Lecture 15 - Chemical Control of the Brain

Question 1

What are the patterns of communication in the nervous system?

Answer 1

• Neuron- neuron (point-point)
• Through the hypothalamus
• Through the ANS
• Through the modulatory neurotransmitter system

Question 2

Where is the hypothalamus located?

Answer 2

is below the thalamus but above the optic chasm

Question 3

Three principal subdivisions of the hypothalamus

Answer 3

1. Periventricular zone
2. Median zone
3. Lateral zone

Question 4

Describe the periventricular zone

Answer 4

• Contours the 3rd ventricle
• Neurosecretory neurons (projects to posterior pituitary): Secretes vasopressin, oxytocin, CRH

Question 5

Describe the median and lateral zone

Answer 5

• Control the ANS
• Thirst/feeling

Question 6

What is the role of the hypothalamus?

Answer 6

• Integrates visceral and emotional information (Links emotion to basic body function)
• Acts on: pituitary (hormone release) and ANS
• Regulates: Metabolic (homeostasis- liver, feeding, intestine), behaviour, sleep-wake cycle

Question 7

The hypothalamus coordinates behavioural, autonomic, and neuroendocrine responses to regulate what ?

Answer 7

• Body temperature,
• blood pressure & composition,
• defensive behaviour,
• energetic metabolism,
• reproductive behaviour and
• sleep-wake cycle & alertness

Question 8

What does the hypothalamus control at cold and warm temperatures

Answer 8

• Cold temperatures: shivering & goose bumps
• warm temperatures: sweating and flusing

Question 9

In negative feedback the body responds to an extreme condition by doing what?

Answer 9

reversing the current direction of change, to keep the internal conditions within a normal range

Question 10

What is another name for the posterior lobe?

Answer 10

neurohypophysis

Question 11

Describe magnocellular secretory neurons

Answer 11

• Part of posterior lobe of pituitary gland
• Nerve terminals secrete vasopressin and oxytocin into bloodflow
• Only one network of capillaries

Question 12

Describe oxytocin

Answer 12

• Secreted during the final stage of childbirth to cause the uterus to contract and facilitate delivery.
• Controls reproductive (mating) behavior…at least for the prairie vole.

Question 13

How is oxytocin triggered?

Answer 13

• Triggered by sensory stimulation (somatic, like nipple sucking, visual and auditory like crying baby) to induce lactation.

Question 14

What is the letdown reflex?

Answer 14

When a sensory stimuli reach cortex, tthe cortex stimulate hypothalamus release oxytocin

Question 15

What is another name for vasopressin?

Answer 15

anti-diuretic hormone

Question 16

What is the role of Vasopressin?

Answer 16

activates the kidney to secrete renin into the blood stream.

Question 17

What happens in the posterior lobe Under conditions of lowered blood volume or pressure

Answer 17

salt-concentration sensitive hypothalamic (vasopressin-containing) neurons are activated and secrete vasopressin to the blood stream.

Question 18

What is renin?

Answer 18

an enzyme that cleaves and produces Angiotensin II

Question 19

What is the role of angiotensin ll

Answer 19

• acts on kidney & blood vessels to increase water retention & blood pressure. (create or remove thirst feeling)
• acts on the Subfornical organ in the telencenphalon

Question 20

Describe the pathway in which vasopressin acts to motivate drinking behavior in the posterior lobe

Answer 20

1. Under conditions of lowered blood volume or pressure, vasopressin is released into bloodstream
2. Vasopressin activates kidney to secrete renin
3. Renin cleaves and makes angiotensin 2
4. Angiotensin 2 increase water retention and bp
5. Leading to drinking behavior

Question 21

What is another name for the anterior lobe of the pituitary gland?

Answer 21

adenohypophysis

Question 22

What is a key difference between the anterior and posterior lobe of the pituitary gland?

Answer 22

Posterior - uses one network of capillaries
Anterior- uses two network of capillaries

Question 23

The secretory cells of which lobe of the pituitary gland that secrete hormones into blood flow?

Answer 23

Anterior lobe

Question 24

How do parvocellular nerve terminals act to promote secretion?

Answer 24

act indirectly to promote secretion ACTH that exerts function to the whole body.

Question 25

What are the 2 hormones used in anterior lobe of the pituitary gland?

Answer 25

• ACTH - adrenocorticotropic hormone
• CRH - corticotrophin release hormone

Question 26

Explain the anatomy of pituitary anterior lobe.

Answer 26

1. Hormone transport in axons from Parvocellular neurosecretory cells to release CRH in the hypophysiotropic space
2. Hormone transport in blood causeing the stimulation or inhibition of anterior pituitary ACTH release
3. More hormone transport in blood causing an action on organs of the body

Question 27

What is the function of ACTH

Answer 27

produced from anterior pituitary gland cell that goes through the circulation to activate/regulate the body function

Question 28

What is the role of CRH?

Answer 28

• Regulate the cell that sit in the bottom part of the pituitary gland cell and secretes ACTH
• activates anterior pituitary gland to release ACTH that goes through bloodstream and activates the adrenal gland to secrete glucocorticoid/cortisol

Question 29

What is Glucocorticoid

Answer 29

mobilizes energy to be ready for fight or flight; suppresses immune system.

Question 30

What happens to the HPA in response to stress?

Answer 30

1. CRH activates from the hypothalamus
2. CRH stimulates secretion of ACTH by pituitary gland
3. ACTH goes in bloodstream and induces adrenal cortex to secrete glucocorticoid

Question 31

What is the difference between a short stress response and a long stress response

Answer 31

• Short - activated by sympathetic nervous system
• Long - activated by HPA axis

Question 32

What changes occur to your body in a short-term stress response?

Answer 32

• Increased blood glucose
• Increased bp
• Increased breathing rate
• Increased metabolic rate
• Change in blood flow patterns

Question 33

What changes occur to your body in a long-term stress response?

Answer 33

• Na+ ions and water by kidneys
• Increased blood volume & bp
• conversion of proteins and fats to glucose
• immuse system suppressed

Question 34

Describe the pathway of a short-term stress response.

Answer 34

1. nerve signals go through spinal cord
2. Adrenal medulla secrete epinephrine and Norepinephrine

Question 35

Describe the pathway of a long-term stress response.

Answer 35

1. hypothalamus response to stress
2. Release of CRH to anterior pituitary
3. Release of ACTH to adrenal cortex through blood vessels
4. Release of mineralocorticoids and glucocorticoids

Question 36

What happened to Neurons in the prefrontal cortex and hippocampus of baboons during a sress response?

Answer 36

• shrink the length of their dendrites and the number of dendritic spines
• Affects reasoning and memory formation

Question 37

What happened to Neurons in the amygdal and orbitofrontal cortexbaboons during a sress response?

Answer 37

• lengthen their dendrites and increase dendritic spines
• Affects response to stress and fear, and agression levels

Question 38

What is the difference between sympathetic and parasympathetic neurons?

Answer 38

Parasympathetic cell and ganglion are closer to muscles than sympathetic

Question 39

What is the difference between the somatic nervous system and autonomic nervous system

Answer 39

• Somatic nervous system is a single step to the skeletal muslce
• autonomic nervous system is two steps to the muscle

Question 40

Describe PREGANGLIONIC FIBERS

Answer 40

• Axons of preganglionic neurons
• Leave CNS and synapse on ganglionic neurons

Question 41

Describe POSTGANGLIONIC FIBERS

Answer 41

• Axons of ganglionic neurons
• Begin at autonomic ganglia:
• Extend to peripheral target organs

Question 42

Describe the sympathetic division

Answer 42

• Readies body for crisis (fight or flight)
• relatively short term to the HPA axis!

Increase in sympathetic activity:

• stimulates tissue metabolism
• increases alertness

Question 43

Describe the parasympathetic division

Answer 43

• Controls during resting conditions
• Allows for “quiet functions” (e.g. digestion, defecation, etc.)
• Parasympathetic division stimulates visceral activity
• Conserves energy and promotes sedentary activities

Question 44

Which system does the parasympathetic and sympathetic division use?

Answer 44

• sympathetic - ACH and NE
• Parasympathetic - ACH

Question 45

Describe the adrenal medulla

Answer 45

• Like a modified sympathetic ganglion
• Release epinephrine into blood stream in response to preganglionic sympathetic innervation

Question 46

Describe the pharmacological similarities of the sympathetic and parasympathetic division

Answer 46

• Same Preganglionic Neurotransmitter: acetylcholine
• act on nicotinic acetylcholine receptor (ionotropic), fast EPSP

Question 47

Describe the pharmacological differences of the sympathetic and parasympathetic division

Answer 47

Sympathetic

• Most (but not all) release norepinephrine (NE)
• Binds to alpha and beta adrenergic receptors
• All G-protein

Parasympathetic

• Release acetylcholine
• Binds to muscarinic acetylcholine receptor (G-protein coupled), slow EPSP and IPSPs; requires usually prolonged activation
• Local effect