Mariana Torrecilla scite author profile

Mariana Torrecilla

3Publications

10Citation Statements Received

154Citation Statements Given

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Affiliations

Consejo Nacional de Investigaciones Científicas y Técnicas, Centro Científico Tecnológico - Mendoza, Instituto de Medicina y Biología Experimental de Cuyo

Publications

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Acute sublethal global hypoxia induces transient increase of GAP‐43 immunoreactivity in the striatum of neonatal rats

Valdéz

Patterson

Ezquer

et al. 2006

Synapse

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We assessed immunoreactivity (IR) in the cerebral cortex (CC), hippocampus (Hipp), and striatum (ST) of a growth-associated protein, GAP-43, and of proteins of the synaptic vesicle fusion complex: VAMP-2, Syntaxin-1, and SNAP-25 (SNARE proteins) throughout postnatal development of rats after submitting the animals to acute global postnatal hypoxia (6.5% O(2), 70 min) at postnatal day 4 (PND4). In the CC only the IR of the SNARE protein SNAP-25 increased significantly with age. The hypoxic animals showed the same pattern of IR for SNAP-25, although with lower levels at PND11, and also a significant increase of VAMP-2. SNAP-25 (control): PND11 P < 0.001 vs. PND18, 25, and 40, SNAP-25 (hypoxic): P < 0.001 vs. PND18, 25, and 40; VAMP-2 (hypoxic): P < 0.05 PND11 vs. PND18, and P < 0.01 vs. PND25 and PND40; one-way ANOVA and Bonferroni post-test. In the Hipp, SNAP-25 and syntaxin-1 increased significantly with age, reaching a plateau at PND25 through PND40 in control animals (one-way ANOVA: syntaxin-1: P = 0.043; Bonferroni: NS; SNAP-25: P = 0.013; Bonferroni: P < 0.01 PND11 vs. PND40). Hypoxic rats showed higher levels of significance in the one-way ANOVA than controls (syntaxin-1: P = 0.009; Bonferroni: P < 0.05 PND11 vs. PND25 and P < 0.001 PND11 vs. PND40). In the ST, GAP-43 differed significantly among hypoxic and control animals and the two-way ANOVA revealed significant differences with age (F = 3.23; P = 0.037) and treatment (F = 4.84; P = 0.036). VAMP-2 expression also reached statistical significance when comparing control and treated animals (F = 6.25, P = 0.018) without changes regarding to age. Elevated plus maze test performed at PND40 indicated a lower level of anxiety in the hypoxic animals. At adulthood (12 weeks) learning, memory and locomotor abilities were identical in both groups of animals. With these results, we demonstrate that proteins of the presynaptic structures of the ST are sensitive to acute disruption of homeostatic conditions, such as a temporary decrease of the O(2) concentration. Modifications in the activity of these proteins could contribute to the long term altered responses to stress due to acute hypoxic insult in the neonatal period.

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Influence of the estrous cycle on some non reproductive behaviors and on brain mechanisms in the female rat

Jatuff

Torrecilla

Quercetti

et al. 2012

Interd

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El rol de las hormonas sexuales sobre el comportamiento reproductivo ha sido extensamente documentado. La fluctuación periódica de hormonas sexuales en hembras de numerosas especies ha sido relacionada con cambios comportamentales no sexuales tales como humor, ansie dad, agresión y respuesta a estrés. El sustrato bioló-gico-neural de estos cambios se basa en los cambios que estas hormonas inducen en el Sistema Nervioso Central. Este trabajo resume algunos cambios que afectan a receptores y neurotrasmisores de los sistemas GABAérgico, serotoninér-gico, dopaminérgico y péptido liberador de prolactina del SNC de la rata. La rata hembra posee un ciclo sexual de 4 días de duración, denominado ciclo estrual. La presente revisión se informa en tres secciones. (1) Se presenta una breve descripción de la variación de tres hormonas sexuales principales con acción directa sobre el SNC: estrógenos (E2), progesterona (P4) y prolactina (PRL). Se han descripto propiedades ansiolíticas para P4 y anti-estrés para PRL; para E2, la bibliografía es controvertida, describiéndose acciones excitatorias y anti-estrés. (2) Se informan algunos cambios cerebrales y comportamentales que tienen lugar en cada estadio del ciclo estrual. Las fluctuaciones hormonales se consideran bá-sicas para la interpretación de tales cambios. (3) Se mencionan algunos hallazgos acerca de la influencia hormonal cíclica sobre los sistemas de neurotransmisión del SNC y sobre un nuevo pép-tido propuesto como mediador de la respuesta a INTERDISCIPLINARIA, 2012, 29, 1, 63-77 63 INFLUENCE OF THE ESTROUS ABSTRACTSex hormone fluctuations in females are involv ed in some behavioral states such as mood, anxiety, aggression and stress response, due to functional changes in the central nervous system (CNS) activity induced by the cyclic sex hormone fluctuation. This review includes three sections.1.-A description of the three major hormone fluctuations in the estrous cycle: estrogens (E2), progesterone (P4) and prolactine (PRL). E2 achieves the maximum circulation levels during P. E2 is mainly excitatory and has been considered to have an antidepressive action. The highest plasma levels of P4 and its metabolite allopregnenolone (ALLO) occur in P. Ovulation takes place in the night of P, and the resulting corpora lutea produces a secondary increase in P4 (and ALLO) on D. The P4 peak level occurring in D1 and in the evening of P was shown to exert benzodiazepine-like effects, including sedation. It has been proposed that ALLO, rather than P4 is the one acting on GABA systems. Circulating levels of ALLO parallel those of P4 across the estrous cycle and is known to have anxiolytic properties.PRL is produced mainly in the adeno hy pophysis, though synthesis in other sites of the brain also occurs. Its regulation is mostly inhibitory and is exerted by dopamine (DA) released in the hypothalamus. A surge in PRL secretion occurs during P. PRL would be a modulator of the HPA-axis, and is considered as a stress hormone.2.-Some behavioral and neural changes occur at each stage ...

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Effects of Repeated Unpredictable Mild Stresses to Preweanling Rats and to Nursing Dams on the Behavioral Response of Offspring to Chronic Stress in Adulthood

Torrecilla¹,

González²,

Quercetti³

et al. 2013

Am J Neuroprotect Neuroregen

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