Neurotransmitters

Question 1

characteristic sign for uncal herniation (shift in brain)

Answer 1

unresponsive pupil (to pupillary light reflex)

Question 2

chemical released by cell (endocrine) that acts on neuron to alter its response to NT

Answer 2

neuromodulator (neuropeptides)

Question 3

two general functions for chemical NT

Answer 3

rapid communication and neuromodulation (mediate synaptic transmission and neuronal growth)

Question 4

most common excitatory NT, most common inhibitory

Answer 4

glutamate, GABA

Question 5

most common NT in PNS at neuromuscular junction; what is most common for ANS?

Answer 5

Ach; norepinephrine

Question 6

dopamine, norepi, epinephrine, serotonin are examples of this NT

Answer 6

monoamines

Question 7

this NT thought to be involved in long term potentiation

Answer 7

glutamate

Question 8

amino acid excitatory NT

Answer 8

aspartic acid and glutamic acid

Question 9

inhibitory amino acid NT

Answer 9

GABA and glycine

Question 10

indoleamine monoamine NT

Answer 10

serotonin

Question 11

substance P, somatostatin, neurotensin, CCK, enkephalins/endoprhins are examples of this kind of NT

Answer 11

peptide

Question 12

these are examples of putative NT

Answer 12

endogenous benzodiazepines and prostaglandin

Question 13

this catalyzes acetylcholine

Answer 13

choline acetyltransferase

Question 14

4 mechanisms for NT regulation of hypothalamic hormones

Answer 14

interneurons, direct, presynaptic, portal circulation

Question 15

Ach functions mainly in neuromodulation…affects these functions

Answer 15

attention, memory, learning

Question 16

major cholinergic pathways

Answer 16

pedunculopontine tegmental nuclei, septal nuclei, nucleus basalis of Meynert

Question 17

major cholinergic pathway involved in arousal and coordinated locomotor activities

Answer 17

pedunculopontine tegmental nuclei to intralaminar thalamus

Question 18

where is pedunculopontine tegmental nuclei cholinergic pathway located (*to intralaminar thalamus*)

Answer 18

lateral RF

Question 19

cholinergic pathway that facilitates hippocampal theta rhythm related to memory

Answer 19

septal nuclei

Question 20

cholinergic septal nuclei project here via fornix

Answer 20

hippocampus

Question 21

where is nucleus basalis of Meynert?

Answer 21

substantia innominata

Question 22

what is input to cholinergic nucleus basalis of Meynert? where does it project?

Answer 22

locus ceruleus, raphe nuclei, substantia nigra, amygdala, orbitofrontal cortex; cerebral cortex

Question 23

cholinergic pathway that degenerates in Alzheimer’s disease

Answer 23

nucleus basalis of Meynert

Question 24

lesion of central tegmental tract will cause this

Answer 24

coma

Question 25

NT for VPLO hypothalamus

Answer 25

GABA

Question 26

rate limiting step of catecholamine NT synthesis…present in all catecholamine neurons

Answer 26

tyrosine hydroxylase

Question 27

all catecholamine NT are synthesized from this

Answer 27

tyrosine

Question 28

septal nuclei projects via fornix to hippocampus/amygdala via this cholinergic pathway

Answer 28

diagonal band of broca

Question 29

catecholamine dopamine can be identified by this marker

Answer 29

tyrosine hydroxyalse

Question 30

this catecholamine is depleted in Parkinsons, increased in schizo.

Answer 30

dopamine

Question 31

two MAJOR sources of dopamine in brain

Answer 31

substantia nigra pars compacta and VTA

Question 32

dopaminergic pathway…SNc projects to striatum; dysfunction in this pathway causes what?

Answer 32

nigrostriatal pathway; Parkinson’s

Question 33

dopaminergic pathway….from VTA to all cortical/subcortical structures of limbic system (*positive symptoms of schizo.*)

Answer 33

mesolimbic

Question 34

where does dopaminergic mesolimbic pathway arise?

Answer 34

VTA

Question 35

this drug blocks dopamine reuptake transporter

Answer 35

cocaine

Question 36

these drugs are dopamine-releasing agents, also block reincorporation of dopamine into synaptic vesicles

Answer 36

amphetamine and meth

Question 37

this drug attaches to specific excitatory receptors in plasma membrane of neuron

Answer 37

nicotine

Question 38

drugs of abuse affect this dopamine pathway

Answer 38

VTA to nucleus accumbens

Question 39

dopaminergic mesocortical pathway

Answer 39

VTA to prefrontal cortex

Question 40

dopaminergic pathway involved in working memory, motor initiation; deficit produces what?

Answer 40

mesocortical pathway; hypokinesia and cognitive deficits (related to Parkinson’s)

Question 41

major sources of serotonin

Answer 41

raphe nuclei and pineal gland

Question 42

marker for catecholamine norepinephrine

Answer 42

dopamine B-hydroxylase

Question 43

norepi is transmitter for these neurons

Answer 43

postgang. sympathetic

Question 44

thalamus is inhibitory or excitatory to thalmus?

Answer 44

excitatory

Question 45

these drugs can be used to treat epilepsy, anxiety, sedatives/anesthesia (*GABA agonist*)

Answer 45

benzodiazepenes (valium) and barbituates (pentobarbital)

Question 46

two main areas for noradrenergic pathways

Answer 46

locus ceruleus and LTA

Question 47

contains largest concentration of epinephrine in CNS (projects to ALL parts CNS)

Answer 47

locus ceruleus

Question 48

inputs to noradrenergic locus ceruleus

Answer 48

cortex, limbic, RF, raphe nuclei, cerebellum, SC

Question 49

NT from tuberomammillary nucleus

Answer 49

histamine

Question 50

noradrenergic pathway/norepi store…significant loss in Alzheimer and Parkinson’s…plays role in *anxiety and panic disorders*

Answer 50

locus ceruleus

Question 51

lateral tegmental area projects to hyopthalamus and thalamus via these pathways

Answer 51

central tegmental tract and MFB

Question 52

noradrenergic located in medulla and pons…involved in sympathetic BP control (projects to hypothalamus and thalamus)

Answer 52

lateral tegmental area

Question 53

marker for serotonin

Answer 53

tryptophan hydroxylase

Question 54

plays important role in arousal, sensory perception, emotion, higher recognition…also depression, anxiety, OCD, aggression, eating disorders

Answer 54

serotonin

Question 55

serotonin has these effects with low levels; this in high levels

Answer 55

depression and insomnia; mania

Question 56

these can increase serotonin levels by blocking reuptake

Answer 56

tricyclic antidepressives

Question 57

where do raphe nuclei project from the medulla, pons, and midbrain (serotonergic pathways)

Answer 57

spinal cord; cerebellum and SC; diencephalon and telencephalon

Question 58

highest concentration of serotonin in body

Answer 58

pineal gland

Question 59

pinealocytes convert serotonin to this

Answer 59

melanin

Question 60

what endorphins are derived from

Answer 60

pro-opiomelanocortic (precursor to ACTH)

Question 61

endorphins are found almost exclusively in these nuclei of the *hypothalamus*

Answer 61

arcuate and mammillary nuclei

Question 62

where do endorphins in hypothalamus project to?

Answer 62

hypothalamus, amygdala, nucleus accumbens, septal area, thalamus, locus ceruleus

Question 63

what are enkephalins derived from?

Answer 63

proenkephiln

Question 64

most abundant and widely distributed opiod peptide

Answer 64

enkephalins

Question 65

where are enkephalins in highest concentration? what circuit systems are they a part of?

Answer 65

globus pallidus; striatum and limbic

Question 66

staining for GABA

Answer 66

glutamic acid decarboxylase

Question 67

what does GABA coexist with mostly?

Answer 67

enkephalin and substance P

Question 68

GABA-ergic neurons from striatal neurons project here

Answer 68

globus pallidus and substantia nigra

Question 69

GABA-ergic neurons from pallidal and nigral neurons project here

Answer 69

thalamus

Question 70

major inhibitory transmitter in SC; what blocks this inhibitory action?

Answer 70

glycine; strychnine

Question 71

major excitatory NT in brain

Answer 71

glutamate

Question 72

places that use glutamate NT

Answer 72

cerebellar granule, corticobulbar, corticospinal, DRG neurons

Question 73

these glutamate receptors may be involved in long-term potentiation in the hippocampus

Answer 73

NMDA

Question 74

this plays a role in kindling-induced seizures (and pain transmission of Ad and C fibers)

Answer 74

glutamate

Question 75

glutamate is involved in these projections to globus pallidus

Answer 75

corticostriate and subthalamic

Question 76

this NT is located in olfactory system, striatum, cortex, hippocampus, supraoptic nucleus and cerebellum

Answer 76

nitric oxide

Question 77

ascending pathway of endogenous pain control involves this tract

Answer 77

spinoreticular (impulses to PAG)

Question 78

descending raphespinal pathway for pain control

Answer 78

PAG-nucleus raphe magnus-serotonin to enkephalinergic interneurons dorsal horn (substantia gelatinosa)

Question 79

this provides direct inhibition of tract cells hat give rise to ascending pain pathway

Answer 79

ceruleospinal pathway

Question 80

these are present in Parkin’s disease in substantia nigra

Answer 80

Lewy bodies

Question 81

Huntington disease has loss of these neurons in the striatum

Answer 81

Ach and GABA-ergic

Question 82

these neurons are degenerated in nucleus basalis of Meynert in Alzheimer’s disease

Answer 82

cortical and cholinergic neurons

Question 83

Alzheimer’s associated with a massive loss of this on cortex

Answer 83

Ach acetyltransferase

Question 84

myasthenia gravis is characterized by antibodies to these

Answer 84

nicotinic Ach receptors (causes muscle paresis)

Question 85

Lambert-Eaton myasthenic syndrome is caused by this; what does this cause?

Answer 85

presynaptic defect Ach release; limb weakness and autonomic dysfunction