acting as secretory cells -> hormones into bloodstream

Question 58

adrenal medulla hormones

Answer 58

epinephrine/norepinephrine

Question 59

adrenal medulla stimulated by

Answer 59

acetylcholine from sympathetic preganglionic neurons

Question 60

adrenal medulla principal actions

Answer 60

enhance sympathetic autonomic alarm (fight-and-flight) response (first stage of stress response)

Question 61

adrenal cortex hormones

Answer 61

• mineralocorticoids (e.g aldosterone)
• glucocorticoids (e.g cortisol)

Question 62

adrenal cortex - mineralocorticoids stimulated by

Answer 62

increased K+ and angiotensin II in blood

Question 63

adrenal cortex - mineralocorticoids principal actions

Answer 63

• increase Na+ and water
• decrease K+ in blood
  => increased blood volume / pressure

Question 64

adrenal cortex - glucocorticoids stimulated by

Answer 64

ACTH from anterior pituitary stimulated by CRH

Question 65

ACTH

Answer 65

adrenocorticotropic hormone

Question 66

CRH

Answer 66

corticotropin releasing hormone from hypothalamus

Question 67

adrenal cortex - glucocorticoids principal actions

Answer 67

• resistance reaction to stress
• dampens/controls inflammation to stop getting out of hand
• depresses immune response (focus on immediate response at the expense of long term)

Question 68

actions of cortisol

Answer 68

• protein breakdown
• gluconeogenesis
• lipolysis
• resistance to stress
• vasoconstriction
• anti-inflammatory
• immune depression

Question 69

actions of cortisol - protein breakdown

Answer 69

Increase protein breakdown mainly in muscle fibres to rebuild
=> Amino acids released into bloodstream may be used for synthesis of new proteins and ATP production.

Question 70

actions of cortisol - gluconeogenesis

Answer 70

Liver cells convert some amino acids or lactic acid to glucose
=> neurons and other cells use the glucose for ATP production.

Question 71

actions of cortisol - lipolysis

Answer 71

Breakdown of triglycerides and release of fatty acids from adipose tissue into the blood.
=> Triglyceride and fatty acid availability

Question 72

actions of cortisol - resistance to stress

Answer 72

Increased glucose and ATP combat stresses such as exercise, fasting, fright, temperature extremes, high altitude, bleeding, infection, surgery, trauma, and disease.

Question 73

actions of cortisol - vasoconstriction

Answer 73

Blood vessels become more sensitive to hormones that cause vasoconstriction
=> Rise in blood pressure

Question 74

actions of cortisol - anti-inflammatory

Answer 74

Inhibit white blood cells that participate in inflammatory responses to limit tissue damage by them
=> Slow tissue repair and slow wound healing

Question 75

actions of cortisol - immune depression

Answer 75

High glucocorticoid concentration depress immune responses
=> Used therapeutically following organ transplants to retard graft rejection

Alter immune responsiveness (change balance of immune response)
=> increased susceptibility to some infections

Question 76

two stages of stress response

Answer 76

1) alarm (fight-or-flight) response
2) resistance reaction

Question 77

alarm response

Answer 77

immediate burst of sympathetic autonomic activation
1) => visceral effectors => immediate response
2) => adrenal medulla => sustained/extended alarm response

Question 78

alarm response effects

Answer 78

• mobilise resources for immediate physical activity (blood pressure, heart rate etc.)
• glucose/oxygen consumption
• alterness and activity
• ward off danger (fight) or flee (flight)
• pounding heart
• cold sweat (increased sweat gland secretion)
• pale skin
• goose flesh
• rapid breathing

Question 79

resistance reaction features

Answer 79

• slower, longer lasting (rather than through nervous system)
• associated with hypothalamus, pituitary, adrenal cortex

Question 80

resistance reaction effects

Answer 80

• reduce tissue damage
• corticosteroid (cortisol) production
• increased glucose (gluconeogenesis), fatty acids (lipolysis), amino acids (protein breakdown)
• elevated blood pressure
• reduced inflammation
• altered immunity

Question 81

resistance reaction negative feedback control

Answer 81

elevated cortisol inhibits release of:
1) ACTH by anterior pituitary corticotrophs
2) CRH by hypothalamic neurosecretory cells

Question 82

neuro-immune link activities coordinated by

Answer 82

• hormones (e.g cortisol)
• autonomic nerves
• cytokines (immune hormones)

Question 83

hormones - neuroimmune link

Answer 83

• can affect secondary lymphoid organs
• affect balance of immune system + other hormones affecting T and B lymphocyte responses

Question 84

neuroendocrine system

Answer 84

infection causes behaviour change

Question 85

cave person adaptation

Answer 85

short-term remedial action (change relationship to world)
1) threat system arousal
- blood (energy)
- muscle (motor)
- vigilance (sensory)
2) dampen unnecessary
- digestion
- immunity

Question 86

types of stress

Answer 86

1) eustress (acute)
2) distress (chronic - prolonged)

Question 87

eustress

Answer 87

• prepares us to meet certain challenges
• helpful, beneficial

Question 88

distress

Answer 88

• associated with undesirable events
• potentially harmful physiological changes

Question 89

habitually hostile people =>

Answer 89

chronic sympathetic activation
- heart working harder
- capillaries constricted
=> greater risk of cardiac infarct (heart attack/stroke)

Question 90

stress cardiomyopathy syndrome

Answer 90

heart attack like symptoms after stressful events
- highlights importance of systems/stress response and power of uncontrolled response

Question 91

autonomic neurons that use acetylcholine

Answer 91

cholinergic

Question 92

autonomic neurons that use norepinephrine

Answer 92

adrenergic

Question 93

receptors on postganglionic neurons that respond to acetylcholine

Answer 93

nicotinic receptors

Question 94

receptors on effector cell that respond to ACh

Answer 94

muscarinic receptors
- sweat gland cell sympathetic stimulation
- effectors cells of parasympathetic stimulation