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1,788 results on '"Cornelius T"'

1. Identifying long-range synaptic inputs using genetically encoded labels and volume electron microscopy

Author

Irene P. Ayuso-Jimeno, Paolo Ronchi, Tianzi Wang, Catherine E. Gallori, and Cornelius T. Gross

Subjects
Medicine, Science
Abstract

Abstract Enzymes that facilitate the local deposition of electron dense reaction products have been widely used as labels in electron microscopy (EM) for the identification of synaptic contacts in neural tissue. Peroxidases, in particular, can efficiently metabolize 3,3′-diaminobenzidine tetrahydrochloride hydrate (DAB) to produce precipitates with high contrast under EM following heavy metal staining, and can be genetically encoded to facilitate the labeling of specific cell-types or organelles. Nevertheless, the peroxidase/DAB method has so far not been reported to work in a multiplexed manner in combination with 3D volume EM techniques (e.g. Serial blockface electron microscopy, SBEM; Focused ion beam electron microscopy, FIBSEM) that are favored for the large-scale ultrastructural assessment of synaptic architecture However, a recently described peroxidase with enhanced enzymatic activity (dAPEX2) can efficienty deposit EM-visible DAB products in thick tissue without detergent treatment opening the possibility for the multiplex labeling of genetically defined cell-types in combination with volume EM methods. Here we demonstrate that multiplexed dAPEX2/DAB tagging is compatible with both FIBSEM and SBEM volume EM approaches and use them to map long-range genetically identified synaptic inputs from the anterior cingulate cortex to the periaqueductal gray in the mouse brain.

Published
2022
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2. Induction of flight via midbrain projections to the cuneiform nucleus

Author

Emmy Tsang, Camilla Orlandini, Rahul Sureka, Alvaro H. Crevenna, Emerald Perlas, Izzie Prankerd, Maria E. Masferrer, and Cornelius T. Gross

Subjects
Medicine, Science
Abstract

The dorsal periaqueductal gray is a midbrain structure implicated in the control of defensive behaviors and the processing of painful stimuli. Electrical stimulation or optogenetic activation of excitatory neurons in dorsal periaqueductal gray results in freezing or flight behavior at low and high intensity, respectively. However, the output structures that mediate these defensive behaviors remain unconfirmed. Here we carried out a targeted classification of neuron types in dorsal periaqueductal gray using multiplex in situ sequencing and then applied cell-type and projection-specific optogenetic stimulation to identify projections from dorsal periaqueductal grey to the cuneiform nucleus that promoted goal-directed flight behavior. These data confirmed that descending outputs from dorsal periaqueductal gray serve as a trigger for directed escape behavior.

Published
2023

3. Sensory-thresholded switch of neural firing states in a computational model of the ventromedial hypothalamus

Author

Ryan Rahy, Hiroki Asari, and Cornelius T. Gross

Subjects
ventromedial hypothalamus (VMH), fear, avoidance (withdrawal), feedback, inhibition, neuromodulation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

The mouse ventromedial hypothalamus (VMH) is both necessary and sufficient for defensive responses to predator and social threats. Defensive behaviors typically involve cautious approach toward potentially threatening stimuli aimed at obtaining information about the risk involved, followed by sudden avoidance and flight behavior to escape harm. In vivo neural recording studies in mice have identified two major populations of VMH neurons that either increase their firing activity as the animal approaches the threat (called Assessment+ cells) or increase their activity as the animal flees the threat (called Flight+ cells). Interestingly, Assessment+ and Flight+ cells abruptly decrease and increase their firing activity, respectively, at the decision point for flight, creating an escape-related “switch” in functional state. This suggests that the activity of the two cell types in VMH is coordinated and could result from local circuit interactions. Here, we used computational modeling to test if a local inhibitory feedback circuit could give rise to key features of the neural activity seen in VMH during the approach-to-flight transition. Starting from a simple dual-population inhibitory feedback circuit receiving repeated trains of monotonically increasing sensory input to mimic approach to threat, we tested the requirement for balanced sensory input, balanced feedback, short-term synaptic plasticity, rebound excitation, and inhibitory feedback exclusivity to reproduce an abrupt, sensory-thresholded reciprocal firing change that resembles Assessment+ and Flight+ cell activity seen in vivo. Our work demonstrates that a relatively simple local circuit architecture is sufficient for the emergence of firing patterns similar to those seen in vivo and suggests that a reiterative process of experimental and computational work may be a fruitful avenue for better understanding the functional organization of mammalian instinctive behaviors at the circuit level.

Published
2022
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4. Validity Of The Self-Reported Domains Of Subjective Extent Of Nonadherence (DOSE-Nonadherence) Scale In Comparison With Electronically Monitored Adherence To Cardiovascular Medications

Author

Cornelius T, Voils CI, Umland RC, and Kronish IM

Subjects
medication adherence, self-report, nonadherence, validity, electronic monitoring, Medicine (General), R5-920
Abstract

Talea Cornelius,1 Corrine I Voils,2,3 Redeana C Umland,1 Ian M Kronish1 1Center for Behavioral Cardiovascular Health, Department of Medicine, Columbia University Irving Medical Center, New York, NY 10032, USA; 2William S Middleton Veterans Memorial Hospital, Madison, WI 53705, USA; 3Department of Surgery, University of Wisconsin-Madison School of Medicine and Public Health, Madison, WI 53792, USACorrespondence: Talea CorneliusCenter for Behavioral Cardiovascular Health, Columbia University Irving Medical Center, 622 West 168th Street PH9-319, New York, NY 10032, USATel +1212-304-5215Email tmc2184@cumc.columbia.eduBackground: Self-report measures are important tools for assessing adherence to medication. Many of these scales, however, combine the extent of and reasons for nonadherence in one instrument, and have limited reliability and validity. The present study was the first to assess the convergent validity of the self-reported Domains of Subjective Extent of Nonadherence (DOSE-Nonadherence) scale with electronically measured adherence to a single cardiovascular medication.Methods: English- and Spanish-speaking patients evaluated for acute coronary syndrome (N=165; n=68 and n= 97, respectively) were recruited from an urban academic emergency department. Post-hospital discharge, participants were mailed a medication bottle with an electronic cap (eCAP) that recorded bottle openings. At 1 month, participants completed the 3-item DOSE-Nonadherence scale, which assessed the extent to which patients missed, skipped, or did not take the eCAP-monitored medication over the past 7 days. Correlations, sensitivity, and specificity were calculated using eCAP-monitored correct dosing adherence over the same 7-day time period as the reference standard.Results: The most commonly assessed medication was aspirin (70.91%). Correlations between self-reported and electronically monitored adherence were low-to-moderate: English-speaking participants (n=68), r=0.24, p=0.046; Spanish-speaking participants (n=97), r=0.18, p=0.071. Sensitivity was low (0.47 English, 0.28 Spanish) and specificity was moderate (0.77 English, 0.88 Spanish).Conclusions: The DOSE-Nonadherence scale was associated with electronically monitored adherence to a single daily cardiovascular medication in English-speaking participants, but had weak diagnostic properties when using electronic adherence as the reference standard.Keywords: medication adherence, self-report, nonadherence, validity, electronic monitoring

Published
2019

5. Dynamic encoding of social threat and spatial context in the hypothalamus

Author

Piotr Krzywkowski, Beatrice Penna, and Cornelius T Gross

Subjects
hypothalamus, threat, territory, Medicine, Science, Biology (General), QH301-705.5
Abstract

Social aggression and avoidance are defensive behaviors expressed by territorial animals in a manner appropriate to spatial context and experience. The ventromedial hypothalamus controls both social aggression and avoidance, suggesting that it may encode a general internal state of threat modulated by space and experience. Here, we show that neurons in the mouse ventromedial hypothalamus are activated both by the presence of a social threat as well as by a chamber where social defeat previously occurred. Moreover, under conditions where the animal could move freely between a home and defeat chamber, firing activity emerged that predicted the animal’s position, demonstrating the dynamic encoding of spatial context in the hypothalamus. Finally, we found that social defeat induced a functional reorganization of neural activity as optogenetic activation could elicit avoidance after, but not before social defeat. These findings reveal how the hypothalamus dynamically encodes spatial and sensory cues to drive social behaviors.

Published
2020
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6. Microglia remodel synapses by presynaptic trogocytosis and spine head filopodia induction

Author

Laetitia Weinhard, Giulia di Bartolomei, Giulia Bolasco, Pedro Machado, Nicole L. Schieber, Urte Neniskyte, Melanie Exiga, Auguste Vadisiute, Angelo Raggioli, Andreas Schertel, Yannick Schwab, and Cornelius T. Gross

Subjects
Science
Abstract

Direct visualization of microglia-mediated synapse pruning has been lacking. This study shows direct evidence of microglia-synapse interaction where microglia do not necessarily ‘eat’ post-synaptic structure but ‘nibble’ on pre-synaptic terminals, much akin to trogocytosis by lymphocytes.

Published
2018
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8. Rapid erasure of hippocampal memory following inhibition of dentate gyrus granule cells

Author

Noelia Madroñal, José M. Delgado-García, Azahara Fernández-Guizán, Jayanta Chatterjee, Maja Köhn, Camilla Mattucci, Apar Jain, Theodoros Tsetsenis, Anna Illarionova, Valery Grinevich, Cornelius T. Gross, and Agnès Gruart

Subjects
Science
Abstract

Dentate gyrus (DG) is critical for memory formation in the hippocampus but its role in memory retrieval is unclear. Here, Gross and colleagues, show that granule cells in DG are not required for memory retrieval but for maintenance, and inhibiting them with a drug leads to rapid loss of memory.

Published
2016
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10. Invasive alien freshwater snail species in the Kruger National Park, South Africa

Author

Kenné N. De Kock and Cornelius T. Wolmarans

Subjects
Invader snails, Lymnaea columella, Physa acuta, Aplexa marmorata, Tarebia granifera, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

An account is given of all invasive alien freshwater snail species samples found in the Kruger National Park currently on record in the National Freshwater Snail Collection(NFSC) database. This report mainly focuses on samples collected during surveys of selected water bodies in the Kruger National Park (KNP) during 1964, 1995, 2001 and 2006. The progress made by four alien invasive freshwater snail species, Lymnaea columella, Physa acuta, Aplexa marmorata and Tarebia granifera, in colonising water bodies since first being recorded in the KNP is addressed. The results clearly show that all four species are in the process of becoming more widespread than they were when first recorded. However, T. granifera is the only one of these species of which exceptionally dense populations were encountered in several water bodies. All indications are that this species could already have had a negative impact on the species diversity of molluscs in these water bodies, and it is recommended that the situation be closely monitored.

Published
2008
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11. Modulation of anxiety by cortical serotonin 1A receptors

Author

Lukasz ePiszczek, Agnieszka ePiszczek, Joanna eKuczmanska, Enrica eAudero, and Cornelius T. Gross

Subjects
Anxiety, Serotonin, Cortex, mouse model, Serotonin 1A receptor, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Serotonin (5-HT) plays an important role in the modulation of behavior across animal species. The serotonin 1A receptor (Htr1a) is an inhibitory G-protein coupled receptor that is expressed both on serotonin and non-serotonin neurons in mammals. Mice lacking Htr1a show increased anxiety behavior suggesting that its activation by serotonin has an anxiolytic effect. This outcome can be mediated by either Htr1a population present on serotonin (auto-receptor) or non-serotonin neurons (hetero-receptor), or both. In addition, both transgenic and pharmacological studies have shown that serotonin acts on Htr1a during development to modulate anxiety in adulthood, demonstrating a function for this receptor in the maturation of anxiety circuits in the brain. However, previous studies have been equivocal about which Htr1a population modulates anxiety behavior, with some studies showing a role of Htr1a hetero-receptor and others implicating the auto-receptor. In particular, cell-type specific rescue and suppression of Htr1a expression in either forebrain principal neurons or brainstem serotonin neurons reached opposite conclusions about the role of the two populations in the anxiety phenotype of the knockout. One interpretation of these apparently contradictory findings is that the modulating role of these two populations depends on each other. Here we use a novel Cre-dependent inducible allele of Htr1a in mice to show that expression of Htr1a in cortical principal neurons is sufficient to modulate anxiety. Together with previous findings, these results support a hetero/auto-receptor interaction model for Htr1a function in anxiety.

Published
2015
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12. Mapping pathological phenotypes in a mouse model of CDKL5 disorder.

Author

Elena Amendola, Yang Zhan, Camilla Mattucci, Enrico Castroflorio, Eleonora Calcagno, Claudia Fuchs, Giuseppina Lonetti, Davide Silingardi, Alexei L Vyssotski, Dominika Farley, Elisabetta Ciani, Tommaso Pizzorusso, Maurizio Giustetto, and Cornelius T Gross

Subjects
Medicine, Science
Abstract

Mutations in cyclin-dependent kinase-like 5 (CDKL5) cause early-onset epileptic encephalopathy, a neurodevelopmental disorder with similarities to Rett Syndrome. Here we describe the physiological, molecular, and behavioral phenotyping of a Cdkl5 conditional knockout mouse model of CDKL5 disorder. Behavioral analysis of constitutive Cdkl5 knockout mice revealed key features of the human disorder, including limb clasping, hypoactivity, and abnormal eye tracking. Anatomical, physiological, and molecular analysis of the knockout uncovered potential pathological substrates of the disorder, including reduced dendritic arborization of cortical neurons, abnormal electroencephalograph (EEG) responses to convulsant treatment, decreased visual evoked responses (VEPs), and alterations in the Akt/rpS6 signaling pathway. Selective knockout of Cdkl5 in excitatory and inhibitory forebrain neurons allowed us to map the behavioral features of the disorder to separable cell-types. These findings identify physiological and molecular deficits in specific forebrain neuron populations as possible pathological substrates in CDKL5 disorder.

Published
2014
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13. Hidden Markov model analysis of maternal behavior patterns in inbred and reciprocal hybrid mice.

Author

Valeria Carola, Olivier Mirabeau, and Cornelius T Gross

Subjects
Medicine, Science
Abstract

Individual variation in maternal care in mammals shows a significant heritable component, with the maternal behavior of daughters resembling that of their mothers. In laboratory mice, genetically distinct inbred strains show stable differences in maternal care during the first postnatal week. Moreover, cross fostering and reciprocal breeding studies demonstrate that differences in maternal care between inbred strains persist in the absence of genetic differences, demonstrating a non-genetic or epigenetic contribution to maternal behavior. In this study we applied a mathematical tool, called hidden Markov model (HMM), to analyze the behavior of female mice in the presence of their young. The frequency of several maternal behaviors in mice has been previously described, including nursing/grooming pups and tending to the nest. However, the ordering, clustering, and transitions between these behaviors have not been systematically described and thus a global description of maternal behavior is lacking. Here we used HMM to describe maternal behavior patterns in two genetically distinct mouse strains, C57BL/6 and BALB/c, and their genetically identical reciprocal hybrid female offspring. HMM analysis is a powerful tool to identify patterns of events that cluster in time and to determine transitions between these clusters, or hidden states. For the HMM analysis we defined seven states: arched-backed nursing, blanket nursing, licking/grooming pups, grooming, activity, eating, and sleeping. By quantifying the frequency, duration, composition, and transition probabilities of these states we were able to describe the pattern of maternal behavior in mouse and identify aspects of these patterns that are under genetic and nongenetic inheritance. Differences in these patterns observed in the experimental groups (inbred and hybrid females) were detected only after the application of HMM analysis whereas classical statistical methods and analyses were not able to highlight them.

Published
2011
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19. Iterative Detection and Decoding Algorithms using LDPC Codes for MIMO Systems in Block-Fading Channels

Author

Uchoa, André, Healy, Cornelius T., and de Lamare, Rodrigo C.

Subjects
Computer Science - Information Theory
Abstract

We propose iterative detection and decoding (IDD) algorithms with Low-Density Parity-Check (LDPC) codes for Multiple Input Multiple Output (MIMO) systems operating in block-fading and fast Rayleigh fading channels. Soft-input soft-output minimum mean-square error receivers with successive interference cancellation are considered. In particular, we devise a novel strategy to improve the bit error rate (BER) performance of IDD schemes, which takes into account the soft \textit{a posteriori} output of the decoder in a block-fading channel when Root-Check LDPC codes are used. A MIMO IDD receiver with soft information processing that exploits the code structure and the behavior of the log likelihood ratios is also developed. Moreover, we present a scheduling algorithm for decoding LDPC codes in block-fading channels. Simulations show that the proposed techniques result in significant gains in terms of BER for both block-fading and fast-fading channels., Comment: 17 pages, 4 figures, IEEE Transactions on Vehicular Technology, 2015

Published
2015
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22. Combined coherent x-ray micro-diffraction and local mechanical loading on copper nanocrystals

Author

Beutier, G., Verdier, M., De Boissieu, M., Gilles, B., Livet, F., Richard, M. -I., Cornelius, T. W., Labat, S., and Thomas, O.

Subjects
Condensed Matter - Materials Science
Abstract

Coherent x-ray micro-diffraction and local mechanical loading can be combined to investigate the mechanical deformation in crystalline nanostructures. Here we present measurements of plastic deformation in a copper crystal of sub-micron size obtained by loading the sample with an Atomic Force Microscopy tip. The appearance of sharp features in the diffraction pattern, while conserving its global shape, is attributed to crystal defects induced by the tip.

Published
2013
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25. Microglia complement signaling promotes neuronal elimination and normal brain functional connectivity

Author

Deivasigamani, Senthilkumar, primary, Miteva, Mariya T, additional, Natale, Silvia, additional, Gutierrez-Barragan, Daniel, additional, Basilico, Bernadette, additional, Di Angelantonio, Silvia, additional, Weinhard, Laetitia, additional, Molotkov, Dmitry, additional, Deb, Sukrita, additional, Pape, Constantin, additional, Bolasco, Giulia, additional, Galbusera, Alberto, additional, Asari, Hiroki, additional, Gozzi, Alessandro, additional, Ragozzino, Davide, additional, and Gross, Cornelius T, additional

Published
2023
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26. The two-proton shell gap in Sn isotopes

Author

Fleischer, P., Kluepfel, P., Cornelius, T., Buervenich, T. J., Schramm, S., Maruhn, J. A., and Reinhard, P. -G.

Subjects
Nuclear Theory
Abstract

We present an analysis of two-proton shell gaps in Sn isotopes. As the theoretical tool we use self-consistent mean-field models, namely the relativistic mean-field model and the Skyrme-Hartree-Fock approach, both with two different pairing forces, a delta interaction (DI) model and a density-dependent delta interaction (DDDI). We investigate the influence of nuclear deformation as well as collective correlations and find that both effects contribute significantly. Moreover, we find a further significant dependence on the pairing force used. The inclusion of deformation plus correlation effects and the use of DDDI pairing provides agreement with the data., Comment: gzipped tar archiv containing LaTeX source, bibliography file (*.bbl), all figures as *.eps, and the style files

Published
2004
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27. The Z=82 shell closure in neutron-deficient Pb isotopes

Author

Bender, M., Cornelius, T., Lalazissis, G. A., Maruhn, J. A., Nazarewicz, W., and Reinhard, P. -G.

Subjects
Nuclear Theory
Abstract

Recent mass measurements show a substantial weakening of the binding energy difference delta_{2p} (Z,N) = E(Z-2,N) - 2 E(Z,N) + E(Z+2,N) in the neutron-deficient Pb isotopes. As delta_{2p} is often attributed to the size of the proton magic gap, it might be speculated that the reduction in delta_{2p} is related to a weakening of the spherical Z=82 shell. We demonstrate that the observed trend is described quantitatively by self-consistent mean-field models in terms of deformed ground states of Hg and Po isotopes., Comment: submitted to Eur. Phys. J. A

Published
2001

35. How can ethology inform the neuroscience of fear, aggression and dominance?

Author

Battivelli, Dorian, Fan, Zhengxiao, Hu, Hailan, and Gross, Cornelius T.

Abstract

The study of behaviour is dominated by two approaches. On the one hand, ethologists aim to understand how behaviour promotes adaptation to natural contexts. On the other, neuroscientists aim to understand the molecular, cellular, circuit and psychological origins of behaviour. These two complementary approaches must be combined to arrive at a full understanding of behaviour in its natural setting. However, methodological limitations have restricted most neuroscientific research to the study of how discrete sensory stimuli elicit simple behavioural responses under controlled laboratory conditions that are only distantly related to those encountered in real life. Fortunately, the recent advent of neural monitoring and manipulation tools adapted for use in freely behaving animals has enabled neuroscientists to incorporate naturalistic behaviours into their studies and to begin to consider ethological questions. Here, we examine the promises and pitfalls of this trend by describing how investigations of rodent fear, aggression and dominance behaviours are changing to take advantage of an ethological appreciation of behaviour. We lay out current impediments to this approach and propose a framework for the evolution of the field that will allow us to take maximal advantage of an ethological approach to neuroscience and to increase its relevance for understanding human behaviour.

Published
2024
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37. Modeling crystallographic anisotropy in interfacial sliding phenomenon in nanoindentation of nanoscale Cu/Nb accumulated rolling bonding (ARB) multilayered materials

Author

Budiman, A. S., primary, Sahay, R., additional, Gunawan, F. E., additional, Harito, C., additional, Gunawan, H., additional, Radchenko, I., additional, Navarro, E., additional, Escoubas, S., additional, Cornelius, T., additional, Thomas, O., additional, and Raghavan, N., additional

Published
2023
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38. Phospholipid scramblase Xkr8 is required for developmental axon pruning via phosphatidylserine exposure

Author

Urte Neniskyte, Ugne Kuliesiute, Auguste Vadisiute, Kristina Jevdokimenko, Ludovico Coletta, Senthilkumar Deivasigamani, Daina Pamedytyte, Neringa Daugelaviciene, Daiva Dabkeviciene, Emerald Perlas, Aditya Bali, Bernadette Basilico, Alessandro Gozzi, Davide Ragozzino, and Cornelius T Gross

Subjects
General Immunology and Microbiology, General Neuroscience, callosal projections, circuit maturation, phosphatidylserine, phospholipid scrambling, synaptic pruning, Molecular Biology, General Biochemistry, Genetics and Molecular Biology
Abstract

The mature mammalian brain connectome emerges during development via the extension and pruning of neuronal connections. Glial cells have been identified as key players in the phagocytic elimination of neuronal synapses and projections. Recently, phosphatidylserine has been identified as neuronal “eat-me” signal that guides elimination of unnecessary input sources, but the associated transduction systems involved in such pruning are yet to be described. Here, we identified Xk-related protein 8 (Xkr8), a phospholipid scramblase, as a key factor for the pruning of axons in the developing mammalian brain. We found that mouse Xkr8 is highly expressed immediately after birth and required for phosphatidylserine exposure in the hippocampus. Mice lacking Xkr8 showed excess excitatory nerve terminals, increased density of cortico-cortical and cortico-spinal projections, aberrant electrophysiological profiles of hippocampal neurons, and global brain hyperconnectivity. These data identify phospholipid scrambling by Xkr8 as a central process in the labeling and discrimination of developing neuronal projections for pruning in the mammalian brain.

Published
2023

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