Early neuromodulation prevents the development of brain and behavioral abnormalities in a rodent model of schizophrenia
Autor(es):
Hadar, R.; Bikovski, L.; Soto Montenegro, Mª Luisa; Schimke, J.; Maier, P.; Ewing, S.; Voget, M.; Wieske, Franziska; Goetz, T.; Desco Menéndez, Manuel; Hamani, Clement; Pascau González-Garzón, Javier; Weiner, Ina; Winter, Christine
Editorial:
Springer Nature
Fecha de edición:
2017-04-04
Cita:
Molecular Psychiatry (2018) 23(4), 943–951.
ISSN:
1359-4184
Agradecimientos:
We thank Renate Winter, Doris Zschaber and Roselies Pickert for excellent technical
assistance. This research was conducted under the EraNet Neuron framework
(DBS_F20rat) and supported by the BMBF, Germany (B01EW1103, 01EE1403A),
Fundación Mapfre, Comunidad de Madrid and the Ministry of Economy and
Competitiveness ISCIII-FIS grants (PI14/00860, CPII/00005) co-financed by ERDF (FEDER) Funds from the European Commission, ‘A way of making Europe’, Spain (PI14/00860, CPII/00005, MV1500002), the CSO-MOH, Israel (3-8580) and the Canadian
Institutes of Health Research, Canada (CIHR, 110068), and co-financed by the DFG,
Germany (WI 2140/1-1/2; WI 2140/2-1).
Proyecto:
Gobierno de España. PI14/00860
Gobierno de España. CPII/00005
Palabras clave:
Deep brain stimulation
,
Animal disease models
,
Psychotic disorders
,
Schizophrenia
,
Neurotransmitter agents
,
Sensory gating
,
Dopamine
,
Brain
,
Neuroscience
Derechos:
© 2018 Macmillan Publishers Limited, part of Springer Nature. All rights reserved 1359-4184/18
Resumen:
The notion that schizophrenia is a neurodevelopmental disorder in which neuropathologies evolve gradually over the
developmental course indicates a potential therapeutic window during which pathophysiological processes may be modified to
halt disease progres
The notion that schizophrenia is a neurodevelopmental disorder in which neuropathologies evolve gradually over the
developmental course indicates a potential therapeutic window during which pathophysiological processes may be modified to
halt disease progression or reduce its severity. Here we used a neurodevelopmental maternal immune stimulation (MIS) rat model
of schizophrenia to test whether early targeted modulatory intervention would affect schizophrenia’s neurodevelopmental course.
We applied deep brain stimulation (DBS) or sham stimulation to the medial prefrontal cortex (mPFC) of adolescent MIS rats and
respective controls, and investigated its behavioral, biochemical, brain-structural and -metabolic effects in adulthood. We found
that mPFC-DBS successfully prevented the emergence of deficits in sensorimotor gating, attentional selectivity and executive
function in adulthood, as well as the enlargement of lateral ventricle volumes and mal-development of dopaminergic and
serotonergic transmission. These data suggest that the mPFC may be a valuable target for effective preventive treatments. This may
have significant translational value, suggesting that targeting the mPFC before the onset of psychosis via less invasive
neuromodulation approaches may be a viable preventive strategy.
[+]
[-]
Mostrar el registro completo del ítem
Impacto:
Ficheros en el ítem
Vista Previa del Fichero
*Click en la imagen del fichero para previsualizar.(Los elementos embargados carecen de esta funcionalidad)
Este ítem aparece en la(s) siguiente(s) colección(es)
