NEUR 0010 - Chapter 15

Question 1

What are three components of the NS that operate in expanded space and time?

Answer 1

The secretory hypothalamus, the ANS, and the CNS

Question 2

What controls the ANS?

Answer 2

The hypothalamus

Question 3

What kind of postsynaptic receptors does the CNS use?

Answer 3

Metabotropic

Question 4

What are diffuse modulatory systems of the brain?

Answer 4

Part of the CNS: regulate level of arousal and mood, among other things

Question 5

How do the functions of the hypothalamus and thalamus differ?

Answer 5

Hypothalamus = integrating somatic/visceral responses in accordance with the brain’s needs; Thalamus = pathway to the neocortex

Question 6

What are the three zones of the hypothalamus?

Answer 6

Periventricular, medial, and lateral

Question 7

What are the three main cell types in the PVZ of the hypothalamus?

Answer 7

Suprachiasmatic nucleus (receive direct retinal innervation, synchronize circadian rhythms); control ANS; neurosecretory neurons

Question 8

What hypothalamic cells extend into the posterior pituitary?

Answer 8

Magnocellular neurosecretory cells

Question 9

What two neurohormones do the magno neurosecretory cells release into the posterior pituitary?

Answer 9

Oxytocin and ADH

Question 10

How do the kidneys and liver regulate blood volume and pressure?

Answer 10

Kidneys release renin, which converts angiotensinogen (from liver) into angiotensin I, into angiotensin II, which acts directly on blood vessels and the kidney

Question 11

What part of the brain detects angiotensin II?

Answer 11

Subfornical organ

Question 12

What hypothalamic cells extend into the anterior pituitary?

Answer 12

Parvocellular neurosecretory cells

Question 13

How does the hypothalamus secrete to the anterior pituitary?

Answer 13

Extend axons to special capillary bed in the upper pituitary to release hypophysiotropic hormones; these HPThormones, hit the hypothalamo-pituitary portal circulation and travel until they bind in the anterior pituitary, which releases or stops hormones in the general circulation

Question 14

How do the cell bodies of the somatic and autonomic lower motor neurons differ?

Answer 14

Somatic = in the CNS (ventral horn or brain stem); Autonomic = outside CNS, in the autonomic ganglia

Question 15

What does it mean that the ANS uses disynaptic pathways?

Answer 15

Preganglionic neuron from the spinal cord/brain stem to the autonomic ganglia, then a post ganglionic neuron from the autonomic ganglia to the target cells

Question 16

What is the difference in emergence between the sympathetic and parasympathetic ANS?

Answer 16

Sympathetic: emerge in upper third (thoracic/lumbar); Parasympathetic: emerge in cervical and sacral (upper and lower extremes)

Question 17

Where are the preganglionic neurons the sympathetic ANS?

Answer 17

Intermediolateral gray matter of the spinal cord: sand axons through ventral roots to synapse on sympathetic chain ganglia, next to spinal column, or in collateral ganglia in the abdominal cavity

Question 18

Where are the two places that preganglionic sympathetic ANS neurons can synapse?

Answer 18

Sympathetic chain ganglia next to the spinal column, or collateral ganglia in the abdominal cavity

Question 19

Where are the preganglionic neurons of the parasympathetic ANS?

Answer 19

Brain stem nuclei and lower spinal cord: send axons within cranial nerves and sacral nerves to right next to the target organs

Question 20

What are the three types of tissue innervated by the ANS?

Answer 20

Glands, smooth muscle, and cardiac muscle

Question 21

What are the two divisions of the enteric system?

Answer 21

Myenteric plexus and submucous plexus

Question 22

What does the nucleus of the solitary tract do?

Answer 22

Autonomic control: integrates sensory info from internal organs and coordinates output to autonomic brain stem nuclei

Question 23

Why do most drugs have greater effect on ANS vs CNS?

Answer 23

ANS ganglia outside the BBB

Question 24

What is the primary transmitter of the peripheral ANS?

Answer 24

ACh: released by the preganglionic neurons of the SANS and the PANS

Question 25

What kinds of ACh receptors does ACh bind to, after being released by the SANS and PANS pregang neurons?

Answer 25

Nicotinic: nAChR, evokes fast EPSP; AND muscarinic: mAChR, evokes slow EPSP/IPSP

Question 26

What is the difference in NT secretion by the postgang SANS and PANS?

Answer 26

PANS also secretes ACh (like pregang), but SANS mostly secretes NE

Question 27

What are the effects of postgang PANS ACh?

Answer 27

Fast mAChR local response

Question 28

What are the effects of postgang SANS NE?

Answer 28

Far spreading effect

Question 29

What does it mean for a drug to sympathomimetic?

Answer 29

Mimic activation of SANS: promote NE and inhibit ACh

Question 30

What does it mean for a drug to be parasymathomimetic?

Answer 30

Mimic activation of PANS: inhibit NE and promote ACh

Question 31

Which of these are sympathomimetic vs parasympathomimetic?

Answer 31

Atropine is SANS, propanolol is PANS

Question 32

What are the four main characteristics of diffuse modulatory systems?

Answer 32

The core is usually a small set of neurons; the core neurons arise from the brain’s core, usually the brain stem; they contact tens of thousands of neurons; the synapses are made through ECF, so it’s very diffuse

Question 33

What is the locus coeruleus?

Answer 33

Tiny spot in pons that uses NE

Question 34

What do we believe is the importance of the locus coeruleus to attenion?

Answer 34

Increases brain responsiveness, especially to novel stimuli

Question 35

What are the raphe nuclei?

Answer 35

Spots on the sides of the midbrain; secrete 5HT

Question 36

What is the difference in caudal vs rostral raphe nuclei?

Answer 36

Caudal innervates the spinal cord for pain-related signals; Rostral innervates similarly to the locus coeruleus

Question 37

The locus coeruleus and the Raphe nuclei are both part of what system?

Answer 37

Ascending reticular activating system: core of arousal and awakening of the forebrain

Question 38

What are the brain structures most concentrated in DA?

Answer 38

Substantia nigra, ventral tegmental area

Question 39

What is the mesocortiolimbic dopamine system?

Answer 39

The dopaminergic projection from the midbrain, related to reward and reinforcement

Question 40

What are the two major diffuse modulatory systems for ACh?

Answer 40

Basal forebrain complex and pontomesencephalotegmental complex

Question 41

What is the basal forebrain complex?

Answer 41

Scattered cholinergic neurons around the telencephalon: medial septal nuclei and basal nucleus of Meynert

Question 42

What are the two parts of the basal forebrain complex?

Answer 42

Medial septal nuclei and basal nucleus of Meynert

Question 43

What is the importance of the basal forebrain complex?

Answer 43

First to die in Alzheimer’s; important for learning and memory

Question 44

What is the importance of the pontomesencephalotegmental complex?

Answer 44

In pons and midbrain tegmentum: acts on dorsal thalamus; regulates excitability of sensory relay nuclei; cholinergic link between brain stem and basal forebrain complexes

Question 45

What NT does LSD affect?

Answer 45

Serotonin: potent agonist on the presynaptic terminals of raphe nuclei neurons

Question 46

What NTs do cocaine/amphetamines affect?

Answer 46

DA and NE: sympathomimetic

Question 47

What is the difference in mechanism between cocaine and amphetamines?

Answer 47

Cocaine = selective DA reuptake; Amphetamines: blocks NE and DA reuptake AND release of DA