Your search keyword '"Bumgarner JR"' showing total 34 results

1. Dim light at night shifts microglia to a pro-inflammatory state after cerebral ischemia, altering stroke outcome in mice.

Author

Liu JA, Walker WH 2nd, Meléndez-Fernández OH, Bumgarner JR, Zhang N, Walton JC, Meares GP, DeVries AC, and Nelson RJ

Subjects

Animals, Mice, Male, Female, Light adverse effects, Circadian Rhythm physiology, Brain Ischemia pathology, Neuroinflammatory Diseases etiology, Neuroinflammatory Diseases pathology, Microglia pathology, Microglia metabolism, Ischemic Stroke pathology

Abstract

Circadian rhythms are endogenous biological cycles that regulate physiology and behavior and are set to precisely 24-h by light exposure. Light at night (LAN) dysregulates physiology and function including immune response; a critical component that contributes to stroke pathophysiological progression of neuronal injury and may impair recovery from injury. The goal of this study is to explore the effects of dim LAN (dLAN) in a murine model of ischemic stroke to assess how nighttime lighting from hospital settings can affect stroke outcome. Further, this study sought to identify mechanisms underlying pathophysiological changes to immune response after circadian disruption. Male and female adult Swiss Webster (CFW) mice were subjected to transient or permanent focal cerebral ischemia, then were subsequently placed into either dark night conditions (LD) or one night of dLAN (5 lx). 24 h post-stroke, sensorimotor impairments and infarct sizes were quantified. A single night of dLAN following MCAO increased infarct size and sensorimotor deficits across both sexes and reduced survival in males after 24 h. Flow cytometry was performed to assess microglial phenotypes after MCAO, and revealed that dLAN altered the percentage of microglia that express pro-inflammatory markers (MHC II+ and IL-6) and microglia that express CD206 and IL-10 that likely contributed to poor ischemic outcomes. Following these results, microglia were reduced in the brain using Plexxikon 5622 (PLX 5622) a CSFR1 inhibitor, then the mice received an MCAO and were exposed to LD or dLAN conditions for 24 h. Microglial depletion by PLX5622 resulted in infarct sizes that were comparable between lighting conditions. This study provides supporting evidence that environmental lighting exacerbates ischemic injury and post-stroke mortality by a biological mechanism that exposure to dLAN causes a fundamental shift of activated microglial phenotypes from beneficial to detrimental at an early time point after stroke, resulting in irreversible neuronal death., Competing Interests: Declaration of competing interest None., (Copyright © 2023. Published by Elsevier Inc.)

Published

2024

2. Chronic phase advances reduces recognition memory and increases vascular cognitive dementia-like impairments in aged mice.

Author

Liu JA, Bumgarner JR, Walker WH 2nd, Meléndez-Fernández OH, Walton JC, DeVries AC, and Nelson RJ

Subjects

Animals, Mice, Male, Female, Photoperiod, Recognition, Psychology, Cognition, Circadian Rhythm physiology, Dementia, Vascular etiology

Abstract

Disrupted or atypical light-dark cycles disrupts synchronization of endogenous circadian clocks to the external environment; extensive circadian rhythm desynchrony promotes adverse health outcomes. Previous studies suggest that disrupted circadian rhythms promote neuroinflammation and neuronal damage post-ischemia in otherwise healthy mice, however, few studies to date have evaluated these health risks with aging. Because most strokes occur in aged individuals, we sought to identify whether, in addition to being a risk factor for poor ischemic outcome, circadian rhythm disruption can increase risk for vascular cognitive impairment and dementia (VCID). We hypothesized that repeated 6 h phase advances (chronic jet lag; CJL) for 8 weeks alters cerebrovascular architecture leading to increased cognitive impairments in aged mice. Female CJL mice displayed impaired spatial processing during a spontaneous alternation task and reduced acquisition during auditory-cued associative learning. Male CJL mice displayed impaired retention of the auditory-cued associative learning task 24 h following acquisition. CJL increased vascular tortuosity in the isocortex, associated with increased risk for vascular disease. These results demonstrate that CJL increased sex-specific cognitive impairments coinciding with structural changes to vasculature in the brain. We highlight that CJL may accelerate aged-related functional decline and could be a crucial target against disease progression., (© 2024. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published

2024

3. Acute exposure to artificial light at night alters hippocampal vascular structure in mice.

Author

Bumgarner JR, Walker WH 2nd, Quintana DD, White RC, Richmond AA, Meléndez-Fernández OH, Liu JA, Becker-Krail DD, Walton JC, Simpkins JW, DeVries AC, and Nelson RJ

Abstract

The structure and function of the cardiovascular system are modulated across the day by circadian rhythms, making this system susceptible to circadian rhythm disruption. Recent evidence demonstrated that short-term exposure to a pervasive circadian rhythm disruptor, artificial light at night (ALAN), increased inflammation and altered angiogenic transcripts in the hippocampi of mice. Here, we examined the effects of four nights of ALAN exposure on mouse hippocampal vascular networks. To do this, we analyzed 2D and 3D images of hippocampal vasculature and hippocampal transcriptomic profiles of mice exposed to ALAN. ALAN reduced vascular density in the CA1 and CA2/3 of female mice and the dentate gyrus of male mice. Network structure and connectivity were also impaired in the CA2/3 of female mice. These results demonstrate the rapid and potent effects of ALAN on cerebrovascular networks, highlighting the importance of ALAN mitigation in the context of health and cerebrovascular disease., Competing Interests: The authors declare no competing interests., (© 2023 The Authors.)

Published

2023

4. The disruptive relationship among circadian rhythms, pain, and opioids.

Author

Bumgarner JR, McCray EW, and Nelson RJ

Abstract

Pain behavior and the systems that mediate opioid analgesia and opioid reward processing display circadian rhythms. Moreover, the pain system and opioid processing systems, including the mesolimbic reward circuitry, reciprocally interact with the circadian system. Recent work has demonstrated the disruptive relationship among these three systems. Disruption of circadian rhythms can exacerbate pain behavior and modulate opioid processing, and pain and opioids can influence circadian rhythms. This review highlights evidence demonstrating the relationship among the circadian, pain, and opioid systems. Evidence of how disruption of one of these systems can lead to reciprocal disruptions of the other is then reviewed. Finally, we discuss the interconnected nature of these systems to emphasize the importance of their interactions in therapeutic contexts., 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 Bumgarner, McCray and Nelson.)

Published

2023

5. Chronic exposure to dim light at night disrupts cell-mediated immune response and decreases longevity in aged female mice.

Author

Liu JA, Walton JC, Bumgarner JR, Walker WH 2nd, Meléndez-Fernández OH, DeVries AC, and Nelson RJ

Subjects

Humans, Mice, Male, Female, Animals, Aged, Infant, Longevity, Mice, Inbred C57BL, Photoperiod, Immunity, Circadian Rhythm physiology, Light

Abstract

Circadian rhythms are endogenous biological cycles that regulate physiology and behavior for optimal adaptive function and survival; they are synchronized to precisely 24 hours by daily light exposure. Disruption of the daily light-dark (LD) cycle by exposure to artificial light at night (ALAN) dysregulates core clock genes and biological function. Exposure to ALAN has been associated with increased health risks in humans, and elderly individuals are at elevated risk for poor outcome from disease and often experience elevated exposure to ALAN due to increased care requirements. The role of disrupted circadian rhythms in healthy, aged animals remains unspecified; thus, we hypothesized that disrupted circadian rhythms via chronic exposure to dim ALAN (dLAN) impair immune response and survival in aged mice. Twenty-month-old C57BL/6 male and female mice were exposed to 24 weeks of LD conditions or dLAN (5 lux); then, cell-mediated immune response was assessed using a delayed-type hypersensitivity test. Aged female mice exposed to dLAN displayed dysregulated hypersensitivity and inflammation as a measure of cell-mediated immune response and decreased lifespan compared to females housed in dark nights. Nighttime lighting did not affect cell-mediated immune response or lifespan in males but dysregulated body mass and increased adrenal mass after immune challenge after chronic exposure to dLAN. Together, these data indicate that chronic exposure to dLAN affects lifespan in aged females and suggest that females are more susceptible to the detrimental consequences of disrupted circadian rhythms.

Published

2022

6. Machine learning and deep learning frameworks for the automated analysis of pain and opioid withdrawal behaviors.

Author

Bumgarner JR, Becker-Krail DD, White RC, and Nelson RJ

Abstract

The automation of behavioral tracking and analysis in preclinical research can serve to advance the rate of research outcomes, increase experimental scalability, and challenge the scientific reproducibility crisis. Recent advances in the efficiency, accuracy, and accessibility of deep learning (DL) and machine learning (ML) frameworks are enabling this automation. As the ongoing opioid epidemic continues to worsen alongside increasing rates of chronic pain, there are ever-growing needs to understand opioid use disorders (OUDs) and identify non-opioid therapeutic options for pain. In this review, we examine how these related needs can be advanced by the development and validation of DL and ML resources for automated pain and withdrawal behavioral tracking. We aim to emphasize the utility of these tools for automated behavioral analysis, and we argue that currently developed models should be deployed to address novel questions in the fields of pain and OUD research., 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 © 2022 Bumgarner, Becker-Krail, White and Nelson.)

Published

2022

7. Sex Differences in Circadian Rhythms.

Author

Walton JC, Bumgarner JR, and Nelson RJ

Subjects

Animals, Female, Male, Reproducibility of Results, Sex Characteristics, Vertebrates, Circadian Clocks physiology, Circadian Rhythm physiology

Abstract

Sex as a biological variable is the focus of much literature and has been emphasized by the National Institutes of Health, in part, to remedy a long history of male-dominated studies in preclinical and clinical research. We propose that time-of-day is also a crucial biological variable in biomedical research. In common with sex differences, time-of-day should be considered in analyses and reported to improve reproducibility of studies and to provide the appropriate context to the conclusions. Endogenous circadian rhythms are present in virtually all living organisms, including bacteria, plants, invertebrates, and vertebrates. Virtually all physiological and behavioral processes display daily fluctuations in optimal performance that are driven by these endogenous circadian clocks; importantly, many of those circadian rhythms also show sex differences. In this review, we describe some of the documented sex differences in circadian rhythms., (Copyright © 2022 Cold Spring Harbor Laboratory Press; all rights reserved.)

Published

2022

8. Time of day as a critical variable in biology.

Author

Nelson RJ, Bumgarner JR, Liu JA, Love JA, Meléndez-Fernández OH, Becker-Krail DD, Walker WH 2nd, Walton JC, DeVries AC, and Prendergast BJ

Subjects

Animals, Reproducibility of Results, Biology, Circadian Rhythm

Abstract

Background: Circadian rhythms are important for all aspects of biology; virtually every aspect of biological function varies according to time of day. Although this is well known, variation across the day is also often ignored in the design and reporting of research. For this review, we analyzed the top 50 cited papers across 10 major domains of the biological sciences in the calendar year 2015. We repeated this analysis for the year 2019, hypothesizing that the awarding of a Nobel Prize in 2017 for achievements in the field of circadian biology would highlight the importance of circadian rhythms for scientists across many disciplines, and improve time-of-day reporting., Results: Our analyses of these 1000 empirical papers, however, revealed that most failed to include sufficient temporal details when describing experimental methods and that few systematic differences in time-of-day reporting existed between 2015 and 2019. Overall, only 6.1% of reports included time-of-day information about experimental measures and manipulations sufficient to permit replication., Conclusions: Circadian rhythms are a defining feature of biological systems, and knowing when in the circadian day these systems are evaluated is fundamentally important information. Failing to account for time of day hampers reproducibility across laboratories, complicates interpretation of results, and reduces the value of data based predominantly on nocturnal animals when extrapolating to diurnal humans., (© 2022. The Author(s).)

Published

2022

9. Effects of light pollution on photoperiod-driven seasonality.

Author

Liu JA, Meléndez-Fernández OH, Bumgarner JR, and Nelson RJ

Subjects

Circadian Rhythm physiology, Reproduction physiology, Seasons, Light Pollution, Photoperiod

Abstract

Changes to photoperiod (day length) occur in anticipation of seasonal environmental changes, altering physiology and behavior to maximize fitness. In order for photoperiod to be useful as a predictive factor of temperature or food availability, day and night must be distinct. The increasing prevalence of exposure to artificial light at night (ALAN) in both field and laboratory settings disrupts photoperiodic time measurement and may block development of appropriate seasonal adaptations. Here, we review the effects of ALAN as a disruptor of photoperiodic time measurement and season-specific adaptations, including reproduction, metabolism, immune function, and thermoregulation., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

10. Time-restricted feeding alters the efficiency of mammary tumor growth.

Author

Walker WH 2nd, Kaper AL, Meléndez-Fernández OH, Bumgarner JR, Liu JA, Walton JC, DeVries AC, and Nelson RJ

Subjects

Animals, Body Temperature, Circadian Rhythm, Fasting, Feeding Behavior, Female, Mice, Circadian Clocks, Neoplasms

Abstract

Disruption of circadian rhythms has detrimental host consequences. Indeed, both clinical and foundational science demonstrate a clear relationship between disruption of circadian rhythms and cancer initiation and progression. Because timing of food intake can act as a zeitgeber (i.e., entrainment signal) for the circadian clock, and most individuals in the developed world have access to food at all times of the day in a "24/7" society, we sought to determine the effects of timing of food intake on mammary tumor growth. We hypothesized that restricting access to food to during the inactive phase would accelerate tumor growth. Adult female Balb/C mice received a unilateral orthotopic injection of murine mammary carcinoma 4T1 cells into the ninth inguinal mammary gland. Beginning on the day of tumor injection and continuing until the end of the experiment, mice were food restricted to their active phase (ZT12 (lights off)- ZT0 (lights on), inactive phase (ZT0 - ZT12), or had ad libitum access to food. Mice that were food restricted to their inactive phase displayed a significant increase in body mass on days 7 and 14 of tumor growth relative to active phase or ad libitum fed mice. Additionally, mice fed during their inactive phase demonstrated a 20% reduction in food consumption relative to mice fed during their active phase and a 17% reduction in food consumption relative to ab libitum fed mice. Tumor volume was not significantly different between groups. However, food restricting mice to their inactive phase increased mammary tumor growth efficiency (i.e., mg of tumor mass per gram of food intake) relative to mice fed during the active phase and approached significance ( p = .06) relative to ad libitum fed mice. To determine a potential explanation for the increased tumor growth efficiency, we examined rhythms of activity and body temperature. Mice fed during the inactive phase displayed significantly disrupted daily activity and body temperature rhythms relative to both other feeding regimens. Together, these data demonstrate that improperly timed food intake can have detrimental consequences on mammary tumor growth likely via disrupted circadian rhythms.

Published

2022

11. Open-source analysis and visualization of segmented vasculature datasets with VesselVio.

Author

Bumgarner JR and Nelson RJ

Subjects

Mice, Animals, Software, Brain diagnostic imaging

Abstract

Vascular networks are fundamental components of biological systems. Quantitative analysis and observation of the features of these networks can improve our understanding of their roles in health and disease. Recent advancements in imaging technologies have enabled the generation of large-scale vasculature datasets, but barriers to analyzing these datasets remain. Modern analysis options are mainly limited to paid applications or open-source terminal-based software that requires programming knowledge with high learning curves. Here, we describe VesselVio, an open-source application developed to analyze and visualize pre-binarized vasculature datasets and pre-constructed vascular graphs. Vasculature datasets and graphs can be loaded with annotations and processed with custom parameters. Here, the program is tested on ground-truth datasets and is compared with current pipelines. The utility of VesselVio is demonstrated by the analysis of multiple formats of 2D and 3D datasets acquired with several imaging modalities, including annotated mouse whole-brain vasculature volumes., (© 2022 The Author(s).)

Published

2022

12. Light at night disrupts biological clocks, calendars, and immune function.

Author

Walker WH 2nd, Bumgarner JR, Becker-Krail DD, May LE, Liu JA, and Nelson RJ

Subjects

Biological Clocks, Humans, Immunity, Circadian Rhythm, Melatonin metabolism, Melatonin pharmacology

Abstract

Light at night is a pervasive problem in our society; over 80% of the world's population experiences significant light pollution. Exacerbating this issue is the reality that artificially lit outdoor areas are growing by 2.2% per year and continuously lit areas brighten by 2.2% each year due to the rapid growths in population and urbanization. Furthermore, the increase in the prevalence of night shift work and smart device usage contributes to the inescapable nature of artificial light at night (ALAN). Although previously assumed to be innocuous, ALAN has deleterious effects on the circadian system and circadian-regulated physiology, particularly immune function. Due to the relevance of ALAN to the general population, it is important to understand its roles in disrupting immune function. This review presents a synopsis of the effects of ALAN on circadian clocks and immune function. We delineate the role of ALAN in altering clock gene expression and suppressing melatonin. We review the effects of light at night on inflammation and the innate and adaptive immune systems in various species to demonstrate the wide range of ALAN consequences. Finally, we propose future directions to provide further clarity and expansion of the field., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

13. Circadian Influences on Chemotherapy Efficacy in a Mouse Model of Brain Metastases of Breast Cancer.

Author

Walker WH 2nd, Sprowls SA, Bumgarner JR, Liu JA, Meléndez-Fernández OH, Walton JC, Lockman PR, DeVries AC, and Nelson RJ

Abstract

Chemotherapy is more effective in the treatment of peripheral tumors than brain metastases, likely reflecting the reduced ability of chemotherapy to cross the blood-brain barrier (BBB) and blood-tumor barrier at efficacious concentrations. Recent studies demonstrate circadian regulation of the BBB. Thus, we predicted that optimally timed chemotherapy would increase anti-tumor efficacy in a model of brain metastases of breast cancer (BMBC). First, we characterized novel daily alterations in BBB permeability to a commonly used chemotherapeutic, 14 C-paclitaxel, within BMBC following injections given at four time points across the day. Peak and trough 14 C-paclitaxel concentrations within BMBC occurred during the mid-dark phase and at the beginning of the light phase, respectively. Notably, chemotherapy injections during the dark phase increased cell death within BMBC and delayed onset of neurological symptoms relative to injections during the light phase. These data provide strong evidence for the beneficial effects of chrono-chemotherapy for the treatment of BMBC., 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 © 2021 Walker, Sprowls, Bumgarner, Liu, Meléndez-Fernández, Walton, Lockman, DeVries and Nelson.)

Published

2021

14. Light at Night and Disrupted Circadian Rhythms Alter Physiology and Behavior.

Author

Bumgarner JR and Nelson RJ

Subjects

Adaptation, Physiological, Animals, Sunlight, Circadian Clocks, Circadian Rhythm, Environmental Pollution, Light, Photoperiod

Abstract

Life on earth has evolved during the past several billion years under relatively bright days and dark nights. Virtually all organisms on the planet display an internal representation of the solar days in the form of circadian rhythms driven by biological clocks. Nearly every aspect of physiology and behavior is mediated by these internal clocks. The widespread adoption of electric lights during the past century has exposed animals, including humans, to significant light at night (LAN) for the first time in our evolutionary history. Importantly, endogenous circadian clocks depend on light for synchronization with the external daily environment. Thus, LAN can derange temporal adaptations. Indeed, disruption of natural light-dark cycles results in several physiological and behavioral changes. In this review, we highlight recent evidence demonstrating how LAN exposure can have serious implications for adaptive physiology and behavior, including immune, endocrine, and metabolic function, as well as reproductive, foraging, and migratory behavior. Lastly, strategies to mitigate the consequences of LAN on behavior and physiology will be considered., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology. All rights reserved. For permissions please email: journals.permissions@oup.com.)

Published

2021

15. Circadian rhythms and pain.

Author

Bumgarner JR, Walker WH 2nd, and Nelson RJ

Subjects

Humans, Circadian Rhythm, Pain

Abstract

The goal of this review is to provide a perspective on the nature and importance of the relationship between the circadian and pain systems. We provide: 1) An overview of the circadian and pain systems, 2) a review of direct and correlative evidence that demonstrates diurnal and circadian rhythms within the pain system; 3) a perspective highlighting the need to consider the role of a proposed feedback loop of circadian rhythm disruption and maladaptive pain; 4) a perspective on the nature of the relationship between circadian rhythms and pain. In summary, we propose that there is no single locus responsible for producing the circadian rhythms of the pain system. Instead, circadian rhythms of pain are a complex result of the distributed rhythms present throughout the pain system, especially those of the descending pain modulatory system, and the rhythms of the systems with which it interacts, including the opioid, endocrine, and immune systems., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

16. Artificial Light at Night Reduces Anxiety-like Behavior in Female Mice with Exacerbated Mammary Tumor Growth.

Author

Walker WH 2nd, Kvadas RM, May LE, Liu JA, Bumgarner JR, Walton JC, DeVries AC, Dauchy RT, Blask DE, and Nelson RJ

Abstract

Artificial light at night (ALAN) is a pervasive phenomenon. Although initially assumed to be innocuous, recent research has demonstrated its deleterious effects on physiology and behavior. Exposure to ALAN is associated with disruptions to sleep/wake cycles, development of mood disorders, metabolic disorders, and cancer. However, the influence of ALAN on affective behavior in tumor-bearing mice has not been investigated. We hypothesize that exposure to ALAN accelerates mammary tumor growth and predict that ALAN exacerbates negative affective behaviors in tumor-bearing mice. Adult (>8 weeks) female C3H mice received a unilateral orthotropic injection of FM3A mouse mammary carcinoma cells (1.0 × 10 5 in 100 μL) into the fourth inguinal mammary gland. Nineteen days after tumor inoculation, mice were tested for sucrose preference (anhedonia-like behavior). The following day, mice were subjected to an open field test (anxiety-like behavior), followed by forced swim testing (depressive-like behavior). Regardless of tumor status, mice housed in ALAN increased body mass through the first ten days. Tumor-bearing ALAN-housed mice demonstrated reduced latency to tumor onset (day 5) and increased terminal tumor volume (day 21). Exposure to ALAN reduced sucrose preference independent of tumor status. Additionally, tumor-bearing mice housed in dark nights demonstrated significantly increased anxiety-like behavior that was normalized via housing in ALAN. Together, these data reaffirm the negative effects of ALAN on tumorigenesis and demonstrate the potential anxiolytic effect of ALAN in the presence of mammary tumors.

Published

2021

17. Time-of-day as a critical biological variable.

Author

Nelson RJ, Bumgarner JR, Walker WH 2nd, and DeVries AC

Subjects

Animals, Time, Circadian Rhythm, Rodentia

Abstract

Time-of-day is a crucial, yet often overlooked, biological variable in biomedical research. We examined the top 25 most cited papers in several domains of behavioral neuroscience to determine whether time-of-day information was reported. The majority of studies report behavioral testing conducted during the day, which does not coincide with the optimal time to perform the testing from an functional perspective of the animals being tested. The majority of animal models used in biomedical research are nocturnal rodents; thus, testing during the light phase (i.e. animals' rest period) may alter the results and introduce variability across studies. Time-of-day is rarely considered in analyses or reported in publications; the majority of publications fail to include temporal details when describing their experimental methods, and those few that report testing during the dark rarely report whether measures are in place to protect from exposure to extraneous light. We propose that failing to account for time-of-day may compromise replication of findings across behavioral studies and reduce their value when extrapolating results to diurnal humans., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

18. Circadian Variation in Efficacy of Medications.

Author

Walton JC, Walker WH 2nd, Bumgarner JR, Meléndez-Fernández OH, Liu JA, Hughes HL, Kaper AL, and Nelson RJ

Subjects

Animals, Clinical Trials as Topic, Female, Humans, Male, Sex Characteristics, Circadian Rhythm, Drug Therapy

Abstract

Although much has been learned about circadian clocks and rhythms over the past few decades, translation of this foundational science underlying the temporal regulation of physiology and behavior to clinical applications has been slow. Indeed, acceptance of the modern study of circadian rhythms has been blunted because the phenomenology of cyclic changes had to counteract the 20th century dogma of homeostasis in the biological sciences and medicine. We are providing this review of clinical data to highlight the emerging awareness of circadian variation in efficacy of medications for physicians, clinicians, and pharmacists. We are suggesting that gold-standard double-blind clinical studies should be conducted to determine the best time of day for optimal effectiveness of medications; also, we suggest that time of day should be tracked and reported as an important biological variable in ongoing clinical studies hereafter. Furthermore, we emphasize that time of day is, and should be considered, a key biological variable in research design similar to sex. In common with biomedical research data that have been historically strongly skewed toward the male sex, most pharmaceutical data have been skewed toward morning dosing without strong evidence that this is the optimal time of efficacy., (© 2020 The Authors Clinical Pharmacology & Therapeutics © 2020 American Society for Clinical Pharmacology and Therapeutics.)

Published

2021

19. Implications of Disrupted Circadian Rhythms on Pain.

Author

Bumgarner JR and Nelson RJ

Abstract

Pain is regulated by circadian rhythms. Daily fluctuations in pain thresholds are observed in health and disease. Disruptions to the circadian and pain systems may initiate a detrimental feedback loop between the two systems. The relationship between the pain and circadian systems is briefly reviewed to highlight a perspective on the need to consider disrupted circadian rhythms in the treatment of pain., Competing Interests: CONFLICTS OF INTEREST The authors declare no conflicts of interest.

Published

2021

20. Light Pollution and Cancer.

Author

Walker WH 2nd, Bumgarner JR, Walton JC, Liu JA, Meléndez-Fernández OH, Nelson RJ, and DeVries AC

Subjects

Animals, Carcinogenesis genetics, Circadian Rhythm Signaling Peptides and Proteins genetics, Circadian Rhythm Signaling Peptides and Proteins metabolism, Humans, Neoplasms etiology, Shift Work Schedule adverse effects, Carcinogenesis metabolism, Circadian Rhythm, Neoplasms epidemiology

Abstract

For many individuals in industrialized nations, the widespread adoption of electric lighting has dramatically affected the circadian organization of physiology and behavior. Although initially assumed to be innocuous, exposure to artificial light at night (ALAN) is associated with several disorders, including increased incidence of cancer, metabolic disorders, and mood disorders. Within this review, we present a brief overview of the molecular circadian clock system and the importance of maintaining fidelity to bright days and dark nights. We describe the interrelation between core clock genes and the cell cycle, as well as the contribution of clock genes to oncogenesis. Next, we review the clinical implications of disrupted circadian rhythms on cancer, followed by a section on the foundational science literature on the effects of light at night and cancer. Finally, we provide some strategies for mitigation of disrupted circadian rhythms to improve health.

Published

2020

21. Dim light at night exacerbates stroke outcome.

Author

Weil ZM, Fonken LK, Walker WH 2nd, Bumgarner JR, Liu JA, Melendez-Fernandez OH, Zhang N, DeVries AC, and Nelson RJ

Subjects

Animals, Anxiety, Disease Models, Animal, Humans, Mice, Neurons, Photoperiod, Circadian Rhythm, Stroke

Abstract

Circadian rhythms are endogenous biological cycles that synchronize physiology and behaviour to promote optimal function. These ~24-hr internal rhythms are set to precisely 24 hr daily by exposure to the sun. However, the prevalence of night-time lighting has the potential to dysregulate these biological functions. Hospital patients may be particularly vulnerable to the consequences of light at night because of their compromised physiological state. A mouse model of stroke (middle cerebral artery occlusion; MCAO) was used to test the hypothesis that exposure to dim light at night impairs responses to a major insult. Stroke lesion size was substantially larger among animals housed in dLAN after reperfusion than animals maintained in dark nights. Mice housed in dLAN for three days after the stroke displayed increased post-stroke anxiety-like behaviour. Overall, dLAN amplified pro-inflammatory pathways in the CNS, which may have exacerbated neuronal damage. Our results suggest that exposure to LAN is detrimental to stroke recovery., (© 2020 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published

2020

22. Dim Light at Night Exposure Induces Cold Hyperalgesia and Mechanical Allodynia in Male Mice.

Author

Bumgarner JR, Walker WH 2nd, Liu JA, Walton JC, and Nelson RJ

Subjects

Animals, Cold Temperature, Male, Mice, Pain, Pain Measurement, Pain Threshold, Hyperalgesia etiology, Peripheral Nervous System Diseases

Abstract

The growing presence of artificial lighting across the globe presents a number of challenges to human and ecological health despite its societal benefits. Exposure to artificial light at night, a seemingly innocuous aspect of modern life, disrupts behavior and physiological functions. Specifically, light at night induces neuroinflammation, which is implicated in neuropathic and nociceptive pain states, including hyperalgesia and allodynia. Because of its influence on neuroinflammation, we investigated the effects of dim light at night exposure on pain responsiveness in male mice. In this study, mice exposed to four days of dim (5 lux) light at night exhibited cold hyperalgesia. Further, after 28 days of exposure, mice exhibited both cold hyperalgesia and mechanical allodynia. No heat/hot hyperalgesia was observed in this experiment. Altered nociception in mice exposed to dim light at night was concurrent with upregulated interleukin-6 and nerve growth factor mRNA expression in the medulla and elevated μ-opioid receptor mRNA expression in the periaqueductal gray region of the brain. The current results support the relationship between disrupted circadian rhythms and altered pain sensitivity. In summary, we observed that dim light at night induces cold hyperalgesia and mechanical allodynia, potentially through elevated neuroinflammation and dysregulation of the endogenous opioid system., (Copyright © 2020 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2020

23. Transcardial perfusion is not required to accurately measure cytokines within the brain.

Author

Walker WH 2nd, Bumgarner JR, Nelson RJ, and Courtney DeVries A

Abstract

Background: Cytokines are key signaling molecules within the immune system that regulate a host's response to pathogens and neuronal damage. Aberrant cytokine signaling has been implicated in many neurological diseases. Therefore, accurately measuring cytokine concentrations within the brain is crucial., New Method: This study demonstrates that removing blood within brain vasculature via saline perfusion does not alter brain parenchymal cytokine protein concentrations or mRNA expression., Results: Hippocampal protein and mRNA data demonstrate that brain parenchymal cytokine concentrations do not significantly differ based on the method of euthanasia (i.e., perfusion or no perfusion). These results are consistent within naive and immune challenged mice., Comparison With Existing Method: Due to the potential of cytokine contamination from circulating blood, it is believed that transcardial perfusion is required for accurate measurement of cytokine concentrations and gene expression within the brain. However, our data indicate that cytokine concentrations are unaffected by not perfusing mice with saline prior to tissue collection., Conclusions: Brain cytokine concentrations are unaffected by perfusing with saline prior to tissue collection; this holds true regardless of immune status (homeostatic or immune challenged), suggesting that this time-consuming step may be unnecessary., Competing Interests: Declaration of Competing Interest The authors declare no conflict of interest associated with the studies presented in this manuscript., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

24. Improving CNS Delivery to Brain Metastases by Blood-Tumor Barrier Disruption.

Author

Sprowls SA, Arsiwala TA, Bumgarner JR, Shah N, Lateef SS, Kielkowski BN, and Lockman PR

Subjects

Blood-Brain Barrier drug effects, Blood-Brain Barrier metabolism, Blood-Brain Barrier pathology, Blood-Brain Barrier radiation effects, Brain Neoplasms secondary, Chemoradiotherapy trends, Clinical Trials as Topic, Humans, Neoplasm Invasiveness pathology, Neoplasm Invasiveness prevention & control, Treatment Outcome, Ultrasonic Therapy methods, Antineoplastic Agents administration & dosage, Brain Neoplasms therapy, Chemoradiotherapy methods, Drug Delivery Systems methods

Abstract

Brain metastases encompass nearly 80% of all intracranial tumors. A late stage diagnosis confers a poor prognosis, with patients typically surviving less than 2 years. Poor survival can be equated to limited effective treatment modalities. One reason for the failure rates is the presence of the blood-brain barrier (BBB) and blood-tumor barrier (BTB) that limit the access of potentially effective chemotherapeutics to metastatic lesions. Strategies to overcome these barriers include new small molecule entities capable of crossing into the brain parenchyma, novel formulations of existing chemotherapies, and disruptive techniques. Here, we review BBB physiology and BTB pathophysiology. Additionally, we review the limitations of routinely practiced therapies and three current methods being explored for BBB/BTB disruption for improved delivery of chemotherapy to brain tumors., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

25. Estimating biozone hydraulic conductivity in wastewater soil-infiltration systems using inverse numerical modeling.

Author

Bumgarner JR and McCray JE

Subjects

Filtration, Kinetics, Water Movements, Models, Theoretical, Soil, Soil Pollutants analysis, Waste Disposal, Fluid methods, Water chemistry, Water Pollutants analysis

Abstract

During operation of an onsite wastewater treatment system, a low-permeability biozone develops at the infiltrative surface (IS) during application of wastewater to soil. Inverse numerical-model simulations were used to estimate the biozone saturated hydraulic conductivity (K(biozone)) under variably saturated conditions for 29 wastewater infiltration test cells installed in a sandy loam field soil. Test cells employed two loading rates (4 and 8cm/day) and 3 IS designs: open chamber, gravel, and synthetic bundles. The ratio of K(biozone) to the saturated hydraulic conductivity of the natural soil (K(s)) was used to quantify the reductions in the IS hydraulic conductivity. A smaller value of K(biozone)/K(s,) reflects a greater reduction in hydraulic conductivity. The IS hydraulic conductivity was reduced by 1-3 orders of magnitude. The reduction in IS hydraulic conductivity was primarily influenced by wastewater loading rate and IS type and not by the K(s) of the native soil. The higher loading rate yielded greater reductions in IS hydraulic conductivity than the lower loading rate for bundle and gravel cells, but the difference was not statistically significant for chamber cells. Bundle and gravel cells exhibited a greater reduction in IS hydraulic conductivity than chamber cells at the higher loading rates, while the difference between gravel and bundle systems was not statistically significant. At the lower rate, bundle cells exhibited generally lower K(biozone)/K(s) values, but not at a statistically significant level, while gravel and chamber cells were statistically similar. Gravel cells exhibited the greatest variability in measured values, which may complicate design efforts based on K(biozone) evaluations for these systems. These results suggest that chamber systems may provide for a more robust design, particularly for high or variable wastewater infiltration rates.

Published

2007

26. Different wars, same hardships.

Author

Bumgarner JR

Subjects

Anecdotes as Topic, Humans, Japan, Male, Prisoners psychology, Warfare

Published

1994

27. Phthisis: my case history. Surviving a 15-year odyssey as POW and patient.

Author

Bumgarner JR

Subjects

History, 20th Century, Humans, Male, Philippines, Military Personnel, Prisoners, Tuberculosis, Pulmonary, Warfare

Published

1993

28. Multiple components of the A1 adenosine receptor-adenylate cyclase system are regulated in rat cerebral cortex by chronic caffeine ingestion.

Author

Ramkumar V, Bumgarner JR, Jacobson KA, and Stiles GL

Subjects

Adenylyl Cyclase Inhibitors, Animals, Binding, Competitive, Cerebral Cortex enzymology, Cerebral Cortex metabolism, Male, Nerve Tissue Proteins metabolism, Protein Binding drug effects, Rats, Rats, Inbred Strains, Receptors, Purinergic metabolism, Time Factors, Adenylyl Cyclases metabolism, Caffeine administration & dosage, Cerebral Cortex drug effects, Receptors, Purinergic drug effects

Abstract

The effects of chronic caffeine on the A1 adenosine receptor-adenylate cyclase system of rat cerebral cortical membranes were studied. Caffeine treatment significantly increased the number of A1 adenosine receptors as determined with the A1 adenosine receptor antagonist radioligand [3H]xanthine amine congener (XAC). R-PIA (agonist) competition curves constructed with [3H]XAC were most appropriately described by a two affinity state model in control membranes with a KH of 2.1 +/- 0.8 and a KL of 404 +/- 330 nM with 50 +/- 4% of receptors in the high affinity state (%RH). In contrast, in membranes from treated animals, there was a marked shift towards the high affinity state. In three of seven animals all of the receptors were shifted to a unique high affinity state which was indistinguishable from the KH observed in membranes from control animals. In four of seven animals the %RH increased from 50 to 69% with KH and KL indistinguishable from the control values. Thus, the agonist specific high affinity form of the receptor was enhanced following caffeine treatment. Maximal inhibition of adenylate cyclase activity in cerebral cortical membranes by R-PIA (1 microM) was significantly increased by 28% following caffeine treatment, consistent with an increased coupling of receptor-Gi protein with adenylate cyclase. Importantly, the quantity of Gi (alpha i) in rat cerebral cortex, determined by pertussis toxin-mediated labeling, was also increased to 133% of control values by this treatment. Thus, multiple components and interactions of the A1 adenosine receptor-adenylate cyclase complex are regulated by caffeine. These changes are likely compensatory measures to offset blockade of A1 receptors in vivo by caffeine and lead to a sensitization of this inhibitory receptor system.

Published

1988

29. Altered thyroid status regulates the adipocyte A1 adenosine receptor-adenylate cyclase system.

Author

Bumgarner JR, Ramkumar V, and Stiles GL

Subjects

Adipose Tissue metabolism, Animals, Biological Assay, Cell Membrane, Colforsin pharmacology, Fluorides pharmacology, Hyperthyroidism chemically induced, Isoproterenol pharmacology, Male, Manganese pharmacology, Rats, Rats, Inbred Strains, Triiodothyronine, Adenylyl Cyclases metabolism, Hyperthyroidism metabolism, Receptors, Purinergic metabolism

Abstract

To assess the effect of hyperthyroidism on the adenosine receptor-adenylate cyclase system in adipocytes, membranes from hyperthyroid and control rats were prepared. Rats were rendered hyperthyroid by five days of injection with triiodothyronine (T3). Basal as well as isoproterenol-, sodium fluoride-, forskolin- and manganese (Mn++)-stimulated adenylate cyclase activities are attenuated 20-30% in adipocyte membranes from hyperthyroid animals. There is a greater inhibition of total adenylate cyclase activity in response to R-PIA, A1 selective inhibitory agonist, in membranes from hyperthyroid animals. However, on a percentage basis, R-PIA is equally effective at inhibiting adenylate cyclase activity in control and treated membranes. Using antagonist radioligands, [3H]XAC (A1 receptor) and [125I]CYP (beta-adrenergic receptor), no significant alteration in receptor number is observed in hyperthyroidism. In addition, no alteration in Gi protein-A1 receptor coupling is noted as exhibited by R-PIA competition curves. These findings suggest hyperthyroidism most likely results in a decrease of the catalytic moiety of adenylate cyclase either quantitatively or functionally.

Published

1989

30. Cat scratch disease; report of case produced by inoculation with puppy bite.

Author

BUMGARNER JR and MERRITT JF

Subjects

Animals, Dogs, Female, North Carolina, Cat-Scratch Disease etiology, Vaccination

Published

1957

31. The precipitation of active tuberculosis by steroid therapy, report of four cases.

Author

WORKMAN JM and BUMGARNER JR

Subjects

North Carolina, Adrenocorticotropic Hormone adverse effects, Cortisone adverse effects, Tuberculosis, Tuberculosis, Pulmonary etiology

Published

1956

32. Pulmonary resection in silicotuberculosis.

Author

CHAPMAN JP Jr and BUMGARNER JR

Subjects

Humans, Pulmonary Surgical Procedures, Silicosis complications, Silicotuberculosis, Tuberculosis, Tuberculosis, Pulmonary

Published

1955

33. Persistent fibrin bodies presenting as coin lesions.

Author

BUMGARNER JR, GAHWYLER M, and WARD DE

Subjects

Fibrin, Tuberculosis, Tuberculosis, Pulmonary pathology

Published

1955

34. Hodgkin's paragranuloma masked by Friedlander's pneumonia; report of a case.

Author

GAHWYLER M and BUMGARNER JR

Subjects

Humans, North Carolina, Bacteriology, Hodgkin Disease complications, Pneumonia microbiology

Published

1955