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13562


Scaling brain size, keeping timing: evolutionary preservation of brain rhythms

Buzsaki, Gyorgy; Logothetis, Nikos; Singer, Wolf
Despite the several-thousand-fold increase of brain volume during the course of mammalian evolution, the hierarchy of brain oscillations remains remarkably preserved, allowing for multiple-time-scale communication within and across neuronal networks at approximately the same speed, irrespective of brain size. Deployment of large-diameter axons of long-range neurons could be a key factor in the preserved time management in growing brains. We discuss the consequences of such preserved network constellation in mental disease, drug discovery, and interventional therapies.
PMCID:4009705
PMID: 24183025
ISSN: 0896-6273
CID: 666622

An unusual cause of loss of consciousness: Pseudomeningocele-induced syncope [Meeting Abstract]

Duggal, I; Remon, Y; Norcliffe-Kaufmann, L; Kaufmann, H
Spinal pseudomeningoceles are extramural cerebrospinal fluid (CSF) collections that communicate with the CSF space around the spinal cord. We describe an 81-year-old man who presented with recurrent episodes of brief loss of consciousness (LOC) and collapse following an L3-4 discectomy complicated by the development of a spinal pseudomeningocele containing approximately 200 cc of CSF (as determined by MRI). LOC occurred both when standing and when the pseudomeningocele in his back was compressed when laying down. Transcranial Doppler (TCD) of his right middle cerebral artery (MCA) during manual compression of the pseudomeningocele (in the sitting position) showed maintained systolic but absent diastolic blood flow while systemic blood pressure was unchanged. When standing, TCD of the MCA showed similar findings and a small fall in systemic blood pressure. The absence of blood pressure changes and the observed TCD pattern in the MCA, which is consistent with collapse of the artery during diastole, suggest that the episodes of loss of consciousness were due to increased intracranial pressure (ICP). Increased ICP is easily explained as a result of displacement of CSF from the pseudomenigocele towards the cranium. Standing, however, should cause a reduction in ICP as CSF could travel down towards the lumbar pseudomeningocele. Possible explanations of increased ICP while standing include involuntary Valsalva-like maneuver similar to "cough syncope," mechanical obstruction preventing CSF outflow, or external compression of the pseudomeningocele by extensor back muscles. In patients with syncopal episodes following discectomies the possibility of a pseudomeningocele should be considered
EMBASE:71239932
ISSN: 0959-9851
CID: 670482

A Modular Gain-of-Function Approach to Generate Cortical Interneuron Subtypes from ES Cells

Au, Edmund; Ahmed, Tanzeel; Karayannis, Theofanis; Biswas, Shiona; Gan, Lin; Fishell, Gord
Whereas past work indicates that cortical interneurons (cINs) can be generically produced from stem cells, generating large numbers of specific subtypes of this population has remained elusive. This reflects an information gap in our understanding of the transcriptional programs required for different interneuron subtypes. Here, we have utilized the directed differentiation of stem cells into specific subpopulations of cortical interneurons as a means to identify some of these missing factors. To establish this approach, we utilized two factors known to be required for the generation of cINs, Nkx2-1 and Dlx2. As predicted, their regulated transient expression greatly improved the differentiation efficiency and specificity over baseline. We extended upon this "cIN-primed" model in order to establish a modular system whereby a third transcription factor could be systematically introduced. Using this approach, we identified Lmo3 and Pou3f4 as genes that can augment the differentiation and/or subtype specificity of cINs in vitro.
PMCID:5085060
PMID: 24314726
ISSN: 0896-6273
CID: 670932

The neuron identity problem: form meets function

Fishell, Gord; Heintz, Nathaniel
A complete understanding of nervous system function cannot be achieved without the identification of its component cell types. In this Perspective, we explore a series of related issues surrounding cell identity and how revolutionary methods for labeling and probing specific neuronal types have clarified this question. Specifically, we ask the following questions: what is the purpose of such diversity, how is it generated, how is it maintained, and, ultimately, how can one unambiguously identity one cell type from another? We suggest that each cell type can be defined by a unique and conserved molecular ground state that determines its capabilities. We believe that gaining an understanding of these molecular barcodes will advance our ability to explore brain function, enhance our understanding of the biochemical basis of CNS disorders, and aid in the development of novel therapeutic strategies.
PMID: 24183013
ISSN: 0896-6273
CID: 670942

A foot in the door: how the chromatin modifier Brg1 and Pax6 jointly potentiate adult neurogenesis [Comment]

Jaglin, Xavier H; Fishell, Gord
Transcription factors and chromatin modifiers are known to contribute to cell specification. However, whether and how they jointly act is poorly understood. In this issue of Cell Stem Cell, Ninkovic et al. show that Pax6 and Brg1 cooperate to modulate gene expression in order to direct neurogenic fate in the olfactory bulb.
PMID: 24094315
ISSN: 1875-9777
CID: 670952

Directed migration of cortical interneurons depends on the cell-autonomous action of Sip1

van den Berghe, Veronique; Stappers, Elke; Vandesande, Bram; Dimidschstein, Jordane; Kroes, Roel; Francis, Annick; Conidi, Andrea; Lesage, Flore; Dries, Ruben; Cazzola, Silvia; Berx, Geert; Kessaris, Nicoletta; Vanderhaeghen, Pierre; van Ijcken, Wilfred; Grosveld, Frank G; Goossens, Steven; Haigh, Jody J; Fishell, Gord; Goffinet, Andre; Aerts, Stein; Huylebroeck, Danny; Seuntjens, Eve
GABAergic interneurons mainly originate in the medial ganglionic eminence (MGE) of the embryonic ventral telencephalon (VT) and migrate tangentially to the cortex, guided by membrane-bound and secreted factors. We found that Sip1 (Zfhx1b, Zeb2), a transcription factor enriched in migrating cortical interneurons, is required for their proper differentiation and correct guidance. The majority of Sip1 knockout interneurons fail to migrate to the neocortex and stall in the VT. RNA sequencing reveals that Sip1 knockout interneurons do not acquire a fully mature cortical interneuron identity and contain increased levels of the repulsive receptor Unc5b. Focal electroporation of Unc5b-encoding vectors in the MGE of wild-type brain slices disturbs migration to the neocortex, whereas reducing Unc5b levels in Sip1 knockout slices and brains rescues the migration defect. Our results reveal that Sip1, through tuning of Unc5b levels, is essential for cortical interneuron guidance.
PMID: 23312517
ISSN: 0896-6273
CID: 670962

Calcium-permeable AMPA receptors in the nucleus accumbens regulate depression-like behaviors in the chronic neuropathic pain state

Goffer, Yossef; Xu, Duo; Eberle, Sarah E; D'amour, James; Lee, Michelle; Tukey, David; Froemke, Robert C; Ziff, Edward B; Wang, Jing
Depression is a salient emotional feature of chronic pain. Depression alters the pain threshold and impairs functional recovery. To date, however, there has been limited understanding of synaptic or circuit mechanisms that regulate depression in the pain state. Here, we demonstrate that depression-like behaviors are induced in a rat model of chronic neuropathic pain. Using this model, we show that chronic pain selectively increases the level of GluA1 subunits of AMPA-type glutamate receptors at the synapses of the nucleus accumbens (NAc), a key component of the brain reward system. We find, in addition, that this increase in GluA1 levels leads to the formation of calcium-permeable AMPA receptors (CPARs). Surprisingly, pharmacologic blockade of these CPARs in the NAc increases depression-like behaviors associated with pain. Consistent with these findings, an AMPA receptor potentiator delivered into the NAc decreases pain-induced depression. These results show that transmission through CPARs in the NAc represents a novel molecular mechanism modulating the depressive symptoms of pain, and thus CPARs may be a promising therapeutic target for the treatment of pain-induced depression. More generally, these findings highlight the role of central glutamate signaling in pain states and define the brain reward system as an important region for the regulation of depressive symptoms of pain.
PMCID:3841460
PMID: 24285907
ISSN: 0270-6474
CID: 666292

Immunofocusing to HIV's V2 Loop C beta-Strand [Meeting Abstract]

Shmelkov, S. ; Rao, M. ; Wang, S. ; Kong, X. ; Lu, S. ; Cardozo, T.
ISI:000326037500365
ISSN: 0889-2229
CID: 657092

Local Generation and Propagation of Ripples along the Septotemporal Axis of the Hippocampus

Patel, Jagdish; Schomburg, Erik W; Berenyi, Antal; Fujisawa, Shigeyoshi; Buzsaki, Gyorgy
A topographical relationship exists between the septotemporal segments of the hippocampus and their entorhinal-neocortical targets, but the physiological organization of activity along the septotemporal axis is poorly understood. We recorded sharp-wave ripple patterns in rats during sleep from the entire septotemporal axis of the CA1 pyramidal layer. Qualitatively similar ripples emerged at all levels. From the local seed, ripples traveled septally or temporally at a speed of approximately 0.35 m/s, and the spatial spread depended on ripple magnitude. Ripples propagated smoothly across the septal and intermediate segments of the hippocampus, but ripples in the temporal segment often remained isolated. These findings show that ripples can combine information from the septal and intermediate hippocampus and transfer integrated signals downstream. In contrast, ripples that emerged in the temporal pole broadcast largely independent information to their cortical and subcortical targets.
PMCID:3807028
PMID: 24155307
ISSN: 0270-6474
CID: 656832

Rita Levi-Montalcini: the story of an uncommon intellect and spirit

Chao, Moses; Cattaneo, Antonino; Mobley, William
PMID: 24288807
ISSN: 0306-4522
CID: 656762