Subject Index
Progress in Psychobiology and Physiological Psychology
ISBN: 978-0-12-542118-8, eISBN: 978-1-84-950008-1
ISSN: 0363-0951
Publication date: 28 January 2003
This content is currently only available as a PDF
Citation
(2003), "Subject Index", Progress in Psychobiology and Physiological Psychology (Progress in Psychobiology and Physiological Psychology, Vol. 18), Emerald Group Publishing Limited, Leeds, pp. 181-185. https://doi.org/10.1016/S0363-0951(03)80010-5
Publisher
:Emerald Group Publishing Limited
Copyright © 2003 Emerald Group Publishing Limited
INDEX
5HT receptors
, 18–19
8-0H-DPAT
, 18–19
A
A-fibers
, 105, 126
Acetylcholine
, 20
Agouti-related protein (AgRP)
, 85, 88, 89
Alpha-2 adrenergic receptors
, 21
α-gustducin
, 106, 140
Amiloride
, 105–106, 121, 122, 123
effectiveness of
, 137, 138, 139
Androgen receptors
, 43, 48, 55, 57
Androgens, role in food hoarding
, 80
Anesthesia
, 142–144, 145
palatal
, 144
of tongue
, 144
Appetitive behaviors
, 69
Ingestive behavior, appetitive phase
Aromatase activity
, 48
B
Behavior, definition of
, 101
Benzodiazepines
, 5–6, 16
Bmal gene
, 9
Body fat levels
changes in pregnancy
, 81
inverse relation to food hoarding
, 80–86
Brief-access taste tests
, 110, 111, 117, 118, 119, 130
after GLand CT transection
, 139
C
C-fos gene
, 13
Carbachol
, 15–16, 20
Chorda tympani (CT) nerve
, 103
effects of combined CT and GSP transection
, 130–131
stimulus discrimination
, 131
unconditioned licking responses
, 130–131
effects of CT transection
, 115–125, 133–135, 137–138
conditioned taste aversion
, 122–124
oral motor taste reactivity
, 118–119
signal detection
, 115–117, 137
sodium appetite
, 121–122
stimulus discrimination
, 119–120, 126, 137, 138
on taste buds
, 133–135
unconditioned licking responses
, 117–118
innervation of salivary glands by
, 113, 124
regeneration of
, 134–139
CT and GL cross-regeneration
, 140–142
CT and GSP cross-regeneration
, 140
in humans
, 134–135
Circadian oscillators
, 22–23
Circadian pacemaker
activity-dependent feedback effects
, 6–7
dark pulse effects
, 7–8
neurobiology of
, 8–12
nonphotic effects
, 5–7, 13, 14
novelty-induced effects
, 5, 16, 17, 19–20
phase shifting
, 14
carbachol-induced
, 20–21
clonidine-induced
, 21
histamine-induced
, 21–22
serotonergic
, 18
triazolam-induced
, 19
photic effects
, 3–5, 13, 14
photic entrainment
, 12–13, 15, 16
sleep-deprivation effects
, 5
Circadian system
Circadian oscillators; Circadian pacemaker
free-running
, 2, 15
behavioral studies of
, 3
period affected by continuous illumination
, 4–5
Circumvallate papillae
, 103, 106, 107, 133, 136
CKIɛ gene
, 9, 10
Clock genes
, 9
Clock-controlled genes (CCGs)
, 9
Clonidine
, 21
Cold exposure
, 72–73, 85
Consummatory behaviors
, 69
Ingestive behavior, consummatory phase
Corticotropin-releasing hormone (CRH)
, 85
Cry genes
, 9, 10
D
DARPP-32
, 51
Dendrites
, 54
Dietary wisdom
, 75
Disinhibition
, 143–144
Dopamine receptors
, 51
Drosophila clock genes
, 9
E
ENaCs, see Epithelial sodium channels
Energy acquisition
, 70
Energy balance
, 86, 92
Energy flux
, 86, 92
Energy stores
, 75, 81, 85
Enkephalin
, 41, 42, 43
Epiglottis
, 106
Epinephrine
, 78, 79
Epithelial sodium channels (ENaCs)
, 105–106, 112, 121, 123, 138
ERα
, 48, 50–51, 56
ERβ
, 48, 50–51, 56
Estradiol
, 53, 80
Estrogen
cellular effects of
, 50–51
neonatal exposure to
, 49
neuronal activity effects of
, 51–52
receptors
expressed by VMH afferents
, 52
expressed by VMH neurons
, 43, 44, 45–46, 52
spine density regulator
, 48
Estrus cycle, effects on food hoarding
, 80
F
Fasting
, 73–74, 88
in photoperiod
, 72
Fish
, 145
Flank stimulation
, 46
Flavor
, 101
FLI, see Fos-like immunoreactivity
Foliate papillae
, 103, 106
Food-carrying behavior
, 70–71
Food hoarding
, 69–92
central control of
, 86–91
deficit hypothesis
, 71, 74
early laboratory studies
, 70–71
environmental influences
, 71–78
cold exposure
, 72–73, 85
food shortage
, 73–74
food type
, 74–75
foraging effort
, 75–78
photoperiod
, 72
inverse relation to adiposity
, 80–86
lipostatic theory
, 71
in nature
, 70–71
peripheral physiological controls of
, 78–80
gonadal steroids
, 79–80
metabolic fuel challenges
, 78–79
Food intake, role of VMH in
, 56
Food restriction
, 73
Foraging
, 69, 87–90
effort
, 75–78
Fos induction
, 46
Fos-like immunoreactivity (FLI)
, 127–129
Frustration
, 71
Fungiform papillae
, 102, 107, 134
G
G-protein genes
, 107
GABA
, 10, 11, 15, 16, 17
in VMH
, 46, 47, 48, 49, 52
GAD
, 47
GAP-43
, 49
Gaping
, 127–129, 132, 136
Geniculohypothalamic tract (GHT)
, 15–17
Geschmacksstreifen
, 103, 106, 134
GHT, see Geniculohypothalamic tract
Glossopharyngeal (GL) nerve
, 103
effects of GL transection
, 125–129, 131
oral motor taste reactivity
, 127–129
sodium appetite
, 126
stimulus discrimination
, 120, 125–126, 131
on taste buds
, 133, 134
unconditioned licking responses
, 125
human
, 144
innervation of von Ebner’s glands by
, 113
regeneration of
, 134–136, 139
GL and CT cross-regeneration
, 140–142
Glucoprivation
, 79
Glutamate
, 13, 16, 17, 21, 22
in VMH
, 46, 47, 52
Goal-lessness
, 71
Golgi impregnation
, 53
Gonadal fat
, 78
Gonadal steroids
, 79–80
Greater superficial petrosal (GSP) nerve
, 103, 114
effects of combined CT and GSP transection
, 130–131
stimulus discrimination
, 131
unconditioned licking responses
, 130–131
regeneration of
, 134
GSP and CT cross-regeneration
, 140
Gustatory system, peripheral
, 101–146
anatomy
, 102–103, 104
biophysics and molecular biology
, 105
electrophysiology
, 103–105
human
, 142–145
compared with rodents
, 146
nerve cross-regeneration
, 140–142
nerve regeneration consequences
, 133–139
nerve transection consequences
, 111–133
CT and GSP transection, see Chorda tympani (CT) nerve, effects of combined CT and GSP transection
CT transection, see Chorda tympani (CT) nerve, effects of CT transection
early history
, 113–115
general caveats
, 112–113
GL transection, see Glossopharyngeal (GL) nerve, effects of GL transection
summary and functional implications
, 131–133
H
H-fibers
, 104, 105
Hibernation
, 72
Histamine
, 21–22
Hunger
, 71
Hyperphagia
, 74
I
IGL, see Intergeniculate leaflet Immediate early-response genes (lEGs)
, 13, 16
Infertility, fasting-induced
, 83
Ingestive behavior
appetitive phase of
, 69, 87, 88, 90, 111, 127
Food hoarding;
Foraging
consummatory phase of
, 69, 87, 90–91, 111, 127
Inosine monophosphate
, 107
Instinct
, 71
Insulin
, 79, 111, 123
Intake tests
, 110, 111, 113–115, 141
Intergeniculate leaflet (IGL)
, 11, 15–17, 18, 19
K
Kinase C
, 51
L
Lateral hypothalamus (LH)
, 85
Leptin
, 82–83
Licking responses
, 110, 117–118, 119, 125, 130–131, 145
Lipectomy
, 81
Lipid deficits
, 81–82, 86
sensed by brain
, 82–83
Lipoprivation
, 79
Lordosis response
, 39–40
estrogen mediated
, 50–51
in male rats
, 49
role of GABA in
, 46, 47
role of glutamate in
, 47
role of VMH in
, 44, 47, 58
M
Macronutrients
, 75
Masking
, 2
Maternal aggression
, 55
Maternal behavior role
, 55
Maternal nurturing
, 55
Mecamylamine
, 20
Melanocortin (MC)
, 89
Melanopsin
, 13
Melatonin
, 23, 72, 86
Metabolic fuel utilization
, 79
mGluR4 receptors
, 107, 112
Micronutrients
, 75
MK-801
, 21
Morphine
, 90, 91
N
N-fibers
, 104, 105
Naltrexone
, 90, 91
Nasoincisor ducts (NID)
, 130, 134
Neuropeptide Y (NPY)
, 11, 15, 16, 17, 88
injected
, 85, 87, 88, 89
Neuropeptides
as controllers of appetitive ingestive behaviors
, 88–90
as controllers of food intake
, 87
Neuropil, in YMH
, 48
NPY, see Neuropeptide Y
Nucleus of the solitary tract (NST)
, 103, 127–128, 135, 139, 143, 145
O
Opiates
, 90
Oral motor taste reactivity
, 118–119, 127–129
Orexin
, 88, 89
Oxytocin receptors
, 43, 44, 51
P
PAG, see Periaqueductal gray Paraventricular nucleus (PYN)
, 40–41
Per genes
, 9, 10, 14, 17
expression effects
of 8-0H-DPAT
, 19
of glutamate
, 13
of light exposure
, 17
of PACAP
, 15
expression in peripheral tissues
, 23
functional specialization
, 22
Perception
, 101
Periaqueductal gray (PAG)
, 40, 41, 42, 54
role in lordosis reflex
, 44
subdivisions of
, 42
Peripheral gustatory system, see Gustatory system, peripheral
Phase-response curves (PRCs)
, 2
for carbachol-induced phase-shifting
, 20
dark pulse
, 7–8
nonphotic
, 6, 14, 20
for novelty-induced activity
, 4, 5, 7
photic
, 3–4, 6, 14, 20
for serotonergic stimulation
, 18
triazolam effects
, 4, 5, 7
Photoperiod
, 72, 86
Pineal gland
, 72
Pituitary adenyl cyclase activating peptide (PACAP)
, 11, 15
Posterior palatine field
, 103, 134
PRCs, see Phase-response curves
Predation
, 92
Progesterone
, 80
Progestin receptors
, 44, 46, 48
Prolactin
, 42, 43, 80
PRY detected in
, 45
Proopiomelanocortin gene
, 88
Pseudorabies virus (PRY)
, 44–46
Pup cannibalism
, 75
PYN, see Paraventricular nucleus
Q
Q-fibers
, 105, 126
Quinine aversion
, 114, 115
R
Raphe nuclei, mesencephalic
, 11, 17–20
Reproduction, and food hoarding
, 80, 86, 92
Retinohypothalamic tract (RHT)
, 12–15, 17
S
S-fibers
, 105
Salivary glands, innervation of
, 113, 124–125
Salivation
, 111, 133
SCN, see Suprachiasmatic nucleus
Security
, 71
Serotonin
, 17–20
Sexual behavior
human
, 57
importance of VMH for
, 40, 55
rodent
, 39
SF-1 gene
, 55
SLN, see Superior laryngeal (SLN) nerve
Sodium appetite
, 121 122, 126
Spines, dendritic
, 53, 54, 58
Splitting
, 22
Substance P (SP)
, 11, 15, 42, 43, 46, 56
in WAT
, 83
Superior laryngeal (SLN) nerve
, 103, 114, 132
minor role in taste-guided behavior
, 130
Suprachiasmatic nucleus (SCN)
circadian oscillation in
, 8–9
core
, 10–12
GRP-positive neurons in
, 10
YIP-positive neurons in
, 10
SCN afferent systems
, 11, 12–22
IGL
, 11, 15–17
raphe
, 11, 17–20
retinal
, 11, 12–15
shell afferents
, 20–22
shell
, 10–12
AVP-positive neurons in
, 10
T
T1Rs
, 107
T2Rs
, 106, 107
Taste
, 101
Taste aversion, conditioned
, 122–124
Taste buds
, 102–103, 104
after nerve transaction
, 133–134
regeneration of
, 134, 135, 136, 139
Taste discrimination tasks
, 119–120, 122, 125–126, 131, 137–138, 144–145
Taste dysfunction, human
, 142–145
Taste function
, 108–109
domains of
, 109–111
affective
, 109, 110–111
physiological domain
, 111
sensory-discriminative
, 109–110
Taste phantoms
, 143
Taste pore
, 102
Taste receptor cells
, 101, 102
ion channels on
, 105
laryngeal
, 102, 114
palatal
, 106, 114
protein receptor sites on
, 105
Temperature rhythm, daily
, 2
Testosterone
, 80
neonatal exposure to
, 49
Thermal homeostasis
, 72
Thiouracil
, 79
Thyroxine
, 79
Tim gene
, 9
Tongue maps
, 108–109
Triazolam
, 5–6, 16, 17, 19–20
Triglyceride
, 111
U
U-50,488H
, 90, 91
Umami
, 107
V
Vaginal cervix stimulation (VCS)
, 39, 46
Ventromedial nucleus of the hypothalamus (VMH)
, 39, 58
afferents
, 40–41, 49, 52
calorie regulation role
, 55–56
cellular effects of estrogen in
, 50–51
central zone
, 43
dorsomedial zone
, 43
spine density in
, 53, 54
efferents
, 42
human
, 56–57
intrinsic circuitry
, 43–47
male sexual behavior role
, 55
maternal behavior role
, 55
neuronal activity effects of estrogen in
, 51–52
rostral zone
, 43, 45
sexual dimorphisms of
, 47–50
synaptic organization
, 44, 48
estrogen-induced changes
, 52–55
ventrolateral zone
, 43, 44
neurons in
, 45–46,54
role in lordosis response
, 44, 47, 58
spine density in
, 53–54
Visual system, primate
, 146
VMH, see Ventromedial nucleus of the hypothalamus
W
White adipose tissues (WAT)
, 78, 81–82, 83–85
epididymal (EWAT)
, 78, 81
gonadal
, 77, 78
sensory innervation
, 83–85
- Progress in Psychobiology and Physiological Psychology
- Progress in Psychobiology and Physiological Psychology
- Copyright Page
- Contributors
- Preface
- Contents of Recent Volumes
- Neurobiology of the Mammalian Circadian System: Oscillators, Pacemakers, and Pathways
- Hypothalamic Neural Circuitry: A Target for the Behavioral Effects of Steroids
- Food Hoarding: A Quintessential Anticipatory Appetitive Behavior
- The Functional Organization of the Peripheral Gustatory System: Lessons from Behavior
- Author Index
- Subject Index