IFEC   20925
INSTITUTO DE FARMACOLOGIA EXPERIMENTAL DE CORDOBA
Unidad Ejecutora - UE
congresos y reuniones científicas
Título:
Stress-Induced Sensitization to Cocaine: Changes in the Actin Cytoskeleton from Nucleus Accumbens.
Autor/es:
10.ESPARZA M.A., GARCIA KELLER C.; VIRGOLINI M., CANCELA L.M.
Lugar:
Cordoba
Reunión:
Congreso; 1ra Reunión Anual de Ciencias Farmacéuticas; 2010
Institución organizadora:
RICIFA
Resumen:
Stress-Induced Sensitization to
Cocaine: Changes in the Actin Cytoskeleton from Nucleus Accumbens
Esparza, M.A.; Garcia Keller, C.; Virgolini, M.;
Cancela L.M.
IFEC-CONICET, Universidad Nacional
de Córdoba, Argentina
Haya de la Torre y Medina Allende, Ciudad
Universitaria, Córdoba. CP:5000
Introduction
Drug addiction is
associated with long-term changes in the synaptic function, including the actin
cytoskeleton. There is evidence about the proactive influence of stress on drug
addiction, a process that is exerted on excitatory synapses by the activation
of common mechanisms between drugs and stress. The present study sought to
investigate whether the neurobiological mechanisms that modulate repeated
cocaine administration also occur in a stress-induced cocaine sensitization
model. These experiments were designed to evaluate whether repeated stress
induces alterations in actin rearrangement in the Nucleus Accumbens.
Material
and Methods
Male Wistar rats
(250350 g) were restrained daily for 2 hours for 7 days. Control rats were
left undisturbed in their home cages. Three weeks after the last restraint
stress, the animals were decapitated 45 minutes after an injection of saline or
cocaine (30 mg/kg i.p.), and the nucleus accumbens was dissected. After subcellular
fractionation by differential centrifugation to separate the F-actin from
G-actin ( Toda et al., 2006), the immunoreactivity of the actin (1:500, Santa
Cruz), homer 1 b/c (1:100, Santa Cruz), Arp2 (1:100, Santa Cruz), p-cofilin
(1:100, a gift from Dr. J. Bamburg), PSD 95 (1:250; Santa Cruz Biotechnology, Inc.) and p-cortactin (1: 200;
Santa Cruz Biotechnology, Inc.) was detected by Western blot, using tubulin
(1:2,000, Sigma) as a loading control. Locomotor activity was monitored in a photocell
apparatus (actographs). Motor activity was quantified as total photocell counts.
For these sessions, animals were allowed to habituate to the activity chambers
for 60 min before latrunculin A or DMSO (1%) microinjections, which were
followed by cocaine (15 mg/kg, i.p.) or saline, and behavior recorded was for
120 min over 10 min interval-bins.
Results
Our experiments revealed that
repeated stress induces changes in protein levels involved in synaptic
plasticity, such as actin and proteins that regulate actin cytoskeleton. Specifically, a decrease in NAc
F-actin levels was observed twenty-one days after repeated stress exposure
followed in the saline injection group, compared to all other groups. Thus,
stress lowered F-actin levels and acute cocaine administration restored F-actin
values to the levels observed in non-stress animals. The stress-induced
decrease in F-actin levels may arise from a pronounced decrease in p-cofilin. Binding of the ADF/cofilin
family of proteins to F-actin promotes filament disassembly, and actin binding
by cofilin is terminated by phosphorylation (Ono, 2003). Thus, a decrease
in p-cofilin may increase F-actin depolymerization, thereby reducing F-actin in
the stressed animals. Along these lines, cortactin is known to activate the
Arp2/3 complex which promotes the nucleation of the new actin filaments from
F-actin, and this action of cortactin is inhibited by phosphorylation (Lua and
Low, 2005. Thus, the cocaine-induced reduction of p-cortactin in
stress-pretreated subjects may contribute to the restoration of F-actin.
Latrunculin A binds to G-actin thereby preventing its polymerization into
F-actin (Morton et al., 2000), and Interestingly the
cross-sensitization between repeated stress pretreatment and cocaine was
prevented by intra-accumbens lantrunculin A (0.5 µg/µl) administered 5 min
before saline or cocaine.
Conclusions
This is the first evidence that
increased actin cyling in the NAc is one of the shared underpinning molecular
mechanisms of stress and drug-induced sensitization to cocaine.
References
Lua BL, Low BC (2005) Cortactin phosphorylation as a switch for actin
cytoskeletal network and cell dynamics control. FEBS Lett 579:577-585.
Morton WM, Ayscough KR, McLaughlin PJ (2000) Latrunculin alters the
actin-monomer subunit interface to prevent polymerization. Nat Cell Biol
2:376-378.
Ono S (2003) Regulation of actin filament dynamics by actin depolymerizing
factor/cofilin and actin-interacting protein 1: new blades for twisted
filaments. Biochemistry 42:13363-13370.
Toda S, Shen HW, Peters J, Cagle S, Kalivas PW (2006) Cocaine increases actin
cycling: effects in the reinstatement model of drug seeking. J Neurosci
26:1579-1587.