Comunicación sinapsis-núceo 2.pdf

Segunda Parte:
El camino de vuelta
Del núcleo a la sinapsis
Del núcleo a la sinapsis Cómo llegan las macromoléculas
a las sinapsis específicas?
a las sinapsis específicas?
Hipótesis para explicar la especificidad sináptica
Synaptic Tagging
New gene products or proteins
New gene products or
products or proteins
Synaptic
tag
NMDAR
Signal to nucleus
Synaptic Potentiation
Locally generated tag captures new gene product
d t
Synaptic tagging
Frey y Morris
Haydée Viola
Ejemplos de síntesis local en plasticidad neuronal:
Ejemplos de síntesis local en plasticidad neuronal:
‐Facilitación por 5‐HT en Aplysia
‐Síntesis de Activity‐regulated
y g
cytoskeleton
y
asociated p
p. (Arc) ( )
‐ Síntesis de CaMKII
‐Síntesis de PKMz
Síntesis proteica local
Martin et al.,
al Cell 91:927
91:927-38
38 (1997)
Sistema de neurona sensorial bifurcada
Facilitación sinápsisespecífica de corto y
g término
largo
LTF sinapsis‐especifica
requiere de transcripción LTF requiere síntesis proteica local
en la pre‐sinapsis
Captura sináptica
Mecanismos de regulación traduccional:
g
‐ Activación de eIFs
‐Poliadenilación – CPEB
‐FRMP Regulación traduccional CaMKIIalfa mRNA
Mecanismos de transporte de mRNAs:
A través de unión de mRNA BP a secuencias 3´ UTR
‐Zip codes sequences ZBP: actina
‐CPE – CPEB: CaMKII
Seminario
‐FMRP –
FMRP Staufen
St f
(sería un mecanismo de captura de mRNA a las sinapsis)
Transporte anterógrado
SEGUNDA PARTE
El camino de vuelta
Del núcleo a la sinápsis
Localización de mRNA y proteina en las sinápsis activadas
Steward et al, Neuron 21:741‐51 (1998)
Localización en el tiempo de Arc mRNA
Localización en el tiempo de Arc
Steward and Worley, PNAS 2001
Localización de la proteína Arc
Steward et al, Neuron 21:741‐51 (1998)
¿Qué papel cumple Arc en las espinas dendríticas?
LTD
LTP
Papel de PKMz en el mantenimiento del LTP y la memoria Domain Structures of Isoforms of PKC
Regulatory Domain
Catalytic Domain
Classical
 alpha
Beta
Gamma
PS Phospholipid
••
Calcium
ATP
••
Novel
 Delta
Epsilon
Eta
Theta
Mu
Atypical
yp
Lambda/Iota Zeta Hinge Region
Substrate
••
Auto‐
Auto
phosphorylation sites
PKM mRNA Formation from Internal Promoter within PKC Gene within PKC
Gene
PKM and LTP Maintenance
ZIP: PKMz pseudosubstrate inhibitory peptide
Figure 1. Effect of ZIP on very long‐term CTA memory in the insular cortex. (A) ZIP/vehicle were administered 3 mo after training, and memory was tested 2 d later. The dashed line indicates equal preference for the CS and water, i.e., AI = 50. (B) ZIP/vehicle/scrambled ZIP were administered 1 mo after training, and memory was tested 12 d later. Saccharin was the d i i t d1
ft t i i
d
t t d 12 d l t S h i
th
CS in both A and B.
Shema et al., Learning & Memory 2009
ZIP abolishes very long‐term memory
The effect of ZIP is long lasting even when the inhibitor is applied long after encoding
Intensive training and robust memory do not Intensive
training and robust memory do not
confer immunity to ZIP effect
Once erased and reacquired, CTA can be erased again by ZIP
ZIP is ineffective during conditioning and immediately afterward
La inyección de PKMz aumenta más de una memoria El KO de PKMz tiene aprendizaje y memoria normal
Prkcz null mice show normal learning and memory
Anna M. Lee et al Nature. 2013 January 17; 493(7432): 416–419
Figure 3. Intact learning and memory in Prkcz
g
g
y
−/− mice a, In cued fear conditioning, wild‐type (n=20) and Prkcz
/
,
g,
yp (
)
−/− mice (n=27) /
(
)
showed similar levels of freezing during all three sessions. b, During the novel object task, Prkcz −/− (n=17) and wild‐type mice (n=16) spent more time exploring the new object compared with the old object. There was no genotype difference in exploration
of old or novel object. c, In the spatial memory task, Prkcz −/− (n=13) and wild‐type mice (n=12) spent more time exploring the new location compared with the old location and there was no genotype difference in exploration of either location. d, Prkcz −/− (n=11) and wild type mice (n=12) remained on the accelerating rotarod for similar amounts of time and showed similar (n=11) and wild‐type mice (n=12) remained on the accelerating rotarod
for similar amounts of time and showed similar
improvement in this task over successive trials. e, In the conditioned place preference test, Prkcz −/− (n=7) and wild‐type mice (n=8) showed similar preference for the cocaine‐paired chamber when tested one day after the last conditioning session. f, Compared with injection of saline (n=9), injection of ZIP (n=13) into the Nac ignificantly reduced expression of cocaine CPP in Prkcz −/− mice. All data is shown as mean ± s.e.m.