fundamental cns arousal; moods, molecules, maths. donald pfaff the rockefeller university laboratory...
TRANSCRIPT
Fundamental CNS Arousal; Moods, Molecules, Maths.
Donald Pfaff
The Rockefeller University
Laboratory of Neurobiology and Behavior
I. Looking backward: It is possible to explain mechanisms for a mammalian behavior.
II. Looking forward:
Sex Behavior Sexual Arousal Arousal.
III. Primitive, elementary arousal mechanisms: BBURP Theory
IV. Can we do the maths of arousal mechanisms? (Information Theory)
MECHANISMS ESTABLISHED FOR A SIMPLE HORMONE – DEPENDENT SOCIAL
BEHAVIOR
• Pinpoint cellular targets for estrogens (cells express ER, ER). • Determine neural circuit for lordosis behavior. • Establish which neurons accomplish E/ERs Lordosis facilitation. • Show requirements for new mRNA, protein synthesis. • Discover certain E gene transcription inductions. • Test certain gene/lordosis behavior relations.
MODULAR SYSTEMS DOWNSTREAM FROM HORMONE-FACILITATED TRANSCRIPTION RESPONSIBLE FOR A MAMMALIAN SOCIAL
BEHAVIOR: “GAPPS” .
• Growth (rRNA, cell body, synapses).• Amplify (pgst/PR downstream genes).• Prepare (indirect behavioral means;
analgesia (ENK gene) and anxiolysis (OT gene).
• Permit (NE alpha-1b; muscarinic receptors).• Synchronize (GnRH gene, GnRH Rcptr gene
synchronizes with ovulation).
Construction of Cassette for an AAV Vector
Western blot: ER is Knocked Down in Hypothalamus
In Hypothalamus, VMN Neurons Do Not Have ER, and PR is Not Induced Following AAV Injection
Musatov, S., et al.
2005
A 4-gene micronet controls social recognition and thus affiliation & aggression.
Ovaries:Estrogen (E)productionSocial Recognition
OTER
OT
Individual-specificolfactory cues
Non volatile
volatile
Amygdala ER
MainOlfactory
Bulb/System
HypothalamusPVN and SON
VomeronasalOrgan
OTR
E
E
OTE
Blood Stream
AccessoryOlfactory
Bulb/System
Question answered:
“Is it possible to explain mechanisms for any mammalian behavior?”
YES.
(II.) New Question:
“Can we approach mechanisms for the fundamental force in the CNS, which underlies all mammalian behaviors?”
YES
Literature Review:
(minutes)
(hours)
(lifetime)
FEELINGS
EMOTIONAL FUNCTION
MOODS
TEMPERAMENT
AROUSAL
COGNITIVE FUNCTION
SUSTAINED ATTENTION
ATTENTION
ALERTNESS
AROUSAL
DECISION MAKING
Fundamental Arousal of Brain and Behavior: Applications
• Stupor, vegetative, coma
• Aging• Alzheimer’s• ADHD• Autism• Anesthesia• Sleep Disorders
• Mood Disorders (Depression, Bipolar Disorders)
• Vigilance/Military• Vigilance/Shift Work• Vigilance/Dangerous
Occupations• Toxicology (e.g., Lead in
water)• Fatigue states (CFIDS,
FMS, Gulf War)
Operational Definition of Arousal
A more aroused animal or human is:
i. More alert to sensory stimuli in all modalities.
ii. Emitting more voluntary motor activity.
iii. More reactive emotionally.
A = Arousal, as a function of generalized arousal (Ag) and specific forms of arousal (As). A is thought to be an increasing function of the variables Ag and As (1 to n) , sometimes additive, sometimes multiplicative or exponential and therefore potentially complex. While the constants (Kg and Ks 1 - n) reflect traits of the individual, arousal components (Ag, As) are determined by the immediate environment.
Re Inputs:
Re Operations:
Re Outputs:
(III.) How does generalized
arousal of the CNS work?
(Neuroanat., Neurophys., Functional Genomics)
Descending Arousal-controlling Systems
Bilateral
Bidirectional
Universal
Response
Potentiation
High throughput assay of all three components of CNS arousal
Starting a Proof of Principle: CNS Arousal is Experimentally Tractable
• 3 Genes
– ER, Nuclear receptor
– PGDS, Enzyme
– Histamine Receptor, Type 1
• 3 Methods in Mouse CNS Functional Genomics– Null Mutation
– Anti-sense Oligos
– Mol. Pharmacology
a) Running Wheel, ERKO(Older Mice)
0 1 2 3 4 5 6 7 8 9 10 11 12 13 140
25000
50000
75000
100000WTERKO
Day #
# o
f R
evo
luti
on
sWT ERKO
100%
% o
f W
T
b) Running Wheel, ERKO(Younger Mice)
0 1 2 3 4 5 6 7 8 9 10 11 12 13 140
25000
50000
75000
100000WTERKO
Day #
# o
f R
evo
luti
on
s
WT ERKO
100%
% o
f W
T
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10000
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1000000
1 10 100 1000 10000 100000 1000000
24 hr Estradiol
24 h
r V
ehic
le
Gene Expression (N=11,669) of MBH following 24 hours Estradiol vs Vehicle Treatment in OVX Female Mice
PresentAbsent
Chip: Affymetrix Mu11 A,B
Microarray Confirmation
Northern Blot
V E2 V E2 V E2 V E2
OBMBHCTX POA
Blotted total RNA was probed with a P32-labeled DNA probefor PGDS.
The same blot was re-probed with a DNA probe for 18s ribosomal RNA as a measure of RNA quantity per lane
PGD2S
18s
Poly-[D,L-lactide-co-glycolide] Microspheres (PLGA)
RESOMER® RG 502 H
With Steven Little and Robert Langer at MIT
Average size Ø = 5 m
inside view
Encapsulation Release
0
10
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110
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
Time (Days)
% R
elea
sePoly-[D,L-lactide-co-glycolide] Microspheres (PLGA)
Antisense
Scrambled
Duration of Activity Vestibular Stimulus
0
10
20
30
40
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60
SAL SALSCRM SCRM AS AS
OIL E2
** *
*
n=6 n=5 n=6 n=5 n=5 n=7
MIN
MALES
FEMALES
time (minutes)
HA
CT
EFFECT OF AN H1 RECEPTOR ANTAGONIST ON SENSORY RESPONSIVENESS
TACTILE
0
50
100
150
200
b1 b2 1 2 3 4 5 6 7 8
OLFACTORY
0
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160
b1 b2 1 2 3 4 5 6 7 8
OLFACTORY
0
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160
b1 b2 1 2 3 4 5 6 7 8
TACTILE
0
50
100
150
200
b1 b2 1 2 3 4 5 6 7 8
How do generalized arousal mechanisms influence particular
arousal states, thus to facilitate specific
behaviors?
Histamine Receptor Signal Transduction Pathways
Gi/Go
H3
HVACC
Ca2+AC ATP
cAMP
PLA2
AA
H2
GsAC
ATP
cAMP
PKA
CREB
H2
Gq
PLC
IP3
Ca2+
HVACC
Kca
K+
Ca2+
Ca2+
Gq/11
AA
IP3
PKCgK+
leak
PLA2
PLC
cGMP
DAG
NMDA
H1
Gs
ACATP
cAMP
+
K+
H2/A2
NO
Generalized Arousal Transmitters on VMN Neurons
800000600000400000200000
T im e (m s)
IN 2 (mV)
-100
-80
-60
-40
800000400000Time (m s)
IN 2 (mV)
-100
-80
-60
-40
600000400000200000Tim e (m s)
IN 2 (mV)
-100
-80
-60
-40
Sodium channel blocker, TTX, had no effect on histamine-induced depolarization
Pre-TTX During TTX Post-TTX
Pataky et al.
Histamine depolarization was abolished by potassium channel blocker TEA
HA on
600000400000200000Tim e (m s)
IN 2 (mV)
-80
-60
-40
-20
TEA off
HA on
16000001400000Tim e (m s)
IN 2
(mV)
-80
-60
-40
-20
Pataky et al.
Jin Zhou et al: Potassium current blocker (TEA, 4-AP), but not sodium (TTX) and/or calcium (Cd2+) current blocker abolished histamine-induced depolarization in VMH neurons.
Calcium chelator (BAPTA) and Calcium-free ACSF did not block histamine-induced depolarization.
Estrogen treatment increased both HA-induced depolarization and inward current in VMH neurons. Significantly higher percentage of neurons showed action potential firing during depolarization in E2-treated group compared with oil-treated group (Zhou et al).
(IV.) Idea: Information theory maths shed light on CNS arousal
mechanisms
)(1log)()( 2 xpxpxH
Where H is the total amount of “Shannon” information and p(x) is the probability of event x.
•Arousal-related neurons respond best to high-information (salient, surprising, unpredictable) stimuli (Harvard Univ. Press, 2005)
•Claude Shannon devised an intuitively pleasing, mathematically precise definition of information as follows:
Arousal / Information theorythinking naturally yields a universal
phenomenon: HABITUATION.
Laureys, S.L., Owen, A.M., and Schiff, N.D. (2004) Brain function in coma, vegetative state and related disorders. Lancet Neurology 3(9):537-46.
Schiff, N., Ribary, U., Moreno, D., Beattie, B., Kronberg, E., Blasberg, R., Giacino, J., McCagg, C., Fins, J.J., Llinas, R. and Plum, F. (2002) Residual cerebral activity and behavioral fragments in the persistent vegetative state. Brain 125(6): 1210-1234.
Schiff, N.D., Ribary, U., Plum, F., and Llinas, R. (1999) Words without mind. Journal of Cognitive Neuroscience 1(6) 650-656.
Schiff, N.D., and Purpura, K.P. (2002) Towards a neurophysiological basis for cognitive neuromodulation. Thalamus and Related Systems 2(1): 55-69.
Papers on impaired consciousness
Nicholas Schiff, MD
Department of Neurology
Weill Medical College of Cornell University
MCS
Cognitive function
Motorfunction
Normal
Total functional loss
PVS
Coma
Full CognitiveRecovery
Severe to
Moderate Cognitive Disability
LIS*
Conceptualizing global disorders of consciousness
Total functional loss
Functional Communication
( Schiff, ND, The Neurology of Impaired Consciousness, Cognitive Neurosciences III, MIT Press)
Penfield, WG, Jasper, HH, (1954) Epilepsy and the functional anatomy of the human brain
Vegetative state EEG patterns are typicallysimilar to coma
Minimally conscious stateEEG patterns may be similar to normal wakefulness
Minimally Conscious State Patient Normal Subject
Forward Speech
Reversed Speech
Overlap
Schiff, N, Rodriguez-Moreno, D, Kamal, A, Petrovich, N, Giacino, J, Plum, F and Hirsch, J. fMRI reveals large-scale network activation in minimally conscious patients. Neurology (in press)
Overall Summary
1) We understand neural, hormonal and genetic mechanisms for a specific hormone-driven behavior: VMN Hypothalamic neurons expressing ERs influence several genomic modules to control a spinal-midbrain-spinal behavior circuit.
2) Underlying all mammalian behaviors is CNS arousal: Newly precise operational definition features sensory alertness, motor activity and emotional reactivity. We have a high throughput assay.
Overall Summary, Continued
3) We understand how generalized arousal forces impact specific arousal states: e.g. HA, NE and ACh, themselves hormone dependent, increase electrical activity in behavior-controlling VMN hypothalamic neurons.
4) Information theoretic treatments of arousal mechanisms lead to new questions: Shannon-Weaver equations offer potential insight to arousal-related neurons?