IBCN   20355
INSTITUTO DE BIOLOGIA CELULAR Y NEUROCIENCIA "PROFESOR EDUARDO DE ROBERTIS"
Unidad Ejecutora - UE
congresos y reuniones científicas
Título:
Astroglial phenotypes in traumatic brain injury and their relationship with neuronal degeneration.
Autor/es:
VILLARREAL A; CIERI B; RAMOS AJ; MAILING I
Reunión:
Congreso; Reunión anual de sociedades de biociencias 2020. Sociedad Argentina de Investigaciones Clínicas; 2020
Institución organizadora:
Sociedad Argentina de Investigación Clínica (SAIC)
Resumen:
Astrocytes are key players in the Central Nervous System injury.By not completely defined pathways, reactive astrocytes may suffer a pathological remodeling engaging a pro-inflammatory phenotype that is very stable and promote further neuroinflammation andneurodegeneration. We here aimed to define the spatio-temporaldistribution of astroglial phenotypes after traumatic brain injury andthe consequences for neuronal survival and behavioral parameters.Following a stereotaxic stab wound injury (0.8 mm needle, coordinates 2 mm posterior and lateral to Bregma; 1 mm depth) performedin C57BL/6 mice and immunohistochemistry on brain sections, weclassified GFAP reactive astrocytes in five different phenotypes defined using Sholl analysis (Auzmendi et al., Molec. Neurobiol. 2019).While at 1 day post-injury (DPI) GFAP+ astrocytes were not differentfrom contralateral non-injured hemisphere, at 3DPI and 7DPI highly reactive phenotypes colocalized with altered neurons in lesionpenumbra. At 14DPI highly reactive astrocytes and altered neuronswere abundant only in the lesion core. Pro-inflammatory gain offunction paradigm was achieved by administering LPS (5 mg/Kg i.p)in lesioned animals, and that resulted in a greater number of complex reactive astrocytes at 7DPI (p