Your search keyword '"Glennon E"' showing total 17 results

1. WS09-6 Dietary practices in adults with cystic fibrosis taking CFTR modulator therapies

Author

Roden, C., primary, Barrett, J., additional, Glennon, E., additional, Osborne, T., additional, Whitehouse, J.L., additional, Rashid, R., additional, and Nash, E.F., additional

Published

2019

2. WS15-5 A prospective mixed-methods randomised controlled pilot study of a novel group educational program for people with Cystic Fibrosis-Related Diabetes

Author

Sunsoa, H., primary, Glennon, E., additional, Slatter, G., additional, Syed, A., additional, Whitehouse, J.L., additional, and Nash, E.F., additional

Published

2019

3. P303 Do patients with Cystic Fibrosis-Related Diabetes consider Pancreatic Enzyme Replacement Therapy as part of their hypoglycaemic treatment?

Author

Sunsoa, H., primary, Osborne, T., additional, Barrett, J., additional, Roden, C., additional, Glennon, E., additional, Whitehouse, J., additional, Rashid, R., additional, and Nash, E., additional

Published

2019

4. 328 Going the distance – patient opinion on an adult CF centre dietetic and diabetes home visit service

Author

Glennon, E., primary, Roden, C., additional, Barrett, J., additional, Osborne, T., additional, Sunsoa, H., additional, Rashid, R., additional, Whitehouse, J.L., additional, and Nash, E.F., additional

Published

2017

5. 285 The use of dipeptidyl peptidase-4 inhibitors (DPP-4) in CF-related diabetes (CFRD)

Author

Sunsoa, H., primary, Barrett, J., additional, Roden, C., additional, Osborne, T., additional, Glennon, E., additional, Rashid, R., additional, Whitehouse, J.L., additional, and Nash, E.F., additional

Published

2017

6. 334 Dietary modification for treatment of glucose abnormalities in adults with cystic fibrosis

Author

Barrett, J., primary, Sunsoa, H., additional, Glennon, E., additional, Osborne, T., additional, Roden, C., additional, Rashid, R., additional, Whitehouse, J.L., additional, and Nash, E.F., additional

Published

2017

7. EPS5.07 It might not be the enzymes! A single centre experience of investigating bile acid malabsorption.

Author

Roden, C., Barrett, J., Glennon, E., Marsden, K., Patel, N., and Whitehouse, J.

Subjects

*BILE acids, *ENZYMES

Published

2024

8. Diversity of ancestral brainstem noradrenergic neurons across species and multiple biological factors.

Author

Kelberman MA, Rodberg E, Arabzadeh E, Bair-Marshall CJ, Berridge CW, Berrocoso E, Breton-Provencher V, Chandler DJ, Che A, Davy O, Devilbiss DM, Downs AM, Drummond G, Dvorkin R, Fazlali Z, Froemke RC, Glennon E, Gold JI, Ito H, Jiang X, Johansen JP, Kaye AP, Kim JR, Kuo CC, Liu RJ, Liu Y, Llorca-Torralba M, McCall JG, McElligott ZA, McKinney AM, Miguelez C, Min MY, Nowlan AC, Omrani M, Poe GR, Pickering AE, Ranjbar-Slamloo Y, Razquin J, Rodenkirch C, Sales AC, Satyasambit R, Shea SD, Sur M, Tkaczynski JA, Torres-Sanchez S, Uematsu A, Vazquez CR, Vreven A, Wang Q, Waterhouse BD, Yang HW, Yang JH, Zhao L, Zouridis IS, Weinshenker D, Vazey E, and Totah NK

Abstract

The brainstem region, locus coeruleus (LC), has been remarkably conserved across vertebrates. Evolution has woven the LC into wide-ranging neural circuits that influence functions as broad as autonomic systems, the stress response, nociception, sleep, and high-level cognition among others. Given this conservation, there is a strong possibility that LC activity is inherently similar across species, and furthermore that age, sex, and brain state influence LC activity similarly across species. The degree to which LC activity is homogenous across these factors, however, has never been assessed due to the small sample size of individual studies. Here, we pool data from 20 laboratories (1,855 neurons) and show diversity across both intrinsic and extrinsic factors such as species, age, sex and brain state. We use a negative binomial regression model to compare activity from male monkeys, and rats and mice of both sexes that were recorded across brain states from brain slices ex vivo or under different anesthetics or during wakefulness in vivo . LC activity differed due to complex interactions of species, sex, and brain state. The LC became more active during aging, independent of sex. Finally, in contrast to the foundational principle that all species express two distinct LC firing modes ("tonic" or "phasic"), we discovered great diversity within spontaneous LC firing patterns. Different factors were associated with higher incidence of some firing modes. We conclude that the activity of the evolutionarily-ancient LC is not conserved. Inherent differences due to age and species-sex-brain state interactions have implications for understanding the role of LC in species-specific naturalistic behavior, as well as in psychiatric disorders, cardiovascular disease, immunology, and metabolic disorders., Competing Interests: Qi Wang and Charles Rodenkirch are the founders of Sharper Sense, a company developing methods of enhancing sensory processing with neural interfaces. Alfred P. Kaye receives or has received research funding from Transcend Therapeutics and Freedom Biosciences, and has filed a provisional patent for combination psychedelic pharmacotherapies in PTSD. Anthony E Pickering reports research funding from Eli Lilly and is a member of the advisory board for Lateral Pharma. All other authors report no disclosures or conflicts of interest. Nelson K. Totah has filed a provisional patent for a head-fixation attachment for the skull of a rat and method for installing the attachment.

Published

2024

9. Locus coeruleus activity improves cochlear implant performance.

Author

Glennon E, Valtcheva S, Zhu A, Wadghiri YZ, Svirsky MA, and Froemke RC

Subjects

Animals, Rats, Cochlear Implantation, Hearing physiology, Learning physiology, Neuronal Plasticity, Norepinephrine metabolism, Auditory Cortex cytology, Auditory Cortex physiology, Auditory Cortex physiopathology, Neurons physiology, Reward, Optogenetics, Photometry, Cochlear Implants, Deafness physiopathology, Deafness therapy, Locus Coeruleus cytology, Locus Coeruleus physiology

Abstract

Cochlear implants (CIs) are neuroprosthetic devices that can provide hearing to deaf people 1 . Despite the benefits offered by CIs, the time taken for hearing to be restored and perceptual accuracy after long-term CI use remain highly variable 2,3 . CI use is believed to require neuroplasticity in the central auditory system, and differential engagement of neuroplastic mechanisms might contribute to the variability in outcomes 4-7 . Despite extensive studies on how CIs activate the auditory system 4,8-12 , the understanding of CI-related neuroplasticity remains limited. One potent factor enabling plasticity is the neuromodulator noradrenaline from the brainstem locus coeruleus (LC). Here we examine behavioural responses and neural activity in LC and auditory cortex of deafened rats fitted with multi-channel CIs. The rats were trained on a reward-based auditory task, and showed considerable individual differences of learning rates and maximum performance. LC photometry predicted when CI subjects began responding to sounds and longer-term perceptual accuracy. Optogenetic LC stimulation produced faster learning and higher long-term accuracy. Auditory cortical responses to CI stimulation reflected behavioural performance, with enhanced responses to rewarded stimuli and decreased distinction between unrewarded stimuli. Adequate engagement of central neuromodulatory systems is thus a potential clinically relevant target for optimizing neuroprosthetic device use., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023

10. Assessing the risk of human-to-wildlife pathogen transmission for conservation and public health.

Author

Fagre AC, Cohen LE, Eskew EA, Farrell M, Glennon E, Joseph MB, Frank HK, Ryan SJ, Carlson CJ, and Albery GF

Subjects

Animals, Humans, Mammals, Pandemics, Primates, Public Health, SARS-CoV-2, Animals, Wild, COVID-19

Abstract

The SARS-CoV-2 pandemic has led to increased concern over transmission of pathogens from humans to animals, and its potential to threaten conservation and public health. To assess this threat, we reviewed published evidence of human-to-wildlife transmission events, with a focus on how such events could threaten animal and human health. We identified 97 verified examples, involving a wide range of pathogens; however, reported hosts were mostly non-human primates or large, long-lived captive animals. Relatively few documented examples resulted in morbidity and mortality, and very few led to maintenance of a human pathogen in a new reservoir or subsequent "secondary spillover" back into humans. We discuss limitations in the literature surrounding these phenomena, including strong evidence of sampling bias towards non-human primates and human-proximate mammals and the possibility of systematic bias against reporting human parasites in wildlife, both of which limit our ability to assess the risk of human-to-wildlife pathogen transmission. We outline how researchers can collect experimental and observational evidence that will expand our capacity for risk assessment for human-to-wildlife pathogen transmission., (© 2022 The Authors. Ecology Letters published by John Wiley & Sons Ltd.)

Published

2022

11. The science of the host-virus network.

Author

Albery GF, Becker DJ, Brierley L, Brook CE, Christofferson RC, Cohen LE, Dallas TA, Eskew EA, Fagre A, Farrell MJ, Glennon E, Guth S, Joseph MB, Mollentze N, Neely BA, Poisot T, Rasmussen AL, Ryan SJ, Seifert S, Sjodin AR, Sorrell EM, and Carlson CJ

Subjects

Animals, Humans, Virus Diseases physiopathology, Viruses genetics, Zoonoses physiopathology, Zoonoses virology, Host-Pathogen Interactions, Virus Diseases virology, Virus Physiological Phenomena

Abstract

Better methods to predict and prevent the emergence of zoonotic viruses could support future efforts to reduce the risk of epidemics. We propose a network science framework for understanding and predicting human and animal susceptibility to viral infections. Related approaches have so far helped to identify basic biological rules that govern cross-species transmission and structure the global virome. We highlight ways to make modelling both accurate and actionable, and discuss the barriers that prevent researchers from translating viral ecology into public health policies that could prevent future pandemics., (© 2021. Springer Nature Limited.)

Published

2021

12. Identification of a novel interaction of FUS and syntaphilin may explain synaptic and mitochondrial abnormalities caused by ALS mutations.

Author

Salam S, Tacconelli S, Smith BN, Mitchell JC, Glennon E, Nikolaou N, Houart C, and Vance C

Subjects

Amyotrophic Lateral Sclerosis genetics, Animals, Carrier Proteins genetics, Mitochondria genetics, Nerve Tissue Proteins genetics, Neuromuscular Junction genetics, RNA-Binding Protein FUS genetics, Rats, Synapses genetics, Zebrafish genetics, Zebrafish Proteins genetics, Amyotrophic Lateral Sclerosis metabolism, Carrier Proteins metabolism, Mitochondria metabolism, Mutation, Nerve Tissue Proteins metabolism, Neuromuscular Junction metabolism, RNA-Binding Protein FUS metabolism, Synapses metabolism, Zebrafish metabolism, Zebrafish Proteins metabolism

Abstract

Aberrantly expressed fused in sarcoma (FUS) is a hallmark of FUS-related amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). Wildtype FUS localises to synapses and interacts with mitochondrial proteins while mutations have been shown to cause to pathological changes affecting mitochondria, synapses and the neuromuscular junction (NMJ). This indicates a crucial physiological role for FUS in regulating synaptic and mitochondrial function that is currently poorly understood. In this paper we provide evidence that mislocalised cytoplasmic FUS causes mitochondrial and synaptic changes and that FUS plays a vital role in maintaining neuronal health in vitro and in vivo. Overexpressing mutant FUS altered synaptic numbers and neuronal complexity in both primary neurons and zebrafish models. The degree to which FUS was mislocalised led to differences in the synaptic changes which was mirrored by changes in mitochondrial numbers and transport. Furthermore, we showed that FUS co-localises with the mitochondrial tethering protein Syntaphilin (SNPH), and that mutations in FUS affect this relationship. Finally, we demonstrated mutant FUS led to changes in global protein translation. This localisation between FUS and SNPH could explain the synaptic and mitochondrial defects observed leading to global protein translation defects. Importantly, our results support the 'gain-of-function' hypothesis for disease pathogenesis in FUS-related ALS.

Published

2021

13. Dysphagia: A review.

Author

Skarbinski KF and Glennon E

Subjects

Diagnosis, Differential, Humans, Deglutition Disorders diagnosis, Deglutition Disorders etiology

Abstract

Dysphagia is a common symptom with several differential diagnoses ranging from benign and functional to life threatening. Given the potential severity, it is essential to obtain an accurate and pointed history to dictate appropriate diagnostic testing. This article differentiates between oropharyngeal and esophageal dysphagia before outlining a systematic approach to subsequent testing, including when to refer to a specialist.

Published

2020

14. Alzheimer's disease-related dysregulation of mRNA translation causes key pathological features with ageing.

Author

Ghosh A, Mizuno K, Tiwari SS, Proitsi P, Gomez Perez-Nievas B, Glennon E, Martinez-Nunez RT, and Giese KP

Subjects

Adaptor Proteins, Signal Transducing, Aging, Amyloid beta-Peptides metabolism, Animals, Mice, Mice, Transgenic, Neurons metabolism, Protein Biosynthesis, Synapses metabolism, tau Proteins metabolism, Alzheimer Disease genetics

Abstract

Alzheimer's disease (AD) is characterised by Aβ and tau pathology as well as synaptic degeneration, which correlates best with cognitive impairment. Previous work suggested that this pathological complexity may result from changes in mRNA translation. Here, we studied whether mRNA translation and its underlying signalling are altered in an early model of AD, and whether modelling this deficiency in mice causes pathological features with ageing. Using an unbiased screen, we show that exposure of primary neurons to nanomolar amounts of Aβ increases FMRP-regulated protein synthesis. This selective regulation of mRNA translation is dependent on a signalling cascade involving MAPK-interacting kinase 1 (Mnk1) and the eukaryotic initiation factor 4E (eIF4E), and ultimately results in reduction of CYFIP2, an FMRP-binding protein. Modelling this CYFIP2 reduction in mice, we find age-dependent Aβ accumulation in the thalamus, development of tau pathology in entorhinal cortex and hippocampus, as well as gliosis and synapse loss in the hippocampus, together with deficits in memory formation. Therefore, we conclude that early stages of AD involve increased translation of specific CYFIP2/FMRP-regulated transcripts. Since reducing endogenous CYFIP2 expression is sufficient to cause key features of AD with ageing in mice, we suggest that prolonged activation of this pathway is a primary step toward AD pathology, highlighting a novel direction for therapeutic targeting.

Published

2020

15. Auditory cortical plasticity in cochlear implant users.

Author

Glennon E, Svirsky MA, and Froemke RC

Subjects

Animals, Cochlear Implantation, Humans, Neuronal Plasticity, Speech Perception, Auditory Cortex, Cochlear Implants, Deafness

Abstract

Cochlear implants are one of the most successful neuroprosthetic devices that have been developed to date. Profoundly deaf patients can achieve speech perception after complete loss of sensory input. Despite the improvements many patients experience, there is still a large degree of outcome variability. It has been proposed that central plasticity may be a major factor in the different levels of benefit that patients experience. However, the neural mechanisms of how plasticity impacts cochlear implant learning and the degree of plasticity's influence remain unknown. Here, we review the human and animal research on three of the main ways that central plasticity affects cochlear implant outcomes., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

16. Locus coeruleus activation accelerates perceptual learning.

Author

Glennon E, Carcea I, Martins ARO, Multani J, Shehu I, Svirsky MA, and Froemke RC

Subjects

Adaptation, Psychological physiology, Animals, Auditory Cortex physiology, Exploratory Behavior physiology, Female, Motor Activity physiology, Optogenetics, Pattern Recognition, Physiological physiology, Rats, Rats, Long-Evans, Rats, Sprague-Dawley, Rats, Transgenic, Auditory Perception physiology, Learning physiology, Locus Coeruleus physiology

Abstract

Neural representations of the external world are constructed and updated in a manner that depends on behavioral context. For neocortical networks, this contextual information is relayed by a diverse range of neuromodulatory systems, which govern attention and signal the value of internal state variables such as arousal, motivation, and stress. Neuromodulators enable cortical circuits to differentially process specific stimuli and modify synaptic strengths in order to maintain short- or long-term memory traces of significant perceptual events and behavioral episodes. One of the most important subcortical neuromodulatory systems for attention and arousal is the noradrenergic locus coeruleus. Here we report that the noradrenergic system can enhance behavior in rats performing a self-initiated auditory recognition task, and optogenetic stimulation of noradrenergic locus coeruleus neurons accelerated the rate at which trained rats began correctly responding to a change in reward contingency. Animals successively progressed through distinct behavioral epochs, including periods of perseverance and exploration that occurred much more rapidly when animals received locus coeruleus stimulation. In parallel, we made recordings from primary auditory cortex and found that pairing tones with locus coeruleus stimulation led to a similar set of changes to cortical tuning profiles. Thus both behavioral and neural responses go through phases of adjustment for exploring and exploiting environmental reward contingencies. Furthermore, behavioral engagement does not necessarily recruit optimal locus coeruleus activity., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2019

17. Pituitary dendritic cells communicate immune pathogenic signals.

Author

Glennon E, Kaunzner UW, Gagnidze K, McEwen BS, and Bulloch K

Subjects

Animals, Annexin A1 metabolism, Bacterial Proteins metabolism, CD11c Antigen metabolism, Cytokines metabolism, Dendritic Cells cytology, Encephalitis chemically induced, Female, Lipopolysaccharides, Luminescent Proteins metabolism, Mice, Transgenic, Pituitary Gland cytology, Signal Transduction, Dendritic Cells immunology, Dendritic Cells metabolism, Encephalitis immunology, Encephalitis metabolism, Pituitary Gland immunology, Pituitary Gland metabolism

Abstract

This study reveals the presence of dendritic cells (DCs) in the pituitary gland, which play a role in communicating immune activation to the hypothalamic pituitary adrenal (HPA) axis. Using enhanced yellow fluorescent protein (eyfp) expression as a reporter for CD11c, a marker of DCs, we demonstrate anatomically the presence of CD11c/eyfp+ cells throughout the pituitary. Flow cytometric analysis shows that the predominant cellular phenotype of pituitary CD11c/eyfp+ cells resembles that of non-lymphoid DCs. In vivo and in vitro immune challenge with lipopolysaccharide (LPS) stimulates these pituitary CD11c/eyfp+ DCs, but not eyfp(neg) cells, to increase levels of pro-inflammatory cytokines, IL-6, IL-1β, and TNF-α. In vivo analysis of plasma glucocorticoid (GC) and adrenocorticotropic hormone (ACTH) levels at this early phase of the immune response to LPS suggest that pro-inflammatory cytokine production by DCs within the pituitary may activate the release of GCs from the adrenals via ACTH. Pituitary CD11c/eyfp+ cells also express annexin A1 (ANXA1), indicating a role in GC signal attenuation. In summary, our data demonstrate that a resident DC population of the pituitary gland coordinates GC release in the early phase of systemic immune activation, thereby providing an essential immune signaling sentinel for the initial shaping of the systemic immune response to LPS., (Copyright © 2015. Published by Elsevier Inc.)

Published

2015