Lecture 14: Autonomic and Endocrine Systems

Question 1

What does the PNS consist of?

Answer 1

all nervous tissue outside of CNS
Cranial nerves - 12 pairs
Spinal nerves - 31 pairs - radiate out from the spinal cord
Ganglia - mass of nervous tissue (cell bodies) switching stations
Peripheral Nerves into peripheral tissues

Question 2

What does the CNS consist of?

Answer 2

Brain and Spinal Cord (which are connected by the Foramen Magnum)

Question 3

What does the CNS process?

Answer 3

CNS processes many kinds of sensory info and is the source of -thoughts, emotions and memories

Question 4

What are sensory neurons?

Answer 4

Afferent neurons
autonomic/somatic receptors detect stimuli and collect information
respond to information inside and outside our body
via Cranial and Spinal Nerves

Question 5

What are Motor neurons?

Answer 5

Efferent neurons
Not under voluntary conscious control
Somatic (voluntary) –> skeletal muscle
Autonomic(involuntary) –> sympathetic or parasympathetic –> cardiac muscle, smooth muscle, glands

Question 6

What is the role of nerves?

Answer 6

Hardwired mechanism which coordinate our actions and bodily functions through collecting information and sending signals out

Question 7

What do autonomic motor neurons control?

Answer 7

Involuntary muscle

e.g.: Cardiac muscle, Smooth muscle, Glands

Question 8

What is the role of axons?

Answer 8

transmits APs along the neuron

very long as they need to take information a really long distance before they terminate the information

Question 9

What is the role of the myelin sheath?

Answer 9

insulating layer

Question 10

What is the role of dendrites?

Answer 10

To radiate out of the cell body/nucleus and receive APs

Question 11

What are the 5 steps to nerve impulse transmission?

Answer 11

Occurs rapidly in course of milliseconds

1. Nerve impulses travel down presynaptic neuron
2. Opens voltage gated Ca2+ channels, which changes its structure(proteins in axon terminal cell wall) due to voltage change
3. Influx of Ca2+ promotes vesicles (containing neurotransmitters) to empty into the synaptic cleft by fusing with the membrane and releasing neurotransmitters
4. Neurotransmitter binds to ligand gated SODIUM channels/receptor on post synaptic neuron- causing influx of Na2+
5. Voltage changes and Conducts a nerve impulse down post synaptic neuron (dendrites–>cell body–>axon)

Question 12

What do unmyelinated nerves look like?

Answer 12

They have Schwann cells associated with it but not wrapped insulation around them

Question 13

What are nerve impulses?

Answer 13

Electrochemical signals

Rapid moving voltage

Question 14

What is the Autonomic Nervous system?

Answer 14

Self governing system

Question 15

How has a the sympathetic system evolved?

Answer 15

Evolved to help respond to particularly dangerous or threatening situations

Question 16

What is the sympathetic division?

Answer 16

Responses associated with Exercise, Emotion and Excitement

Question 17

What response in included in the sympathetic division?

Answer 17

The alarm response

“fight , fright or flight response”

Question 18

In what areas of the body does the autonomic NS affect?

Answer 18

Heart
Eyes
Mouth
Lungs
Skin
Gut

Question 19

What change occurs in the Heart during the Alarm response?

Answer 19

Increased rate
Increased force of contraction
so blood can move through up to 5 times faster with more force

Question 20

What change occurs in the Eyes during the Alarm response?

Answer 20

Pupils are dilated

• more (sensory) aware of your surroundings
• get information more quickly and easily

Question 21

What change occurs in the Mouth during the Alarm Response?

Answer 21

Decrease in saliva

-aids digestion which is not required so energy is used elsewhere

Question 22

What change occurs in the Lungs during the Alarm response?

Answer 22

Dilated Bronchi

allow more O2 into the body

Question 23

What change occurs in the Skin during the Alarm Response?

Answer 23

Constrict Peripheral Blood vessels - pushes blood to muscles and key areas - lighter skin colour
Contract erector pili muscles - hairs stand on end/look threatening
Increased sweet secretion - more evaporation-heat removed/cool surfaces

Question 24

What changes occur in the Gut during the Alarm Response?

Answer 24

Decrease Digestion

-digestion is an energetic long term process so it would be wasteful

Question 25

What additional changes occurs to the blood during the Alarm Response?

Answer 25

Increased Blood Sugar- needed for respiration(muscles to move to fight or flee) from liver
Increase BP and Increased Water Retention - transport is fast by the water retention - release a loss of blood in potential damage in fight

Question 26

What response in included in the parasympathetic division?

Answer 26

The relaxation response

Question 27

What is the parasympathetic division?

Answer 27

Responses associated with - Repletion, Rest and Relaxation

Question 28

What changes occur in the Heart during the Relaxation Response?

Answer 28

Decrease rate

Decrease force of contraction

Question 29

What changes occur in the Eyes during the Relaxation Response?

Answer 29

Pupils contract

Question 30

What changes occur in the Mouth during the Relaxation Response?

Answer 30

Increased Saliva

-regeneration activities such as - digestion and -repair

Question 31

What changes occur in the Lungs during the Relaxation Response?

Answer 31

Constrict Bronchi

-dont take in as much oxygen into the body as we are relaxing

Question 32

What changes occur in the Skin during the Relaxation Response?

Answer 32

Dilate Peripheral blood vessels

-allows more blood into tissues and cellular areas

Question 33

What changes occur in the Gut during the Relaxation response?

Answer 33

Increased digestion

Question 34

What sort of action is the parasympathetic system?

Answer 34

Deactivating action as it moves into a rest and relaxation response

Question 35

What sort of systems are the somatic and autonomic nervous systems?

Answer 35

Inducible’s systems

They can be turned on and off when needed to be

Question 36

What does the Somatic Nervous system consist of?

Answer 36

Sensory input: Special senses and somatic senses
Control of Output: Voluntary from Cerebral cortex
Effectors: Skeletal Muscle
Motor Neuron Pathway: One neuron Pathway
Neurotransmitter: ACh (acetylcholine) - directly innervates synapse with muscle

Question 37

What does the Autonomic system consist of?

Answer 37

Sensory input: Mainly interoceptors - internal sensing
Control of Output: Involuntary from limbic system, hypothalamus, brain stem and spinal cord
Effectors: Smooth muscle (contraction or relaxation), Cardiac Muscle (increase or decreased rate and force of contraction), Glands (increased or decreased secretions)
Motor Neuron Pathway: Two neuron pathway
Neurotransmitters: 3x combinations, using ACh or NE

Question 38

What are the Neurotransmitters for the ANS?

Answer 38

Cholinergic ACh + aclinergic NE = sympathetic division = innervation to most effector tissues but sweat glands
Cholinergic ACh + Cholinergic ACh = Sympathetic division= innervation to most sweat glands
Cholinergic ACh + Cholinergic ACh = Parasympathetic division= always ACh

Question 39

What does the Somatic Nervous Pathway consist of?

Answer 39

Spinal cord –> cell body/axon –> Somatic Myelinated Motor Neuron –> Effector Skeletal Muscle

Question 40

What does the Autonomic Nervous system consist of?

Answer 40

Spinal cord –> cellbody/axon –> PREganglionic Myelinated Neuron –> Post Ganglionic Autonomin Unmyelinated Motor Neuron –> Effector Muscle

Question 41

What is the Endocrine System?

Answer 41

System which secretes hormones or responds

Question 42

What is the role of the Hypothalamus?

Answer 42

Controls internal organs via the Autonomic System and Pituitary gland (endocrine/hormonal system effects on pituitary) in order for us to stay alive

Question 43

Which 5 things does the Hypothalamus Regulate?

Answer 43

1. Behavioural patterns
2. Circadian rhythms
3. Sleep/wake cycles
4. Controls body temperature
5. Eating and drinking behaviour

Question 44

Which 3 things form the HPA?

Answer 44

"Hypothalamus - Pituitary - Adrenal Axis"
Pituitary Gland
Adrenal Gland
Hypothalamus
controls most of the endocrine system

Question 45

What is the role of the Testes and Ovaries?

Answer 45

Gonads

Which can secrete Reproductive hormones

Question 46

What are hormones?

Answer 46

small molecules which are produced by a cell, travels through blood stream and which affect the function of an organ/cell in a distal site
Signal molecules produced in one place, affecting some place else

Question 47

What are the 2 types of hormones?

Answer 47

Circulating Hormones

Local Hormones

Question 48

Where are Circulating Hormone receptors located?

Answer 48

Receptor distal to the endocrine cell

Question 49

Where are Local Hormone receptors located?

Answer 49

Receptor cell in close proximity to the Paracrine cell

Hormones acts back on its own cell - autocrine cell and target cell is the same

Question 50

What is the Target cell also?

Answer 50

Autocrine cell

Question 51

What is the control of hormone release?

Answer 51

Inducible System
(1. Synthesis-> Storage-> Release(hormone producing cell)) ---release and circulation--> 2. Blood ----> 3. Desired response (target cell with receptors for specific hormones (only affects tissues with receptors)) -----> 4. Hormone Disposal (concentration diminished due to breakdown and excretion by enzymes in tissue/bloodstream) ----> 5. Feedback signal (usually negative) ---> 1.

Question 52

How do Lipid Soluble Hormone systems function?

Answer 52

Produced with carrier/transport protein which allows it to get through/be carried through the blood stream in a soluble form
1. Lipid soluble hormone diffuses into the cell (through lipid bilayer of target tissue)
2. Diffuses into nucleus, Activated receptor-hormone complex alters gene expression
(turns specific genes of nucleus DNA on/off, via transcript making mRNA)
3. Newly formed mRNA directs synthesis of specific proteins on ribosomes
4. New proteins alter cells activity = new/altered cell activity/function

Question 53

How do Water soluble Hormone systems function?

Answer 53

Able to carry through blood without transporter (can diffuse through blood) as lipid insoluble form (can’t get through lipid bilayer)
1. Binding of hormone (first messenger) to its receptor on the surface, and activates G-protein in membrane (changes structure), which activates Adenylate cyclase inside the cell (changes structure)
2. Activated adenylate cyclase converts ATP to cAMP
3. cAMP serves as a second messenger to activate protein kinases (addition of phosphate)
4. Activated protein kinases phosphorylate cellular proteins
5. Millions of phosphorylated proteins cause(catalyse) reactions that produce physiological responses
6. Phosphodiesterase inactivates cAMP. Alters Posphorylation and the way proteins work
After time period Phosphodiesterase inactivates cAMP

Question 54

What are 3 examples of Lipid Soluble hormones?

Answer 54

Steroid Hormones - cortisol, ancligens, atclosterone
Thyroid Hormones
NO (Nitrous Oxide)

Question 55

What are 3 examples of Water Soluble Hormones?

Answer 55

Catecholamines - epinephrine and norepinephrine
Peptides
Proteins

Question 56

What is Cholera?

Answer 56

Chronic activation of the hormone system

Question 57

What does Cholera involve?

Answer 57

(infection)
bacterium (cholerum bacterium) produces toxin which gets into crypts of small intestine and binds to inducible G proteins on hormone receptors irreversibly
Metabolites binds to G proteins on suface of intestinal cells
-locks G protein into activated state
system that was once inducible now becomes constituent
-high cAMP (inside intestinal cells)
-pumps chloride ions into intestines
-water flows out to lumen (trying to balance osmolarity) –> Chronic Diarrhoea

Question 58

What is Rayhaud Disease?

Answer 58

Excessive sympathetic stimulation following emotional stress or exposure to the cold

Question 59

What does Rayhaud Disease involve?

Answer 59

Autonomic activation
Chronic vasoconstriction (for a longer period of time/after danger)
Constricts peripheral capillaries and blood doesn’t flow
fingers and toes (extremities) become ischaemic due to lack of blood and oxygen
Fingers and toes have a White appearance and are Cold to touch
caused by exposure to cole, or having an emotions stress etc.

Question 60

What do the adrenal glands do?

Answer 60

pump the body with adrenalin

short energy burst to respond quickly

Question 61

What is the benefit of the sympathetic NS?

Answer 61

Allows your body to gear up and respond/be ready for danger
changes in lots of places of the body
Rapid application in response to danger, then deactivation over time

Question 62

What is the function for the relaxation process?

Answer 62

causing to do more long term functions

sensation/rest and repletion type responses

Question 63

What does Autonomic mean?

Answer 63

self governing

Question 64

What is a major difference between somatic nerves and autonomic nerves?

Answer 64

Autonomic nerves aren’t a single nerve pathway

they go through switching stations called autonomic ganglions

Question 65

Which Neurotransmitter is used mainly by the post ganglionic neuron when innervating other tissues?

Answer 65

NE
-effect in Sweat Gland innervation
Sympathetic

Question 66

What are the major differences between the Somatic and Autonomic Nervous system?

Answer 66

Single Neuron pathway vs 2
ACH only vs ACH sympathetic to sweat + NE
autonomic= activate quickly but when you turn off, things return back to normal

Question 67

Why is it important that the Autonomic NS in particular is inductive?

Answer 67

Because once fright, flight or fight response is activated, it needs to turn off
and therefore body needs to recalibrate to a different context

Question 68

What is ischaemia?

Answer 68

When there is no blood circulating to an organ for a long period of time, and cells can start to die

Question 69

Where is the Hypothalamus located?

Answer 69

In the centre of the limbic system

Question 70

Where is the adrenal gland located?

Answer 70

just ontop of our kidneys

Adrenal = “onto of kidneys”

Question 71

What is the endocrine pathway?

Answer 71

Hypothalamus –> Pituitary Gland

Question 72

What is the location and function of the thyroid?

Answer 72

located around trachea

secretes growth hormones

Question 73

What ist he location and function of the thymus?

Answer 73

located under sternum
endocrine organ
works in immune function`

Question 74

What are important endocrine organs?

Answer 74

Pineal gland
Thryoid gland
Trachea
Thymus
Heart
Lung
Stomach
Pancreas
Kidney
Small intestine

Question 75

What are Paracrine cells?

Answer 75

Produced by a cell and acts on a cell near too it

Question 76

What are Autocrine cells?

Answer 76

Produced by a cell and acts on the same cell

Question 77

What are the 3 names of hormones?

Answer 77

Endocrine
Paracrine
Autocrine

Question 78

What determines whether a hormone can bind to a cell?

Answer 78

Whether or not that cell has a receptor

No receptor = No response

Question 79

What is the difference between the autonomic nervous system and the control of hormone release?

Answer 79

Control of hormone release time course is longer
Autonomic Nervous system = milliseconds to activate, switches off fast
Hormone Release control= seconds to activate, switch of slow as need to have feedback or need to break down the hormones to be produced

Question 80

How do you reverse an inducible hormone system?

Answer 80

Take away the hormone

and things will revert back to the way they once were

Question 81

What is the inducible part of the Water soluble Hormone Process?

Answer 81

G Protein