Making available scientific information in the third millennium: perspectives for the neuroscientific community

The rules governing the globalised process of sharing scientific information in the research community are rapidly changing. From the 1950s, commercial publishers started owning a large number of scientific journals and consequently the marketable value of a submitted manuscript has become an increasingly important factor in publishing decisions. Recently some publishers have developed the Open Access (OA), a business scheme which may help stopping such tendency. Indeed, in the case of an open-access publication, the marketable value of a manuscript may be not the primary consideration, since access to the research is not being sold. This may push scientists to re-consider the purpose of peer reviewing. However, costs remain a key point in managing scientific journals because OA method does not eliminate peer review process. Thus, OA may not solve the problem of the market pressures on publishing strategies. Furthermore, the OA has another strong point: everyone can read OA papers, including scientist living in poor countries. But, will OA method create new discriminations on who can publish on OA journals? Will it be possible to really exclude or strongly limit the influences of the market from scientific publishing? The example of the non-profit e-print arXiv (http://arXiv.org/), a fully automated electronic archive and distribution server for research papers with no peer review will be discussed. For neuroscientists, the possibility to make available scientific data, even in the case of negative results (usually, very difficult to publish) is an important step to avoid purposeless repetition of costly experiments involving animal subjects. The possibility to arrange internationally or locally peer reviewed papers in institutional repositories (IR) is a necessity. However, access to IR should be regulated, e.g. banning or limiting profit organizations and exploiting internet systems, professional organizations or network groups

Electrophysiological Properties of CA1 Pyramidal Neurons along the Longitudinal Axis of the Mouse Hippocampus

Evidence for different physiological properties along the hippocampal longitudinal axis is emerging. Here, we examined the electrophysiological features of neurons at different dorso-ventral sites of the mouse CA1 hippocampal region. Cell position was defined with respect to longitudinal coordinates of each slice. We measured variations in neuronal excitability, subthreshold membrane properties and neurotransmitter responses along the longitudinal axis. We found that (i) pyramidal cells of the dorsal hippocampus (DH) were less excitable than those of the ventral hippocampus (VH). Resting Membrane Potential (RMP) was more hyperpolarized and somatic Input Resistance (Ri) was lower in DH compared to VH. (ii) The Paired-pulse ratio (PPR) of focally induced synaptic responses was systematically reduced from the DH to the VH; (iii) Long-term-potentiation was most pronounced in the DH and fell gradually in the intermediate hippocampus and in the VH; (iv) the frequency of miniature GABAergic events was higher in the VH than in the DH; (v) the PPR of evoked inhibitory post-synaptic current (IPSC) was higher in the DH than in the VH. These findings indicate an increased probability of both GABA and glutamate release and a reduced plasticity in the ventral compared to more dorsal regions of the hippocampus

Antidepressant Treatment Outcome Depends on the Quality of the Living Environment: A Pre-Clinical Investigation in Mice

Antidepressants represent the standard treatment for major depression. However, their efficacy is variable and incomplete. A growing number of studies suggest that the environment plays a major role in determining the efficacy of these drugs, specifically of selective serotonin reuptake inhibitors (SSRI). A recent hypothesis posits that the increase in serotonin levels induced by SSRI may not affect mood per se, but enhances neural plasticity and, consequently, renders the individual more susceptible to the influence of the environment. Thus, SSRI administration in a favorable environment would lead to a reduction of symptoms, while in a stressful environment might lead to a worse prognosis. To test this hypothesis, we treated C57BL/6 adult male mice with chronic fluoxetine while exposing them to either (i) an enriched environment, after exposure to a chronic stress period aimed at inducing a depression-like phenotype, or (ii) a stressful environment. Anhedonia, brain BDNF and circulating corticosterone levels, considered endophenotypes of depression, were investigated. Mice treated with fluoxetine in an enriched condition improved their depression-like phenotype compared to controls, displaying higher saccharin preference, higher brain BDNF levels and reduced corticosterone levels. By contrast, when chronic fluoxetine administration occurred in a stressful condition, mice showed a more distinct worsening of the depression-like profile, displaying a faster decrease of saccharin preference, lower brain BDNF levels and increased corticosterone levels. Our findings suggest that the effect of SSRI on depression-like phenotypes in mice is not determine

Stress resilience during the coronavirus pandemic

The epidemic of the 2019 novel coronavirus SARS-CoV-2, causing the coronavirus disease 2019 (COVID-19) is a global public health emergency with multifaceted severe consequences for people's lives and their mental health. In this article, as members of the European College of Neuropsychopharmacology (ECNP) Resilience, we will discuss the urgent need for a focus on resilience during the current coronavirus pandemic. Resilience is pivotal to cope with stress and vital to stay in balance. We will discuss the importance of resilience at the individual and societal level, but also the implication for patients with a psychiatric condition and health care workers. We not only advocate for an increased focus on mental health during the coronavirus pandemic but also highlight the urgent need of augmenting our focus on resilience and on strategies to enhance it. The epidemic of the 2019 novel coronavirus SARS-CoV-2, causing the coronavirus disease 2019 (COVID-19), first expanded within the Wuhan region in China and quickly spread to Europe and to the rest of the world (Zhou et al., 2020). The outbreak of COVID-19 is a global public health emergency with multifaceted severe consequences for people's lives and their mental health. In this article, as members of the European College of Neuropsychopharmacology (ECNP) Resilience, we will discuss the urgent need for a focus on resilience during the current coronavirus pandemic. Resilience is pivotal to cope with stress and vital to stay in balance. We will discuss the importance of resilience at the individual and societal level, but also the implication for patients with a psychiatric condition and health care workers

Stress resilience during the coronavirus pandemic

The epidemic of the 2019 novel coronavirus SARS-CoV-2, causing the coronavirus disease 2019 (COVID-19) is a global public health emergency with multifaceted severe consequences for people's lives and their mental health. In this article, as members of the European College of Neuropsychopharmacology (ECNP) Resilience, we will discuss the urgent need for a focus on resilience during the current coronavirus pandemic. Resilience is pivotal to cope with stress and vital to stay in balance. We will discuss the importance of resilience at the individual and societal level, but also the implication for patients with a psychiatric condition and health care workers. We not only advocate for an increased focus on mental health during the coronavirus pandemic but also highlight the urgent need of augmenting our focus on resilience and on strategies to enhance it

Do MZ twins have discordant experiences of friendship? : A qualitative hypothesis-generating MZ twin differences study

[This corrects the article DOI: 10.1371/journal.pone.0180521.]

Recentering neuroscience on behavior: The interface between brain and environment is a privileged level of control of neural activity

Despite the huge and constant progress in the molecular and cellular neuroscience fields, our capability to understand brain alterations and treat mental illness is still limited. Therefore, a paradigm shift able to overcome such limitation is warranted. Behavior and the associated mental states are the interface between the central nervous system and the living environment. Since, in any system, the interface is a key regulator of system organization, behavior is proposed here as a unique and privileged level of control and orchestration of brain structure and activity. This view has relevant scientific and clinical implications. First, the study of behavior represents a singular starting point for the investigation of neural activity in an integrated and comprehensive fashion. Second, behavioral changes, accomplished through psychotherapy or environmental interventions, are expected to have the highest impact to specifically reorganize the complexity of the human mind and thus achieve a solid and long-lasting improvement in mental health

Scopolamine effects on ultrasonic vocalization emission and behavior in the neonatal mouse

Developmental alterations of the cholinergic system can lead to short- and long-term detrimental consequences for brain function. In order to study the cholinergic modulation of behavior in the neonatal mouse, we characterized ultrasonic vocalizations and spontaneous behavior of 5- and 8-day old CD-1 Swiss mice after i.p. administration of the muscarinic antagonist scopolamine (doses, 0.8 and 2mg/kg) during both a first isolation of 30 min and a re-isolation of 5min, occurring immediately after a brief reunion with the mother. As concerns the first isolation, on PND 5, only scopolamine 0.8 mg/kg increased the number of ultrasonic vocalizations and, on PND 8, both doses increased it in a dose-dependent fashion. Scopolamine effects on spontaneous behavior were very limited on PND 5, but markedly evident on PND 8, the high dose increasing activity profile. Independently from treatment, the brief reunion with the mother had no effects on mouse ultrasound emission during re-isolation. The present results show that the cholinergic system plays a role in inhibiting rodent pup USV emission and spontaneous behavior and suggest that the analysis of spontaneous behavior and, in particular, of the number of ultrasonic vocalizations represents a valuable tool to detect precocious developmental alterations of the cholinergic function in the mouse, the most used animal species to model human health disorders