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13562


A red-shifted, fast-relaxing azobenzene photoswitch for visible light control of an ionotropic glutamate receptor

Kienzler, Michael A; Reiner, Andreas; Trautman, Eric; Yoo, Stan; Trauner, Dirk; Isacoff, Ehud Y
The use of azobenzene photoswitches has become a dependable method for rapid and exact modulation of biological processes and material science systems. The requirement of ultraviolet light for azobenzene isomerization is not ideal for biological systems due to poor tissue penetration and potentially damaging effects. While modified azobenzene cores with a red-shifted cis-to-trans isomerization have been previously described, they have not yet been incorporated into a powerful method to control protein function: the photoswitchable tethered ligand (PTL) approach. We report the synthesis and characterization of a red-shifted PTL, L-MAG0460, for the light-gated ionotropic glutamate receptor LiGluR. In cultured mammalian cells, the LiGluR+L-MAG0460 system is activated rapidly by illumination with 400-520 nm light to generate a large ionic current. The current rapidly turns off in the dark as the PTL relaxes thermally back to the trans configuration. The visible light excitation and single-wavelength behavior considerably simplify use and should improve utilization in tissue.
PMCID:3990231
PMID: 24171511
ISSN: 1520-5126
CID: 2484772

Exploring the Pharmacology and Action Spectra of Photochromic Open-Channel Blockers (vol 13, pg 1746, 2012) [Correction]

Fehrentz, Timm; Kuttruff, Christian A; Huber, Florian ME; Kienzler, Michael A; Mayer, Peter; Trauner, Dirk
ISI:000325849600002
ISSN: 1439-7633
CID: 2486342

Studies toward the biomimetic total synthesis of (-)-PF-1018

Webster, Robert; Gaspar, Boris; Mayer, Peter; Trauner, Dirk
Pericyclic reaction cascades are unparalleled in their ability to quickly generate complex structures with excellent stereocontrol. Herein, the use of a biomimetic Stille/8pi electrocyclization/Diels-Alder cascade to successfully assemble the core structure of (-)-PF-1018 is reported.
PMID: 23547904
ISSN: 1523-7052
CID: 2484812

Tetraphenylporphyrin derivative specifically blocks members of the voltage-gated potassium channel subfamily Kv1

Hornig, Sonke; Ohmert, Iris; Trauner, Dirk; Ader, Christian; Baldus, Marc; Pongs, Olaf
Tetraphenylporphyrin derivatives represent a promising class of high-affinity ligands for voltage-gated potassium (Kv) channels. Herein, we investigated the mode of Kv channel block of one tetraphenylporphyrin derivative, por3, using electrophysiological methods, structure-based mutagenesis, and solid-state NMR spectroscopy. The combined data showed that por3 specifically blocks Kv1.x channels. Unexpectedly, 2 different por3 binding modes lead to Kv1.x channel block exerted through multiple por3 binding sites: first, por3 interacts in a highly cooperative and specific manner with the voltage sensor domain stabilizing closed Kv1 channel state(s). Therefore, stronger depolarization is needed to activate Kv1.x channels in the presence of por3. Second, por3 bind to a single site at the external pore entrance to block the ion conduction pathway of activated Kv1.x channels. This block is voltage-independent. Por3 appears to have equal affinities for voltage-sensor and pore. However, at negative voltage and low por3 concentration, por3 gating modifier properties prevail due to the high cooperativity of binding. By contrast, at positive voltages, when Kv1.x channels are fully activated, por3 pore blocking properties predominate.
PMCID:4042482
PMID: 24722265
ISSN: 1933-6969
CID: 2484752

Cortical depth dependent functional responses in humans at 7T: improved specificity with 3D GRASE

De Martino, Federico; Zimmermann, Jan; Muckli, Lars; Ugurbil, Kamil; Yacoub, Essa; Goebel, Rainer
Ultra high fields (7T and above) allow functional imaging with high contrast-to-noise ratios and improved spatial resolution. This, along with improved hardware and imaging techniques, allow investigating columnar and laminar functional responses. Using gradient-echo (GE) (T2* weighted) based sequences, layer specific responses have been recorded from human (and animal) primary visual areas. However, their increased sensitivity to large surface veins potentially clouds detecting and interpreting layer specific responses. Conversely, spin-echo (SE) (T2 weighted) sequences are less sensitive to large veins and have been used to map cortical columns in humans. T2 weighted 3D GRASE with inner volume selection provides high isotropic resolution over extended volumes, overcoming some of the many technical limitations of conventional 2D SE-EPI, whereby making layer specific investigations feasible. Further, the demonstration of columnar level specificity with 3D GRASE, despite contributions from both stimulated echoes and conventional T2 contrast, has made it an attractive alternative over 2D SE-EPI. Here, we assess the spatial specificity of cortical depth dependent 3D GRASE functional responses in human V1 and hMT by comparing it to GE responses. In doing so we demonstrate that 3D GRASE is less sensitive to contributions from large veins in superficial layers, while showing increased specificity (functional tuning) throughout the cortex compared to GE.
PMCID:3606277
PMID: 23533682
ISSN: 1932-6203
CID: 2471802

Role of the olivo-cerebellar complex in motor learning and control

Schweighofer, Nicolas; Lang, Eric J; Kawato, Mitsuo
How is the cerebellum capable of efficient motor learning and control despite very low firing of the inferior olive (IO) inputs, which are postulated to carry errors needed for learning and contribute to on-line motor control? IO neurons form the largest electrically coupled network in the adult human brain. Here, we discuss how intermediate coupling strengths can lead to chaotic resonance and increase information transmission of the error signal despite the very low IO firing rate. This increased information transmission can then lead to more efficient learning than with weak or strong coupling. In addition, we argue that a dynamic modulation of IO electrical coupling via the Purkinje cell-deep cerebellar neurons - IO triangle could speed up learning and improve on-line control. Initially strong coupling would allow transmission of large errors to multiple functionally related Purkinje cells, resulting in fast but coarse learning as well as significant effects on deep cerebellar nucleus and on-line motor control. In the late phase of learning decreased coupling would allow desynchronized IO firing, allowing high-fidelity transmission of error, resulting in slower but fine learning, and little on-line motor control effects.
PMCID:3664774
PMID: 23754983
ISSN: 1662-5110
CID: 2406012

SCREENING FOR SUSTAINED SOCIAL WITHDRAWAL BEHAVIORS IN SIX-MONTH-OLD INFANTS DURING PEDIATRIC PRIMARY CARE VISITS: RESULTS FROM AN AT-RISK LATINO IMMIGRANT SAMPLE WITH HIGH RATES OF MATERNAL MAJOR DEPRESSIVE DISORDER

Burtchen, Nina; Alvarez-Segura, Mar; Mendelsohn, Alan L; Dreyer, Benard P; Castellanos, Francisco X; Catapano, Peter; Guedeney, Antoine
To examine relations between infant social withdrawal behavior and maternal major depression (MDD), 155 mother-infant dyads were evaluated at the 6-month primary care visit. Maternal depression was determined based on a psychiatric interview. Infant social withdrawal behavior was assessed with the Alarm Distress Baby Scale (ADBB; A. Guedeney & J. Fermanian, 2001) based on videotaped mother-infant interactions. Of the sample, 18.7% of mothers were diagnosed with MDD, and 39.4% of infants scored above the clinical ADBB cutoff. Infants of depressed mothers were more likely to score positive on the ADBB (75.8 vs. 31.0%, p < .001) and showed distinct patterns of withdrawal behavior. Within the group of withdrawn infants, however, no differential patterns of behavior could be identified for infants of depressed mothers as compared to infants of mothers with no depression. These findings confirm the validity of the ADBB for detection of infant social withdrawal in the context of MDD. At the same time, they support evidence that the ADBB identifies nonspecific infant distress behaviors. Future studies will need to determine if and how positive ADBB screening results in the absence of maternal MDD might be associated with other maternal psychiatric disorders such as anxiety or borderline personality disorder. These results have important implications for screening guidelines in primary care.
ISI:000326892300006
ISSN: 1097-0355
CID: 2391232

Testosterone depletion in adult male rats increases mossy fiber transmission, LTP, and sprouting in area CA3 of hippocampus

Skucas, Vanessa A; Duffy, Aine M; Harte-Hargrove, Lauren C; Magagna-Poveda, Alejandra; Radman, Thomas; Chakraborty, Goutam; Schroeder, Charles E; MacLusky, Neil J; Scharfman, Helen E
Androgens have dramatic effects on neuronal structure and function in hippocampus. However, androgen depletion does not always lead to hippocampal impairment. To address this apparent paradox, we evaluated the hippocampus of adult male rats after gonadectomy (Gdx) or sham surgery. Surprisingly, Gdx rats showed increased synaptic transmission and long-term potentiation of the mossy fiber (MF) pathway. Gdx rats also exhibited increased excitability and MF sprouting. We then addressed the possible underlying mechanisms and found that Gdx induced a long-lasting upregulation of MF BDNF immunoreactivity. Antagonism of Trk receptors, which bind neurotrophins, such as BDNF, reversed the increase in MF transmission, excitability, and long-term potentiation in Gdx rats, but there were no effects of Trk antagonism in sham controls. To determine which androgens were responsible, the effects of testosterone metabolites DHT and 5alpha-androstane-3alpha,17beta-diol were examined. Exposure of slices to 50 nm DHT decreased the effects of Gdx on MF transmission, but 50 nm 5alpha-androstane-3alpha,17beta-diol had no effect. Remarkably, there was no effect of DHT in control males. The data suggest that a Trk- and androgen receptor-sensitive form of MF transmission and synaptic plasticity emerges after Gdx. We suggest that androgens may normally be important in area CA3 to prevent hyperexcitability and aberrant axon outgrowth but limit MF synaptic transmission and some forms of plasticity. The results also suggest a potential explanation for the maintenance of hippocampal-dependent cognitive function after androgen depletion: a reduction in androgens may lead to compensatory upregulation of MF transmission and plasticity.
PMCID:3711621
PMID: 23392664
ISSN: 1529-2401
CID: 2369462

Line temporal focusing characteristics in transparent and scattering media

Dana, Hod; Kruger, Nimrod; Ellman, Aviv; Shoham, Shy
Line illumination geometries have advantageous properties for temporal focusing nonlinear microscopy. The characteristics of line temporal focusing (LITEF) in transparent and scattering media are studied here both experimentally and using numerical model simulations. We introduce an approximate analytical formula for the dependence of axial sectioning on the laser and microscope's parameters. Furthermore, we show that LITEF is more robust to tissue scattering than wide-field temporal focusing, and can penetrate much deeper into scattering tissue while maintaining good sectioning capabilities. Based on these observations, we propose a new design for LITEF-based tissue imaging at depths that could potentially exceed the out-of-focus physical excitation limit.
PMID: 23482141
ISSN: 1094-4087
CID: 2369452

Long-term inhibitory plasticity in visual cortical layer 4 switches sign at the opening of the critical period

Lefort, Sandrine; Gray, Annette C; Turrigiano, Gina G
Sensory microcircuits are refined by experience during windows of heightened plasticity termed "critical periods" (CPs). In visual cortex the effects of visual deprivation change dramatically at the transition from the pre-CP to the CP, but the cellular plasticity mechanisms that underlie this change are poorly understood. Here we show that plasticity at unitary connections between GABAergic Fast Spiking (FS) cells and Star Pyramidal (SP) neurons within layer 4 flips sign at the transition between the pre-CP and the CP. During the pre-CP, coupling FS firing with SP depolarization induces long-term depression of inhibition at this synapse, whereas the same protocol induces long-term potentiation of inhibition at the opening of the CP. Despite being of opposite sign, both forms of plasticity share expression characteristics--a change in coefficient of variation with no change in paired-pulse ratio--and depend on GABAB receptor signaling. Finally, we show that the reciprocal SP --> FS synapse also acquires the ability to undergo long-term potentiation at the pre-CP to CP transition. Thus, at the opening of the CP, there are coordinated changes in plasticity that allow specific patterns of activity within layer 4 to potentiate feedback inhibition by boosting the strength of FS <--> SP connections.
PMCID:3839695
PMID: 24191045
ISSN: 1091-6490
CID: 2356762