Your search keyword '"Racagni G."' showing total 85 results

1. Ketamine modulates glutamate release, BDNF trafficking and dendrite morphology in rats vulnerable to chronic mild stress

Bookmark

Author

Tornese, P, Musazzi, L, Sala, N, Seguini, M, Bonini, D, Milanese, M, Bonifacino, T, Treccani, G, Racagni, G, Nyengaard, J, Wegener, G, Bonanno, G, Barbon, A, Popoli, M, Nyengaard, JR, Tornese, P, Musazzi, L, Sala, N, Seguini, M, Bonini, D, Milanese, M, Bonifacino, T, Treccani, G, Racagni, G, Nyengaard, J, Wegener, G, Bonanno, G, Barbon, A, Popoli, M, and Nyengaard, JR more...

Published

2017

2. Ketamine restores changes in glutamate release, dendrite morphology and BDNF trafficking in the hippocampus of rats vulnerable to chronic mild stress

Bookmark

Author

Tornese, P, Musazzi, L, Sala, N, Seguini, M, Bonini, D, Milanese, M, Bonifacino, T, Treccani, G, Racagni, G, Nyengaard, J, Wegener, G, Bonanno, G, Barbon, A, Popoli, M, Nyengaard, JR, Tornese, P, Musazzi, L, Sala, N, Seguini, M, Bonini, D, Milanese, M, Bonifacino, T, Treccani, G, Racagni, G, Nyengaard, J, Wegener, G, Bonanno, G, Barbon, A, Popoli, M, and Nyengaard, JR more...

Published

2017

3. Acute Footshock Stress Induces Time-Dependent Modifications of AMPA/NMDA Protein Expression and AMPA Phosphorylation

Bookmark

Author

Bonini, D, Mora, C, Tornese, P, Sala, N, Filippini, A, La Via, L, Milanese, M, Calza, S, Bonanno, G, Racagni, G, Gennarelli, M, Popoli, M, Musazzi, L, Barbon, A, D. Bonini, C. Mora, P. Tornese, N. Sala, A. Filippini, L. La Via, M. Milanese, S. Calza, G. Bonanno, G. Racagni, M. Gennarelli, M. Popoli, L. Musazzi, A. Barbon, Bonini, D, Mora, C, Tornese, P, Sala, N, Filippini, A, La Via, L, Milanese, M, Calza, S, Bonanno, G, Racagni, G, Gennarelli, M, Popoli, M, Musazzi, L, Barbon, A, D. Bonini, C. Mora, P. Tornese, N. Sala, A. Filippini, L. La Via, M. Milanese, S. Calza, G. Bonanno, G. Racagni, M. Gennarelli, M. Popoli, L. Musazzi, and A. Barbon more...

Abstract

Clinical studies on patients with stress-related neuropsychiatric disorders reported functional and morphological changes in brain areas where glutamatergic transmission is predominant, including frontal and prefrontal areas. In line with this evidence, several preclinical works suggest that glutamate receptors are targets of both rapid and long-lasting effects of stress. Here we found that acute footshock- (FS-) stress, although inducing no transcriptional and RNA editing alterations of ionotropic AMPA and NMDA glutamate receptor subunits, rapidly and transiently modulates their protein expression, phosphorylation, and localization at postsynaptic spines in prefrontal and frontal cortex. In total extract, FS-stress increased the phosphorylation levels of GluA1 AMPA subunit at Ser845 immediately after stress and of GluA2 Ser880 2 h after start of stress. At postsynaptic spines, stress induced a rapid decrease of GluA2 expression, together with an increase of its phosphorylation at Ser880, suggesting internalization of GluA2 AMPA containing receptors. GluN1 and GluN2A NMDA receptor subunits were found markedly upregulated in postsynaptic spines, 2 h after start of stress. These results suggest selected time-dependent changes in glutamatergic receptor subunits induced by acute stress, which may suggest early and transient enhancement of AMPA-mediated currents, followed by a transient activation of NMDA receptors. more...

Published

2016

4. Acute ketamine restores deficits in glutamate release and related molecular mechanisms induced by chronic mild stress in vulnerable rats

Bookmark

Author

Tornese, P, Musazzi, L, Sala, N, Seguini, M, Milanese, M, Bonifacino, T, Bonini, D, Racagni, G, Barbon, A, Bonanno, G, Popoli, M, Tornese, P, Musazzi, L, Sala, N, Seguini, M, Milanese, M, Bonifacino, T, Bonini, D, Racagni, G, Barbon, A, Bonanno, G, and Popoli, M more...

Published

2016

5. Exposure to early life stress regulates Bdnf expression in SERT mutant rats in an anatomically selective fashion

Bookmark

Author

Calabrese, F., Doelen, R.H.A. van der, Guidotti, G., Racagni, G., Kozicz, L.T., Homberg, J.R., Riva, M.A., Calabrese, F., Doelen, R.H.A. van der, Guidotti, G., Racagni, G., Kozicz, L.T., Homberg, J.R., and Riva, M.A. more...

Abstract

Contains fulltext : 155240.pdf (publisher's version ) (Closed access), Although the causes of psychiatric disorders are not fully understood, it is well established that mental illness originates from the interaction between genetic and environmental factors. In this regard, compelling evidence demonstrates that depression can be the consequence of altered, and often maladaptive, response to adversities during pre- and early post-natal life. In this study, we investigated the impact of chronic maternal separation (MS) on the expression of the neurotrophin brain-derived neurotrophic factor (BDNF) in serotonin transporter (SERT) knockout rats in the ventral and dorsal hippocampus as well as the ventromedial and dorsomedial prefrontal cortex (PFC). We found that both SERT deletion and the MS led to an overall reduction in Bdnf expression in the ventral hippocampus and the ventromedial PFC, whereas in the dorsal hippocampus and in the dorsomedial PFC, we observed a significant increase in the neurotrophin gene expression after MS exposure, specifically in the heterozygous SERT rats. In summary, we show that the modulation of Bdnf expression in SERT mutant rats exposed to MS reflects the complex functional consequences of this gene-environment interaction with a clear distinction between the ventral and the dorsal subfields of the hippocampus and of the PFC. Early life stress differently affects the expression of Bdnf in an anatomically distinct manner as a function of SERT genotype. Specifically, both SERT deletion and the maternal separation (MS) led to an overall reduction in Bdnf expression in the ventral hippocampus and in the ventromedial prefrontal cortex, whereas in the dorsal hippocampus and in the dorsomedial prefrontal cortex, we observed a significant increase in the neurotrophin gene expression after MS exposure specifically in the heterozygous SERT rats. We think that these findings may provide novel cues for modulating neurotrophin function, which is dys-regulated in several psychiatric conditions. more...

Published

2015

6. Exposure to early life stress regulates Bdnf expression in SERT mutant rats in an anatomically selective fashion

Bookmark

Author

Calabrese, F., Doelen, R.H.A. van der, Guidotti, G., Racagni, G., Kozicz, L.T., Homberg, J.R., Riva, M.A., Calabrese, F., Doelen, R.H.A. van der, Guidotti, G., Racagni, G., Kozicz, L.T., Homberg, J.R., and Riva, M.A. more...

Abstract

Contains fulltext : 155240.pdf (publisher's version ) (Closed access), Although the causes of psychiatric disorders are not fully understood, it is well established that mental illness originates from the interaction between genetic and environmental factors. In this regard, compelling evidence demonstrates that depression can be the consequence of altered, and often maladaptive, response to adversities during pre- and early post-natal life. In this study, we investigated the impact of chronic maternal separation (MS) on the expression of the neurotrophin brain-derived neurotrophic factor (BDNF) in serotonin transporter (SERT) knockout rats in the ventral and dorsal hippocampus as well as the ventromedial and dorsomedial prefrontal cortex (PFC). We found that both SERT deletion and the MS led to an overall reduction in Bdnf expression in the ventral hippocampus and the ventromedial PFC, whereas in the dorsal hippocampus and in the dorsomedial PFC, we observed a significant increase in the neurotrophin gene expression after MS exposure, specifically in the heterozygous SERT rats. In summary, we show that the modulation of Bdnf expression in SERT mutant rats exposed to MS reflects the complex functional consequences of this gene-environment interaction with a clear distinction between the ventral and the dorsal subfields of the hippocampus and of the PFC. Early life stress differently affects the expression of Bdnf in an anatomically distinct manner as a function of SERT genotype. Specifically, both SERT deletion and the maternal separation (MS) led to an overall reduction in Bdnf expression in the ventral hippocampus and in the ventromedial prefrontal cortex, whereas in the dorsal hippocampus and in the dorsomedial prefrontal cortex, we observed a significant increase in the neurotrophin gene expression after MS exposure specifically in the heterozygous SERT rats. We think that these findings may provide novel cues for modulating neurotrophin function, which is dys-regulated in several psychiatric conditions. more...

Published

2015

7. Exposure to early life stress regulates Bdnf expression in SERT mutant rats in an anatomically selective fashion

Bookmark

Author

Calabrese, F., Doelen, R.H.A. van der, Guidotti, G., Racagni, G., Kozicz, L.T., Homberg, J.R., Riva, M.A., Calabrese, F., Doelen, R.H.A. van der, Guidotti, G., Racagni, G., Kozicz, L.T., Homberg, J.R., and Riva, M.A. more...

Abstract

Contains fulltext : 155240.pdf (Publisher’s version ) (Closed access), Although the causes of psychiatric disorders are not fully understood, it is well established that mental illness originates from the interaction between genetic and environmental factors. In this regard, compelling evidence demonstrates that depression can be the consequence of altered, and often maladaptive, response to adversities during pre- and early post-natal life. In this study, we investigated the impact of chronic maternal separation (MS) on the expression of the neurotrophin brain-derived neurotrophic factor (BDNF) in serotonin transporter (SERT) knockout rats in the ventral and dorsal hippocampus as well as the ventromedial and dorsomedial prefrontal cortex (PFC). We found that both SERT deletion and the MS led to an overall reduction in Bdnf expression in the ventral hippocampus and the ventromedial PFC, whereas in the dorsal hippocampus and in the dorsomedial PFC, we observed a significant increase in the neurotrophin gene expression after MS exposure, specifically in the heterozygous SERT rats. In summary, we show that the modulation of Bdnf expression in SERT mutant rats exposed to MS reflects the complex functional consequences of this gene-environment interaction with a clear distinction between the ventral and the dorsal subfields of the hippocampus and of the PFC. Early life stress differently affects the expression of Bdnf in an anatomically distinct manner as a function of SERT genotype. Specifically, both SERT deletion and the maternal separation (MS) led to an overall reduction in Bdnf expression in the ventral hippocampus and in the ventromedial prefrontal cortex, whereas in the dorsal hippocampus and in the dorsomedial prefrontal cortex, we observed a significant increase in the neurotrophin gene expression after MS exposure specifically in the heterozygous SERT rats. We think that these findings may provide novel cues for modulating neurotrophin function, which is dys-regulated in several psychiatric conditions. more...

Published

2015

8. The serotonergic transmission

Bookmark

Author

F. Clementi, G. Fumagalli, Popoli, M, Musazzi, L, Racagni, G, M. Popoli, L. Musazzi, G. Racagni, F. Clementi, G. Fumagalli, Popoli, M, Musazzi, L, Racagni, G, M. Popoli, L. Musazzi, and G. Racagni

Published

2015

9. Acute stress increases the readily releasable pool of glutamate vesicles in cortical areas

Bookmark

Author

Musazzi, L, Treccani, G, Milanese, M, Perego, C, Nava, N, Bonifacino, T, Lamanna, J, Malgaroli, A, Racagni, G, Nyengaard, J, Wegener, G, Bonanno, G, Popoli, M, Nyengaard, JR, Musazzi, L, Treccani, G, Milanese, M, Perego, C, Nava, N, Bonifacino, T, Lamanna, J, Malgaroli, A, Racagni, G, Nyengaard, J, Wegener, G, Bonanno, G, Popoli, M, and Nyengaard, JR more...

Published

2014

10. Stress and corticosterone increase the readily releasable pool of glutamate vesicles in synaptic terminals of prefrontal and frontal cortex

Bookmark

Author

Treccani, G, Musazzi, L, Perego, C, Milanese, M, Nava, N, Bonifacino, T, Lamanna, J, Malgaroli, A, Drago, F, Racagni, G, Nyengaard, J, Wegener, G, Bonanno, G, Popoli, M, G. Treccani, L. Musazzi, C. Perego, M. Milanese, N. Nava, T. Bonifacino, J. Lamanna, A. Malgaroli, F. Drago, G. Racagni, J.R. Nyengaard, G. Wegener, G. Bonanno, M. Popoli, Treccani, G, Musazzi, L, Perego, C, Milanese, M, Nava, N, Bonifacino, T, Lamanna, J, Malgaroli, A, Drago, F, Racagni, G, Nyengaard, J, Wegener, G, Bonanno, G, Popoli, M, G. Treccani, L. Musazzi, C. Perego, M. Milanese, N. Nava, T. Bonifacino, J. Lamanna, A. Malgaroli, F. Drago, G. Racagni, J.R. Nyengaard, G. Wegener, G. Bonanno, and M. Popoli more...

Abstract

Stress and glucocorticoids alter glutamatergic transmission, and the outcome of stress may range from plasticity enhancing effects to noxious, maladaptive changes. We have previously demonstrated that acute stress rapidly increases glutamate release in prefrontal and frontal cortex via glucocorticoid receptor and accumulation of presynaptic SNARE complex. Here we compared the ex vivo effects of acute stress on glutamate release with those of in vitro application of corticosterone, to analyze whether acute effect of stress on glutamatergic transmission is mediated by local synaptic action of corticosterone. We found that acute stress increases both the readily releasable pool (RRP) of vesicles and depolarization-evoked glutamate release, while application in vitro of corticosterone rapidly increases the RRP, an effect dependent on synaptic receptors for the hormone, but does not induce glutamate release for up to 20 min. These findings indicate that corticosterone mediates the enhancement of glutamate release induced by acute stress, and the rapid non-genomic action of the hormone is necessary but not sufficient for this effect. more...

Published

2014

11. Acute stress rapidly increases the readily releasable pool of glutamate vesicles in prefrontal and frontal cortex through non-genomic action of corticosterone

Bookmark

Author

Treccani, G, Musazzi, L, Perego, C, Milanese, M, Nava, N, Bonifacino, T, Lamanna, J, Malgaroli, A, Drago, F, Racagni, G, Nyengaard, J, Wegener, G, Bonanno, G, Popoli, M, G. Treccani, L. Musazzi, C. Perego, M. Milanese, N. Nava, T. Bonifacino, J. Lamanna, A. Malgaroli, F. Drago, G. Racagni, J. Nyengaard, G. Wegener, G. Bonanno, M. Popoli, Treccani, G, Musazzi, L, Perego, C, Milanese, M, Nava, N, Bonifacino, T, Lamanna, J, Malgaroli, A, Drago, F, Racagni, G, Nyengaard, J, Wegener, G, Bonanno, G, Popoli, M, G. Treccani, L. Musazzi, C. Perego, M. Milanese, N. Nava, T. Bonifacino, J. Lamanna, A. Malgaroli, F. Drago, G. Racagni, J. Nyengaard, G. Wegener, G. Bonanno, and M. Popoli more...

Published

2014

12. Pharmacological characterization of BDNF promoters I, II and IV reveals that serotonin and norepinephrine input is sufficient for transcription activation

Bookmark

Author

Musazzi, L, Rimland, J, Ieraci, A, Racagni, G, Domenici, E, Popoli, M, L. Musazzi, J. Rimland, A. Ieraci, G. Racagni, E. Domenici, M. Popoli, Musazzi, L, Rimland, J, Ieraci, A, Racagni, G, Domenici, E, Popoli, M, L. Musazzi, J. Rimland, A. Ieraci, G. Racagni, E. Domenici, and M. Popoli more...

Abstract

Compelling evidence has shown that the effects of antidepressants, increasing extracellular serotonin and noradrenaline as a primary mechanism of action, involve neuroplastic and neurotrophic mechanisms. Brain-derived neurotrophic factor (BDNF) has been shown to play a key role in neuroplasticity and synaptic function, as well as in the pathophysiology of neuropsychiatric disorders and the mechanism of action of antidepressants. The expression of BDNF is mediated by the transcription of different mRNAs derived by the splicing of one of the eight 5′ non-coding exons with the 3′ coding exon (in rats). The transcription of each non-coding exon is driven by unique and different promoters. We generated a gene reporter system based on hippocampal and cortical neuronal cultures, in which the transcription of luciferase is regulated by BDNF promoters I, II, IV or by cAMP response element (CRE), to investigate the activation of selected promoters induced by monoaminergic antidepressants and by serotonin or noradrenaline agonists. We found that incubation with fluoxetine or reboxetine failed to induce any activation of BDNF promoters or CRE. On the other hand, the incubation of cultures with selective agonists of serotonin or noradrenaline receptors induced a specific and distinct profile of activation of BDNF promoters I, II, IV and CRE, suggesting that the monoaminergic input, absent in dissociated cultures, is essential for the modulation of BDNF expression. In summary, we applied a rapidly detectable and highly sensitive reporter gene assay to characterize the selective activation profile of BDNF and CRE promoters, through specific and different pharmacological stimuli. more...

Published

2014

13. Time-dependent activation of MAPK/Erk1/2 and Akt/GSK3 cascades : modulation by agomelatine

Bookmark

Author

Musazzi, L, Seguini, M, Mallei, A, Treccani, G, Pelizzari, M, Tornese, P, Racagni, G, Tardito, D, L. Musazzi, M. Seguini, A. Mallei, G. Treccani, M. Pelizzari, P. Tornese, G. Racagni, D. Tardito, Musazzi, L, Seguini, M, Mallei, A, Treccani, G, Pelizzari, M, Tornese, P, Racagni, G, Tardito, D, L. Musazzi, M. Seguini, A. Mallei, G. Treccani, M. Pelizzari, P. Tornese, G. Racagni, and D. Tardito more...

Abstract

BackgroundThe novel antidepressant agomelatine, a melatonergic MT1/MT2 agonist combined with 5-HT2c serotonin antagonist properties, showed antidepressant action in preclinical and clinical studies. There is a general agreement that the therapeutic action of antidepressants needs the activation of slow-onset adaptations in downstream signalling pathways finally regulating neuroplasticity. In the last several years, particular attention was given to cAMP-responsive element binding protein (CREB)-related pathways, since it was shown that chronic antidepressants increase CREB phosphorylation and transcriptional activity, through the activation of calcium/calmodulin-dependent (CaM) and mitogen activated protein kinase cascades (MAPK/Erk1/2).Aim of this work was to analyse possible effects of chronic agomelatine on time-dependent changes of different intracellular signalling pathways in hippocampus and prefrontal/frontal cortex of male rats. To this end, measurements were performed 1 h or 16 h after the last agomelatine or vehicle injection.ResultsWe have found that in naïve rats chronic agomelatine, contrary to traditional antidepressants, did not increase CREB phosphorylation, but modulates the time-dependent regulation of MAPK/Erk1/2 and Akt/glycogen synthase kinase-3 (GSK-3) pathways.ConclusionOur results suggest that the intracellular molecular mechanisms modulated by chronic agomelatine may be partly different from those of traditional antidepressants and involve the time-dependent regulation of MAPK/Erk1/2 and Akt/GSK-3 signalling pathways. This could exert a role in the antidepressant efficacy of the drug. more...

Published

2014

14. Altered inflammatory responsiveness in serotonin transporter mutant rats

Bookmark

Author

Macchi, F., Homberg, J.R., Calabrese, F., Zecchillo, C., Racagni, G., Riva, M.A., Molteni, R., Macchi, F., Homberg, J.R., Calabrese, F., Zecchillo, C., Racagni, G., Riva, M.A., and Molteni, R.

Abstract

Contains fulltext : 125219.pdf (publisher's version ) (Open Access), BACKGROUND: Growing evidence suggests that alterations of the inflammatory/immune system contribute to the pathogenesis of depression. Indeed, depressed patients exhibit increased levels of inflammatory markers in both the periphery and the brain, and high comorbidity exists between major depression and diseases associated with inflammatory alterations. In order to characterize the link between depression and inflammation, we aimed to investigate whether an altered inflammatory system is present in a genetic model of vulnerability for depression, namely rats with partial or total deletion of the serotonin transporter (SERT) gene. METHODS: Wild-type, heterozygous and homozygous SERT rats were analyzed under basal condition or following a challenge with an acute injection of lipopolysaccharide (LPS) and killed 24 h or 5 days later. RESULTS: We found that SERT mutant rats show altered cytokine expression in the dorsal and ventral hippocampus at basal conditions, and they also display an exacerbated cytokine response to the LPS challenge. Moreover, mutant rats exhibit differences in the expression of markers for microglia activation. CONCLUSION: Based on these data, we suggest that basal or functional alterations of immune/inflammatory systems might contribute to the phenotype of SERT rats and to their heightened susceptibility to depressive-like behavior. more...

Published

2013

15. Behavioural and neuroplastic properties of chronic lurasidone treatment in serotonin transporter knockout rats

Bookmark

Author

Luoni, A., Hulsken, S., Cazzaniga, G., Racagni, G., Homberg, J.R., Riva, M.A., Luoni, A., Hulsken, S., Cazzaniga, G., Racagni, G., Homberg, J.R., and Riva, M.A.

Abstract

Contains fulltext : 125556.pdf (publisher's version ) (Open Access), Second-generation antipsychotics (SGA) are multi-target agents widely used for the treatment of schizophrenia and bipolar disorder that also hold potential for the treatment of impaired emotional control, thanks to their diverse receptor profiles as well as their potential in modulating neuroadaptive changes in key brain regions. The aim of this study was thus to establish the ability of lurasidone, a novel SGA characterized by a multi-receptor signature, to modulate behavioural and molecular defects associated with a genetic model of impaired emotional control, namely serotonin transporter knockout (SERT KO) rats. At behavioural level, we found that chronic lurasidone treatment significantly increased fear extinction in SERT KO rats, but not in wild-type control animals. Moreover, at molecular level, lurasidone was able to normalize the reduced expression of the neurotrophin brain-derived neurotrophic factor in the prefrontal cortex of SERT KO rats, an effect that occurred through the regulation of specific neurotrophin transcripts (primarily exon VI). Furthermore, chronic lurasidone treatment was also able to restore the reduced expression of different GABAergic markers that is present in these animals. Our results show that lurasidone can improve emotional control in SERT KO rats, with a primary impact on the prefrontal cortex. The adaptive changes set in motion by repeated treatment with lurasidone may in fact contribute to the amelioration of functional capacities, closely associated with neuronal plasticity, which are deteriorated in patients with schizophrenia, bipolar disease and major depression. more...

Published

2013

16. Lack of serotonin transporter alters BDNF expression in the rat brain during early postnatal development

Bookmark

Author

Calabrese, F., Guidotti, G., Middelman, A., Racagni, G., Homberg, J., Riva, M.A., Calabrese, F., Guidotti, G., Middelman, A., Racagni, G., Homberg, J., and Riva, M.A.

Abstract

Item does not contain fulltext, It is well established that alterations of the serotoninergic system may contribute to the pathophysiology of mood disorders. Accordingly, it has been demonstrated that genetic deletion of the serotonin transporter (SERT) in rodents leads to an anxious and depressive phenotype, which is also associated with reduced neuronal plasticity. Indeed, we have demonstrated that adult SERT(-/-) animals show decreased brain-derived neurotrophic factor (BDNF) expression, as well as reduced levels of transcription factor regulating the neurotrophin transcription. While these changes may represent long-term consequences of impaired function of the transporter during development, no information exists with respect to the developmental profile of such changes. Using SERT(-/-) rats at different ages, we found that the impairment in neuroplasticity originates early in development and worsens during the first 3 weeks of life. Indeed, we observed that BDNF expression was reduced at birth and that the magnitude of these changes became more pronounced starting from PND21, being sustained by epigenetic mechanisms as well as alterations in the expression of specific transcription factors, including Npas4 and CaRF. These results suggest that an impairment of SERT may affect BDNF expression throughout postnatal development. These early changes may increase stress susceptibility during critical windows of brain maturation, which may eventually lead to the heightened predisposition to mood disorders found in individual carrying genetic variants of the serotonin transporter. more...

Published

2013

17. Chronic treatment with agomelatine or venlafaxine reduces depolarization-evoked glutamate release from hippocampal synaptosomes

Bookmark

Author

Milanese, M, Tardito, D, Musazzi, L, Treccani, G, Mallei, A, Bonifacino, T, Gabriel, C, Mocaer, E, Racagni, G, Popoli, M, Bonanno, G, M. Milanese, D. Tardito, L. Musazzi, G. Treccani, A. Mallei, T. Bonifacino, C. Gabriel, E. Mocaer, G. Racagni, M. Popoli, G. Bonanno, Milanese, M, Tardito, D, Musazzi, L, Treccani, G, Mallei, A, Bonifacino, T, Gabriel, C, Mocaer, E, Racagni, G, Popoli, M, Bonanno, G, M. Milanese, D. Tardito, L. Musazzi, G. Treccani, A. Mallei, T. Bonifacino, C. Gabriel, E. Mocaer, G. Racagni, M. Popoli, and G. Bonanno more...

Abstract

Background: Growing compelling evidence from clinical and preclinical studies has demonstrated the primary role of alterations of glutamatergic transmission in cortical and limbic areas in the pathophysiology of mood disorders. Chronic antidepressants have been shown to dampen endogenous glutamate release from rat hippocampal synaptic terminals and to prevent the marked increase of glutamate overflow induced by acute behavioral stress in frontal/prefrontal cortex. Agomelatine, a new antidepressant endowed with MT1/MT2 agonist and 5-HT2C serotonergic antagonist properties, has shown efficacy at both preclinical and clinical levels.Results: Chronic treatment with agomelatine, or with the reference drug venlafaxine, induced a marked decrease of depolarization-evoked endogenous glutamate release from purified hippocampal synaptic terminals in superfusion. No changes were observed in GABA release. This effect was accompanied by reduced accumulation of SNARE protein complexes, the key molecular effector of vesicle docking, priming and fusion at presynaptic membranes.Conclusions: Our data suggest that the novel antidepressant agomelatine share with other classes of antidepressants the ability to modulate glutamatergic transmission in hippocampus. Its action seems to be mediated by molecular mechanisms located on the presynaptic membrane and related with the size of the vesicle pool ready for release. more...

Published

2013

18. Altered inflammatory responsiveness in serotonin transporter mutant rats

Bookmark

Author

Macchi, F., Homberg, J.R., Calabrese, F., Zecchillo, C., Racagni, G., Riva, M.A., Molteni, R., Macchi, F., Homberg, J.R., Calabrese, F., Zecchillo, C., Racagni, G., Riva, M.A., and Molteni, R.

Abstract

Contains fulltext : 125219.pdf (publisher's version ) (Open Access), BACKGROUND: Growing evidence suggests that alterations of the inflammatory/immune system contribute to the pathogenesis of depression. Indeed, depressed patients exhibit increased levels of inflammatory markers in both the periphery and the brain, and high comorbidity exists between major depression and diseases associated with inflammatory alterations. In order to characterize the link between depression and inflammation, we aimed to investigate whether an altered inflammatory system is present in a genetic model of vulnerability for depression, namely rats with partial or total deletion of the serotonin transporter (SERT) gene. METHODS: Wild-type, heterozygous and homozygous SERT rats were analyzed under basal condition or following a challenge with an acute injection of lipopolysaccharide (LPS) and killed 24 h or 5 days later. RESULTS: We found that SERT mutant rats show altered cytokine expression in the dorsal and ventral hippocampus at basal conditions, and they also display an exacerbated cytokine response to the LPS challenge. Moreover, mutant rats exhibit differences in the expression of markers for microglia activation. CONCLUSION: Based on these data, we suggest that basal or functional alterations of immune/inflammatory systems might contribute to the phenotype of SERT rats and to their heightened susceptibility to depressive-like behavior. more...

Published

2013

19. Behavioural and neuroplastic properties of chronic lurasidone treatment in serotonin transporter knockout rats

Bookmark

Author

Luoni, A., Hulsken, S., Cazzaniga, G., Racagni, G., Homberg, J.R., Riva, M.A., Luoni, A., Hulsken, S., Cazzaniga, G., Racagni, G., Homberg, J.R., and Riva, M.A.

Abstract

Contains fulltext : 125556.pdf (publisher's version ) (Open Access), Second-generation antipsychotics (SGA) are multi-target agents widely used for the treatment of schizophrenia and bipolar disorder that also hold potential for the treatment of impaired emotional control, thanks to their diverse receptor profiles as well as their potential in modulating neuroadaptive changes in key brain regions. The aim of this study was thus to establish the ability of lurasidone, a novel SGA characterized by a multi-receptor signature, to modulate behavioural and molecular defects associated with a genetic model of impaired emotional control, namely serotonin transporter knockout (SERT KO) rats. At behavioural level, we found that chronic lurasidone treatment significantly increased fear extinction in SERT KO rats, but not in wild-type control animals. Moreover, at molecular level, lurasidone was able to normalize the reduced expression of the neurotrophin brain-derived neurotrophic factor in the prefrontal cortex of SERT KO rats, an effect that occurred through the regulation of specific neurotrophin transcripts (primarily exon VI). Furthermore, chronic lurasidone treatment was also able to restore the reduced expression of different GABAergic markers that is present in these animals. Our results show that lurasidone can improve emotional control in SERT KO rats, with a primary impact on the prefrontal cortex. The adaptive changes set in motion by repeated treatment with lurasidone may in fact contribute to the amelioration of functional capacities, closely associated with neuronal plasticity, which are deteriorated in patients with schizophrenia, bipolar disease and major depression. more...

Published

2013

20. Lack of serotonin transporter alters BDNF expression in the rat brain during early postnatal development

Bookmark

Author

Calabrese, F., Guidotti, G., Middelman, A., Racagni, G., Homberg, J., Riva, M.A., Calabrese, F., Guidotti, G., Middelman, A., Racagni, G., Homberg, J., and Riva, M.A.

Abstract

Item does not contain fulltext, It is well established that alterations of the serotoninergic system may contribute to the pathophysiology of mood disorders. Accordingly, it has been demonstrated that genetic deletion of the serotonin transporter (SERT) in rodents leads to an anxious and depressive phenotype, which is also associated with reduced neuronal plasticity. Indeed, we have demonstrated that adult SERT(-/-) animals show decreased brain-derived neurotrophic factor (BDNF) expression, as well as reduced levels of transcription factor regulating the neurotrophin transcription. While these changes may represent long-term consequences of impaired function of the transporter during development, no information exists with respect to the developmental profile of such changes. Using SERT(-/-) rats at different ages, we found that the impairment in neuroplasticity originates early in development and worsens during the first 3 weeks of life. Indeed, we observed that BDNF expression was reduced at birth and that the magnitude of these changes became more pronounced starting from PND21, being sustained by epigenetic mechanisms as well as alterations in the expression of specific transcription factors, including Npas4 and CaRF. These results suggest that an impairment of SERT may affect BDNF expression throughout postnatal development. These early changes may increase stress susceptibility during critical windows of brain maturation, which may eventually lead to the heightened predisposition to mood disorders found in individual carrying genetic variants of the serotonin transporter. more...

Published

2013

21. Behavioural and neuroplastic properties of chronic lurasidone treatment in serotonin transporter knockout rats

Bookmark

Author

Luoni, A., Hulsken, S., Cazzaniga, G., Racagni, G., Homberg, J.R., Riva, M.A., Luoni, A., Hulsken, S., Cazzaniga, G., Racagni, G., Homberg, J.R., and Riva, M.A.

Abstract

Contains fulltext : 125556.pdf (publisher's version ) (Open Access), Second-generation antipsychotics (SGA) are multi-target agents widely used for the treatment of schizophrenia and bipolar disorder that also hold potential for the treatment of impaired emotional control, thanks to their diverse receptor profiles as well as their potential in modulating neuroadaptive changes in key brain regions. The aim of this study was thus to establish the ability of lurasidone, a novel SGA characterized by a multi-receptor signature, to modulate behavioural and molecular defects associated with a genetic model of impaired emotional control, namely serotonin transporter knockout (SERT KO) rats. At behavioural level, we found that chronic lurasidone treatment significantly increased fear extinction in SERT KO rats, but not in wild-type control animals. Moreover, at molecular level, lurasidone was able to normalize the reduced expression of the neurotrophin brain-derived neurotrophic factor in the prefrontal cortex of SERT KO rats, an effect that occurred through the regulation of specific neurotrophin transcripts (primarily exon VI). Furthermore, chronic lurasidone treatment was also able to restore the reduced expression of different GABAergic markers that is present in these animals. Our results show that lurasidone can improve emotional control in SERT KO rats, with a primary impact on the prefrontal cortex. The adaptive changes set in motion by repeated treatment with lurasidone may in fact contribute to the amelioration of functional capacities, closely associated with neuronal plasticity, which are deteriorated in patients with schizophrenia, bipolar disease and major depression. more...

Published

2013

22. Lack of serotonin transporter alters BDNF expression in the rat brain during early postnatal development

Bookmark

Author

Calabrese, F., Guidotti, G., Middelman, A., Racagni, G., Homberg, J., Riva, M.A., Calabrese, F., Guidotti, G., Middelman, A., Racagni, G., Homberg, J., and Riva, M.A.

Abstract

Item does not contain fulltext, It is well established that alterations of the serotoninergic system may contribute to the pathophysiology of mood disorders. Accordingly, it has been demonstrated that genetic deletion of the serotonin transporter (SERT) in rodents leads to an anxious and depressive phenotype, which is also associated with reduced neuronal plasticity. Indeed, we have demonstrated that adult SERT(-/-) animals show decreased brain-derived neurotrophic factor (BDNF) expression, as well as reduced levels of transcription factor regulating the neurotrophin transcription. While these changes may represent long-term consequences of impaired function of the transporter during development, no information exists with respect to the developmental profile of such changes. Using SERT(-/-) rats at different ages, we found that the impairment in neuroplasticity originates early in development and worsens during the first 3 weeks of life. Indeed, we observed that BDNF expression was reduced at birth and that the magnitude of these changes became more pronounced starting from PND21, being sustained by epigenetic mechanisms as well as alterations in the expression of specific transcription factors, including Npas4 and CaRF. These results suggest that an impairment of SERT may affect BDNF expression throughout postnatal development. These early changes may increase stress susceptibility during critical windows of brain maturation, which may eventually lead to the heightened predisposition to mood disorders found in individual carrying genetic variants of the serotonin transporter. more...

Published

2013

23. Chronic treatment with agomelatine or venlafaxine reduces depolarization-evoked glutamate release from hippocampal synaptosomes

Bookmark

Author

Milanese, M, Tardito, D, Musazzi, L, Treccani, G, Mallei, A, Bonifacino, T, Gabriel, C, Mocaer, E, Racagni, G, Popoli, M, Bonanno, G, M. Milanese, D. Tardito, L. Musazzi, G. Treccani, A. Mallei, T. Bonifacino, C. Gabriel, E. Mocaer, G. Racagni, M. Popoli, G. Bonanno, Milanese, M, Tardito, D, Musazzi, L, Treccani, G, Mallei, A, Bonifacino, T, Gabriel, C, Mocaer, E, Racagni, G, Popoli, M, Bonanno, G, M. Milanese, D. Tardito, L. Musazzi, G. Treccani, A. Mallei, T. Bonifacino, C. Gabriel, E. Mocaer, G. Racagni, M. Popoli, and G. Bonanno more...

Abstract

Background: Growing compelling evidence from clinical and preclinical studies has demonstrated the primary role of alterations of glutamatergic transmission in cortical and limbic areas in the pathophysiology of mood disorders. Chronic antidepressants have been shown to dampen endogenous glutamate release from rat hippocampal synaptic terminals and to prevent the marked increase of glutamate overflow induced by acute behavioral stress in frontal/prefrontal cortex. Agomelatine, a new antidepressant endowed with MT1/MT2 agonist and 5-HT2C serotonergic antagonist properties, has shown efficacy at both preclinical and clinical levels.Results: Chronic treatment with agomelatine, or with the reference drug venlafaxine, induced a marked decrease of depolarization-evoked endogenous glutamate release from purified hippocampal synaptic terminals in superfusion. No changes were observed in GABA release. This effect was accompanied by reduced accumulation of SNARE protein complexes, the key molecular effector of vesicle docking, priming and fusion at presynaptic membranes.Conclusions: Our data suggest that the novel antidepressant agomelatine share with other classes of antidepressants the ability to modulate glutamatergic transmission in hippocampus. Its action seems to be mediated by molecular mechanisms located on the presynaptic membrane and related with the size of the vesicle pool ready for release. more...

Published

2013

24. Stress and corticosterone increase the readily releasable pool of vesicles in rat synaptosomes of prefrontal/frontal cortex

Bookmark

Author

Treccani, G, Musazzi, L, Perego, C, Milanese, M, Bonifacino, T, Lamanna, J, Malgaroli, A, Racagni, G, Bonanno, G, Popoli, M, G. Treccani, L. Musazzi, C. Perego, M. Milanese, T. Bonifacino, J. Lamanna, A. Malgaroli, G. Racagni, G. Bonanno, M. Popoli, Treccani, G, Musazzi, L, Perego, C, Milanese, M, Bonifacino, T, Lamanna, J, Malgaroli, A, Racagni, G, Bonanno, G, Popoli, M, G. Treccani, L. Musazzi, C. Perego, M. Milanese, T. Bonifacino, J. Lamanna, A. Malgaroli, G. Racagni, G. Bonanno, and M. Popoli more...

Published

2013

25. Developmental influence of the serotonin transporter on the expression of npas4 and GABAergic markers: modulation by antidepressant treatment

Bookmark

Author

Guidotti, G., Calabrese, F., Auletta, F., Olivier, J., Racagni, G., Homberg, J.R., Riva, M.A., Guidotti, G., Calabrese, F., Auletta, F., Olivier, J., Racagni, G., Homberg, J.R., and Riva, M.A.

Abstract

Item does not contain fulltext, Alterations of the serotonergic system are involved in the pathophysiology of mood disorders and represent an important target for its pharmacological treatment. Genetic deletion of the serotonin transporter (SERT) in rodents leads to an anxious and depressive phenotype, and is associated with reduced neuronal plasticity as indicated by decreased brain-derived neurotrophic factor (Bdnf) expression levels. One of the transcription factors regulating Bdnf is the neuronal PAS domain protein 4 (Npas4), which regulates activity-dependent genes and neuroprotection, and has a critical role in the development of GABA synapses. On the basis of these premises, we investigated the expression of Npas4 and GABAergic markers in the hippocampus and prefrontal cortex of homozygous (SERT(-/-)) and heterozygous (SERT(+/-)) knockout rats, and analyzed the effect of long-term duloxetine treatment on the expression of these targets. We found that Npas4 expression was reduced in both the brain structures of adult SERT(+/-) and SERT(-/-) animals. This effect was already present in adolescent SERT(-/-), and could be mimicked by prenatal exposure to the antidepressant fluoxetine. Moreover, SERT(-/-) rats showed a strong impairment of the GABAergic system, as indicated by the reduction of several markers, including the vesicular transporter (Vgat), glutamic acid decarboxylase-67 (Gad67), the receptor subunit GABA A receptor, gamma 2 (GABA(A)-gamma2), and calcium-binding proteins that label subgroups of the GABAergic neurons. Interestingly, chronic treatment with the antidepressant duloxetine was able to restore the physiological levels of Npas4 and GABAergic markers in SERT(-/-) rats, although some differences in the modulation of GABAergic genes exist between hippocampus and prefrontal cortex. Our results demonstrate that SERT knockout rats, an animal model of mood disorders, have reduced Npas4 expression that correlates with decreased expression of Bdnf exon I and IV. These changes lead to more...

Published

2012

26. Developmental influence of the serotonin transporter on the expression of npas4 and GABAergic markers: modulation by antidepressant treatment

Bookmark

Author

Guidotti, G., Calabrese, F., Auletta, F., Olivier, J., Racagni, G., Homberg, J.R., Riva, M.A., Guidotti, G., Calabrese, F., Auletta, F., Olivier, J., Racagni, G., Homberg, J.R., and Riva, M.A.

Abstract

Item does not contain fulltext, Alterations of the serotonergic system are involved in the pathophysiology of mood disorders and represent an important target for its pharmacological treatment. Genetic deletion of the serotonin transporter (SERT) in rodents leads to an anxious and depressive phenotype, and is associated with reduced neuronal plasticity as indicated by decreased brain-derived neurotrophic factor (Bdnf) expression levels. One of the transcription factors regulating Bdnf is the neuronal PAS domain protein 4 (Npas4), which regulates activity-dependent genes and neuroprotection, and has a critical role in the development of GABA synapses. On the basis of these premises, we investigated the expression of Npas4 and GABAergic markers in the hippocampus and prefrontal cortex of homozygous (SERT(-/-)) and heterozygous (SERT(+/-)) knockout rats, and analyzed the effect of long-term duloxetine treatment on the expression of these targets. We found that Npas4 expression was reduced in both the brain structures of adult SERT(+/-) and SERT(-/-) animals. This effect was already present in adolescent SERT(-/-), and could be mimicked by prenatal exposure to the antidepressant fluoxetine. Moreover, SERT(-/-) rats showed a strong impairment of the GABAergic system, as indicated by the reduction of several markers, including the vesicular transporter (Vgat), glutamic acid decarboxylase-67 (Gad67), the receptor subunit GABA A receptor, gamma 2 (GABA(A)-gamma2), and calcium-binding proteins that label subgroups of the GABAergic neurons. Interestingly, chronic treatment with the antidepressant duloxetine was able to restore the physiological levels of Npas4 and GABAergic markers in SERT(-/-) rats, although some differences in the modulation of GABAergic genes exist between hippocampus and prefrontal cortex. Our results demonstrate that SERT knockout rats, an animal model of mood disorders, have reduced Npas4 expression that correlates with decreased expression of Bdnf exon I and IV. These changes lead to more...

Published

2012

27. Developmental influence of the serotonin transporter on the expression of npas4 and GABAergic markers: modulation by antidepressant treatment

Bookmark

Author

Guidotti, G., Calabrese, F., Auletta, F., Olivier, J., Racagni, G., Homberg, J.R., Riva, M.A., Guidotti, G., Calabrese, F., Auletta, F., Olivier, J., Racagni, G., Homberg, J.R., and Riva, M.A.

Abstract

Item does not contain fulltext, Alterations of the serotonergic system are involved in the pathophysiology of mood disorders and represent an important target for its pharmacological treatment. Genetic deletion of the serotonin transporter (SERT) in rodents leads to an anxious and depressive phenotype, and is associated with reduced neuronal plasticity as indicated by decreased brain-derived neurotrophic factor (Bdnf) expression levels. One of the transcription factors regulating Bdnf is the neuronal PAS domain protein 4 (Npas4), which regulates activity-dependent genes and neuroprotection, and has a critical role in the development of GABA synapses. On the basis of these premises, we investigated the expression of Npas4 and GABAergic markers in the hippocampus and prefrontal cortex of homozygous (SERT(-/-)) and heterozygous (SERT(+/-)) knockout rats, and analyzed the effect of long-term duloxetine treatment on the expression of these targets. We found that Npas4 expression was reduced in both the brain structures of adult SERT(+/-) and SERT(-/-) animals. This effect was already present in adolescent SERT(-/-), and could be mimicked by prenatal exposure to the antidepressant fluoxetine. Moreover, SERT(-/-) rats showed a strong impairment of the GABAergic system, as indicated by the reduction of several markers, including the vesicular transporter (Vgat), glutamic acid decarboxylase-67 (Gad67), the receptor subunit GABA A receptor, gamma 2 (GABA(A)-gamma2), and calcium-binding proteins that label subgroups of the GABAergic neurons. Interestingly, chronic treatment with the antidepressant duloxetine was able to restore the physiological levels of Npas4 and GABAergic markers in SERT(-/-) rats, although some differences in the modulation of GABAergic genes exist between hippocampus and prefrontal cortex. Our results demonstrate that SERT knockout rats, an animal model of mood disorders, have reduced Npas4 expression that correlates with decreased expression of Bdnf exon I and IV. These changes lead to more...

Published

2012

28. La trasmissione serotoninergica

Bookmark

Author

F. Clementi, G. Fumagalli, Popoli, M, Musazzi, L, Racagni, G, M. Popoli, L. Musazzi, G. Racagni, F. Clementi, G. Fumagalli, Popoli, M, Musazzi, L, Racagni, G, M. Popoli, L. Musazzi, and G. Racagni

Published

2012

29. Mode of action of agomelatine: Synergy between melatonergic and 5-HT2C receptors

Bookmark

Author

Racagni, G, Tardito, D, Riva, M, Molteni, R, Mallei, A, Musazzi, L, Calabrese, F, Popoli, M, G. Racagni, D. Tardito, M.A. Riva, R. Molteni, A. Mallei, L. Musazzi, F. Calabrese, M. Popoli, Racagni, G, Tardito, D, Riva, M, Molteni, R, Mallei, A, Musazzi, L, Calabrese, F, Popoli, M, G. Racagni, D. Tardito, M.A. Riva, R. Molteni, A. Mallei, L. Musazzi, F. Calabrese, and M. Popoli more...

Published

2012

30. Synergy between melatonergic and 5-HT2C receptors in the action of agomelatine : molecular and cellular evidence

Bookmark

Author

Tardito, D, Riva, M, Molteni, R, Mallei, A, Musazzi, L, Calabrese, F, Popoli, M, Racagni, G, D. Tardito, M.A. Riva, R. Molteni, A. Mallei, L. Musazzi, F. Calabrese, M. Popoli, G. Racagni, Tardito, D, Riva, M, Molteni, R, Mallei, A, Musazzi, L, Calabrese, F, Popoli, M, Racagni, G, D. Tardito, M.A. Riva, R. Molteni, A. Mallei, L. Musazzi, F. Calabrese, M. Popoli, and G. Racagni more...

Published

2012

31. Stress, glucocorticoids and glutamate release : effects of antidepressant drugs

Bookmark

Author

Musazzi, L, Racagni, G, Popoli, M, L. Musazzi, G. Racagni, M. Popoli, Musazzi, L, Racagni, G, Popoli, M, L. Musazzi, G. Racagni, and M. Popoli

Abstract

Stressful life events impact on memory, cognition and emotional responses, and are known to precipitate mood/anxiety disorders. It is increasingly recognized that stress and its neurochemical and endocrine mediators induce changes in glutamate synapses and circuitry, and this in turn modify mental states. Half a century after the monoamine hypothesis, it is widely accepted that maladaptive changes in excitatory/inhibitory circuitry have a primary role in the pathophysiology of mood/anxiety disorders. The neuroplasticity hypothesis posits that volumetric changes consistently found in limbic and cortical areas of depressed subjects are in good part due to remodeling of neuronal dendritic arbors and loss of synaptic spines. A considerable body of work, carried out with in vivo microdialysis as well as alternative methodologies, has shown that both stress and corticosterone treatment induce enhancement of activity-dependent glutamate release. Accordingly, results from preclinical studies suggest that stress- and glucocorticoid-induced enhancement of glutamate release and transmission plays a main role in the induction of maladaptive cellular effects, in turn responsible for dendritic remodeling. Additional recent work has showed that drugs employed for therapy of mood/anxiety disorders (antidepressants) prevent the enhancement of glutamate release induced by stress. Understanding the action of traditional drugs on glutamate transmission could be of great help in developing drugs that may work directly at this level. more...

Published

2011

32. Mode of action of agomelatine: Synergy between melatonergic and 5-HT(2C) receptors

Bookmark

Author

Racagni, G, Riva, M, Molteni, R, Musazzi, L, Calabrese, F, Popoli, M, Tardito, D, G.A. Racagni, M.A. Riva, R. Molteni, L. Musazzi, F. Calabrese, M. Popoli, D. Tardito, Racagni, G, Riva, M, Molteni, R, Musazzi, L, Calabrese, F, Popoli, M, Tardito, D, G.A. Racagni, M.A. Riva, R. Molteni, L. Musazzi, F. Calabrese, M. Popoli, and D. Tardito more...

Abstract

Objectives. The association between depression and circadian rhythm disturbances is well established and successful treatment of depressed patients is accompanied by restoration of circadian rhythms. The new antidepressant agomelatine is an agonist of melatonergic MT(1)/MT(2) receptors as well as an antagonist of serotonergic 5-HT(2C) receptors. Animal studies showed that agomelatine resynchronizes disturbed circadian rhythms and reduces depression-like behaviour. Methods. This review analyzes results from different experimental studies. Results. Recent data on the effects of agomelatine on cellular processes involved in antidepressant mechanisms have shown that the drug is able to increase the expression of brain-derived neurotrophic factor in prefrontal cortex and hippocampus, as well as the expression of activity-regulated cytoskeleton associated protein (Arc) in the prefrontal cortex. In line with this, prolonged treatment with agomelatine increases neurogenesis within the hippocampus, particularly via enhancement of neuronal cell survival. Agomelatine attenuates stress-induced glutamate release in the prefrontal/frontal cortex. Treatment with 5-HT(2C) antagonists or melatonin alone failed to reproduce these effects. Conclusions. The unique mode of action of agomelatine may improve the management of major depression by counteracting the pathogenesis of depression at cellular level, thereby relieving the symptoms of depression. These effects are suggested to be due to a synergistic action on MT(1)/MT(2) and 5-HT(2C) receptors. more...

Published

2011

33. Antidepressant treatments change 5-HT2C receptor mRNA expression in rat prefrontal/frontal cortex and hippocampus

Bookmark

Author

Barbon, A, Orlandi, C, La Via, L, Caracciolo, L, Tardito, D, Musazzi, L, Mallei, A, Gennarelli, M, Racagni, G, Popoli, M, Barlati, S, A. Barbon, C. Orlandi, L. La Via, L. Caracciolo, D. Tardito, L. Musazzi, A. Mallei, M. Gennarelli, G. Racagni, M. Popoli, S. Barlati, Barbon, A, Orlandi, C, La Via, L, Caracciolo, L, Tardito, D, Musazzi, L, Mallei, A, Gennarelli, M, Racagni, G, Popoli, M, Barlati, S, A. Barbon, C. Orlandi, L. La Via, L. Caracciolo, D. Tardito, L. Musazzi, A. Mallei, M. Gennarelli, G. Racagni, M. Popoli, and S. Barlati more...

Abstract

Background/Aims: Compelling evidence would suggest the involvement of the serotonin 2C receptor in the pathophysiology of affective disorders and in the action of antidepressants. We analyzed the time course of 5-HT2C receptor (5-HTR2C) mRNA expression during antidepressant treatment in the prefrontal/frontal cortex (P/FC) and in the hippocampus (HC) of rats chronically treated with fluoxetine (a selective serotonin reuptake inhibitor) and reboxetine (a selective noradrenaline reuptake inhibitor). We also analyzed the 5-HTR2C RNA-editing levels at the sites called A, B, C, C' and D, which are known to modulate 5-HTR2C receptor function. Results: The expression profile of 5-HTR2C mRNA was modified during treatment with both antidepressants. In particular, we found a general down-regulation of 5-HTR2C mRNA expression in P/FC, which became significant after 3 weeks of treatment with both antidepressants and persisted after a fourth week of drug withdrawal (-46% with fluoxetine, -41% with reboxetine, p < 0.05). In HC, however, reboxetine induced significant down-regulation (-56%, p < 0.05) of 5-HTR2C mRNA after 3 weeks, while fluoxetine induced threefold up-regulation (p < 0.01) by the 2nd and 3rd week, returning to the base level after drug withdrawal of both antidepressants. Moreover, the frequency of 5-HTR2C-edited isoforms showed no significant alterations, although analysis of the RNA-editing level at the single editing sites showed small decreases in the C' and D sites induced by reboxetine in P/FC. Conclusion: Our results suggest that chronic administration of antidepressants in rats slightly modifies the editing levels of 5-HT2C receptor but has considerable influence on its mRNA expression patterns in a way that is area- and time-specific. more...

Published

2011

34. Reduced function of the serotonin transporter is associated with decreased expression of BDNF in rodents as well as in humans.

Bookmark

Author

Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., Riva, M.A., Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., and Riva, M.A. more...

Abstract

1 maart 2010, Contains fulltext : 89453.pdf (Publisher’s version ) (Closed access), In order to identify the molecular mechanisms that may contribute to the enhanced susceptibility to depression under serotonin transporter (SERT) dysfunction, we analyzed the expression of brain-derived neurotrophic factor (BDNF), a key player in neuronal plasticity, which is implicated in the etiology and treatment of depression. We found that BDNF levels were significantly reduced in the hippocampus and prefrontal cortex of SERT knockout rats, through transcriptional changes that affect different neurotrophin isoforms. The reduction of BDNF gene expression observed in prefrontal cortex is due, at least in part, to epigenetic changes that affect the promoter regions of exons IV and VI. Moreover, BDNF gene expression is also significantly reduced in leukocytes from healthy subjects carrying the S allele of the 5-HTTLPR, suggesting that the changes observed in SERT mutant rats may also be present in humans and may confer enhanced vulnerability to mood disorders. more...

Published

2010

35. Reduced function of the serotonin transporter is associated with decreased expression of bdnf in rodents as well as in humans

Bookmark

Author

Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., Riva, M.A., Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., and Riva, M.A. more...

Abstract

Contains fulltext : 84129.pdf (Publisher’s version ) (Closed access)

Published

2010

36. Blockade of stress-induced increase of glutamate release in the rat prefrontal/frontal cortex by agomelatine involves synergy between melatonergic and 5-HT2C receptor-dependent pathways

Bookmark

Author

Tardito, D, Milanese, M, Bonifacino, T, Musazzi, L, Mallei, A, Mocaer, E, Gabriel, C, Racagni, G, Popoli, M, Bonanno, G, D. Tardito, M. Milanese, T. Bonifacino, L. Musazzi, A. Mallei, E. Mocaer, C. Gabriel, G. Racagni, M. Popoli, G. Bonanno, Tardito, D, Milanese, M, Bonifacino, T, Musazzi, L, Mallei, A, Mocaer, E, Gabriel, C, Racagni, G, Popoli, M, Bonanno, G, D. Tardito, M. Milanese, T. Bonifacino, L. Musazzi, A. Mallei, E. Mocaer, C. Gabriel, G. Racagni, M. Popoli, and G. Bonanno more...

Abstract

Background. Agomelatine is a melatonergic receptor agonist and a 5HT2C receptor antagonist that has shown ntidepressant efficacy. In order to analyze separately the effect of the two receptorial components, rats were chronically treated with agomelatine, melatonin (endogenous melatonergic agonist), or S32006 (5-HT2C antagonist), and then subjected to acute footshock-stress. Results. Only chronic agomelatine, but not melatonin or S32006, completely prevented the stress-induced increase of glutamate release in the rat prefrontal/frontal cortex. Conclusions. These results suggest a potential synergy between melatonergic and serotonergic pathways in the action of agomelatine. more...

Published

2010

37. Expression profiling of a genetic animal model of depression reveals novel molecular pathways underlying depressive-like behaviours

Bookmark

Author

Blaveri, E, Kelly, F, Mallei, A, Harris, K, Taylor, A, Reid, J, Razzoli, M, Carboni, L, Piubelli, C, Musazzi, L, Racagni, G, Mathé, A, Popoli, M, Domenici, E, Bates, S, E. Blaveri, F. Kelly, A. Mallei, K. Harris, A. Taylor, J. Reid, M. Razzoli, L. Carboni, C. Piubelli, L. Musazzi, G. Racagni, A. Mathé, M. Popoli, E. Domenici, S. Bates, Blaveri, E, Kelly, F, Mallei, A, Harris, K, Taylor, A, Reid, J, Razzoli, M, Carboni, L, Piubelli, C, Musazzi, L, Racagni, G, Mathé, A, Popoli, M, Domenici, E, Bates, S, E. Blaveri, F. Kelly, A. Mallei, K. Harris, A. Taylor, J. Reid, M. Razzoli, L. Carboni, C. Piubelli, L. Musazzi, G. Racagni, A. Mathé, M. Popoli, E. Domenici, and S. Bates more...

Abstract

BACKGROUND:The Flinders model is a validated genetic rat model of depression that exhibits a number of behavioural, neurochemical and pharmacological features consistent with those observed in human depression. PRINCIPAL FINDINGS: In this study we have used genome-wide microarray expression profiling of the hippocampus and prefrontal/frontal cortex of Flinders Depression Sensitive (FSL) and control Flinders Depression Resistant (FRL) lines to understand molecular basis for the differences between the two lines. We profiled two independent cohorts of Flinders animals derived from the same colony six months apart, each cohort statistically powered to allow independent as well as combined analysis. Using this approach, we were able to validate using real-time-PCR a core set of gene expression differences that showed statistical significance in each of the temporally distinct cohorts, representing consistently maintained features of the model. Small but statistically significant increases were confirmed for cholinergic (chrm2, chrna7) and serotonergic receptors (Htr1a, Htr2a) in FSL rats consistent with known neurochemical changes in the model. Much larger gene changes were validated in a number of novel genes as exemplified by TMEM176A, which showed 35-fold enrichment in the cortex and 30-fold enrichment in hippocampus of FRL animals relative to FSL. CONCLUSIONS:These data provide significant insights into the molecular differences underlying the Flinders model, and have potential relevance to broader depression research. more...

Published

2010

38. Reduced function of the serotonin transporter is associated with decreased expression of BDNF in rodents as well as in humans.

Bookmark

Author

Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., Riva, M.A., Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., and Riva, M.A. more...

Abstract

01 maart 2010, Contains fulltext : 89453.pdf (Publisher’s version ) (Closed access), In order to identify the molecular mechanisms that may contribute to the enhanced susceptibility to depression under serotonin transporter (SERT) dysfunction, we analyzed the expression of brain-derived neurotrophic factor (BDNF), a key player in neuronal plasticity, which is implicated in the etiology and treatment of depression. We found that BDNF levels were significantly reduced in the hippocampus and prefrontal cortex of SERT knockout rats, through transcriptional changes that affect different neurotrophin isoforms. The reduction of BDNF gene expression observed in prefrontal cortex is due, at least in part, to epigenetic changes that affect the promoter regions of exons IV and VI. Moreover, BDNF gene expression is also significantly reduced in leukocytes from healthy subjects carrying the S allele of the 5-HTTLPR, suggesting that the changes observed in SERT mutant rats may also be present in humans and may confer enhanced vulnerability to mood disorders. more...

Published

2010

39. Reduced function of the serotonin transporter is associated with decreased expression of bdnf in rodents as well as in humans

Bookmark

Author

Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., Riva, M.A., Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., and Riva, M.A. more...

Abstract

Contains fulltext : 84129.pdf (Publisher’s version ) (Closed access)

Published

2010

40. Reduced function of the serotonin transporter is associated with decreased expression of BDNF in rodents as well as in humans.

Bookmark

Author

Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., Riva, M.A., Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., and Riva, M.A. more...

Abstract

01 maart 2010, Contains fulltext : 89453.pdf (Publisher’s version ) (Closed access), In order to identify the molecular mechanisms that may contribute to the enhanced susceptibility to depression under serotonin transporter (SERT) dysfunction, we analyzed the expression of brain-derived neurotrophic factor (BDNF), a key player in neuronal plasticity, which is implicated in the etiology and treatment of depression. We found that BDNF levels were significantly reduced in the hippocampus and prefrontal cortex of SERT knockout rats, through transcriptional changes that affect different neurotrophin isoforms. The reduction of BDNF gene expression observed in prefrontal cortex is due, at least in part, to epigenetic changes that affect the promoter regions of exons IV and VI. Moreover, BDNF gene expression is also significantly reduced in leukocytes from healthy subjects carrying the S allele of the 5-HTTLPR, suggesting that the changes observed in SERT mutant rats may also be present in humans and may confer enhanced vulnerability to mood disorders. more...

Published

2010

41. Reduced function of the serotonin transporter is associated with decreased expression of bdnf in rodents as well as in humans

Bookmark

Author

Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., Riva, M.A., Molteni, R., Cattaneo, A., Calabrese, F., Macchi, F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Gennarelli, M., and Riva, M.A. more...

Abstract

Contains fulltext : 84129.pdf (Publisher’s version ) (Closed access)

Published

2010

42. Expression profiling of a genetic animal model of depression reveals novel molecular pathways underlying depressive-like behaviours

Bookmark

Author

Blaveri, E, Kelly, F, Mallei, A, Harris, K, Taylor, A, Reid, J, Razzoli, M, Carboni, L, Piubelli, C, Musazzi, L, Racagni, G, Mathé, A, Popoli, M, Domenici, E, Bates, S, E. Blaveri, F. Kelly, A. Mallei, K. Harris, A. Taylor, J. Reid, M. Razzoli, L. Carboni, C. Piubelli, L. Musazzi, G. Racagni, A. Mathé, M. Popoli, E. Domenici, S. Bates, Blaveri, E, Kelly, F, Mallei, A, Harris, K, Taylor, A, Reid, J, Razzoli, M, Carboni, L, Piubelli, C, Musazzi, L, Racagni, G, Mathé, A, Popoli, M, Domenici, E, Bates, S, E. Blaveri, F. Kelly, A. Mallei, K. Harris, A. Taylor, J. Reid, M. Razzoli, L. Carboni, C. Piubelli, L. Musazzi, G. Racagni, A. Mathé, M. Popoli, E. Domenici, and S. Bates more...

Abstract

BACKGROUND:The Flinders model is a validated genetic rat model of depression that exhibits a number of behavioural, neurochemical and pharmacological features consistent with those observed in human depression. PRINCIPAL FINDINGS: In this study we have used genome-wide microarray expression profiling of the hippocampus and prefrontal/frontal cortex of Flinders Depression Sensitive (FSL) and control Flinders Depression Resistant (FRL) lines to understand molecular basis for the differences between the two lines. We profiled two independent cohorts of Flinders animals derived from the same colony six months apart, each cohort statistically powered to allow independent as well as combined analysis. Using this approach, we were able to validate using real-time-PCR a core set of gene expression differences that showed statistical significance in each of the temporally distinct cohorts, representing consistently maintained features of the model. Small but statistically significant increases were confirmed for cholinergic (chrm2, chrna7) and serotonergic receptors (Htr1a, Htr2a) in FSL rats consistent with known neurochemical changes in the model. Much larger gene changes were validated in a number of novel genes as exemplified by TMEM176A, which showed 35-fold enrichment in the cortex and 30-fold enrichment in hippocampus of FRL animals relative to FSL. CONCLUSIONS:These data provide significant insights into the molecular differences underlying the Flinders model, and have potential relevance to broader depression research. more...

Published

2010

43. Blockade of stress-induced increase of glutamate release in the rat prefrontal/frontal cortex by agomelatine involves synergy between melatonergic and 5-HT2C receptor-dependent pathways

Bookmark

Author

Tardito, D, Milanese, M, Bonifacino, T, Musazzi, L, Mallei, A, Mocaer, E, Gabriel, C, Racagni, G, Popoli, M, Bonanno, G, D. Tardito, M. Milanese, T. Bonifacino, L. Musazzi, A. Mallei, E. Mocaer, C. Gabriel, G. Racagni, M. Popoli, G. Bonanno, Tardito, D, Milanese, M, Bonifacino, T, Musazzi, L, Mallei, A, Mocaer, E, Gabriel, C, Racagni, G, Popoli, M, Bonanno, G, D. Tardito, M. Milanese, T. Bonifacino, L. Musazzi, A. Mallei, E. Mocaer, C. Gabriel, G. Racagni, M. Popoli, and G. Bonanno more...

Abstract

Background. Agomelatine is a melatonergic receptor agonist and a 5HT2C receptor antagonist that has shown ntidepressant efficacy. In order to analyze separately the effect of the two receptorial components, rats were chronically treated with agomelatine, melatonin (endogenous melatonergic agonist), or S32006 (5-HT2C antagonist), and then subjected to acute footshock-stress. Results. Only chronic agomelatine, but not melatonin or S32006, completely prevented the stress-induced increase of glutamate release in the rat prefrontal/frontal cortex. Conclusions. These results suggest a potential synergy between melatonergic and serotonergic pathways in the action of agomelatine. more...

Published

2010

44. Complicanze psico-cognitive dell'ictus

Bookmark

Author

Gensini, GF, Zaninelli, A, Micieli, G, Bottini, G, Cerri, C, Consoli, D, Cavallini, M, Del Sette, M, Di Bari, M, Di Piero, V, Gandolfo, C, Guidetti, D, Pantoni, L, Paolucci, S, Racagni, G, Sgoifo, A, Torta, R, Toso, V, Zarcone, D, Cavallini, MC, Zarcone, D., CERRI, CESARE GIUSEPPE, Gensini, GF, Zaninelli, A, Micieli, G, Bottini, G, Cerri, C, Consoli, D, Cavallini, M, Del Sette, M, Di Bari, M, Di Piero, V, Gandolfo, C, Guidetti, D, Pantoni, L, Paolucci, S, Racagni, G, Sgoifo, A, Torta, R, Toso, V, Zarcone, D, Cavallini, MC, Zarcone, D., and CERRI, CESARE GIUSEPPE more...

Published

2010

45. Acute stress increases depolarization-evoked glutamate release in the rat prefrontal/frontal cortex : the dampening action of antidepressants

Bookmark

Author

Musazzi, L, Milanese, M, Farisello, P, Zappettini, S, Tardito, D, Barbiero, V, Bonifacino, T, Mallei, A, Baldelli, P, Racagni, G, Raiteri, M, Benfenati, F, Bonanno, G, Popoli, M, L. Musazzi, M. Milanese, P. Farisello, S. Zappettini, D. Tardito, V.S. Barbiero, T. Bonifacino, A. Mallei, P. Baldelli, G. Racagni, M. Raiteri, F. Benfenati, G. Bonanno, M. Popoli, Musazzi, L, Milanese, M, Farisello, P, Zappettini, S, Tardito, D, Barbiero, V, Bonifacino, T, Mallei, A, Baldelli, P, Racagni, G, Raiteri, M, Benfenati, F, Bonanno, G, Popoli, M, L. Musazzi, M. Milanese, P. Farisello, S. Zappettini, D. Tardito, V.S. Barbiero, T. Bonifacino, A. Mallei, P. Baldelli, G. Racagni, M. Raiteri, F. Benfenati, G. Bonanno, and M. Popoli more...

Abstract

BACKGROUND: Behavioral stress is recognized as a main risk factor for neuropsychiatric diseases. Converging evidence suggested that acute stress is associated with increase of excitatory transmission in certain forebrain areas. Aim of this work was to investigate the mechanism whereby acute stress increases glutamate release, and if therapeutic drugs prevent the effect of stress on glutamate release. METHODOLOGY/FINDINGS: Rats were chronically treated with vehicle or drugs employed for therapy of mood/anxiety disorders (fluoxetine, desipramine, venlafaxine, agomelatine) and then subjected to unpredictable footshock stress. Acute stress induced marked increase in depolarization-evoked release of glutamate from synaptosomes of prefrontal/frontal cortex in superfusion, and the chronic drug treatments prevented the increase of glutamate release. Stress induced rapid increase in the circulating levels of corticosterone in all rats (both vehicle- and drug-treated), and glutamate release increase was blocked by previous administration of selective antagonist of glucocorticoid receptor (RU 486). On the molecular level, stress induced accumulation of presynaptic SNARE complexes in synaptic membranes (both in vehicle- and drug-treated rats). Patch-clamp recordings of pyramidal neurons in the prefrontal cortex revealed that stress increased glutamatergic transmission through both pre- and postsynaptic mechanisms, and that antidepressants may normalize it by reducing release probability. CONCLUSIONS/SIGNIFICANCE: Acute footshock stress up-regulated depolarization-evoked release of glutamate from synaptosomes of prefrontal/frontal cortex. Stress-induced increase of glutamate release was dependent on stimulation of glucocorticoid receptor by corticosterone. Because all drugs employed did not block either elevation of corticosterone or accumulation of SNARE complexes, the dampening action of the drugs on glutamate release must be downstream of these processes. This novel effect of more...

Published

2010

46. Early-life stress and antidepressant treatment involve synaptic signaling and Erk kinases in a gene-environment model of depression

Bookmark

Author

Musazzi, L, Mallei, A, Tardito, D, Gruber, S, El Khoury, A, Racagni, G, Mathé, A, Popoli, M, L. Musazzi, A. Mallei, D. Tardito, S.H. Gruber, A. El Khoury, G. Racagni, A.A. Mathé, M. Popoli, Musazzi, L, Mallei, A, Tardito, D, Gruber, S, El Khoury, A, Racagni, G, Mathé, A, Popoli, M, L. Musazzi, A. Mallei, D. Tardito, S.H. Gruber, A. El Khoury, G. Racagni, A.A. Mathé, and M. Popoli more...

Abstract

Stress has been shown to interact with genetic vulnerability in pathogenesis of psychiatric disorders. Here we investigated the outcome of interaction between genetic vulnerability and early-life stress, by employing a rodent model that combines an inherited trait of vulnerability in Flinders Sensitive Line (FSL) rats, with early-life stress (maternal separation). Basal differences in synaptic signaling between FSL rats and their controls were studied, as well as the consequences of early-life stress in adulthood, and their response to chronic antidepressant treatment (escitalopram). FSL rats showed basal differences in the activation of synapsin I and Erk1/2, as well as in alphaCaM kinase II/syntaxin-1 and alphaCaM kinase II/NMDA-receptor interactions in purified hippocampal synaptosomes. In addition, FSL rats displayed a blunted response of Erk-MAP kinases and other differences in the outcome of early-life stress in adulthood. Escitalopram treatment restored some but not all alterations observed in FSL rats after early-life stress. The marked alterations found in key regulators of presynaptic release/neurotransmission in the basal FSL rats, and as a result of early-life stress, suggest synaptic dysfunction. These results show that early gene-environment interaction may cause life-long synaptic changes affecting the course of depressive-like behavior and response to drugs. more...

Published

2010

47. Altered expression and modulation of activity-regulated cytoskeletal associated protein (Arc) in serotonin transporter knockout rats.

Bookmark

Author

Molteni, R., Calabrese, F., Maj, P.F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Riva, M.A., Molteni, R., Calabrese, F., Maj, P.F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., and Riva, M.A. more...

Abstract

Contains fulltext : 79962.pdf (publisher's version ) (Closed access), A gene variant in the human serotonin transporter (SERT) can increase the vulnerability to mood disorders. SERT knockout animals show similarities to the human condition and represent an important tool to investigate the mechanisms underlying the pathologic condition in humans. Along this line of thinking, we used SERT KO rats (SERT(+/-) and SERT(-/-)) to investigate abnormalities in the expression and function of the activity-regulated gene Arc (Activity-regulated cytoskeletal associated protein) and the early inducible gene Zif-268, (zinc finger binding protein clone 268), which are important players in neuronal plasticity. We found lower basal Arc mRNA levels in hippocampus and prefrontal cortex of mutant rats in comparison with wild-type animals. Moreover SERT mutant rats show altered stress responsiveness. Indeed an acute swim stress significantly up-regulated the levels of Arc mRNA in hippocampus and prefrontal cortex, as well as of Zif-268 in frontal cortex, only in SERT(+/-) and SERT(-/-) rats. These alterations may be associated to behavioral traits linked to SERT and may contribute to the neuroplastic and morphological changes observed in depression. more...

Published

2009

48. Early raise of BDNF in hippocampus suggests induction of posttranscriptional mechanisms by antidepressants

Bookmark

Author

Musazzi, L, Cattaneo, A, Tardito, D, Barbon, A, Gennarelli, M, Barlati, S, Racagni, G, Popoli, M, L. Musazzi, A. Cattaneo, D. Tardito, A. Barbon, M. Gennarelli, S. Barlati, G. Racagni, M. Popoli, Musazzi, L, Cattaneo, A, Tardito, D, Barbon, A, Gennarelli, M, Barlati, S, Racagni, G, Popoli, M, L. Musazzi, A. Cattaneo, D. Tardito, A. Barbon, M. Gennarelli, S. Barlati, G. Racagni, and M. Popoli more...

Abstract

Background: The neurotrophin BDNF has been implicated in the regulation of neuroplasticity, gene expression, and synaptic function in the adult brain, as well as in the pathophysiology of neuropsychiatric disorders and the mechanism of action of antidepressants. Antidepressant treatments have been shown to increase the expression of BDNF mRNA, although the changes measured were found to be different depending on various factors. A few studies only have measured levels of BDNF protein after antidepressant treatments, and poor correlation was found between mRNA and protein changes. We studied the time course of expression of BDNF mRNA and protein during drug treatments, in order to elucidate the temporal profile of regulation of this effector and whether mRNA and protein levels correlate. Rat groups were treated for 1, 2 or 3 weeks with fluoxetine or reboxetine; in additional groups drug treatment was followed by a washout week (3+1). Total BDNF mRNA was measured by Real Time PCR, pro- and mature BDNF proteins were measured by Western blot. Results: We found that mature BDNF protein is induced more rapidly than mRNA, by both drugs in hippocampus (weeks 1-2) and by reboxetine in prefrontal/frontal cortex (week 1). The temporal profile of BDNF protein expression was largely inconsistent with that of mRNA, which followed the protein induction and reached a peak at week 3. Conclusion: These results suggest that BDNF protein is rapidly elevated by antidepressant treatments by posttranscriptional mechanisms, and that induction of BDNF mRNA is a slower process. more...

Published

2009

49. Altered expression and modulation of activity-regulated cytoskeletal associated protein (Arc) in serotonin transporter knockout rats

Bookmark

Author

Molteni, R., Calabrese, F., Maj, P.F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Riva, M.A., Molteni, R., Calabrese, F., Maj, P.F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., and Riva, M.A. more...

Abstract

Contains fulltext : 79961.pdf (publisher's version ) (Closed access)

Published

2009

50. Altered expression and modulation of activity-regulated cytoskeletal associated protein (Arc) in serotonin transporter knockout rats.

Bookmark

Author

Molteni, R., Calabrese, F., Maj, P.F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., Riva, M.A., Molteni, R., Calabrese, F., Maj, P.F., Olivier, J.D.A., Racagni, G., Ellenbroek, A.A., and Riva, M.A. more...

Abstract

Contains fulltext : 79962.pdf (publisher's version ) (Closed access), A gene variant in the human serotonin transporter (SERT) can increase the vulnerability to mood disorders. SERT knockout animals show similarities to the human condition and represent an important tool to investigate the mechanisms underlying the pathologic condition in humans. Along this line of thinking, we used SERT KO rats (SERT(+/-) and SERT(-/-)) to investigate abnormalities in the expression and function of the activity-regulated gene Arc (Activity-regulated cytoskeletal associated protein) and the early inducible gene Zif-268, (zinc finger binding protein clone 268), which are important players in neuronal plasticity. We found lower basal Arc mRNA levels in hippocampus and prefrontal cortex of mutant rats in comparison with wild-type animals. Moreover SERT mutant rats show altered stress responsiveness. Indeed an acute swim stress significantly up-regulated the levels of Arc mRNA in hippocampus and prefrontal cortex, as well as of Zif-268 in frontal cortex, only in SERT(+/-) and SERT(-/-) rats. These alterations may be associated to behavioral traits linked to SERT and may contribute to the neuroplastic and morphological changes observed in depression. more...

Published

2009