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Integrins connect cells to the extracellular matrix and mediate neuron-neuron or neuron-glia interactions during synapse maturation and synaptic plasticity. Here, Charrier et al. find that integrins β1 and β3 exert opposing actions via CaMKII to regulate glycine receptor lateral diffusion and gephyrin trafficking at the inhibitory synapses in spinal cord neurons.
A continuum of acoustically varying speech sounds is not perceived as a continuum, but as distinct phonetic categories. Chang et al. recorded directly from human posterior superior temporal gyrus and found that this area has a similarly discontinuous coding of objectively continuous sound, matching perception and indicating higher-level processing.
For young glia to migrate along motor axons in the developing fly, their adhesion to the axon must be broken. Silies and Klämbt show that this is accomplished by removal of Fas2 from the axonal membrane, involving a ubiquitin ligase complex that has previously been implicated only in cell cycle regulation.
Scott and colleagues show that expression of the transcription factor Sox9 is closely correlated with the transition from neuroepithelial cell to neural stem cell (NSC) during embryogenesis. Expression of Sox9 in early neuroepithelium elicited premature generation of NSCs. In the adult brain, Sox9 was necessary for the maintenance of NSCs and ependymal cells.
This study finds that the normal development of GABAergic feedforward inhibition in mouse layer 4 barrel cortex is disrupted by whisker trimming. Such sensory deprivation results in a weakened thalomocortical to feedforward interneuron connections and a lack of the normal reduction of the NMDA component of the thalamocortical input to excitatory cells, both of which are important for feedforward GABAergic inhibition.
The authors have developed a new inhibitor of the enzyme that degrades the endocannabinoid anandamide. This new drug does not cross the blood-brain barrier. It elevates peripheral anandamide only, which, acting on peripheral CB1 receptors, attenuates pain responses in rodents.
This study finds that stimulation of muscarinic acetylcholine receptors causes long-term depression (LTD) of NMDA receptor–mediated synaptic transmission. This LTD requires the release of Ca2+ from IP3-sensitive stores and involves an interaction between the Ca2+ sensor protein hippocalcin, the clathrin adaptor AP2 and NMDA receptors.
At chemical synapses, the dynamic membrane potential of a neuron must be converted into a train of spikes. Here, the authors conceptualize the neuron's efferent synapses as estimating the membrane potential trajectory from the spikes. They find that short-term changes in synaptic efficacy can be interpreted as implementing an optimal estimator.
The authors find that mutually exclusive splicing of the gene encoding the N-type Cav2.2 calcium channel is directly coupled to spinal morphine analgesia. The exon enriched in nociceptors promotes μ-opioid receptor–mediated inhibition of N-type channels by enhancing activity-independent inhibition. Spinal morphine analgesia is reduced in the absence of that exon.
Segregating glutamate receptor trafficking function from the changes in synaptic spine morphology, this study finds that actin depolymerizing factor (ADF)- and cofilin-mediated actin dynamics control AMPAR trafficking during chemically induced long-term potentiation independent of actin's structural role.
Degeneration of Purkinje neurons is the cause of ataxia in several neurodegenerative syndromes. Muguruma and colleagues describe a protocol for deriving Purkinje progenitors and neurons from mouse ES cells. Transplanted progenitors were able to integrate into the embryonic cerebellum with an efficiency of about 3% and adopt a Purkinje neuron phenotype.
Glycine is a promiscuous neurotransmitter, as it acts primarily on the Cl-conducting, inhibitory glycine receptors (GlyRs), but it can also act as an allosteric modulator of excitatory NMDARs. Here, the authors found a reciprocal relation in glutamate and its analogs potentiating GlyR current in the rat spinal cord neurons.
To choose between two options, we often look repeatedly back and forth between them, presumably as a way of comparing their values. Here the authors propose a computational model of value-based decision making that can explain the relationship between fixation patterns and choices.
The authors examine whether spinocerebellar neurons that convey proprioceptive sensory information also integrate information from cortical command systems by analyzing the circuitry and physiology of identified spinocerebellar tract neurons located in the Clarke's column of mouse spinal cord. They find that these neurons indeed nucleate spinal corollary circuits of relevance to motor planning and evaluation.
Fev is an ETS transcription factor essential for the generation of serotonin neurons. This study reports that ongoing Fev-directed transcription is required at different stages of life for multiple regulatory events that shape and maintain the serotonergic system. Furthermore, behavioral alterations can result from adult-onset perturbation of serotonergic transcription.
The authors use combined electrostimulation, neurophysiology, microinjection and fMRI to show that stimulation of a site in the lateral geniculate nucleus of monkeys increases fMRI signals in regions of primary visual cortex, but suppresses it in retinotopically matched regions of extrastriate cortex. Their results suggest that electrostimulation disrupts cortico-cortical signal propagation by silencing the output of any neocortical area whose afferents are electrically stimulated.
A single exposure to a stressor is known to prime the hypothalamic-pituitary-adrenal axis to subsequent stressors. Kuzmiski et al. show that exposure to a stressor, via a corticotrophin-releasing hormone–dependent depression of postsynaptic NMDA receptors, enables glutamatergic synapses to undergo a short-term potentiation, manifested as an increase in presynaptic release probability.
The authors find that the ATPase NSF interacts directly with Polo-like kinase 2 (Plk2), an activity-inducible kinase that is known to homeostatically decrease excitatory synapse number and strength. Plk2 disrupts the interaction between NSF and the GluA2 AMPAR subunit in a kinase-independent manner, promoting GluA2 internalization and decreased synaptic AMPAR current.
Neurons of the same molecular type can have substantial differences in intrinsic properties. Here the authors find that intrinsic diversity in the mitral cells of the mouse olfactory bulb decreases the firing correlations between neurons and increases the amount of information that can be transmitted by the neuronal population.
Scholsburg and colleagues show that prolonged inactivation of monoacylglycerol lipase, the principal degradative enzyme for the endocannabinoid 2-arachidonoylglycerol, antagonizes the brain endocannabinoid system. This is manifested as tolerance, impaired plasticity and receptor desensitization; these effects are similar to the effects of prolonged exposure to drugs of abuse.