Early psychosis (EP) is a critical period for psychotic disorders during which the brain undergoes rapid and significant functional and structural changes(Shinn et al., 2017). The Human Connectome Project (HCP) is a global effort to map the human brain's connectivity in health and disease. Here we focus on HCP-EP subjects (i.e., those within five years of the initial psychotic episode) to determine macro- and micro-structural alterations in EP (HCP-EP sample, n=179: EP, n=123, Controls, n=56) and their association with clinical outcomes (i.e., symptoms severity) in HCP-EP. We carried out analyses of Deformation-Based-Morphometry (DBM), scalar indices from the Diffusion Tensor Imaging (DTI), and Tract-Based Spatial Statistics (TBSS). Lastly, we conducted correlation analyses focused on the midbrain (DBM and DTI) to examine associations between its structure and clinical symptoms. Our results show that the midbrain displays robust alteration in its structure (DBM and DTI) in the voxel-based analysis. Complim...

Impulsivity is often considered a risk factor for drug addiction; however, not all evidence supports this view. In the present study, we used a food reward delay-discounting task (DDT) to categorize rats as low-, middle-, and high-impulsive but failed to find any difference among these groups in the acquisition and maintenance of cocaine self-administration, regardless of electrical foot-shock punishment. Additionally, there were no group differences in locomotor responses to acute cocaine in rats with or without a history of cocaine self-administration. Unexpectedly, chronic cocaine self-administration selectively increased impulsive choice in low-impulsive rats. Resting-state fMRI analysis revealed a positive correlation between impulsivity and cerebral blood volume in the midbrain, thalamus, and auditory cortex. Using these three regions as seeds, we observed a negative correlation between impulsivity and functional connectivity between the midbrain and frontal cortex, as well as between the thalamus an...

The external globus pallidus (GPe) is a central part of the basal ganglia indirect pathway implicated in movement and decision-making. As a hub connecting the dorsal striatum and subthalamic nucleus (STN), the GPe guides repetitive and routine behaviors. However, it remains unknown how diverse GPe cells engage in routine formation while learning action sequences in repetitive reward-seeking conditioning. Here, in male mice, we investigated the Ca2+ dynamics of two GPe cell types, astrocytes and parvalbumin-expressing neurons, during routine formation. Our findings show that the dynamics of GPe astrocytes may be involved in action sequence refinement, a characteristic potentially contributing to more efficient reward-seeking behavior. Significance Statement The ability to form and refine action sequences is essential for both survival and efficiency. In this study, we introduced the “routine index”, a measure that captures how consistently animals repeat a specific action sequence to maximize rewards. This...

Organelles are specialized subcellular structures that serve specific functions in all eukaryotic cells.

Neuroscience research regularly intersects with concepts of human nature, identity, free will, and other philosophical and religious topics. This Neuroscience 2017 Social Issues Roundtable explores paradigms for constructive engagement with diverse and religious audiences. Panelists examine tensions and domains of confluence between scientific and faith perspectives, the underlying values and assumptions in scientific research, and the role of cross-cultural dialogue on science education, practice and policy.

Material below summarizes the article, Working Memory Replay Prioritizes Weakly Attended Events, published on August 14, 2017, in eNeuro and authored by Anna Jafarpour, Will Penny, Gareth Barnes, Robert T. Knight, and Emrah Duzel. Working memory is a system with limited capacity that supports keeping information in mind for a short duration. Two important questions are: One, what are the mechanisms by which information is retained during the gap between encoding and recall (that is, the maintenance period), and two, how is information within working memory prioritized? These are often studied with a cuing procedure in which subjects are prompted to focus on one item. For example, if an event in a sequence of three events is cued, the cued event can be decoded during maintenance. In this study, we investigated how the information about a sequence of multiple events is retained without cueing.

Public education and engagement are crucial in the process of assessing and applying societal values to the risks and benefits of neuroscience and the ethical dimensions involved. Explore what neuroethics is, why public engagement is key, and develop ideas on how to engage with the public regarding research in this Short Course 3 from Neuroscience 2017.

Material below is adapted from the SfN Short Course, Multiple Sclerosis: From Bench to Bedside and Back Again, by Steven L. Hauser, MD. Short Courses are day-long scientific trainings on emerging neuroscience topics and research techniques held just prior to SfN’s annual meeting. The connection between the type of immune cells called B-cells and multiple sclerosis (MS) was confirmed after unblinding a phase II clinical trial in 2006. The story of the challenges and successes that clinicians and researchers have faced in studying this connection reveals that coupling laboratory and clinical research can improve the efficacy of translational medicine. MS is a disease in which the immune system attacks cells of the brain and spinal cord, yet symptoms observed in rodent models used in the 1970s likely came from problems with the peripheral nerves.

The striatum is the primary input nucleus of the basal ganglia, integrating a dense plexus of inputs from the cerebral cortex and thalamus to regulate action selection and learning. Neuroanatomical mapping of the striatum and its subcompartments has been carried out extensively in rats and mice, nonhuman primates, and cats allowing comparative neuroanatomy studies to derive heuristics about striatal composition and function. Here, we systematically map corticostriatal topography from motor, somatosensory, auditory, and visual cortices as well as thalamostriatal parafascicular (PfN) inputs in the Mongolian gerbil. We also map a pathway reported in mice from medial vestibular nucleus to the PfN that could convey vestibular information to the striatum. Our findings align with those of similar studies in other rodents, indicating homologous neuroanatomical connectivity patterns within the corticostriatal projectome across Rodentia. We observed corticostriatal peaks of dense labeling for each input with a diffu...

We aimed to better understand the dynamics of cortical neurons during nonREM sleep—a state in which neuronal populations are silenced for ∼100 ms of every second due to delta wave fluctuations. This alternation between periods of population spiking (“UP states”) and silence (“DOWN states”) generally synchronizes populations at the 1 s timescale, although some prior work has shown that anticorrelations in nonREM can occur in pairs of neurons that are anticorrelated in wake. We used 24 h recordings of frontal cortical neurons in rats to measure cross-correlation between pairs of neurons in wake, nonREM, and REM. Surprisingly, while most pairs of neurons were synchronized, we found a minority of pairs that showed significant nonREM-induced desynchronization, as indicated by negative cross-correlations in nonREM without equivalent anticorrelation in wake or REM. Interestingly, the degree of anticorrelation within NREM epochs was positively modulated by oscillations in the low-frequency (i.e., “delta” or 1–4 Hz...