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Basal Sodium-Dependent Vitamin C Transporter 2 polarization in choroid plexus explant cells in normal or scorbutic conditions
Ulloa, Viviana; Saldivia, Natalia; Ferrada, Luciano; Salazar, Katherine; Martínez, Fernando; Silva-Álvarez, Carmen; Magdalena, Rocío; Oviedo, María José; Montecinos, Hernán; Torres-Vergara, Pablo; Cifuentes-Rueda, Manuel; Nualart, Francisco[et al.] (Springer Nature, 2019-10)
Vitamin C is incorporated into the cerebrospinal fluid (CSF) through choroid plexus cells. While the transfer of vitamin C from the blood to the brain has been studied functionally, the vitamin C transporter, SVCT2, has ... -
Hyperglycemia increases SCO-spondin and Wnt5a secretion into the cerebrospinal fluid to regulate ependymal cell beating and glucose sensing
Nualart, Francisco; Cifuentes-Rueda, Manuel; Ramírez, Eder; Martínez, Fernando; Barahona, M José; Ferrada, Luciano; Saldivia, N; Borgonzone, Ernesto R; Thorens, B; Salazar, Katterine[et al.] (Public Library of Science, 2023-09)
Hyperglycemia increases glucose concentrations in the cerebrospinal fluid (CSF), activating glucose-sensing mechanisms and feeding behavior in the hypothalamus. Here, we discuss how hyperglycemia temporarily modifies ... -
IIIG9 inhibition in adult ependymal cells changes adherens junctions structure and induces cellular detachment.
Baeza, Víctor; Cifuentes-Rueda, Manuel; Martínez, Fernando; Ramírez, Eder; Nualart, Francisco; Ferrada, Luciano; Oviedo, María José; De Lima, Isabelle; Troncoso, Ninoschka; Saldivia, Natalia; Salazar, Katty[et al.] (Springer Nature, 2021)
Ependymal cells have multiple apical cilia that line the ventricular surfaces and the central canal of spinal cord. In cancer, the loss of ependymal cell polarity promotes the formation of different types of tumors, such ... -
Is IIIG9 a New Protein with Exclusive Ciliary Function? Analysis of Its Potential Role in Cancer and Other Pathologies
Oviedo, MJ; Ramírez, E; Cifuentes-Rueda, Manuel; Farkas, Carlos; Mella, Andy; Bertinat, Romina; Gajardo, Roberto; Ferrada, Luciano; Jara, Nery; De lima, Isabelle; Martínez, Fernando; Nualart, Francisco; Salazar, Katerine[et al.] (MDPI, 2022-10)
The identification of new proteins that regulate the function of one of the main cellular phosphatases, protein phosphatase 1 (PP1), is essential to find possible pharmacological targets to alter phosphatase function in ...