Your search keyword '"Miguelez Fernández AMM"' showing total 6 results

1. Late-adolescent onset of prefrontal endocannabinoid control of hippocampal and amygdalar inputs and its impact on trace-fear conditioning behavior.

Author

Molla HM, Miguelez Fernández AMM, and Tseng KY

Subjects

Animals, Male, Rats, Rats, Sprague-Dawley, Polyunsaturated Alkamides metabolism, Conditioning, Classical physiology, Conditioning, Classical drug effects, Arachidonic Acids metabolism, Endocannabinoids metabolism, Endocannabinoids physiology, Fear physiology, Fear drug effects, Prefrontal Cortex metabolism, Prefrontal Cortex drug effects, Prefrontal Cortex physiology, Hippocampus metabolism, Hippocampus drug effects, Hippocampus physiology, Amygdala metabolism, Amygdala drug effects, Amygdala physiology

Abstract

Prefrontal cortex (PFC) maturation during adolescence is characterized by structural and functional changes, which involve the remodeling of GABA and glutamatergic synapses, as well as changes in the endocannabinoid system. Yet, the way PFC endocannabinoid signaling interacts with local GABA and glutamatergic function to impact its processing of afferent transmission during the adolescent transition to adulthood remains unknown. Here we combined PFC local field potential recordings with local manipulations of 2-AG and anandamide levels to assess how PFC endocannabinoid signaling is recruited to modulate ventral hippocampal and basolateral amygdalar inputs in vivo in adolescent and adult male rats. We found that the PFC endocannabinoid signaling does not fully emerge until late-adolescence/young adulthood. Once present, both 2-AG and anandamide can be recruited in the PFC to limit the impact of hippocampal drive through a CB1R-mediated mechanism whereas basolateral amygdalar inputs are only inhibited by 2-AG. Similarly, the behavioral effects of increasing 2-AG and anandamide in the PFC do not emerge until late-adolescence/young adulthood. Using a trace fear conditioning paradigm, we found that elevating PFC 2-AG levels preferentially reduced freezing behavior during acquisition without affecting its extinction. In contrast, increasing anandamide levels in the PFC selectively disrupted the extinction of trace fear memory without affecting its acquisition. Collectively, these results indicate a protracted recruitment of PFC endocannabinoid signaling, which becomes online in late adolescence/young adulthood as revealed by its impact on hippocampal and amygdalar-evoked local field potential responses and trace fear memory behavior., (© 2024. The Author(s), under exclusive licence to American College of Neuropsychopharmacology.)

Published

2024

2. Chemogenetic control of GABAergic activity within the interpeduncular nucleus reveals dissociable behavioral components of the nicotine withdrawal phenotype.

Author

Miguelez Fernández AMM, Netherton S, Niladhuri SB, Rivera P, Tseng KY, and Peters CJ

Abstract

Chronic exposure to nicotine results in the development of a dependent state such that a withdrawal syndrome is elicited upon cessation of nicotine. The habenulo-interpeduncular (Hb-IPN) circuit contains a high concentration of nAChRs and has been identified as a main circuit involved in nicotine withdrawal. Here we investigated the contribution of two distinct subpopulations of IPN GABAergic neurons to nicotine withdrawal behaviors. Using a chemogenetic approach to specifically target Amigo1-expressing or Epyc-expressing neurons within the IPN, we found that activity of the Amigo1 and not the Epyc subpopulation of GABAergic neurons is critical for anxiety-like behaviors both in naïve mice and in those undergoing nicotine withdrawal. Moreover, data revealed that stimulation of Amigo1 neurons in nicotine-naïve mice elicits opposite effects on affective and somatic signs of withdrawal. Taken together, these results suggest that somatic and affective behaviors constitute dissociable components of the nicotine withdrawal phenotype and are likely supported by distinct subpopulations of neurons within the IPN.

Published

2024

3. Endothelial Cell APOE3 Regulates Neurovascular, Neuronal, and Behavioral Function.

Author

Marottoli FM, Zhang H, Flores-Barrera E, Artur de la Villarmois E, Damen FC, Miguelez Fernández AMM, Blesson HV, Chaudhary R, Nguyen AL, Nwokeji AE, Talati R, John AS, Madadakere K, Lutz SE, Cai K, Tseng KY, and Tai LM

Subjects

Mice, Humans, Animals, Apolipoprotein E3 metabolism, Apolipoprotein E4, Endothelial Cells metabolism, Brain metabolism

Abstract

Background: Specialized brain endothelial cells and human APOE3 are independently important for neurovascular function, yet whether APOE3 expression by endothelial cells contributes to brain function is currently unknown. In the present study, we determined whether the loss of endothelial cell APOE3 impacts brain vascular and neural function., Methods: We developed APOE3 fl/fl /Cdh5(PAC)-CreERT2 +/- ( APOE3 Cre+/- ) and APOE3 fl/fl /Cdh5(PAC)-CreERT2 -/- ( APOE3 Cre -/- , control) mice and induced endothelial cell APOE3 knockdown with tamoxifen at ≈4 to 5 weeks of age. Neurovascular and neuronal function were evaluated by biochemistry, immunohistochemistry, behavioral testing, and electrophysiology at 9 months of age., Results: We found that the loss of endothelial APOE3 expression was sufficient to cause neurovascular dysfunction including higher permeability and lower vessel coverage in tandem with deficits in spatial memory and fear memory extinction and a disruption of cortical excitatory/inhibitory balance., Conclusions: Our data collectively support the novel concept that endothelial APOE3 plays a critical role in the regulation of the neurovasculature, neural circuit function, and behavior., Competing Interests: Disclosures None.

Published

2023

4. Prefrontal α7nAChR Signaling Differentially Modulates Afferent Drive and Trace Fear Conditioning Behavior in Adolescent and Adult Rats.

Author

Miguelez Fernández AMM, Molla HM, Thomases DR, and Tseng KY

Subjects

Age Factors, Amygdala metabolism, Animals, Fear physiology, Hippocampus metabolism, Male, Neural Pathways physiology, Rats, Rats, Sprague-Dawley, Signal Transduction physiology, Extinction, Psychological physiology, Prefrontal Cortex physiology, Synaptic Transmission physiology, alpha7 Nicotinic Acetylcholine Receptor metabolism

Abstract

Increased level of kynurenic acid is thought to contribute to the development of cognitive deficits in schizophrenia through an α7nAChR-mediated mechanism in the prefrontal cortex (PFC). However, it remains unclear to what extent disruption of PFC α7nAChR signaling impacts afferent transmission and its modulation of behavior. Using male rats, we found that PFC infusion of methyllycaconitine (MLA; α7nAChR antagonist) shifts ventral hippocampal-induced local field potential (LFP) suppression to LFP facilitation, an effect only observed in adults. Hippocampal stimulation can also elicit a GluN2B-mediated LFP potentiation (when PFC GABA A R is blocked) that is insensitive to MLA. Conversely, PFC infusion of MLA diminished the gain of amygdalar transmission, which is already enabled by postnatal day (P)30. Behaviorally, the impact of prefrontal MLA on trace fear-conditioning and extinction was also age related. While freezing behavior during conditioning was reduced by MLA only in adults, it elicited opposite effects in adolescent and adult rats during extinction as revealed by the level of reduced and increased freezing response, respectively. We next asked whether the late-adolescent onset of α7nAChR modulation of hippocampal inputs contributes to the age-dependent effect of MLA during extinction. Data revealed that the increased freezing behavior elicited by MLA in adult rats could be driven by a dysregulation of the GluN2B transmission in the PFC. Collectively, these results indicate that distinct neural circuits are recruited during the extinction of trace fear memory in adolescents and adults, likely because of the late-adolescent maturation of the ventral hippocampal-PFC functional connectivity and its modulation by α7nAChR signaling. SIGNIFICANCE STATEMENT Abnormal elevation of the astrocyte-derived metabolite kynurenic acid in the prefrontal cortex (PFC) is thought to impair cognitive functions in schizophrenia through an α7nAChR-mediated mechanism. Here, we found that prefrontal α7nAChR signaling is recruited to control the gain of hippocampal and amygdalar afferent transmission in an input-specific, age-related manner during the adolescent transition to adulthood. Behaviorally, prefrontal α7nAChR modulation of trace fear memory was also age-related, likely because of the late-adolescent maturation of the ventral hippocampal pathway and its recruitment of PFC GABAergic transmission enabled by local α7nAChR signaling. Collectively, these results reveal that distinct α7nAChR-sensitive neural circuits contribute to regulate behavior responses in adolescents and adults, particularly those requiring proper integration of hippocampal and amygdalar inputs by the PFC., (Copyright © 2021 the authors.)

Published

2021

5. Sucrose exposure in juvenile rats produces long-term changes in fear memory and anxiety-like behavior.

Author

Kruse MS, Vadillo MJ, Miguelez Fernández AMM, Rey M, Zanutto BS, and Coirini H

Subjects

Age Factors, Animals, Anxiety etiology, Anxiety metabolism, Brain metabolism, Dietary Sucrose pharmacology, Fear physiology, Hippocampus metabolism, Interneurons metabolism, Male, Maze Learning drug effects, Memory physiology, Prefrontal Cortex metabolism, Rats, Rats, Sprague-Dawley, Sucrose metabolism, Fear drug effects, Memory drug effects, Sucrose adverse effects

Abstract

Sugar consumption has increased dramatically in our society, a phenomenon that is primarily associated with obesity and diabetes appearance. However, whether this overconsumption of sugar has an impact on the developing CNS remains unknown. This study investigated the long-term effects of unlimited access to sucrose using the two-bottle choice paradigm and the juvenile and adult effects were compared. Male Sprague Dawley rats had free access to water containing 10% sucrose and water during youth (PD 25-50) or adulthood (PD 75-100). Rats in the sucrose group, privileged to take sugary solution over the water. No weight differences were observed between the sucrose groups and their age-matched water controls. After treatment all animals drank only water for another 25 days. Frustration, measured as the amount of water drank after the sucrose period, was higher in young-exposed animals compared to adults. In addition, rats that consumed sucrose during youth travelled less the central zones of an open field. Sucrose consumption during youth also affected fear behavior as animals exhibited impaired extinction of fear memory compared to control, indicating that prefrontal and hippocampal function is impaired. In contrast, rats exposed to sucrose during adulthood did not behave significantly different from control on either task. The calretinin and parvalbumin GABAergic interneurons go through extensive remodeling during youth in the medial prefrontal cortex and the ventral hippocampus. Here, we found that rats exposed to sucrose during youth presented an increased expression of calretinin-immunoreactivity in the medial prefrontal cortex, but not in the ventral hippocampus, indicating that early sucrose consumption produces enduring effects on the GABA system. Altogether these results indicate that sugar overconsumption at early stages of life induces long-term effects on behaviors related to fear and anxiety in adulthood., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

6. A spherical treadmill system to train head-fixed adult rats.

Author

Miguelez Fernández AMM, Burman A, Martínez Cáceres AI, Mininni CJ, Zanutto BS, and Lew SE

Subjects

Animals, Auditory Perception, Discrimination, Psychological, Equipment Design, Food, Head, Head Movements, Male, Motor Activity, Polystyrenes, Software, Stress, Psychological, Video Recording, Equipment and Supplies, Learning, Models, Animal, Rats

Abstract

Background: While spherical treadmills are widely used in mouse models, there are only a few experimental setups suitable for adult rats, and none of them include head-fixation., New Method: We introduce a novel spherical treadmill apparatus for head-fixed rats that allows a wide repertory of natural responses. The rat is secured to a frame and placed on a freely rotating sphere. While being head-fixed, it can walk in any direction and perform different motor tasks., Comparison With Existing Methods: Instead of being air-lifted, which is acceptable for light animals, the treadmill is sustained by three spherical bearings ensuring a smooth rotation in any direction. Movement detection is accomplished using a video camera that registers a dot pattern plotted on the sphere., Results: Long Evans rats were trained to perform an auditory discrimination task in a Go/No-Go (walking/not-walking) paradigm. Animals were able to successfully discriminate between a 1 kHz and a 8 kHz auditory stimulus and execute the correct response, reaching the learning criterion (80% of correct responses) in approximately 20 training sessions., Conclusions: Our system broadens the possibilities of head-fixation experiments in adult rats making them compatible with spatial navigation on a spherical treadmill., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018