Julio Esparza scite author profile

It is known that aging is frequently accompanied by a decline in cognition. Furthermore, aging is associated with lower serum IGF-I levels that may contribute to this deterioration. We studied the effect of IGF-I in neurons of the horizontal diagonal band of Broca (HDB) of young (≤6 months old) and old (≥20-month-old) mice to determine if changes in the response of these neurons to IGF-I occur along with aging. Local injection of IGF-I in the HDB nucleus increased their neuronal activity and induced fast oscillatory activity in the electrocorticogram (ECoG). Furthermore, IGF-I facilitated tactile responses in the primary somatosensory cortex elicited by air-puffs delivered in the whiskers. These excitatory effects decreased in old mice. Immunohistochemistry showed that cholinergic HDB neurons express IGF-I receptors and that IGF-I injection increased the expression of c-fos in young, but not in old animals. IGF-I increased the activity of optogenetically-identified cholinergic neurons in young animals, suggesting that most of the IGF-I-induced excitatory effects were mediated by activation of these neurons. Effects of aging were partially ameliorated by chronic IGF-I treatment in old mice. The present findings suggest that reduced IGF-I activity in old animals participates in age-associated changes in cortical activity.

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Ca2+-modulated photoactivatable imaging reveals neuron-astrocyte glutamatergic circuitries within the nucleus accumbens

Serra

Esparza

Delgado

et al. 2022

Nat Commun

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Astrocytes are key elements of brain circuits that are involved in different aspects of the neuronal physiology relevant to brain functions. Although much effort is being made to understand how the biology of astrocytes affects brain circuits, astrocytic network heterogeneity and plasticity is still poorly defined. Here, we have combined structural and functional imaging of astrocyte activity recorded in mice using the Ca2+-modulated photoactivatable ratiometric integrator and specific optostimulation of glutamatergic pathways to map the functional neuron-astrocyte circuitries in the nucleus accumbens (NAc). We showed pathway-specific astrocytic responses induced by selective optostimulation of main inputs from the prefrontal cortex, basolateral amygdala, and ventral hippocampus. Furthermore, co-stimulation of glutamatergic pathways induced non-linear Ca2+-signaling integration, revealing integrative properties of NAc astrocytes. All these results demonstrate the existence of specific neuron-astrocyte circuits in the NAc, providing an insight to the understanding of how the NAc integrates information.

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Insulin-like growth factor I sensitization rejuvenates sleep patterns in old mice

et al. 2022

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neurons by systemic IGF-I are abrogated in old mice. Moreover, orthodromical responses of LH neurons are facilitated by either systemic or local IGF-I in young mice, but not in old ones. As orexin neurons of old mice show dysregulated IGF-I receptor (IGF-IR) expression, suggesting disturbed IGF-I sensitivity, we treated old mice with AIK3a305, a novel IGF-IR sensitizer, and observed restored responses to IGF-I and rejuvenation of sleep patterns. Thus, disturbed sleep structure in aging mice may be related to impaired IGF-I signaling onto orexin neurons, reflecting a broader loss of IGF-I activity in the aged mouse brain.

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Background: Nonalcoholic fatty liver disease (NAFLD) is the commonest cause of chronic liver disease worldwide, being nonalcoholic steatohepatitis (NASH) its most clinically relevant form. Given the risks associated with taking a liver biopsy, the design of accurate non-invasive methods to identify NASH patients is of upmost importance. BMP2 plays a key role in metabolic homeostasis; however, little is known about its involvement in NAFLD onset and progression. This study aimed to elucidate the impact of B

Martín-Monteagudo¹,

Esparza²,

Navarrete³

2022

IBJ Plus

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Drug use is a growing problem in actual society. Usually, the first experience with drugs takes place during adolescence, being cannabis the most used illicit drug. Although cannabis could be considered a harmless drug, we are beginning to appreciate its consequences. Chronic exposure to addictive drugs has shown to imbalance glutamate homeostasis in Nucleus Accumbens (NAc), altering plasticity mechanisms such as long-term depression. Therefore, it is crucial to elucidate the mechanisms underlying these alterations and how to reverse them. It is known the activation of cannabinoid receptors in astrocytes modulate synaptic plasticity and could be involved in glutamate homeostasis. However, the functional role of astrocytes in alterations derived from chronic drug exposure is not fully understood. In this study, we analyzed how astrocytes contribute to alterations produced by tetrahydrocannabinol (THC). Using fiber photometry in vivo we analyzed astrocytic activity (Ca2+ and glutamate dynamics) in NAc after 1mg/kg THC chronic administration in wildtype and p38αMAPK-/- (Astrop38α) mice4 and we performed electrophysiology experiments to analyze synaptic plasticity. Moreover, we performed behavioral tests to assess whether THC had reinforcing properties or affected learning and memory. Furthermore, using a chemogenetic approaches (DREADDs) we activated NAc astrocytes to analyze their behavioral implications. We observed: 1)THC increases astrocytic calcium activity; 2)THC induces glutamate release in NAc in wildtype, but not Astrop38α; 3)NAc astrocytes are involved in learning; 4)Removal of p38αMAPK in NAc astrocytes restores THC-related impairments. Altogether, our results reveal astrocytes as critical elements for the maintenance of glutamate signaling, with a significant role in drug-use-related alterations.

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Julio Esparza

GABAergic signaling to astrocytes in the prefrontal cortex sustains goal-directed behaviors

Reduced Insulin-Like Growth Factor-I Effects in the Basal Forebrain of Aging Mouse

Ca2+-modulated photoactivatable imaging reveals neuron-astrocyte glutamatergic circuitries within the nucleus accumbens

Insulin-like growth factor I sensitization rejuvenates sleep patterns in old mice

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