Post on 17-Dec-2015
Limbic & Autonomic Systems
Brent A. Vogt, Ph.D.
Limbic Systems by Iversen, Kupfermann, Kandel
Page 984“Feelings are cognitive translations of
ambiguous peripheral signals.”
What is a feeling?
Limbic Systems by Iversen, Kupfermann, Kandel
Page 987“The limbic system consists of the limbic
lobe and deep lying structures.”
In light of Fig. 50-4, is the hippocampus part of the limbic system?
Limbic Systems by Iversen, Kupfermann, Kandel
Page 994“The hippocampus has only an
indirect role in emotion.”
Is the hippocampus part of the limbic system and is it involved in emotion?
Limbic Systems by Iversen, Kupfermann, Kandel
Page 988“The amygdala is the part of the limbic system most specifically involved with
emotional experience.”
What does “most specifically” mean? Are there less specific involvements?
What is emotional experience?
Limbic Systems by Iversen, Kupfermann, Kandel
What is the limbic system?What are its functions?
What is emotional information?
Fig 50-8 only shows emotion as output from Central nuc of Amygdala
Is that the only limbic/emotion nucleus?
Limbic Systems by Iversen, Kupfermann, Kandel
The major problems in limbic system research are
1. Failure to integrate human imaging2. No consistent theoretical context.
Components of Limbic Systems
1. Periaqueductal gray; PAG 2. Hypothalamus/HPA Axis3. Amygdala 4. ACC/insula5. MCC6. DRN/LC
7. Autonomic Nervous System
Limbic Structures & Key Functions
1. PAG Coordinated behaviors; Autonomic/Skeletal2. Hypothalamus/HPA Axis Autonomic/hormonal control3. Amygdala Simple significance codes/valences; mostly fear4. Anterior cingulate (ACC) & Insula
Store Emotional/Valenced information Recode amygdala
5. Midcingulate cortex (MCC)Predict outcomes & Resolve ambiguitySelect outputs; mental or movement decisionsDevise new behaviors for new problems
6a. Dorsal Raphe Nucleus (DRN) Regulate mood 6b. Locus coeruleus (LC) Coordinate responses to events &
Enhance valenced memories7. Autonomic Nerv Sys (ANS) Supports skeletomotor output &
Enhances CNS memory of valenced objects/events
Emotion Involves Valencing Objects/Events
Emotional Motor Systems
for Expressing Emotion
Structures that regulate ANS/Fight-or-FlightCentral AmygdalaSubgenual ACC
PVN, HypothalamusVentrolateral PAG
LC
Primary & Secondary Emotions
PAG: Coordinates Emotional BehaviorsGenerates Primary Emotions
3. Norepinephrine (NE)/LC Selects F-or-F Mode
1. Location
2. Two Functional Modes
3. Stroke/tumors to Hypothal PAG can produce Sham RageFully integrated rage without external control
e.g., a fly on nose & excess rage
1. Location
2. Stimulated Defense or Eating
Electrical Stimulation of Hypothalamus (VMH/Lat) or PAG Evokes Integrated Behaviors
PAG Regulates ANS via Projections to NTS, DMX, IML
2. Limbic cortex drives PVN to secrete CRH into portal veins. CRH evokes release of ACTH from the pituitary which evokes release of cortisol from adrenal cortex. Cortisol binds glucocorticoid rec. to ↑ glucose levels & metabolism, amino acid metabolism, fat breakdown, release of neutrophils & ↑ memory
Hypothalamus Controls Hormone Response: HPAA
1. Pituitary Location
3. NE/LC Drives PVNHPA Axis
2. Central nucleus regulates cardiovascular outputLateral nuclei receive sensory cortex input for
coding significance/valence
Kluver-Bucy Syndrome follows amygdala damagea. Docility b. Absence of emotional expression
c. Paucity of social interactionsd. Hyperorality/obesity e. Visual agnosia
f. Impaired short-term memory
1. Location
Amygdala & Fear
Amygdala stores simple significance codes mainly for fear(hissing snake, growl of dog, raised knife, flushed face)
Amygdala Involved inFear Perception, ANS Response & Memory
Memory of object/event
NE/LC Enhances Negative Memories
1. 2.
3.
4. 5.
6.
Lipoid proteinosis with rage & loss of recent memory& complete loss of the amygdala (white arrows)
SM-046 could not judge intensity of facial fear. She understood non-threatening faces and made
judgments with verbal information. She could draw fearful faces from memory & prompting but claimed
they were not accurate.
Amygdala codes for objects and events of non-conscious or conscious fear.
Behavior after amygdala damage reflect miscoding of fearful events, lead to excessive risk taking, odd
relations & financial decisions.Symptoms of amygdala damage
Case of Bilateral Amygdala Damage
Affect & Motivation in Cingulate Gyrus (Flat map)
2. ACCStores Valenced
MemoriesRegulates ANS
3. MCC: Resolves conflictRegulates skeletomotor output
1. Location
ACCMCC
ACC Stores Memories of Sad Events
Positron Emission Tomography (PET) study of healthy women remembering sad events
Summary of functional
imaging studies of simple emotionsFear, Sadness & Happiness are
segregated
ACC Mediates ANS Activity With the Amygdala
ACC projects to autonomic brainstem: Nuc of Solitary Tract & DMX
Stimulation at V evoked pure fearat H evoked “desire to leave room”
Amygdala Projects to ACC
Axon terminal labeling (dots)Monkey[3H] Amino acid injection(hatched)
Amygdala & Cingulate Cortex Interact During Fear
Red/yellow + correlationsBlue – correlations
This connection disrupted indepression &posttraumatic stress disorder
Electrical Stimulation of MCC Evokes Complex Skeletomotor Responses adapted to Context
lip puckering,finger kneading,
bilateral limb movements(not single muscle/muscle groups like motor cortex)
Kissing, scratching, pushingActivities that are valenced & context dependent
I
II
IIIab
IIIc
Va
Vb
VI
I
II
IIIab
IIIc
Va
Vb
VI
CinguloSpinal/Layer Vb Projection Neurons
MCC Directly Regulates Skeletomotor
Behavioral & Emotion Relevant Activity
Facial Region of the Cingulate Motor Area:Expressing & Interpreting Emotional States
The Facial Region Projects to the Facial Motor Nuc;
Muscles of facial expression
All emotions can impactthe facial region in ACC
Interpreting Internal Emotional States:Empathy
Facial ambiguity is not resolved in
amygdala
What is this bride’s face saying about her emotional state ?
ACC uses context information
Internal State and Expression ofComplex Emotions Requires ACC
Context resolves complex and ambiguous emotional
states
Can you now understand what this woman is saying
with her face?
LC regulates HPA axis via PVN &ANS by projections to NTS/DMX
LC Pivotal to F-or-F Systems
Locus CoeruleusMediates F-or-F & Emotional Memories
LC & PVN are reciprocally connectedActivation of the PVN by allostatatic-stress signals
from prefrontal/cingulate cortices drive LCLC releases NE in thalamus, amygdala, and cortex to
enhance memories associated with ANS output; i.e., beating heart and heavy breathing
Storage of memories of valence codes in amygdala and significance/context in ACC
depends on NE/LC
LC/NE Integrates Limbic Motor Systems
1. NTS/PVT mediate heart rate responses in sACC/Central Amyg
2. PAG:NE selects F-F
3. PVN drives HPA Axis;NE, ACTH, Cortisol
4. Enhances Amygdala processing & memory
Overview of Limbic Motor Systems
Dorsal Raphe Nuclei (DRN)
2. Serotonergic (5HT) neurons3. Project to forebrain(Amygdala & ACC)
4. Determines tonic activity
1. Located in Midbrain
The DRN Regulate Mood
Limbic Diseases Are Associated withDisordered Behaviors
Depression Reduced reactivity to the environment &
Lack of emotional responsivityAnxiety and sometimes panic
Traits are genetic predispositionsassociated with
behavioral & neuronal phenotypes
Prodromal Depression:Predisposition before Symptoms
1. Up to 70% cases inherited2. Short variant polymorphism in 5HT Transporter;
Chromosome 17q12Reduces transcription efficacy of the 5HTT
3. Associated with trait anxiety and risk of depression
2. Amygdala uncontrolled by ACC/MCC associated with enhanced fear – anxiety
“Normals” with Short 5HTT alleleShrunken sACC & Amygdala
1. Reduced Functional Interaction of
sACC & Amygdala
Major Depression State withReduced ACC Size & Sad Activation
Positron Emission Tomography study of glucose metabolism
Highest 5HTT Density in ACC
Citalopram binds to 5HTTHeaviest binding in ACC accounts for clinical efficacy ofselective serotonin reuptake inhibitors (SSRI); paroxetine
5HT Therapeutic Targets for Depression
Pharmacotherapy for DepressionEnhance 5HT Function in ACC & Amygdala