AT 1 ‐R is involved in the development of long‐lasting, region‐dependent and oxidative stress‐independent astrocyte morphological alterations induced by Ketamine

OCCHIEPPO, VICTORIA B.; BASMADJIAN, OSVALDO M.; MARCHESE, NATALIA A.; SILVERO C, M. JAZMIN; RODRÍGUEZ, ANAHÍ; ARMONELLI, SAMANTA; BECERRA, MARÍA C.; BAIARDI, GUSTAVO; BREGONZIO, CLAUDIA

EUROPEAN JOURNAL OF NEUROSCIENCE

WILEY-BLACKWELL PUBLISHING, INC

Año: 2020

0953-816X

strocytes play an essential role in the genesis, maturation and regulation of theneurovascular unit. Multiple evidence support that astrocyte reactivity has a closerelationship to neurovascular unit dysfunction, oxidative stress and inflammation,providing a suitable scenario for the development of mental disorders. Ketaminehas been proposed as a single-use antidepressant treatment in major depression, andits antidepressant effects have been associated with anti-inflammatory properties.However, Ketamine long-lasting effects over the neurovascular unit components re-main unclear. Angiotensin II AT1 receptor (AT1-R) blockers have anti-inflammatory,antioxidant and neuroprotective effects. The present work aims to distinguish theacute and long-term Ketamine effects over astrocytes response extended to other neu-rovascular unit components, and the involvement of AT1-R, in prefrontal cortex andventral tegmental area. Male Wistar rats were administered with AT1-R antagonistCandesartan/Vehicle