•BTBR virgin female mice are less responsive to presentation of pups in comparison of B6.•c-Fos expression in brain areas activated by pup-related cues is lower in BTBR mice.•Social impairment of ...BTBR mice extends to responsiveness to pups by virgin females.
BTBR is an inbred mouse strain that displays several behavioral alterations resembling the core symptoms of Autism Spectrum Disorder, including deficit in sociability. In the present study, we investigated whether the pup-induced maternal behavior in virgin female mice, a naturally rewarding behavior, is impaired in this strain similarly to social interaction with adult conspecifics. We firstly assessed the maternal responsiveness towards newly born pups expressed by either virgin female mice of the BTBR strain or of the normo-social B6 strain. Next, we examined in both strains the expression of c-Fos as a marker of neuronal activity in selected brain areas involved in the regulation of maternal behavior in rodents including the olfactory bulb, the medial preoptic area and the paraventricular nucleus (PVN). We also examined the effects of pup presentation on oxytocinergic neurons of the PVN, the major brain site of synthesis of oxytocin, which has a pivotal role in facilitation of maternal response and social responsiveness in general. As a final step, we assessed the c-Fos expression pattern comparing the effect of exposure to pups with that induced by exposure to another social stimulus, focusing on other areas implicated in maternal responsiveness as well as in the affective component of social behavior such as pyriform cortex and central and basolateral amygdala.
Our data showed that BTBR virgin females are less responsive to presentation of pups in comparison to B6, in parallel with lower activation of brain areas implicated in the maternal and social responsiveness.
Autophagy is a conserved proteolytic mechanism required for maintaining cellular homeostasis. The role of this process in vertebrate neural development is related to metabolic needs and stress ...responses, even though the importance of its progression has been observed in a number of circumstances, both in embryonic and in postnatal differentiating tissues. Here we show that the proautophagic proteins Ambra1 and Beclin 1, involved in the initial steps of autophagosome formation, are highly expressed in the adult subventricular zone (SVZ), whereas their downregulation in adult neural stem cells in vitro leads to a decrease in cell proliferation, an increase in basal apoptosis and an augmented sensitivity to DNA-damage-induced death. Further, Beclin 1 heterozygosis in vivo results in a significant reduction of proliferating cells and immature neurons in the SVZ, accompanied by a marked increase in apoptotic cell death. In sum, we propose that Ambra1- and Beclin 1-mediated autophagy plays a crucial role in adult neurogenesis, by controlling the survival of neural precursor cells.
Peroxisome proliferator-activated and retinoid X receptors (PPARs and RXRs) are transcription factors belonging to the steroid hormone receptor superfamily. Upon activation by their ligands, PPARs ...and RXRs bind to their target genes as heterodimers. Ligands of these receptors include lipophylic molecules, such as retinoids, fatty acids and eicosanoids, the importance of which in the metabolism and functioning of the nervous tissue is well documented.
The immunohistochemical distribution of PPARs and RXRs in the CNS of the adult rat was studied by means of a sensitive biotinyl-tyramide method. All PPAR (α, β/δ and γ) and RXR (α, β and γ) isotypes were detected and found to exhibit specific patterns of localization in the different areas of the brain and spinal cord. The presence of the nuclear receptors was observed in both neuronal and glial cells. While PPAR β/δ and RXR β showed a widespread distribution, α and γ isotypes exhibited a more restricted pattern of expression. The frontal cortex, basal ganglia, reticular formation, some cranial nerve nuclei, deep cerebellar nuclei, and cerebellar Golgi cells appeared rather rich in all studied receptors. Based on our data, we suggest that in the adult CNS, PPARs and RXRs, besides playing roles common to many other tissues, may have specific functions in regulating the expression of genes involved in neurotransmission, and therefore play roles in complex processes, such as aging, neurodegeneration, learning and memory.
Medulloblastoma, the most common brain tumor in childhood, appears to originate from cerebellar granule cell precursors (GCPs), located in the external granular layer (EGL) of the cerebellum. The ...antiproliferative gene PC3 (Tis21 /BTG2) promotes cerebellar neurogenesis by inducing GCPs to shift from proliferation to differentiation. To assess whether PC3 can prevent the neoplastic transformation of GCPs and medulloblastoma development, we crossed transgenic mice conditionally expressing PC3 (TgPC3) in GCPs with Patchedl heterozygous mice (Ptc+/−), a model of medulloblastoma pathogenesis characterized by hyper‐activation of the Sonic Hedgehog pathway. Perinatal up‐regulation of PC3 in Ptc+/−/TgPC3 mice results in a decrease of medulloblastoma incidence of ~40% and in a marked reduction of preneoplastic abnormalities, such as hyperplastic EGL areas and lesions. Moreover, overexpression of cyclin D1, hyperproliferation, and defective differentiation—observed in Ptc+/− GCPs— are restored to normality in Ptc+/−/TgPC3 mice. The PC3‐mediated inhibition of cyclin D1 expression correlates with recruitment of PC3 to the cyclin D1 promoter, which is accompanied by histone deacetylation. Remarkably, down‐regulation of PC3 is observed in pre‐neoplastic lesions, as well as in human and murine medulloblastomas. As a whole, this indicates that PC3 may prevent medulloblastoma development by controlling cell cycle and promoting differentiation of GCPs.–Farioli‐Vecchioli, S., Tanori, M., Micheli, L., Mancuso, M., Leonardi, L., Saran, A., Ciotti, M. T., Ferretti, E., Gulino, A., Pazzaglia, S., Tirone, F. Inhibition of medulloblastoma tumorigenesis by the antiprolifera‐tive and pro‐differentiative gene PC3. FASEB J. 21, 2215‐2225 (2007)
We investigated the effect of the peroxisomal proliferator (PP) perfluorodecanoic acid (PFDA), alone or in combination with 9-
cis-retinoic acid (RX) on the human glioblastoma cell line Lipari (LI). ...Cell proliferation, apoptotic rate, peroxisome morphology and morphometry, peroxisomal enzyme activities and the presence of peroxisome proliferator-activated receptors (PPARs) were examined. We show that PFDA alone produces pleiotropic effects on LI cells and that RX enhances some of these effects. Peroxisomal number and relative volume, as well as palmitoyl-CoA oxidase activity and protein, are increased by PFDA treatment, with a synergistic effect by RX. The latter, alone or in association with PFDA, induces catalase activity and protein, increases apoptosis and decreases cell proliferation. PPAR isotypes α and γ were detected in LI cells. While the former is apparently unaffected by either treatment, the latter increases in response to PFDA, independent of the presence of RX. The results of this study are discussed in terms of PPARα activation and PPARγ induction by PFDA, by either a direct or an indirect mechanism.
Growing evidence indicates that cell cycle arrest and neurogenesis are highly coordinated and interactive processes, governed by cell cycle genes and neural transcription factors. The gene PC3 ...(Tis21/BTG2) is expressed in the neuroblast throughout the neural tube and inhibits cell cycle progression at the G1 checkpoint by repressing cyclin D1 transcription. We generated inducible mouse models in which the expression of PC3 was upregulated in neuronal precursors of the neural tube and of the cerebellum. These mice exhibited a marked increase in the production of postmitotic neurons and impairment of cerebellar development. Cerebellar granule precursors of PC3 transgenic mice displayed inhibition of cyclin D1 expression and a strong increase in the expression of Math1, a transcription factor required for their differentiation. Furthermore, PC3, encoded by a recombinant adenovirus, also induced Math1 in postmitotic granule cells in vitro and stimulated the Math1 promoter activity. In contrast, PC3 expression was unaffected in the cerebellar primordium of Math1 null mice, suggesting that PC3 acts upstream to Math1. As a whole, our data suggest that cell cycle exit of cerebellar granule cell precursors and the onset of cerebellar neurogenesis are coordinated by PC3 through transcriptional control of cyclin D1 and Math1, respectively.
Peroxisomes were purified from the nervous tissue of 14-day-old rats by means of a Nycodenz gradient. Peroxisomal enzymes exhibited different sedimentation patterns: dihydroxyacetone phosphate ...acyl-transferase equilibrates at 1.142 g/ml together with the first peak of catalase; palmitoyl-CoA oxidase and
d-amino acid oxidase activities are mainly recovered at 1.154 g/ml; the second peak of catalase is found at 1.175 g/ml. Morphological and semi-quantitative analyses of immunogold-labelled peroxisomes reveal profound heterogeneity of the particles. Very small (=0.2 μm diameter), electron dense vesicles containing catalase or thiolase, but devoid of other tested enzymes, are preferentially found in the light region, together with larger (>0.2 <0.3 μm) and less electron dense palmitoyl-CoA oxidase-positive peroxisomes. At intermediate density (1.154 g/ml) peroxisomes of more uniform size (0.25–0.27 μm), containing palmitoyl-CoA oxidase or thiolase with or without catalase are preferentially found. This population extends toward the densest region of the gradient, where very large
d-amino acid oxidase-containing peroxisomes are also found. In this region, smaller peroxisomes, often polymorphic, which are catalase- and thiolase-positive and
d-amino acid oxidase/palmitoyl-CoA oxidase-negative, are also observed. The possibility that the heterogeneity of neural peroxisomes may reflect both cellular heterogeneity and ongoing peroxisomal biogenesis is discussed.
We administered the hypolipidemic drug ciprofibrate to lactating rats and examined the enzymatic content and ultrastructural features of liver and kidney peroxisomes, both in treated animals and in ...their pups. The peroxisomal morphometric parameters, in particular, were measured in specimens submitted to the cytochemical reaction for the marker enzyme catalase. In liver of treated rats, the activities of peroxisomal enzymes involved in the fatty acid catabolism were significantly increased, while D-amino acid oxidase activity was lower than in controls; increments were also found in relative volume and pleiomorphism degree of the peroxisomal compartment, where a catalase dilution was supposed to occur. In the kidney, the treatment induced generalized increases of all examined enzymes; values significantly higher than controls were found in peroxisomal relative volume and numerical density, while the peroxisomal mean diameter practically did not change. The two organs, moreover, were affected by the drug in an age-dependent way, the pups being more responsive than the adults. The organ- and age-specific responses to the drug are interpreted as possibly related to the tissue-specific distribution of the peroxisomal proliferator activated receptor isotypes.
In mammalian lung, type II pneumocytes are especially critical in normal alveolar functioning, as they are the major source of surfactant and the progenitors of type I alveolar cells. Moreover, they ...undergo proliferation and transformation into type I cells in most types of cellular injury, where flattened type I pneumocytes are selectively destroyed. Hyperplasia of alveolar type II cells has also been described in some human chronic lung diseases. In lung, type II pneumocytes and non-ciliated bronchiolar cells are the unique cell types that contain a considerable amount of peroxisomes. Due to the presence of dihydroxyacetone phosphate acyltransferase and non-specific lipid-transfer protein, these organelles have been suggested to be involved in the synthesis and/or transport of the lipid moiety of surfactant. In the present research, the peroxisomal marker enzyme catalase was immunolocalised at the light microscopic level, utilising the avidin-biotin complex method, in lung specimens excised from newborn, adult and aged rats. In all the examined stages the immunoreactivity was so selective for type II pneumocytes it allowed quantitation of these cells by an automated detection system. This was accomplished on specimens from newborn rat lung, in which labelled alveolar cells were counted by a grey level-based procedure and their main morphometric parameters were determined.
In the dentate gyrus adult neurogenesis plays a critical role in hippocampus-dependent spatial learning. However, how new neurons become functionally integrated into spatial circuits and contribute ...to learning and memory remains yet unknown. To study this issue, we used a mouse model in which the differentiation of adult-generated dentate gyrus neurons can be anticipated by conditionally expressing the pro-differentiative gene PC3 (Tis21/BTG2) in nestin-positive progenitor cells. This strategy selectively changes the timing of differentiation of newly generated neurons without affecting their number. New, adult-generated dentate gyrus progenitors, in which the PC3 transgene was expressed, showed accelerated differentiation, reduced dendritic arborization and spine density. The genetic manipulation affected different hippocampus-dependent learning and memory tasks and selectively reduced syn-aptic plasticity in the dentate gyrus. Morphological and functional analyses of hippocampal neurons at different stages of differentiation, following transgene activation within defined time-windows, revealed that the new, adult-generated neurons up to 3-4 weeks of age are required not only to acquire new spatial information but also to use previously consolidated memories. Thus, the correct unwinding of these key memory functions is critically dependent on the correct timing of the initial stages of neuron maturation and connection to existing circuits.