Your search keyword '"Prowse, N."' showing total 13 results

1. Early life selective knockdown of the TrkB receptor and maternal separation modulates adult stress phenotype

Author

Prowse, N., Dwyer, Z., Thompson, A., Fortin, T., Elson, K., Robeson, H., Fenner, B., and Hayley, S.

Published

2020

2. Sedimentology and geochemistry of the Purple Woods Borehole, southern Ontario

Author

Coffin, L M, primary, Knight, RD, additional, Popovic, N, additional, Prowse, N D, additional, and Russell, H A J, additional

Published

2017

3. Chronic unpredictable stress influenced the behavioral but not the neurodegenerative impact of paraquat

Author

Rudyk, C. (Chris), Dwyer, Z. (Zach), McNeill, J. (Jessica), Salmaso, N. (Natalina), Farmer, K. (Kyle), Prowse, N. (Natalie), Hayley, S. (Shawn), Rudyk, C. (Chris), Dwyer, Z. (Zach), McNeill, J. (Jessica), Salmaso, N. (Natalina), Farmer, K. (Kyle), Prowse, N. (Natalie), and Hayley, S. (Shawn)

Abstract

The impact of psychological stressors on the progression of motor and non-motor disturbances observed in Parkinson's disease (PD) has received little attention. Given that PD likely results from many different environmental “hits”, we were interested in whether a chronic unpredictable stressor regimen would act additively or possibly even synergistically to augment the impact of the toxicant, paraquat, which has previously been linked to PD. Our findings support the contention that paraquat itself acted as a

Published

2019

4. Self-Organised Citizens' Groups and Urban Space: Challenges in Planning Paradigm

Author

Mojanchevska, Katerina, Prowse, N., and ISS PhD

Published

2017

5. Age and chronicity of administration dramatically influenced the impact of low dose paraquat exposure on behavior and hypothalamic-pituitary-adrenal activity

Author

Rudyk, C.A. (Chris A.), McNeill, J. (Jessica), Prowse, N. (Natalie), Dwyer, Z. (Zach), Farmer, K. (Kyle), Litteljohn, D. (Darcy), Caldwell, W. (Warren), Hayley, S. (Shawn), Rudyk, C.A. (Chris A.), McNeill, J. (Jessica), Prowse, N. (Natalie), Dwyer, Z. (Zach), Farmer, K. (Kyle), Litteljohn, D. (Darcy), Caldwell, W. (Warren), and Hayley, S. (Shawn)

Abstract

Little is known of the age-dependent and long-term consequences of low exposure levels of the herbicide and dopaminergic toxicant, paraquat. Thus, we assessed the dose-dependent effects of paraquat using a typical short-term (3 week) exposure procedure, followed by an assessment of the effects of chronic (16 weeks) exposure to a very low dose (1/10th of what previously indu

Published

2017

6. Respatialising the body: the ontologically in-between subject in Orlan’s body of work

Author

Baykan, Burcu and Prowse, N.

Abstract

Chapter 2 This chapter explores the respatialisation of the embodied experience of space through the French multimedia and performance artist Orlan’s body and identity altering practices. By primarily focusing on the artist’s multifaceted surgery-performance series, The Reincarnation of Saint Orlan (1990-1993) and her subsequent series of digital self-portraits, Self-Hybridizations (1998-2007), this chapter traces the complex relationships between the human and the non-human domains that appear in her work, as well as the mutating, in-between bodily space that is configured within these meetings and crossovers. Thus, the main intent of this chapter is to engage with and explore these dynamic, unstable and transient states of being that Orlan’s work reflects; the metamorphic, in-between areas related to the understanding of self in ontological, philosophical and artistic sense. The investigation undertaken here for this purpose primarily draws on Deleuze and Guattari’s formulation of the body through their theory of becoming-other.

Published

2018

7. Brain-derived neurotrophic factor (BDNF) has direct anti-inflammatory effects on microglia.

Author

Charlton T, Prowse N, McFee A, Heiratifar N, Fortin T, Paquette C, and Hayley S

Abstract

Microglia are the primary immunocompetent cells that protect the brain from environmental stressors, but can also be driven to release pro-inflammatory cytokines and induce a cytotoxic environment. Brain-derived neurotrophic factor (BDNF) is important for the regulation of plasticity, synapse formation, and general neuronal health. Yet, little is known about how BDNF impacts microglial activity. We hypothesized that BDNF would have a direct modulatory effect on primary cortical (Postnatal Day 1-3: P1-3) microglia and (Embryonic Day 16: E16) neuronal cultures in the context of a bacterial endotoxin. To this end, we found that a BDNF treatment following LPS-induced inflammation had a marked anti-inflammatory effect, reversing the release of both IL-6 and TNF-α in cortical primary microglia. This modulatory effect was transferrable to cortical primary neurons, such that LPS-activated microglial media was able produce an inflammatory effect when added to a separate neuronal culture, and again, BDNF priming attenuated this effect. BDNF also reversed the overall cytotoxic impact of LPS exposure in microglia. We speculate that BDNF can directly play a role in regulating microglia state and hence, influence microglia-neuron interactions., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Charlton, Prowse, McFee, Heiratifar, Fortin, Paquette and Hayley.)

Published

2023

8. LRRK2 and WAVE2 regulate microglial-transition through distinct morphological phenotypes to induce neurotoxicity in a novel two-hit in vitro model of neurodegeneration.

Author

Fenner BM, Fenner ME, Prowse N, and Hayley SP

Subjects

Chemokines metabolism, Glutamates genetics, Glutamates metabolism, Humans, Leucine-Rich Repeat Serine-Threonine Protein Kinase-2 genetics, Leucine-Rich Repeat Serine-Threonine Protein Kinase-2 metabolism, Lipopolysaccharides metabolism, Lipopolysaccharides toxicity, Microglia metabolism, Phenotype, Reactive Oxygen Species metabolism, Wiskott-Aldrich Syndrome Protein Family metabolism, Neurotoxicity Syndromes, Parkinson Disease genetics, Parkinson Disease metabolism

Abstract

We report a novel in vitro classification system that tracks microglial activation state and their potential neurotoxicity. Mixed live-cell imaging was used to characterize transition through distinct morphological phenotypes, production of reactive oxygen species (ROS), formation of reactive microglial aggregates, and subsequent cytokine production. Transwell cultures were used to determine microglial migration (control and lipopolysaccharide (LPS) treated) to glutamate pre-stressed or healthy neurons. This two-hit paradigm was developed to model the vast evidence that neurodegenerative conditions, like Parkinson's disease (PD), may stem from the collective impact of multiple environmental stressors. We found that healthy neurons were resistant to microglial-mediated inflammation, whereas glutamate pre-stressed neurons were highly susceptible and in fact, appeared to recruit microglia. The LPS treated microglia progressed through distinct morphological states and expressed high levels of ROS and formed large cellular aggregates. Recent evidence implicates leucine-rich repeat kinase 2 (LRRK2) as an important player in the microglial inflammatory state, as well as in the genesis of PD. We found that inhibition of the LRRK2 signaling pathway using the kinase inhibitor cis-2,6-dimethyl-4-(6-(5-(1-methylcyclopropoxy)-1H-indazol-3-yl)pyrimidin-4-yl)morpholine (MLi2) or inhibition of the actin regulatory protein, Wiskott-Aldrich syndrome family Verprolin-homologous Protein-2 (WAVE2), stunted microglial activation and prevented neurotoxicity. Furthermore, inhibition of LRRK2 kinase activity reduced pro-inflammatory chemokines including MIP-2, CRG-2, and RANTES. These data together support the notion that LRRK2 and WAVE2 are important mediators of cytokine production and cytoskeletal rearrangement necessary for microglial-induced neurotoxicity. Furthermore, our model demonstrated unique microglial phenotypic changes that might be mechanistically important for better understanding neuron-microglial crosstalk., (© 2021 The Authors. Journal of Cellular Physiology published by Wiley Periodicals LLC.)

Published

2022

9. Microglia and BDNF at the crossroads of stressor related disorders: Towards a unique trophic phenotype.

Author

Prowse N and Hayley S

Subjects

Neuronal Plasticity, Phenotype, Synapses, Brain-Derived Neurotrophic Factor metabolism, Microglia metabolism

Abstract

Stressors ranging from psychogenic/social to neurogenic/injury to systemic/microbial can impact microglial inflammatory processes, but less is known regarding their effects on trophic properties of microglia. Recent studies do suggest that microglia can modulate neuronal plasticity, possibly through brain derived neurotrophic factor (BDNF). This is particularly important given the link between BDNF and neuropsychiatric and neurodegenerative pathology. We posit that certain activated states of microglia play a role in maintaining the delicate balance of BDNF release onto neuronal synapses. This focused review will address how different "activators" influence the expression and release of microglial BDNF and address the question of tropomyosin receptor kinase B (TrkB) expression on microglia. We will then assess sex-based differences in microglial function and BDNF expression, and how microglia are involved in the stress response and related disorders such as depression. Drawing on research from a variety of other disorders, we will highlight challenges and opportunities for modulators that can shift microglia to a "trophic" phenotype with a view to potential therapeutics relevant for stressor-related disorders., (Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2021

10. Engaging Children as Simulated Patients in Healthcare Education.

Author

Budd N, Andersen P, Harrison P, and Prowse N

Subjects

Child, Cognition, Communication, Family Relations, Humans, Qualitative Research, Health Personnel education, Patient Simulation, Pediatrics education

Abstract

Statement: The value of "simulation" as a learning strategy is well established among healthcare professionals (Educ Prim Care 2015; 26(4):242-7). The use of "simulated patients (SPs)" to present real-world scenarios provides opportunities for students to develop "soft skills," including interpersonal communication, critical thinking, and problem solving. These skills are particularly relevant in pediatric care, where healthcare providers must consider the patient's cognitive development, emotional state, and familial context. This article focuses on middle childhood (6-12 years) a distinctive developmental stage between 2 major developmental transition stages: infancy and adolescence. Middle childhood is associated with compulsory school attendance, developing skills in self-discipline, conflict resolution, and decision-making. Child SPs can play an important role in healthcare education providing direct insight into this unique period of development. They can contribute to the design and delivery of simulations to increase fidelity and provide meaningful real-time feedback to learners on children's experience of the healthcare system. Despite children's expertise and particular care delivery needs, documented simulations using child SPs are limited. This article considers the role of child SPs to support a case for further research into the value of engaging middle years children in the development and delivery of "simulation-based learning experiences". It addresses the gap in child-focused education, the challenges inherent in working with children and outlines strategies and guidelines for effective practice.

Published

2020

11. Chronic unpredictable stress influenced the behavioral but not the neurodegenerative impact of paraquat.

Author

Rudyk C, Dwyer Z, McNeill J, Salmaso N, Farmer K, Prowse N, and Hayley S

Abstract

The impact of psychological stressors on the progression of motor and non-motor disturbances observed in Parkinson's disease (PD) has received little attention. Given that PD likely results from many different environmental "hits", we were interested in whether a chronic unpredictable stressor regimen would act additively or possibly even synergistically to augment the impact of the toxicant, paraquat, which has previously been linked to PD. Our findings support the contention that paraquat itself acted as a systemic stressor, with the pesticide increasing plasma corticosterone, as well as altering glucocorticoid receptor (GR) expression in the hippocampus. Furthermore, stressed mice that also received paraquat displayed synergistic motor coordination impairment on a rotarod test and augmented signs of anhedonia (sucrose preference test). The individual stressor and paraquat treatments also caused a range of non-motor (e.g. open field, Y and plus mazes) deficits, but there were no signs of an interaction (neither additive nor synergistic) between the insults. Similarly, paraquat caused the expected loss of substantia nigra dopamine neurons and microglial activation, but this effect was not further influenced by the chronic stressor. Taken together, these results indicate that paraquat has many effects comparable to that of a more traditional stressor and that at least some behavioral measures (i.e. sucrose preference and rotarod) are augmented by the combined pesticide and stress treatments. Thus, although psychological stressors might not necessarily increase the neurodegenerative effects of the toxicant exposure, they may promote co-morbid behaviors pathology.

Published

2019

12. Age and Chronicity of Administration Dramatically Influenced the Impact of Low Dose Paraquat Exposure on Behavior and Hypothalamic-Pituitary-Adrenal Activity.

Author

Rudyk CA, McNeill J, Prowse N, Dwyer Z, Farmer K, Litteljohn D, Caldwell W, and Hayley S

Abstract

Little is known of the age-dependent and long-term consequences of low exposure levels of the herbicide and dopaminergic toxicant, paraquat. Thus, we assessed the dose-dependent effects of paraquat using a typical short-term (3 week) exposure procedure, followed by an assessment of the effects of chronic (16 weeks) exposure to a very low dose (1/10th of what previously induced dopaminergic neuronal damage). Short term paraquat treatment dose-dependently induced deficits in locomotion, sucrose preference and Y-maze performance. Chronic low dose paraquat treatment had a very different pattern of effects that were also dependent upon the age of the animal: in direct contrast to the short-term effects, chronic low dose paraquat increased sucrose consumption and reduced forced swim test (FST) immobility. Yet these effects were age-dependent, only emerging in mice older than 13 months. Likewise, Y-maze spontaneous alternations and home cage activity were dramatically altered as a function of age and paraquat chronicity. In both the short and long-term exposure studies, increased corticosterone and altered hippocampal glucocorticoid receptor (GR) levels were induced by paraquat, but surprisingly these effects were blunted in the older mice. Thus, paraquat clearly acts as a systemic stressor in terms of corticoid signaling and behavioral outcomes, but that paradoxical effects may occur with: (a) repeated exposure at; (b) very low doses; and (c) older age. Collectively, these data raise the possibility that repeated "hits" with low doses of paraquat in combination with aging processes might have promoted compensatory outcomes.

Published

2017

13. Ketamine modulates hippocampal neurogenesis and pro-inflammatory cytokines but not stressor induced neurochemical changes.

Author

Clarke M, Razmjou S, Prowse N, Dwyer Z, Litteljohn D, Pentz R, Anisman H, and Hayley S

Subjects

Animals, Corticosterone blood, Encephalitis chemically induced, Encephalitis complications, Hippocampus metabolism, Hippocampus physiology, Illness Behavior, Interleukin-1beta metabolism, Lipopolysaccharides, Male, Mice, Norepinephrine metabolism, Receptors, N-Methyl-D-Aspartate antagonists & inhibitors, Restraint, Physical, Serotonin metabolism, Stress, Psychological chemically induced, Stress, Psychological complications, Tumor Necrosis Factor-alpha metabolism, Antidepressive Agents administration & dosage, Biogenic Monoamines metabolism, Cytokines metabolism, Encephalitis metabolism, Hippocampus drug effects, Ketamine administration & dosage, Neurogenesis drug effects, Stress, Psychological metabolism

Abstract

Considerable recent attention has focused on the rapid antidepressant effects observed in treatment resistant patients produced by the NMDA receptor antagonist, ketamine. Surprisingly, the effects of ketamine in the context of stressor exposure, as well as the consequences of its chronic use are unclear. Thus, we assessed the impact of acute and repeated ketamine treatment together with acute [restraint or lipopolysaccharide (LPS)] or chronic (unpredictable different psychogenic challenges) stressor exposure. Importantly, acute ketamine treatment did provoke an antidepressant-like effect in a forced swim test (FST) and this effect lasted for 8 days following repeated exposure to the drug. Although acute restraint and LPS individually provoked the expected elevation of plasma corticosterone and brain-region specific monoamine variations, ketamine had no influence on corticosterone and had, at best, sparse effects on the monoamine changes. Similarly, ketamine did not appreciably influence the stressor induced neurochemical and sucrose preference alterations, it did however, dose-dependently reverse the LPS induced elevation of the pro-inflammatory cytokines, interleukin-1β (IL-1β) and tumor necrosis factor-α (TNF-α). Likewise, repeated ketamine administration increased adult hippocampal neurogenesis. These data indicate that repeated ketamine administration had greater behavioral consequences than acute treatment and that the drug might be imparting antidepressant effects through its effects on neuroplasticity and inflammatory processes rather than the typical neurochemical/hormonal factors affected by stressors. This article is part of the Special Issue entitled 'Ionotropic glutamate receptors'., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017