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1.
Nat Commun ; 14(1): 4035, 2023 07 07.
Artículo en Inglés | MEDLINE | ID: mdl-37419977

RESUMEN

Initiating drug use during adolescence increases the risk of developing addiction or other psychopathologies later in life, with long-term outcomes varying according to sex and exact timing of use. The cellular and molecular underpinnings explaining this differential sensitivity to detrimental drug effects remain unexplained. The Netrin-1/DCC guidance cue system segregates cortical and limbic dopamine pathways in adolescence. Here we show that amphetamine, by dysregulating Netrin-1/DCC signaling, triggers ectopic growth of mesolimbic dopamine axons to the prefrontal cortex, only in early-adolescent male mice, underlying a male-specific vulnerability to enduring cognitive deficits. In adolescent females, compensatory changes in Netrin-1 protect against the deleterious consequences of amphetamine on dopamine connectivity and cognitive outcomes. Netrin-1/DCC signaling functions as a molecular switch which can be differentially regulated by the same drug experience as function of an individual's sex and adolescent age, and lead to divergent long-term outcomes associated with vulnerable or resilient phenotypes.


Asunto(s)
Anfetamina , Dopamina , Femenino , Ratones , Masculino , Animales , Anfetamina/farmacología , Dopamina/metabolismo , Netrina-1/metabolismo , Receptor DCC/genética , Receptor DCC/metabolismo , Axones/metabolismo
2.
Mol Psychiatry ; 25(5): 951-964, 2020 05.
Artículo en Inglés | MEDLINE | ID: mdl-30980043

RESUMEN

Low miR-218 expression in the medial prefrontal cortex (mPFC) is a consistent trait of depression. Here we assessed whether miR-218 in the mPFC confers resilience or susceptibility to depression-like behaviors in adult mice, using the chronic social defeat stress (CSDS) model of depression. We also investigated whether stress-induced variations of miR-218 expression in the mPFC can be detected in blood. We find that downregulation of miR-218 in the mPFC increases susceptibility to a single session of social defeat, whereas overexpression of miR-218 selectively in mPFC pyramidal neurons promotes resilience to CSDS and prevents stress-induced morphological alterations to those neurons. After CSDS, susceptible mice have low levels of miR-218 in blood, as compared with control or resilient groups. We show further that upregulation and downregulation of miR-218 levels specifically in the mPFC correlate with miR-218 expression in blood. Our results suggest that miR-218 in the adult mPFC might function as a molecular switch that determines susceptibility vs. resilience to chronic stress, and that stress-induced variations in mPFC levels of miR-218 could be detected in blood. We propose that blood expression of miR-218 might serve as potential readout of vulnerability to stress and as a proxy of mPFC function.


Asunto(s)
MicroARNs/biosíntesis , Derrota Social , Estrés Psicológico/genética , Animales , Biomarcadores/sangre , Biomarcadores/metabolismo , Regulación hacia Abajo , Masculino , Ratones , MicroARNs/sangre , Corteza Prefrontal/metabolismo , Estrés Psicológico/sangre , Regulación hacia Arriba
3.
Addict Biol ; 25(4): e12791, 2020 07.
Artículo en Inglés | MEDLINE | ID: mdl-31192517

RESUMEN

The guidance cue receptor DCC controls mesocortical dopamine development in adolescence. Repeated exposure to an amphetamine regimen of 4 mg/kg during early adolescence induces, in male mice, downregulation of DCC expression in dopamine neurons by recruiting the Dcc microRNA repressor, microRNA-218 (miR-218). This adolescent amphetamine regimen also disrupts mesocortical dopamine connectivity and behavioral control in adulthood. Whether low doses of amphetamine in adolescence induce similar molecular and developmental effects needs to be established. Here, we quantified plasma amphetamine concentrations in early adolescent mice following a 4 or 0.5 mg/kg dose and found peak levels corresponding to those seen in humans following recreational and therapeutic settings, respectively. In contrast to the high doses, the low amphetamine regimen does not alter Dcc mRNA or miR-218 expression; instead, it upregulates DCC protein levels. Furthermore, high, but not low, drug doses downregulate the expression of the DCC receptor ligand, Netrin-1, in the nucleus accumbens and prefrontal cortex. Exposure to the low-dose regimen did not alter the expanse of mesocortical dopamine axons or their number/density of presynaptic sites in adulthood. Strikingly, adolescent exposure to the low-dose drug regimen does not impair behavioral inhibition in adulthood; instead, it induces an overall increase in performance in a go/no-go task. These results show that developmental consequences of exposure to therapeutic- versus abused-like doses of amphetamine in adolescence have dissimilar molecular signatures and opposite behavioral effects. These findings have important clinical relevance since amphetamines are widely used for therapeutic purposes in youth.


Asunto(s)
Anfetamina/farmacología , Estimulantes del Sistema Nervioso Central/farmacología , Receptor DCC/efectos de los fármacos , Neuronas Dopaminérgicas/efectos de los fármacos , MicroARNs/efectos de los fármacos , Anfetamina/administración & dosificación , Trastornos Relacionados con Anfetaminas , Animales , Conducta Animal/efectos de los fármacos , Estimulantes del Sistema Nervioso Central/administración & dosificación , Receptor DCC/genética , Receptor DCC/metabolismo , Relación Dosis-Respuesta a Droga , Inhibición Psicológica , Masculino , Ratones , MicroARNs/genética , MicroARNs/metabolismo , Netrina-1/efectos de los fármacos , Netrina-1/metabolismo , Vías Nerviosas , Núcleo Accumbens/efectos de los fármacos , Núcleo Accumbens/metabolismo , Corteza Prefrontal/efectos de los fármacos , Corteza Prefrontal/metabolismo , ARN Mensajero/efectos de los fármacos , ARN Mensajero/metabolismo
4.
eNeuro ; 5(1)2018.
Artículo en Inglés | MEDLINE | ID: mdl-29333488

RESUMEN

The prefrontal cortex (PFC) is divided into subregions, including the medial and orbital prefrontal cortices. Dopamine connectivity in the medial PFC (mPFC) continues to be established throughout adolescence as the result of the continuous growth of axons that innervated the nucleus accumbens (NAcc) prior to adolescence. During this period, dopamine axons remain vulnerable to environmental influences, such as drugs used recreationally by humans. The developmental trajectory of the orbital prefrontal dopamine innervation remains almost completely unstudied. Nonetheless, the orbital PFC (oPFC) is critical for some of the most complex functions of the PFC and is disrupted by drugs of abuse, both in adolescent humans and rodents. Here, we use quantitative neuroanatomy, axon-initiated viral-vector recombination, and pharmacology in mice to determine the spatiotemporal development of the dopamine innervation to the oPFC and its vulnerability to amphetamine in adolescence. We find that dopamine innervation to the oPFC also continues to increase during adolescence and that this increase is due to the growth of new dopamine axons to this region. Furthermore, amphetamine in adolescence dramatically reduces the number of presynaptic sites on oPFC dopamine axons. In contrast, dopamine innervation to the piriform cortex is not protracted across adolescence and is not impacted by amphetamine exposure during adolescence, indicating that dopamine development during adolescence is a uniquely prefrontal phenomenon. This renders these fibers, and the PFC in general, particularly vulnerable to environmental risk factors during adolescence, such as recreational drug use.


Asunto(s)
Anfetamina/farmacología , Dopaminérgicos/farmacología , Dopamina/metabolismo , Corteza Prefrontal/efectos de los fármacos , Corteza Prefrontal/crecimiento & desarrollo , Animales , Axones/efectos de los fármacos , Axones/metabolismo , Neuronas Dopaminérgicas/citología , Neuronas Dopaminérgicas/efectos de los fármacos , Neuronas Dopaminérgicas/metabolismo , Ratones Endogámicos C57BL , Corteza Prefrontal/citología , Corteza Prefrontal/metabolismo , Maduración Sexual
5.
Neuropsychopharmacology ; 43(4): 900-911, 2018 03.
Artículo en Inglés | MEDLINE | ID: mdl-29154364

RESUMEN

The development of the dopamine input to the medial prefrontal cortex occurs during adolescence and is a process that is vulnerable to disruption by stimulant drugs such as amphetamine. We have previously linked the amphetamine-induced disruption of dopamine connectivity and prefrontal cortex maturation during adolescence to the downregulation of the Netrin-1 receptor, DCC, in dopamine neurons. However, how DCC expression in dopamine neurons is itself regulated is completely unknown. MicroRNA (miRNA) regulation of mRNA translation and stability is a prominent mechanism linking environmental events to changes in protein expression. Here, using male mice, we show that miR-218 is expressed in dopamine neurons and is a repressor of DCC. Whereas Dcc mRNA levels increase from early adolescence to adulthood, miR-218 exhibits the exact opposite switch, most likely maintaining postnatal Dcc expression. This dynamic regulation appears to be selective to Dcc since the expression of Robo 1, the other guidance cue receptor target of miR-218, does not vary with age. Amphetamine in adolescence, but not in adulthood, increases miR-218 in the VTA and this event is required for drug-induced downregulation of Dcc mRNA and protein expression. This effect seems to be specific to Dcc because amphetamine does not alter Robo1. Furthermore, the upregulation of miR-218 by amphetamine requires dopamine D2 receptor activation. These findings identify miR-218 as regulator of DCC in the VTA both in normal development and after drug exposure in adolescence.


Asunto(s)
Anfetamina/farmacología , Estimulantes del Sistema Nervioso Central/farmacología , Receptor DCC/biosíntesis , MicroARNs/biosíntesis , Área Tegmental Ventral/metabolismo , Factores de Edad , Animales , Receptor DCC/genética , Neuronas Dopaminérgicas/efectos de los fármacos , Neuronas Dopaminérgicas/metabolismo , Expresión Génica , Masculino , Ratones , Ratones Endogámicos C57BL , MicroARNs/genética , Área Tegmental Ventral/efectos de los fármacos
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