Marcela Ferreño scite author profile

Perineuronal nets (PNNs) are aggregations of extracellular matrix associated with specific neuronal populations in the central nervous system, suggested to play key roles in neural development, synaptogenesis and experience-dependent synaptic plasticity. pregnancy and lactation are characterized by a dramatic increase in neuroplasticity. However, dynamic changes in the extracellular matrix associated with maternal circuits have been mostly overlooked. We analyzed the structure of pnns in an essential nucleus of the maternal circuit, the medial preoptic area (mpoA), during the reproductive cycle of rats, using the Wisteria floribunda (WfA) label. pnns associated to neurons in the mpoA start to assemble halfway through gestation and become highly organized prior to parturition, fading through the postpartum period. this high expression of pnns during pregnancy appears to be mediated by the influence of estrogen, progesterone and prolactin, since a hormonal simulatedgestation treatment induced the expression of pnns in ovariectomized females. We found that pnns associated neurons in the mpoA express estrogen receptor α and progesterone receptors, supporting a putative role of reproductive hormones in the signaling mechanisms that trigger the assembly of PNNs in the mPOA. This is the first report of PNNs presence and remodeling in mPOA during adulthood induced by physiological variables.

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Maternal and affective behaviors of lactating rats reared in overlapping litters

Uriarte

Fernández

Agrati

et al. 2014

Journal of Physiology-Paris

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Coexpression of sexual behavior and maternal aggression: The ambivalence of sexually active mother rats toward male intruders.

Agrati¹,

Fernández‐Guasti²,

Ferreño³

et al. 2011

Behavioral Neuroscience

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The sexually active female rat solicits the male to approach for copulation, while the maternal dam displays aggression to expel him from the nest, suggesting that both behaviors are mutually exclusive. However, the rat has a postpartum estrus during which she is sexual and maternally motivated. Can she perceive the male as attractive and aversive, soliciting and attacking him at the same time? This study shows that postpartum estrous females exhibit a merge of sexual and maternal aggressive responses toward male intruders in the home cage. The concurrent expression of these behaviors did not affect their intensities, although the stimulation of maternal behavior increased maternal aggression without modifying sexual solicitation. These results indicate that the postpartum estrous rat can optimally express two opposite and independently regulated motivations, and that the male can be perceived as an ambivalent stimulus.

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Raising overlapping litters: Differential activation of rat maternal neural circuitry after interacting with newborn or juvenile pups

Pose

Zuluaga

Ferreño

et al. 2019

J Neuroendocrinology

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The maternal behaviour of a rat dynamically changes during the postpartum period, adjusting to the characteristics and physiological needs of the pups. This adaptation has been attributed to functional modifications in the maternal circuitry. Maternal behaviour can also flexibly adapt according to different litter compositions. Thus, mothers with two overlapping litters can concurrently take care of neonate and juvenile pups, mostly directing their attention to the newborns. We hypothesised that the maternal circuitry of these mothers would show a differential activation pattern after interacting with pups depending on the developmental stage of their offspring. Thus, we evaluated the activation of several areas of the maternal circuitry in mothers of overlapping litters, using c‐Fos immunoreactivity as a marker of neuronal activation, after interacting with newborns or juveniles. The results showed that mothers with overlapping litters display different behavioural responses towards their newborn and their juvenile pups. Interestingly, these behavioural displays co‐occurred with specific patterns of activation of the maternal neural circuitry. Thus, a similar expression of c‐Fos was observed in some key brain areas of mothers that interacted with newborns or juveniles, such as the medial preoptic area and the nucleus accumbens, whereas a differential activation was quantified in the ventral region of the bed nucleus of the stria terminalis, the infralimbic and prelimbic subregions of the medial prefrontal cortex and the basolateral and medial nuclei of the amygdala. We posit that the specific profile of activation of the neural circuitry controlling maternal behaviour in mothers with overlapping litters enables dams to respond adequately to the newborn and the juvenile pups.

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Incentive value of newborn pups relative to juveniles for mother rats raising overlapping litters

Ferreño

Pose

Agrati

et al. 2018

Behavioural Processes

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