INVESTIGADORES
ALVAREZ Cecilia Ines
congresos y reuniones científicas
Título:
CHANGES IN CREB3L2 TRANSCRIPTION FACTOR IN CELL DIFFERENTIATION MODELS
Autor/es:
SAMPIERI, L; BISBAL, M; DI GIUSTO, P; TORRES DEMICHELIS, VA; ALVAREZ, C
Lugar:
Buenos Aires
Reunión:
Congreso; Reunión Conjunta de Sociedades de Biociencias; 2017
Institución organizadora:
SAIB
Resumen:
CREB3L2 is a member of the CREB3 family of bZip transcription factors that show tissue-specific expression patterns. Although they have been described to participate in cell differentiation in various tissues by regulating the secretory machinery, very little is known about their role in the nervous system. Our goal is to analyze the regulation of the secretory pathway and the participation of CREB3L2 in cell development and differentiation models, specifically in neuronal cells. We are working on two models: one of them are PC12 cells, which can differentiate to neuron-like cells upon treatment with NGF, and the other one are hippocampal cells in culture obtained from rat embryos. We found that NGF increases significantly mRNA and protein levels of CREB3L2, while other members of the CREB3 family do not respond the same way. Moreover, we show that NGF induces a time-dependent increase in protein levels of different markers of the early secretory pathway. The NGF-induced effect on CREB3L2 is abolished when cells are incubated with UO126 and H89, pharmacological inhibitors of MEK1 and MEK2 MAP kinases and PKA, respectively. We also have evidence that, protein samples of different days in vitro (DIV) of hippocampal neurons in culture show an increase in the levels of CREB3L2 and secretory pathway factors. Our data suggest that: a) only CREB3L2 but not the other CREB3 transcription factors accompanies this process; and b) increase in CREB3L2 is both MEK/ERK and PKA dependent, proposing a dual regulation of this transcription factor. Further analyses are needed to investigate the molecular mechanisms underlying these changes and to elucidate the specific function of CREB3L2 in both models.