Generation and characterization of Ccdc28b mutant mice links the Bardet-Biedl associated gene with mild social behavioral phenotypes.

CCDC28B (coiled-coil domain-containing protein 28B) was identified as a modifier in the ciliopathy Bardet-Biedl syndrome (BBS). Our previous work in cells and zebrafish showed that CCDC28B plays a role regulating cilia length in a mechanism that is not completely understood. Here we report the generation of a Ccdc28b mutant mouse using CRISPR/Cas9 (Ccdc28b mut). Depletion of CCDC28B resulted in a mild phenotype. Ccdc28b mut animals i) do not present clear structural cilia affectation, although we did observe mild defects in cilia density and cilia length in some tissues, ii) reproduce normally, and iii) do not develop retinal degeneration or obesity, two hallmark features of reported BBS murine models. In contrast, Ccdc28b mut mice did show clear social interaction defects as well as stereotypical behaviors. This finding is indeed relevant regarding CCDC28B as a modifier of BBS since behavioral phenotypes have been documented in BBS. Overall, this work reports a novel mouse model that will be key to continue evaluating genetic interactions in BBS, deciphering the contribution of CCDC28B to modulate the presentation of BBS phenotypes. In addition, our data underscores a novel link between CCDC28B and behavioral defects, providing a novel opportunity to further our understanding of the genetic, cellular, and molecular basis of these complex phenotypes.

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

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.

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

In rats, successful mating during the postpartum estrus results in the temporal overlapping of successive litters within the maternal nest. Mothers with two overlapping-litters (OLM) simultaneously take care of neonate and juvenile pups; however, they mostly direct their attention to the neonates. We hypothesized that these differences reflect an adaptation to the specific characteristics and needs of the two litters and not a lack of interest in the juveniles. To test this hypothesis, we assessed the relative incentive value of newborns and juveniles for OLM in a preference test and compared it with that exhibited by mothers in early (EPM) and late (LPM) postpartum, which were raising only newborns or only juveniles, respectively. Results showed that OLM spent similar time in the newborns and juveniles compartments and did not prefer the newborns as did the EPM, however, similarly to them, OLM made more attempts to get access to the newborns than the juveniles. On the other hand, OLM and LPM did not exhibit a clear preference between the stimuli. These results indicate that both neonates and juveniles have incentive value for OLM, although these mothers invest more effort in the newborns. These results point out to a unique behavioral profile of OLM, which shows similarities with EPM and LPM on different behavioral measures. They also support the idea that motivational processes underlying maternal behavior are complex and dynamic, adapting the response of the mother to pups' needs and the context.