Your search keyword '"Miller KG"' showing total 157 results

1. Drilling to decipher long-term sea-level changes and effects - A joint consortium for ocean leadership, ICDP, IODP, DOSECC, and Chevron Workshop

Author

Fulthorpe, CS, Miller, KG, Droxler, AW, Hesselbo, SP, Camoin, GF, and Kominz, MA

Published

2016

2. Mochras borehole revisited: a new global standard for Early Jurassic earth history

Author

Hesselbo, SP, Bjerrum, CJ, Hinnov, LA, MacNiocaill, C, Miller, KG, Riding, JB, van de Schootbrugge, B, Mochras Revisited Science Team, and Little, CTS

Published

2013

3. Casein kinase II phosphorylates the synaptic vesicle protein p65

Author

Bennett, MK, primary, Miller, KG, additional, and Scheller, RH, additional

Published

1993

4. Nutritional counseling for vegetarians during pregnancy and lactation.

Author

Penney DS and Miller KG

Abstract

A woman's nutritional status directly affects pregnancy outcome and the quality of breast milk after birth. Clinicians who provide prenatal care have an important role in assessing the nutritional status of women and directing them to appropriate resources while respecting their choices. Vegetarian and vegan diets may present with unique nutrient deficiencies that can be addressed during prenatal nutritional counseling. [ABSTRACT FROM AUTHOR]

Published

2008

5. Why CT scans are already standard of care?

Author

Miller KG

Published

2008

6. Dephasingless two-color terahertz generation.

Author

Simpson TT, Pigeon JJ, Miller KG, Ramsey D, Froula DH, and Palastro JP

Abstract

A laser pulse composed of a fundamental and an appropriately phased second harmonic can drive a time-dependent current of photoionized electrons that generates broadband THz radiation. Over the propagation distances relevant to many experiments, dispersion causes the relative phase between the harmonics to evolve. This "dephasing" slows the accumulation of THz energy and results in a multi-cycle THz pulse with significant angular dispersion. Here, we introduce a novel optical configuration that compensates the relative phase evolution, allowing for the formation of a half-cycle THz pulse with almost no angular dispersion. The configuration uses the spherical aberration of an axilens to map a prescribed radial phase variation in the near field to a desired longitudinal phase variation in the far field. Simulations that combine this configuration with an ultrashort flying focus demonstrate the formation of a half-cycle THz pulse with a controlled emission angle and 1/4 the angular divergence of the multi-cycle pulse created by a conventional optical configuration., (© 2024. The Author(s).)

Published

2024

7. An Exploratory Mixed-Methods Analysis of Factors Contributing to Students' Perceptions of Inclusion in Introductory STEM Courses.

Author

York AM, Miller KG, Cahill MJ, Bernstein MA, Barber AM, Blomgren HE, and Frey RF

Subjects

Humans, Female, Male, Science education, Engineering education, Technology education, Mathematics education, Students, Perception, Curriculum

Abstract

In this exploratory mixed-methods analysis of students' perceptions of inclusion in introductory STEM courses for STEM majors, we asked students to rate inclusion in their class and to provide an open-text explanation of their rating. Analyzing 1930 qualitative responses resulted in a codebook containing academic, identity, and nonspecific categories. The majority of responses (>80%) cited academic factors such as interactions between students and instructors or course elements and policies. Most academic responses aligned with evidence-based teaching practices fostering inclusion, describing a range of strategies and policies instructors can implement to increase students' perceptions of inclusion. A small number of student responses indicated that their perception of the required knowledge background for the course impacted course inclusivity. Few differences in frequency distributions were found between subgroups examined (gender, race and ethnicity, self-reported inclusion score, and discipline). Additionally, tracking a subset of students (135) across three courses revealed that most (80%) cited different factors influencing their perception of inclusion in each course. This suggests students' perceptions of inclusive practices are complex, and most students recognize multiple factors that influence their inclusion. Overall, our findings suggest instructors can significantly influence students' perceptions of inclusion by using multiple inclusive teaching strategies and course policies.

Published

2024

8. Generation of attosecond gigawatt soft x-ray pulses through coherent Thomson backscattering.

Author

Ma Q, Liu J, Pan Z, Wu X, Lu H, Wang Z, Xia Y, Chen Y, Miller KG, Xu X, and Yan X

Abstract

Collision between relativistic electron sheets and counterpropagating laser pulses is recognized as a promising way to produce intense attosecond x rays through coherent Thomson backscattering (TBS). In a double-layer scheme, the electrons in an ultrathin solid foil are first pushed out by an intense laser driver and then interact with the laser reflected off a second foil to form a high-density relativistic electron sheet with vanishing transverse momentum. However, the repulsion between these concentrated electrons can increase the thickness of the layer, reducing both its density and subsequently the coherent TBS. Here, we present a systematic study on the evolution of the flying electron layer and find that its resulting thickness is determined by the interplay between the intrinsic space-charge expansion and the velocity compression induced by the drive laser. How the laser driver, the target areal density, the reflector, and the collision laser intensity affect the properties of the produced x rays is explored. Multidimensional particle-in-cell simulations indicate that employing this scheme in the nonlinear regime has the potential to stably produce soft x rays with several gigawatt peak power in hundreds of terawatt ultrafast laser facilities. The pulse duration can be tuned to tens of attoseconds. This compact and intense attosecond x-ray source may have broad applications in attosecond science.

Published

2024

9. Space-Time Structured Plasma Waves.

Author

Palastro JP, Miller KG, Follett RK, Ramsey D, Weichman K, Arefiev AV, and Froula DH

Abstract

Electrostatic waves play a critical role in nearly every branch of plasma physics from fusion to advanced accelerators, to astro, solar, and ionospheric physics. The properties of planar electrostatic waves are fully determined by the plasma conditions, such as density, temperature, ionization state, or details of the distribution functions. Here we demonstrate that electrostatic wave packets structured with space-time correlations can have properties that are independent of the plasma conditions. For instance, an appropriately structured electrostatic wave packet can travel at any group velocity, even backward with respect to its phase fronts, while maintaining a localized energy density. These linear, propagation-invariant wave packets can be constructed with or without orbital angular momentum by superposing natural modes of the plasma and can be ponderomotively excited by space-time structured laser pulses like the flying focus.

Published

2024

10. Author Correction: Dephasingless laser wakefield acceleration in the bubble regime.

Author

Miller KG, Pierce JR, Ambat MV, Shaw JL, Weichman K, Mori WB, Froula DH, and Palastro JP

Published

2024

11. Dephasingless laser wakefield acceleration in the bubble regime.

Author

Miller KG, Pierce JR, Ambat MV, Shaw JL, Weichman K, Mori WB, Froula DH, and Palastro JP

Abstract

Laser wakefield accelerators (LWFAs) have electric fields that are orders of magnitude larger than those of conventional accelerators, promising an attractive, small-scale alternative for next-generation light sources and lepton colliders. The maximum energy gain in a single-stage LWFA is limited by dephasing, which occurs when the trapped particles outrun the accelerating phase of the wakefield. Here, we demonstrate that a single space-time structured laser pulse can be used for ionization injection and electron acceleration over many dephasing lengths in the bubble regime. Simulations of a dephasingless laser wakefield accelerator driven by a 6.2-J laser pulse show 25 pC of injected charge accelerated over 20 dephasing lengths (1.3 cm) to a maximum energy of 2.1 GeV. The space-time structured laser pulse features an ultrashort, programmable-trajectory focus. Accelerating the focus, reducing the focused spot-size variation, and mitigating unwanted self-focusing stabilize the electron acceleration, which improves beam quality and leads to projected energy gains of 125 GeV in a single, sub-meter stage driven by a 500-J pulse., (© 2023. The Author(s).)

Published

2023

12. Localized uplift, widespread subsidence, and implications for sea level rise in the New York City metropolitan area.

Author

Buzzanga B, Bekaert DPS, Hamlington BD, Kopp RE, Govorcin M, and Miller KG

Abstract

Regional relative sea level rise is exacerbating flooding hazards in the coastal zone. In addition to changes in the ocean, vertical land motion (VLM) is a driver of spatial variation in sea level change that can either diminish or enhance flood risk. Here, we apply state-of-the-art interferometric synthetic aperture radar and global navigation satellite system time series analysis to estimate velocities and corresponding uncertainties at 30-m resolution in the New York City metropolitan area, revealing VLM with unprecedented detail. We find broad subsidence of 1.6 mm/year, consistent with glacial isostatic adjustment to the melting of the former ice sheets, and previously undocumented hot spots of both subsidence and uplift that can be physically explained in some locations. Our results inform ongoing efforts to adapt to sea level rise and reveal points of VLM that motivate both future scientific investigations into surface geology and assessments of engineering projects.

Published

2023

13. End-binding protein 1 promotes specific motor-cargo association in the cell body prior to axonal delivery of dense core vesicles.

Author

Park J, Xie Y, Miller KG, De Camilli P, and Yogev S

Subjects

Animals, Cell Body metabolism, Dense Core Vesicles, Neurons metabolism, Axons metabolism, Mammals, Caenorhabditis elegans genetics, Caenorhabditis elegans metabolism, Kinesins metabolism

Abstract

Axonal transport is key to neuronal function. Efficient transport requires specific motor-cargo association in the soma, yet the mechanisms regulating this early step remain poorly understood. We found that EBP-1, the C. elegans ortholog of the canonical-microtubule-end-binding protein EB1, promotes the specific association between kinesin-3/KIF1A/UNC-104 and dense core vesicles (DCVs) prior to their axonal delivery. Using single-neuron, in vivo labeling of endogenous cargo and EBs, we observed reduced axonal abundance and reduced secretion of DCV cargo, but not other KIF1A/UNC-104 cargoes, in ebp-1 mutants. This reduction could be traced back to fewer exit events from the cell body, where EBP-1 colocalized with the DCV sorting machinery at the trans Golgi, suggesting that this is the site of EBP-1 function. EBP-1 calponin homology (CH) domain was required for directing microtubule growth on the Golgi, and mammalian EB1 interacted with KIF1A in an EBH-domain-dependent manner. Loss- and gain-of-function experiments suggest a model in which both kinesin-3 binding and guidance of microtubule growth at the trans Golgi by EBP-1 promote motor-cargo association at sites of DCV biogenesis. In support of this model, tethering either EBP-1 or a kinesin-3/KIF1A/UNC-104-interacting domain from an unrelated protein to the Golgi restored the axonal abundance of DCV proteins in ebp-1 mutants. These results uncover an unexpected role for a microtubule-associated protein and provide insights into how specific kinesin-3 cargo is delivered to the axon., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

14. Programmable-trajectory ultrafast flying focus pulses.

Author

Ambat MV, Shaw JL, Pigeon JJ, Miller KG, Simpson TT, Froula DH, and Palastro JP

Abstract

"Flying focus" techniques produce laser pulses with dynamic focal points that travel distances much greater than a Rayleigh length. The implementation of these techniques in laser-based applications requires the design of optical configurations that can both extend the focal range and structure the radial group delay. This article describes a method for designing optical configurations that produce ultrashort flying focus pulses with programmable-trajectory focal points. The method is illustrated by several examples that employ an axiparabola for extending the focal range and either a reflective echelon or a deformable mirror-spatial light modulator pair for structuring the radial group delay. The latter configuration enables rapid exploration and optimization of flying foci, which could be ideal for experiments.

Published

2023

15. A well-oxygenated eastern tropical Pacific during the warm Miocene.

Author

Hess AV, Auderset A, Rosenthal Y, Miller KG, Zhou X, Sigman DM, and Martínez-García A

Subjects

Climate Change history, Climate Change statistics & numerical data, Pacific Ocean, History, Ancient, History, 21st Century, Climate Models, Foraminifera isolation & purification, Geographic Mapping, Uncertainty, Oxygen analysis, Oxygen history, Seawater chemistry, Tropical Climate

Abstract

The oxygen content of the oceans is susceptible to climate change and has declined in recent decades 1 , with the largest effect in oxygen-deficient zones (ODZs) 2 , that is, mid-depth ocean regions with oxygen concentrations <5 μmol kg -1 (ref.  3 ). Earth-system-model simulations of climate warming predict that ODZs will expand until at least 2100. The response on timescales of hundreds to thousands of years, however, remains uncertain 3-5 . Here we investigate changes in the response of ocean oxygenation during the warmer-than-present Miocene Climatic Optimum (MCO; 17.0-14.8 million years ago (Ma)). Our planktic foraminifera I/Ca and δ 15 N data, palaeoceanographic proxies sensitive to ODZ extent and intensity, indicate that dissolved-oxygen concentrations in the eastern tropical Pacific (ETP) exceeded 100 µmol kg -1 during the MCO. Paired Mg/Ca-derived temperature data suggest that an ODZ developed in response to an increased west-to-east temperature gradient and shoaling of the ETP thermocline. Our records align with model simulations of data from recent decades to centuries 6,7 , suggesting that weaker equatorial Pacific trade winds during warm periods may lead to decreased upwelling in the ETP, causing equatorial productivity and subsurface oxygen demand to be less concentrated in the east. These findings shed light on how warm-climate states such as during the MCO may affect ocean oxygenation. If the MCO is considered as a possible analogue for future warming, our findings seem to support models suggesting that the recent deoxygenation trend and expansion of the ETP ODZ may eventually reverse 3,4 ., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023

16. Deletion of biofilm synthesis in Eubacterium limosum ATCC 8486 improves handling and transformation efficiency.

Author

Sanford PA, Miller KG, Hoyt KO, and Woolston BM

Subjects

Humans, Genetic Engineering, Extracellular Polymeric Substance Matrix, Eubacterium genetics, Eubacterium metabolism

Abstract

Eubacterium limosum is an acetogenic bacterium of potential industrial relevance for its ability to efficiently metabolize a range of single carbon compounds. However, extracellular polymeric substance (EPS) produced by the type strain ATCC 8486 is a serious impediment to bioprocessing and genetic engineering. To remove these barriers, here we bioinformatically identified genes involved in EPS biosynthesis, and targeted several of the most promising candidates for inactivation, using a homologous recombination-based approach. Deletion of a single genomic region encoding homologues for epsABC, ptkA, and tmkA resulted in a strain incapable of producing EPS. This strain is significantly easier to handle by pipetting and centrifugation, and retains important wild-type phenotypes including the ability to grow on methanol and carbon dioxide and limited oxygen tolerance. Additionally, this strain is also more genetically tractable with a 2-fold increase in transformation efficiency compared to the highest previous reports. This work advances a simple, rapid protocol for gene knockouts in E. limosum using only the native homologous recombination machinery. These results will hasten the development of this organism as a workhorse for valorization of single carbon substrates, as well as facilitate exploration of its role in the human gut microbiota., (© The Author(s) 2023. Published by Oxford University Press on behalf of FEMS.)

Published

2023

17. PFTAIRE Kinase L63 Interactor 1A (Pif1A Protein) Is Required for Actin Cone Movement during Spermatid Individualization in Drosophila melanogaster .

Author

Pravder HD, Grabowska D, Roychoudhury K, Zhang B, Frank D, Zakrzewski P, Lenartowska M, and Miller KG

Subjects

Actins genetics, Actins metabolism, Animals, Drosophila metabolism, Male, Spermatids metabolism, Spermatogenesis genetics, Testis metabolism, Drosophila Proteins genetics, Drosophila Proteins metabolism, Drosophila melanogaster genetics, Drosophila melanogaster metabolism

Abstract

A useful model for determining the mechanisms by which actin and actin binding proteins control cellular architecture is the Drosophila melanogaster process of spermatogenesis. During the final step of spermatogenesis, 64 syncytial spermatids individualized as stable actin cones move synchronously down the axonemes and remodel the membranes. To identify new genes involved in spermatid individualization, we screened a collection of Drosophila male-sterile mutants and found that, in the line Z3-5009, actin cones formed near to the spermatid nuclei but failed to move, resulting in failed spermatid individualization. However, we show by phalloidin actin staining, electron microscopy and immunocytochemical localization of several actin binding proteins that the early cones had normal structure. We sequenced the genome of the Z3-5009 line and identified mutations in the PFTAIRE kinase L63 interactor 1A ( Pif1A ) gene. Quantitative real-time PCR showed that Pif1A transcript abundance was decreased in the mutant, and a transgene expressing Pif1A fused to green fluorescent protein (GFP) was able to fully rescue spermatid individualization and male fertility. Pif1A-GFP localized to the front of actin cones before initiation of movement. We propose that Pif1A plays a pivotal role in directing actin cone movement.

Published

2022

18. Adolescent Dopamine Neurons Represent Reward Differently during Action and State Guided Learning.

Author

McCane AM, Wegener MA, Faraji M, Rivera-Garcia MT, Wallin-Miller KG, Costa VD, and Moghaddam B

Subjects

Animals, Conditioning, Classical physiology, Conditioning, Operant physiology, Male, Rats, Rats, Sprague-Dawley, Association Learning physiology, Dopaminergic Neurons physiology, Mesencephalon physiology, Reward

Abstract

Neuronal underpinning of learning cause-and-effect associations in the adolescent brain remains poorly understood. Two fundamental forms of associative learning are Pavlovian (classical) conditioning, where a stimulus is followed by an outcome, and operant (instrumental) conditioning, where outcome is contingent on action execution. Both forms of learning, when associated with a rewarding outcome, rely on midbrain dopamine neurons in the ventral tegmental area (VTA) and substantia nigra (SN). We find that, in adolescent male rats, reward-guided associative learning is encoded differently by midbrain dopamine neurons in each conditioning paradigm. Whereas simultaneously recorded VTA and SN adult neurons have a similar phasic response to reward delivery during both forms of conditioning, adolescent neurons display a muted reward response during operant but a profoundly larger reward response during Pavlovian conditioning. These results suggest that adolescent neurons assign a different value to reward when it is not gated by action. The learning rate of adolescents and adults during both forms of conditioning was similar, supporting the notion that differences in reward response in each paradigm may be because of differences in motivation and independent of state versus action value learning. Static characteristics of dopamine neurons, such as dopamine cell number and size, were similar in the VTA and SN of both ages, but there were age-related differences in stimulated dopamine release and correlated spike activity, suggesting that differences in reward responsiveness by adolescent dopamine neurons are not because of differences in intrinsic properties of these neurons but engagement of different dopaminergic networks. SIGNIFICANCE STATEMENT Reckless behavior and impulsive decision-making by adolescents suggest that motivated behavioral states are encoded differently by the adolescent brain. Motivated behavior, which is dependent on the function of the dopamine system, follows learning of cause-and-effect associations in the environment. We find that dopamine neurons in adolescents encode reward differently depending on the cause-and-effect relationship of the means to receive that reward. Compared with adults, reward contingent on action led to a muted response, whereas reward that followed a cue but was not gated by action produced an augmented phasic response. These data demonstrate an age-related difference in dopamine neuron response to reward that is not uniform and is guided by processes that differentiate between state and action values., (Copyright © 2021 the authors.)

Published

2021

19. Cortisol activity partially accounts for a relationship between community socioeconomic position and atherosclerosis.

Author

Miller KG, Gianaros PJ, Kamarck TW, Anderson BA, Muldoon MF, and Manuck SB

Subjects

Adult, Census Tract, Female, Humans, Hypothalamo-Hypophyseal System physiology, Male, Middle Aged, Pituitary-Adrenal System physiology, Saliva chemistry, Atherosclerosis epidemiology, Atherosclerosis metabolism, Hydrocortisone metabolism, Social Class

Abstract

Compared to others, individuals living in communities of socioeconomic disadvantage experience more atherosclerotic cardiovascular disease (CVD) and a greater extent of preclinical atherosclerosis. Although the mechanisms underlying these associations remain unclear, it is widely hypothesized that alterations in normative cortisol release from the Hypothalamic Pituitary Adrenal (HPA) axis may play a role in linking lower community socioeconomic position (C-SEP) to CVD risk. The current study examined this hypothesis in relation to a marker of preclinical atherosclerosis among 488 healthy midlife adults (30-54 years, Mean age= 43, 52% Female, 81% White). All participants were employed and without clinical CVD. C-SEP was estimated from census tract data, and atherosclerosis was measured as intima-medial thickness of the carotid arteries (cIMT) by duplex ultrasonography. Four indicators of HPA activity [cortisol at awakening and the cortisol awakening response (CAR), rate of diurnal decline in cortisol (diurnal slope), and total output expressed as area under the curve (AUC)] were derived from salivary cortisol measurements obtained from 5 samples on each of 3 working days. Path analyses were used to examine associations of C-SEP with cIMT and HPA activity and to test whether individual differences in HPA activity could account for any association of C-SEP with cIMT using bootstrapping (5000 iterations). All models were adjusted for age, sex, race, and composite measures of both individual-level socioeconomic position (income, education, occupation), and cardiometabolic risk (systolic and diastolic blood pressure, waist circumference, fasting lipids and glucose). Lower C-SEP was related to both greater cIMT (b = -0.004, p = .021) and a flatter diurnal slope of cortisol (b = -0.001, p = .039). An indirect effect showed attenuated diurnal slope to partially mediate the relationship between C-SEP and cIMT (95% CI = -0.0018 to -0.0001), and a residual direct effect of C-SEP on cIMT remained significant (95% CI = -0.0097 to -0.004). These results suggest that low C-SEP associations with preclinical atherosclerosis may be due in part to correlated variation in adrenocortical activity., (Published by Elsevier Ltd.)

Published

2021

20. Microcoulomb (0.7 ± [Formula: see text] μC) laser plasma accelerator on OMEGA EP.

Author

Shaw JL, Romo-Gonzalez MA, Lemos N, King PM, Bruhaug G, Miller KG, Dorrer C, Kruschwitz B, Waxer L, Williams GJ, Ambat MV, McKie MM, Sinclair MD, Mori WB, Joshi C, Chen H, Palastro JP, Albert F, and Froula DH

Abstract

Laser-plasma accelerators (LPAs) driven by picosecond-scale, kilojoule-class lasers can generate particle beams and x-ray sources that could be utilized in experiments driven by multi-kilojoule, high-energy-density science (HEDS) drivers such as the OMEGA laser at the Laboratory for Laser Energetics (LLE) or the National Ignition Facility at Lawrence Livermore National Laboratory. This paper reports on the development of the first LPA driven by a short-pulse, kilojoule-class laser (OMEGA EP) connected to a multi-kilojoule HEDS driver (OMEGA). In experiments, electron beams were produced with electron energies greater than 200 MeV, divergences as low as 32 mrad, charge greater than 700 nC, and conversion efficiencies from laser energy to electron energy up to 11%. The electron beam charge scales with both the normalized vector potential and plasma density. These electron beams show promise as a method to generate MeV-class radiography sources and improved-flux broadband x-ray sources at HEDS drivers.

Published

2021

21. Sex and strain differences in dynamic and static properties of the mesolimbic dopamine system.

Author

Rivera-Garcia MT, McCane AM, Chowdhury TG, Wallin-Miller KG, and Moghaddam B

Subjects

Animals, Female, Male, Nucleus Accumbens, Rats, Rats, Long-Evans, Rats, Sprague-Dawley, Dopamine, Ventral Tegmental Area

Abstract

Sex is a biological variable that contributes to the incidence, clinical course, and treatment outcome of brain disorders. Chief among these are disorders associated with the dopamine system. These include Parkinson's disease, ADHD, schizophrenia, and mood disorders, which show stark differences in prevalence and outcome between men and women. In order to reveal the influence of biological sex as a risk factor in these disorders, there is a critical need to collect fundamental information about basic properties of the dopamine system in males and females. In Long Evans rats, we measured dynamic and static properties related to the mesolimbic dopamine system. Static measures included assessing ventral tegmental area (VTA) dopamine cell number and volume and expression of tyrosine hydroxylase and dopamine transporter. Dynamic measures in behaving animals included assessing (1) VTA neuronal encoding during learning of a cue-action-reward instrumental task and (2) dopamine release in the nucleus accumbens in response to electrical stimulation of the VTA, vesicular depletion of dopamine, and amphetamine. We found little or no sex difference in these measures, suggesting sexual congruency in fundamental static and dynamic properties of dopamine neurons. Thus, dopamine related sex-differences are likely mediated by secondary mechanisms that flexibly influence the function of the dopamine cells and circuits. Finally, we noted that most behavioral sex differences had been reported in Sprague-Dawley rats and repeated some of the above measures in that strain. We found some sex differences in those animals highlighting the importance of considering strain differences in experimental design and result interpretation.

Published

2020

22. Total cost of carbon capture and storage implemented at a regional scale: northeastern and midwestern United States.

Author

Schmelz WJ, Hochman G, and Miller KG

Abstract

We model the costs of carbon capture and storage (CCS) in subsurface geological formations for emissions from 138 northeastern and midwestern electricity-generating power plants. The analysis suggests coal-sourced CO 2 emissions can be stored in this region at a cost of $52-$60 ton -1 , whereas the cost to store emission from natural-gas-fired plants ranges from approximately $80 to $90. Storing emissions offshore increases the lowest total costs of CCS to over $60 per ton of CO 2 for coal. Because there apparently is sufficient onshore storage in the northeastern and midwestern United States, offshore storage is not necessary or economical unless there are additional costs or suitability issues associated with the onshore reservoirs. For example, if formation pressures are prohibitive in a large-scale deployment of onshore CCS, or if there is opposition to onshore storage, offshore storage space could probably store emissions at an additional cost of less than $10 ton -1 . Finally, it is likely that more than 8 Gt of total CO 2 emissions from this region can be stored for less $60 ton -1 , slightly more than the $50 ton -1 Section 45Q tax credits incentivizing CCS., Competing Interests: We declare we have no competing interests., (© 2020 The Author(s).)

Published

2020

23. Cenozoic sea-level and cryospheric evolution from deep-sea geochemical and continental margin records.

Author

Miller KG, Browning JV, Schmelz WJ, Kopp RE, Mountain GS, and Wright JD

Abstract

Using Pacific benthic foraminiferal δ 18 O and Mg/Ca records, we derive a Cenozoic (66 Ma) global mean sea level (GMSL) estimate that records evolution from an ice-free Early Eocene to Quaternary bipolar ice sheets. These GMSL estimates are statistically similar to "backstripped" estimates from continental margins accounting for compaction, loading, and thermal subsidence. Peak warmth, elevated GMSL, high CO 2 , and ice-free "Hothouse" conditions (56 to 48 Ma) were followed by "Cool Greenhouse" (48 to 34 Ma) ice sheets (10 to 30 m changes). Continental-scale ice sheets ("Icehouse") began ~34 Ma (>50 m changes), permanent East Antarctic ice sheets at 12.8 Ma, and bipolar glaciation at 2.5 Ma. The largest GMSL fall (27 to 20 ka; ~130 m) was followed by a >40 mm/yr rise (19 to 10 ka), a slowing (10 to 2 ka), and a stillstand until ~1900 CE, when rates began to rise. High long-term CO 2 caused warm climates and high sea levels, with sea-level variability dominated by periodic Milankovitch cycles., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published

2020

24. Influence of physical activity on weight status during the first year of college.

Author

Miller KG and Hartman JM

Subjects

Adolescent, Adult, Female, Humans, Male, Surveys and Questionnaires, Time Factors, Universities, Young Adult, Body Weight, Cardiorespiratory Fitness physiology, Cardiorespiratory Fitness psychology, Exercise psychology, Students statistics & numerical data, Weight Gain

Abstract

Objective: To provide an analysis of weight change in response to physical activity levels among first year college students. Participants: First year students ( N  = 114) participated during the 2012-2013 academic year. Methods: Using a web-based survey, researchers gathered information on physical activity and weight at three points: twice throughout the fall and once at the end of the spring semesters. Results: Over half (56.25%) of respondents reported weight gain (between 0.45 and 13.61 kg) from baseline to 9-month follow-up. Weight gainers reported an average gain of 4.20 kg. More than half of participants were not meeting minimal recommendations for cardiorespiratory fitness (59.5%) and strength (53.2%) by the end of the first year of college. Conclusion: This research provides support for intervention and implementation of strategies to promote self-regulation in college students during the transition to college. Addressing the importance of physical activity in weight maintenance is beneficial to first year students' well-being.

Published

2020

25. Sex differences in reward- and punishment-guided actions.

Author

Chowdhury TG, Wallin-Miller KG, Rear AA, Park J, Diaz V, Simon NW, and Moghaddam B

Subjects

Animals, Anxiety chemically induced, Anxiety psychology, Association Learning, Avoidance Learning drug effects, Carbolines pharmacology, Cognition, Conditioning, Operant, Dose-Response Relationship, Drug, Female, Male, Maze Learning, Rats, Uncertainty, Punishment, Reward, Sex Characteristics

Abstract

Differences in the prevalence and presentation of psychiatric illnesses in men and women suggest that neurobiological sex differences confer vulnerability or resilience in these disorders. Rodent behavioral models are critical for understanding the mechanisms of these differences. Reward processing and punishment avoidance are fundamental dimensions of the symptoms of psychiatric disorders. Here we explored sex differences along these dimensions using multiple and distinct behavioral paradigms. We found no sex difference in reward-guided associative learning but a faster punishment-avoidance learning in females. After learning, females were more sensitive than males to probabilistic punishment but less sensitive when punishment could be avoided with certainty. No sex differences were found in reward-guided cognitive flexibility. Thus, sex differences in goal-directed behaviors emerged selectively when there was an aversive context. These differences were critically sensitive to whether the punishment was certain or unpredictable. Our findings with these new paradigms provide conceptual and practical tools for investigating brain mechanisms that account for sex differences in susceptibility to anxiety and impulsivity. They may also provide insight for understanding the evolution of sex-specific optimal behavioral strategies in dynamic environments.

Published

2019

26. Access to Our Journals.

Author

Miller KG

Subjects

Access to Information, Publishing, Periodicals as Topic

Published

2019

27. De Novo Variants in MAPK8IP3 Cause Intellectual Disability with Variable Brain Anomalies.

Author

Platzer K, Sticht H, Edwards SL, Allen W, Angione KM, Bonati MT, Brasington C, Cho MT, Demmer LA, Falik-Zaccai T, Gamble CN, Hellenbroich Y, Iascone M, Kok F, Mahida S, Mandel H, Marquardt T, McWalter K, Panis B, Pepler A, Pinz H, Ramos L, Shinde DN, Smith-Hicks C, Stegmann APA, Stöbe P, Stumpel CTRM, Wilson C, Lemke JR, Di Donato N, Miller KG, and Jamra R

Subjects

Adaptor Proteins, Signal Transducing chemistry, Adaptor Proteins, Signal Transducing metabolism, Adolescent, Animals, Brain diagnostic imaging, CRISPR-Cas Systems, Caenorhabditis elegans genetics, Caenorhabditis elegans physiology, Child, Child, Preschool, Computer Simulation, Female, Humans, Intellectual Disability diagnostic imaging, Locomotion, Lysosomes metabolism, Male, Models, Molecular, Nerve Tissue Proteins chemistry, Nerve Tissue Proteins metabolism, Exome Sequencing, Young Adult, Adaptor Proteins, Signal Transducing genetics, Brain abnormalities, Brain metabolism, Intellectual Disability genetics, Mutation, Nerve Tissue Proteins genetics

Abstract

Using exome sequencing, we have identified de novo variants in MAPK8IP3 in 13 unrelated individuals presenting with an overlapping phenotype of mild to severe intellectual disability. The de novo variants comprise six missense variants, three of which are recurrent, and three truncating variants. Brain anomalies such as perisylvian polymicrogyria, cerebral or cerebellar atrophy, and hypoplasia of the corpus callosum were consistent among individuals harboring recurrent de novo missense variants. MAPK8IP3 has been shown to be involved in the retrograde axonal-transport machinery, but many of its specific functions are yet to be elucidated. Using the CRISPR-Cas9 system to target six conserved amino acid positions in Caenorhabditis elegans, we found that two of the six investigated human alterations led to a significantly elevated density of axonal lysosomes, and five variants were associated with adverse locomotion. Reverse-engineering normalized the observed adverse effects back to wild-type levels. Combining genetic, phenotypic, and functional findings, as well as the significant enrichment of de novo variants in MAPK8IP3 within our total cohort of 27,232 individuals who underwent exome sequencing, we implicate de novo variants in MAPK8IP3 as a cause of a neurodevelopmental disorder with intellectual disability and variable brain anomalies., (Copyright © 2018 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2019

28. Sentryn and SAD Kinase Link the Guided Transport and Capture of Dense Core Vesicles in Caenorhabditis elegans .

Author

Morrison LM, Edwards SL, Manning L, Stec N, Richmond JE, and Miller KG

Subjects

Animals, Axons metabolism, Biological Transport, Caenorhabditis elegans genetics, Caenorhabditis elegans metabolism, Dyneins metabolism, Mutation, Caenorhabditis elegans cytology, Caenorhabditis elegans enzymology, Caenorhabditis elegans Proteins metabolism, Nerve Tissue Proteins metabolism, Protein Serine-Threonine Kinases metabolism, Secretory Vesicles metabolism

Abstract

Dense core vesicles (DCVs) can transmit signals by releasing neuropeptides from specialized synaptic regions called active zones. DCVs reach the active zone by motorized transport through a long axon. A reverse motor frequently interrupts progress by taking DCVs in the opposite direction. "Guided transport" refers to the mechanism by which outward movements ultimately dominate to bring DCVs to the synaptic region. After guided transport, DCVs alter their interactions with motors and enter a "captured" state. The mechanisms of guided transport and capture of DCVs are unknown. Here, we discovered two proteins that contribute to both processes in Caenorhabditis elegans SAD kinase and a novel conserved protein we named Sentryn are the first proteins found to promote DCV capture. By imaging DCVs moving in various regions of single identified neurons in living animals, we found that DCV guided transport and capture are linked through SAD kinase, Sentryn, and Liprin-α. These proteins act together to regulate DCV motorized transport in a region-specific manner. Between the cell body and the synaptic region, they promote forward transport. In the synaptic region, where all three proteins are highly enriched at active zones, they promote DCV pausing by inhibiting transport in both directions. These three proteins appear to be part of a special subset of active zone-enriched proteins because other active zone proteins do not share their unique functions., (Copyright © 2018 by the Genetics Society of America.)

Published

2018

29. Sentryn Acts with a Subset of Active Zone Proteins To Optimize the Localization of Synaptic Vesicles in Caenorhabditis elegans .

Author

Edwards SL, Morrison LM, Manning L, Stec N, Richmond JE, and Miller KG

Subjects

Animals, Axons metabolism, Caenorhabditis elegans genetics, Dendrites metabolism, Dyneins metabolism, Lysosomes metabolism, Mutation, Protein Transport, Caenorhabditis elegans cytology, Caenorhabditis elegans metabolism, Caenorhabditis elegans Proteins metabolism, Nerve Tissue Proteins metabolism, Synaptic Vesicles metabolism

Abstract

Synaptic vesicles (SVs) transmit signals by releasing neurotransmitters from specialized synaptic regions of neurons. In the synaptic region, SVs are tightly clustered around small structures called active zones. The motor KIF1A transports SVs outward through axons until they are captured in the synaptic region. This transport must be guided in the forward direction because it is opposed by the dynein motor, which causes SVs to reverse direction multiple times en route. The core synapse stability (CSS) system contributes to both guided transport and capture of SVs. We identified Sentryn as a CSS protein that contributes to the synaptic localization of SVs in Caenorhabditis elegans Like the CSS proteins SAD Kinase and SYD-2 (Liprin-α), Sentryn also prevents dynein-dependent accumulation of lysosomes in dendrites in strains lacking JIP3. Genetic analysis showed that Sentryn and SAD Kinase each have at least one nonoverlapping function for the stable accumulation of SVs at synapses that, when combined with their shared functions, enables most of the functions of SYD-2 (Liprin-α) for capturing SVs. Also like other CSS proteins, Sentryn appears enriched at active zones and contributes to active zone structure, suggesting that it is a novel, conserved active zone protein. Sentryn is recruited to active zones by a process dependent on the active zone-enriched CSS protein SYD-2 (Liprin-α). Our results define a specialized group of active zone enriched proteins that can affect motorized transport throughout the neuron and that have roles in both guided transport and capture of SVs., (Copyright © 2018 by the Genetics Society of America.)

Published

2018

30. Local microtubule organization promotes cargo transport in C. elegans dendrites.

Author

Harterink M, Edwards SL, de Haan B, Yau KW, van den Heuvel S, Kapitein LC, Miller KG, and Hoogenraad CC

Subjects

Animals, Cells, Cultured, Caenorhabditis elegans metabolism, Dendrites metabolism, Microtubules metabolism, Protein Transport physiology

Abstract

The specific organization of the neuronal microtubule cytoskeleton in axons and dendrites is an evolutionarily conserved determinant of neuronal polarity that allows for selective cargo sorting. However, how dendritic microtubules are organized and whether local differences influence cargo transport remains largely unknown. Here, we use live-cell imaging to systematically probe the microtubule organization in Caenorhabditis elegans neurons, and demonstrate the contribution of distinct mechanisms in the organization of dendritic microtubules. We found that most non-ciliated neurons depend on unc-116 (kinesin-1), unc-33 (CRMP) and unc-44 (ankyrin) for correct microtubule organization and polarized cargo transport, as previously reported. Ciliated neurons and the URX neuron, however, use an additional pathway to nucleate microtubules at the tip of the dendrite, from the base of the cilium in ciliated neurons. Since inhibition of distal microtubule nucleation affects distal dendritic transport, we propose a model in which the presence of a microtubule-organizing center at the dendrite tip ensures correct dendritic cargo transport., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2018. Published by The Company of Biologists Ltd.)

Published

2018

31. Androgen Regulation of the Mesocorticolimbic System and Executive Function.

Author

Tobiansky DJ, Wallin-Miller KG, Floresco SB, Wood RI, and Soma KK

Abstract

Multiple lines of evidence indicate that androgens, such as testosterone, modulate the mesocorticolimbic system and executive function. This review integrates neuroanatomical, molecular biological, neurochemical, and behavioral studies to highlight how endogenous and exogenous androgens alter behaviors, such as behavioral flexibility, decision making, and risk taking. First, we briefly review the neuroanatomy of the mesocorticolimbic system, which mediates executive function, with a focus on the ventral tegmental area (VTA), nucleus accumbens (NAc), medial prefrontal cortex (mPFC), and orbitofrontal cortex (OFC). Second, we present evidence that androgen receptors (AR) and other steroid receptors are expressed in the mesocorticolimbic system. Using sensitive immunohistochemistry and quantitative polymerase chain reaction (qPCR) techniques, ARs are detected in the VTA, NAc, mPFC, and OFC. Third, we describe recent evidence for local androgens ("neuroandrogens") in the mesocorticolimbic system. Steroidogenic enzymes are expressed in mesocorticolimbic regions. Furthermore, following long-term gonadectomy, testosterone is nondetectable in the blood but detectable in the mesocorticolimbic system, using liquid chromatography tandem mass spectrometry. However, the physiological relevance of neuroandrogens remains unknown. Fourth, we review how anabolic-androgenic steroids (AAS) influence the mesocorticolimbic system. Fifth, we describe how androgens modulate the neurochemistry and structure of the mesocorticolimbic system, particularly with regard to dopaminergic signaling. Finally, we discuss evidence that androgens influence executive functions, including the effects of androgen deprivation therapy and AAS. Taken together, the evidence indicates that androgens are critical modulators of executive function. Similar to dopamine signaling, there might be optimal levels of androgen signaling within the mesocorticolimbic system for executive functioning. Future studies should examine the regulation and functions of neurosteroids in the mesocorticolimbic system, as well as the potential deleterious and enduring effects of AAS use.

Published

2018

32. Model-scale jet noise analysis with a single-point, frequency-domain nonlinearity indicator.

Author

Miller KG and Gee KL

Abstract

A single-point, frequency-domain nonlinearity indicator is calculated and analyzed for noise from a model-scale jet at Mach 0.85, Mach 1.8, and Mach 2.0. The nonlinearity indicator, ν N , has been previously derived from an ensemble-averaged, frequency-domain version of the generalized Burgers equation (GBE) from Reichman, Gee, Neilsen, and Miller [J. Acoust. Soc. Am. 139, 2505-2513 (2016)]. The indicator gives the spatial rate of change due to nonlinear processes in sound pressure level (SPL) spectrum, and two other indicators from the GBE-ν S and ν α -give the same quantity due to geometric spreading and absorption, respectively. Trends with frequency, angle, distance, and jet condition-supported both by spectral analysis and by calculation of the GBE-derived indicators-reveal a concentration of nonlinear effects along radials close to the plume with large overall SPLs. The calculated indicators for nonlinearity and absorption effects far from the source combine to give the same decay predicted by nonlinear theory for monofrequency sources. Trends in the ν N indicator are compared with trends observed for other indicators such as pressure-derivative skewness and bicoherence, revealing both the qualitative and quantitative advantages of the ν N indicator.

Published

2018

33. Anabolic-androgenic steroids (AAS) increase sensitivity to uncertainty by inhibition of dopamine D1 and D2 receptors.

Author

Wallin-Miller KG, Kreutz F, Li G, and Wood RI

Subjects

Animals, Benzazepines pharmacology, Decision Making drug effects, Decision Making physiology, Dopamine pharmacology, Dopamine Agonists pharmacology, Male, Nucleus Accumbens drug effects, Nucleus Accumbens metabolism, Rats, Rats, Long-Evans, Testosterone pharmacology, Androgens pharmacology, Dopamine Antagonists pharmacology, Receptors, Dopamine D1 metabolism, Receptors, Dopamine D2 metabolism, Uncertainty

Abstract

Background: Anabolic-androgenic steroid abuse is implicated in maladaptive behaviors such as impaired cognition in humans. In a rat model, our lab has shown that testosterone decreases preference for a large/uncertain reward in probability discounting. Other studies have shown that androgens decrease dopamine D1 and D2 receptors in the nucleus accumbens shell, a region important for decision-making behavior in probability discounting. Thus, we attempted to restore selection of the large/uncertain reward in testosterone-treated rats by administering the D2 receptor agonist quinpirole or the D1 receptor agonist SKF81297 and testing probability discounting., Methods: Adolescent male Long-Evans rats were treated chronically with high-dose testosterone (7.5 mg/kg) or vehicle (13% cyclodextrin in water), and tested for probability discounting after injections of saline, 0.1 and 0.5 mg/kg of quinpirole or SKF81297. Rats chose between a small/certain reward (1 sugar pellet, 100% probability) and a large/uncertain reward (4 pellets, decreasing probability: 100, 75, 50, 25, 0%)., Results: Testosterone-treated rats selected the large/uncertain reward significantly less than vehicle-treated controls after saline injection. However, acute injection with 0.1 mg/kg quinpirole increased large/uncertain reward preference in testosterone-treated rats only, indicated by a testosterone × quinpirole interaction. At 0.5 mg/kg, quinpirole increased large/uncertain reward preference in all rats. Acute injection with SKF81297 at 0.1 or 0.5 mg/kg rescued large/uncertain reward preference in testosterone-treated rats by eliminating the difference between groups., Conclusions: It appears that altered probability discounting behavior in testosterone-treated rats is due to both decreased D1 and D2 receptor function.

Published

2018

34. Expression and localization of myosin VI in developing mouse spermatids.

Author

Zakrzewski P, Lenartowski R, Rędowicz MJ, Miller KG, and Lenartowska M

Subjects

Alternative Splicing genetics, Animals, Genetic Variation genetics, Immunohistochemistry, Male, Mice, Myosin Heavy Chains genetics, Spermatids cytology, Spermatids growth & development, Myosin Heavy Chains analysis, Spermatids chemistry

Abstract

Myosin VI (MVI) is a versatile actin-based motor protein that has been implicated in a variety of different cellular processes, including endo- and exocytic vesicle trafficking, Golgi morphology, and actin structure stabilization. A role for MVI in crucial actin-based processes involved in sperm maturation was demonstrated in Drosophila. Because of the prominence and importance of actin structures in mammalian spermiogenesis, we investigated whether MVI was associated with actin-mediated maturation events in mammals. Both immunofluorescence and ultrastructural analyses using immunogold labeling showed that MVI was strongly linked with key structures involved in sperm development and maturation. During the early stage of spermiogenesis, MVI is associated with the Golgi and with coated and uncoated vesicles, which fuse to form the acrosome. Later, as the acrosome spreads to form a cap covering the sperm nucleus, MVI is localized to the acroplaxome, an actin-rich structure that anchors the acrosome to the nucleus. Finally, during the elongation/maturation phase, MVI is associated with the actin-rich structures involved in nuclear shaping: the acroplaxome, manchette, and Sertoli cell actin hoops. Since this is the first report of MVI expression and localization during mouse spermiogenesis and MVI partners in developing sperm have not yet been identified, we discuss some probable roles for MVI in this process. During early stages, MVI is hypothesized to play a role in Golgi morphology and function as well as in actin dynamics regulation important for attachment of developing acrosome to the nuclear envelope. Next, the protein might also play anchoring roles to help generate forces needed for spermatid head elongation. Moreover, association of MVI with actin that accumulates in the Sertoli cell ectoplasmic specialization and other actin structures in surrounding cells suggests additional MVI functions in spermatid movement across the seminiferous epithelium and in sperm release.

Published

2017

35. Keeping Neuronal Cargoes on the Right Track: New Insights into Regulators of Axonal Transport.

Author

Miller KG

Subjects

Animals, Humans, Axonal Transport physiology, Neurons metabolism

Abstract

In neurons, a single motor (dynein) transports large organelles as well as synaptic and dense core vesicles toward microtubule minus ends; however, it is unclear why dynein appears more active on organelles, which are generally excluded from mature axons, than on synaptic and dense core vesicles, which are maintained at high levels. Recent studies in Zebrafish and Caenorhabditis elegans have shown that JIP3 promotes dynein-mediated retrograde transport to clear some organelles (lysosomes, early endosomes, and Golgi) from axons and prevent their potentially harmful accumulation in presynaptic regions. A JIP3 mutant suppressor screen in C. elegans revealed that JIP3 promotes the clearance of organelles from axons by blocking the action of the CSS system (Cdk5, SAD Kinase, SYD-2/Liprin). A synthesis of results in vertebrates with the new findings suggests that JIP3 blocks the CSS system from disrupting the connection between dynein and organelles. Most components of the CSS system are enriched at presynaptic active zones where they normally contribute to maintaining optimal levels of captured synaptic and dense core vesicles, in part by inhibiting dynein transport. The JIP3-CSS system model explains how neurons selectively regulate a single minus-end motor to exclude specific classes of organelles from axons, while at the same time ensuring optimal levels of synaptic and dense core vesicles.

Published

2017

36. Sleep duration partially accounts for race differences in diurnal cortisol dynamics.

Author

Peterson LM, Miller KG, Wong PM, Anderson BP, Kamarck TW, Matthews KA, Kirschbaum C, and Manuck SB

Subjects

Adult, Black or African American, Female, Healthcare Disparities, Humans, Hydrocortisone analysis, Male, Middle Aged, Racial Groups, White People, Circadian Rhythm physiology, Hydrocortisone metabolism, Sleep physiology

Abstract

Objective: Emerging research demonstrates race differences in diurnal cortisol slope, an indicator of hypothalamic-pituitary-adrenocortical (HPA)-axis functioning associated with morbidity and mortality, with African Americans showing flatter diurnal slopes than their White counterparts. Sleep characteristics are associated with both race and with HPA-axis functioning. The present report examines whether sleep duration may account for race differences in cortisol dynamics., Method: Participants were 424 employed African American and White adults (mean age = 42.8 years, 84.2% White, 53.6% female) with no cardiovascular disease (Adult Health and Behavior Project-Phase 2 [AHAB-II] cohort, University of Pittsburgh). Cortisol slope was calculated using 4 salivary cortisol readings, averaged over each of 4 days. Demographic (age, sex), psychosocial (socioeconomic status [SES], affect, discrimination), and health behaviors (smoking, alcohol use, physical activity) variables were used as covariates, and sleep (self-report and accelerometry) was also assessed., Results: African Americans had flatter slopes than Whites (F(1, 411) = 10.45, B = .02, p = .001) in models adjusting for demographic, psychosocial, and health behavior covariates. Shorter actigraphy-assessed total sleep time was a second significant predictor of flatter cortisol slopes (F(1, 411) = 25.27, B = -.0002, p < .0001). Total sleep time partially accounted for the relationship between race and diurnal slope [confidence interval = .05 (lower = .014, upper .04)]., Conclusions: African Americans have flatter diurnal cortisol slopes than their White counterparts, an effect that may be partially attributable to race differences in nightly sleep duration. Sleep parameters should be considered in further research on race and cortisol. (PsycINFO Database Record, ((c) 2017 APA, all rights reserved).)

Published

2017

37. Sex differences and hormonal modulation of ethanol-enhanced risk taking in rats.

Author

Wallin-Miller KG, Chesley J, Castrillon J, and Wood RI

Subjects

Animals, Female, Male, Rats, Rats, Long-Evans, Reward, Decision Making physiology, Ethanol pharmacology, Risk-Taking, Sex Characteristics, Testosterone pharmacology

Abstract

Background: Ethanol (EtOH) intake correlates with increased risk-taking, and sex differences exist in both EtOH use and risk-taking in humans and rats. However, the interaction of sex and gonadal hormones to affect risk-taking under the influence of EtOH has not been determined. This was the focus of the current study., Methods: Adult Long-Evans rats (n=18 males and females) were gonadectomized and received hormone replacement at physiologic levels or blank implants (n=7-9/group). Risk-taking was assessed with probability discounting, requiring rats to choose between a small/certain reward and a large/uncertain reward delivered with decreasing probability throughout each daily session. Before testing, rats received saline or EtOH (0.5 or 1.0g/kg) ip., Results: In males, EtOH increased preference for the large/uncertain reward lever (F 2,28 =10.462, p<0.05). However, there was no effect of EtOH on lever preference in females (F 1,30 =0.914, p>0.05). At baseline, ORCHX+T males showed a greater preference for the large/uncertain reward lever then ORCHX males (F 1,14 =13.805, p<0.05). In females only, EtOH decreased choice latency relative to baseline (F 1,10 =7.25, p<0.05). EtOH decreased loss sensitivity in both sexes, with all rats exhibiting decreased lose-shift ratios (males: F 2,18 =5.10, p<0.05; females F 2,10 =4.37, p<0.05)., Conclusions: These results show that EtOH, sex, and hormones interact to influence decision making. EtOH increases risk taking in males, but not in females. However, EtOH selectively decreases choice latency in females, and decreases loss sensitivity in both sexes. These findings are relevant to understanding human behavior, particularly in adolescents who experience increased hormone levels and often drink EtOH and engage in risky behavior., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

38. Community Socioeconomic Disadvantage in Midlife Relates to Cortical Morphology via Neuroendocrine and Cardiometabolic Pathways.

Author

Gianaros PJ, Kuan DC, Marsland AL, Sheu LK, Hackman DA, Miller KG, and Manuck SB

Subjects

Adult, Female, Humans, Male, Middle Aged, Risk Factors, Cardiovascular System physiopathology, Cerebral Cortex physiopathology, Neurosecretory Systems physiopathology, Socioeconomic Factors

Abstract

Residing in communities of socioeconomic disadvantage confers risk for chronic diseases and cognitive aging, as well as risk for biological factors that negatively affect brain morphology. The present study tested whether community disadvantage negatively associates with brain morphology via 2 biological factors encompassing cardiometabolic disease risk and neuroendocrine function. Participants were 448 midlife adults aged 30-54 years (236 women) who underwent structural neuroimaging to assess cortical and subcortical brain tissue morphology. Community disadvantage was indexed by US Census data geocoded to participants' residential addresses. Cardiometabolic risk was indexed by measurements of adiposity, blood pressure, glucose, insulin, and lipids. Neuroendocrine function was indexed from salivary cortisol measurements taken over 3 days, from which we computed the cortisol awakening response, area-under-the-curve, and diurnal cortisol decline. Community disadvantage was associated with reduced cortical tissue volume, cortical surface area, and cortical thickness, but not subcortical morphology. Moreover, increased cardiometabolic risk and a flatter (dysregulated) diurnal cortisol decline mediated the associations of community disadvantage and cortical gray matter volume. These effects were independent of age, sex, and individual-level socioeconomic position. The adverse risks of residing in a disadvantaged community may extend to the cerebral cortex via cardiometabolic and neuroendocrine pathways., (© The Author 2015. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2017

39. Asymptotic behavior of a frequency-domain nonlinearity indicator for solutions to the generalized Burgers equation.

Author

Miller KG, Gee KL, and Reichman BO

Abstract

A frequency-domain nonlinearity indicator has previously been characterized for two analytical solutions to the generalized Burgers equation (GBE) [Reichman, Gee, Neilsen, and Miller, J. Acoust. Soc. Am. 139, 2505-2513 (2016)], including an analytical, asymptotic expression for the Blackstock Bridging Function. This letter gives similar old-age analytical expressions of the indicator for the Mendousse solution and a computational solution to the GBE with spherical spreading. The indicator can be used to characterize the cumulative nonlinearity of a waveform with a single-point measurement, with suggested application to noise waveforms as well.

Published

2016

40. The PULSE Vision & Change Rubrics, Version 1.0: A Valid and Equitable Tool to Measure Transformation of Life Sciences Departments at All Institution Types.

Author

Brancaccio-Taras L, Pape-Lindstrom P, Peteroy-Kelly M, Aguirre K, Awong-Taylor J, Balser T, Cahill MJ, Frey RF, Jack T, Kelrick M, Marley K, Miller KG, Osgood M, Romano S, Uzman JA, and Zhao J

Subjects

Analysis of Variance, Databases as Topic, Faculty, Principal Component Analysis, Reproducibility of Results, Biological Science Disciplines education, Educational Measurement methods, Universities

Abstract

The PULSE Vision & Change Rubrics, version 1.0, assess life sciences departments' progress toward implementation of the principles of the Vision and Change report. This paper reports on the development of the rubrics, their validation, and their reliability in measuring departmental change aligned with the Vision and Change recommendations. The rubrics assess 66 different criteria across five areas: Curriculum Alignment, Assessment, Faculty Practice/Faculty Support, Infrastructure, and Climate for Change. The results from this work demonstrate the rubrics can be used to evaluate departmental transformation equitably across institution types and represent baseline data about the adoption of the Vision and Change recommendations by life sciences programs across the United States. While all institution types have made progress, liberal arts institutions are farther along in implementing these recommendations. Generally, institutions earned the highest scores on the Curriculum Alignment rubric and the lowest scores on the Assessment rubric. The results of this study clearly indicate that the Vision & Change Rubrics, version 1.0, are valid and equitable and can track long-term progress of the transformation of life sciences departments. In addition, four of the five rubrics have broad applicability and can be used to evaluate departmental transformation by other science, technology, engineering, and mathematics disciplines., (© 2016 L. Brancaccio-Taras et al. CBE—Life Sciences Education © 2016 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).)

Published

2016

41. Personality Correlates of Midlife Cardiometabolic Risk: The Explanatory Role of Higher-Order Factors of the Five-Factor Model.

Author

Dermody SS, Wright AG, Cheong J, Miller KG, Muldoon MF, Flory JD, Gianaros PJ, Marsland AL, and Manuck SB

Subjects

Adult, Female, Humans, Male, Middle Aged, Models, Statistical, Risk, Autonomic Nervous System physiology, Cardiovascular Diseases physiopathology, Exercise physiology, Inflammation physiopathology, Personality physiology

Abstract

Varying associations are reported between Five-Factor Model (FFM) personality traits and cardiovascular disease risk. Here, we further examine dispositional correlates of cardiometabolic risk within a hierarchical model of personality that proposes higher-order traits of Stability (shared variance of Agreeableness, Conscientiousness, inverse Neuroticism) and Plasticity (Extraversion, Openness), and we test hypothesized mediation via biological and behavioral factors. In an observational study of 856 community volunteers aged 30-54 years (46% male, 86% Caucasian), latent variable FFM traits (using multiple-informant reports) and aggregated cardiometabolic risk (indicators: insulin resistance, dyslipidemia, blood pressure, adiposity) were estimated using confirmatory factor analysis (CFA). The cardiometabolic factor was regressed on each personality factor or higher-order trait. Cross-sectional indirect effects via systemic inflammation, cardiac autonomic control, and physical activity were tested. CFA models confirmed the Stability "meta-trait," but not Plasticity. Lower Stability was associated with heightened cardiometabolic risk. This association was accounted for by inflammation, autonomic function, and physical activity. Among FFM traits, only Openness was associated with risk over and above Stability, and, unlike Stability, this relationship was unexplained by the intervening variables. A Stability meta-trait covaries with midlife cardiometabolic risk, and this association is accounted for by three candidate biological and behavioral factors., Competing Interests: Declaration of Conflicting Interests The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article., (© 2015 Wiley Periodicals, Inc.)

Published

2016

42. Trait positive and negative emotionality differentially associate with diurnal cortisol activity.

Author

Miller KG, Wright AG, Peterson LM, Kamarck TW, Anderson BA, Kirschbaum C, Marsland AL, Muldoon MF, and Manuck SB

Subjects

Adult, Anxiety Disorders metabolism, Extraversion, Psychological, Female, Humans, Hypothalamo-Hypophyseal System physiology, Male, Middle Aged, Neuroticism, Pituitary-Adrenal System physiology, Saliva metabolism, Affective Symptoms metabolism, Circadian Rhythm physiology, Hydrocortisone metabolism, Personality physiology

Abstract

Inter-individual variability in metrics of hypothalamic-pituitary-adrenocortical (HPA) activity, such as the slope of the diurnal decline in cortisol, cortisol awakening response (CAR), and total cortisol output, have been found to associate inversely with trait ratings of extraversion and positive affect (E/PA) and positively with neuroticism and negative affect (N/NA) in some, but not all, investigations. These inconsistencies may partly reflect varied intensity of cortisol sampling among studies and reliance on self-rated traits, which are subject to reporting biases and limitations of introspection. Here, we further examined dispositional correlates of HPA activity in 490 healthy, employed midlife volunteers (M age=43 years; 54% Female; 86% white). Trait ratings were requested from participants and 2 participant-elected informants using the Positive and Negative Affect Schedule (PANAS) and Extraversion and Neuroticism dimensions of NEO personality inventories. CAR was assessed as percent increase in cortisol levels from awakening to 30min after awakening; and the diurnal slope and total output of cortisol [Area Under the Curve (AUC)] were determined from cortisol measurements taken at awakening, +4 and +9h later, and bedtime, across 3 workdays. Structural equation modeling was used to estimate multi-informant E/PA and N/NA factors. We used 3days of measurement as indicators to model each of the three latent cortisol factors (slope, CAR, and AUC). With the two latent emotionality and three latent cortisol indices included there was good fit to the data (χ(2)(200)=278.38, p=0.0002; RMSEA=0.028, 90% CI=0.02-0.04; CFI/TLI=0.97/0.96; SRMR=0.04). After controlling for covariates (age, sex, race), results showed higher latent E/PA associated with a steeper diurnal slope (Standardized β=-0.19, p=0.02) and smaller CAR (Standardized β=-0.26, p=0.004), whereas N/NA did not associate with any cortisol metric (Standardized β's=-0.12 to 0.13, p's=0.10 to 0.53). These findings suggest that positive emotionality may be more closely associated with indices of diurnal cortisol release than negative emotionality., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

43. Quantitative analysis of a frequency-domain nonlinearity indicator.

Author

Reichman BO, Gee KL, Neilsen TB, and Miller KG

Abstract

In this paper, quantitative understanding of a frequency-domain nonlinearity indicator is developed. The indicator is derived from an ensemble-averaged, frequency-domain version of the generalized Burgers equation, which can be rearranged in order to directly compare the effects of nonlinearity, absorption, and geometric spreading on the pressure spectrum level with frequency and distance. The nonlinear effect is calculated using pressure-squared-pressure quadspectrum. Further theoretical development has given an expression for the role of the normalized quadspectrum, referred to as Q/S by Morfey and Howell [AIAA J. 19, 986-992 (1981)], in the spatial rate of change of the pressure spectrum level. To explore this finding, an investigation of the change in level for initial sinusoids propagating as plane waves through inviscid and thermoviscous media has been conducted. The decibel change with distance, calculated through Q/S, captures the growth and decay of the harmonics and indicates that the most significant changes in level occur prior to sawtooth formation. At large distances, the inviscid case results in a spatial rate of change that is uniform across all harmonics. For thermoviscous media, large positive nonlinear gains are observed but offset by absorption, which leads to a greater overall negative spatial rate of change for higher harmonics.

Published

2016

44. Synapse-Assembly Proteins Maintain Synaptic Vesicle Cluster Stability and Regulate Synaptic Vesicle Transport in Caenorhabditis elegans.

Author

Edwards SL, Yorks RM, Morrison LM, Hoover CM, and Miller KG

Subjects

Animals, Caenorhabditis elegans genetics, Caenorhabditis elegans metabolism, Dendrites metabolism, Dyneins metabolism, Intercellular Signaling Peptides and Proteins, Intracellular Signaling Peptides and Proteins genetics, Mutation, Nerve Tissue Proteins metabolism, Phosphoproteins genetics, Protein Serine-Threonine Kinases genetics, Synapses metabolism, Synaptic Transmission, Temperature, Caenorhabditis elegans growth & development, Caenorhabditis elegans Proteins genetics, Caenorhabditis elegans Proteins metabolism, Intracellular Signaling Peptides and Proteins metabolism, Nerve Tissue Proteins genetics, Phosphoproteins metabolism, Protein Serine-Threonine Kinases metabolism, Synaptic Vesicles metabolism

Abstract

The functional integrity of neurons requires the bidirectional active transport of synaptic vesicles (SVs) in axons. The kinesin motor KIF1A transports SVs from somas to stable SV clusters at synapses, while dynein moves them in the opposite direction. However, it is unclear how SV transport is regulated and how SVs at clusters interact with motor proteins. We addressed these questions by isolating a rare temperature-sensitive allele of Caenorhabditis elegans unc-104 (KIF1A) that allowed us to manipulate SV levels in axons and dendrites. Growth at 20° and 14° resulted in locomotion rates that were ∼3 and 50% of wild type, respectively, with similar effects on axonal SV levels. Corresponding with the loss of SVs from axons, mutants grown at 14° and 20° showed a 10- and 24-fold dynein-dependent accumulation of SVs in their dendrites. Mutants grown at 14° and switched to 25° showed an abrupt irreversible 50% decrease in locomotion and a 50% loss of SVs from the synaptic region 12-hr post-shift, with no further decreases at later time points, suggesting that the remaining clustered SVs are stable and resistant to retrograde removal by dynein. The data further showed that the synapse-assembly proteins SYD-1, SYD-2, and SAD-1 protected SV clusters from degradation by motor proteins. In syd-1, syd-2, and sad-1 mutants, SVs accumulate in an UNC-104-dependent manner in the distal axon region that normally lacks SVs. In addition to their roles in SV cluster stability, all three proteins also regulate SV transport., (Copyright © 2015 by the Genetics Society of America.)

Published

2015

45. UNC-16 (JIP3) Acts Through Synapse-Assembly Proteins to Inhibit the Active Transport of Cell Soma Organelles to Caenorhabditis elegans Motor Neuron Axons.

Author

Edwards SL, Morrison LM, Yorks RM, Hoover CM, Boominathan S, and Miller KG

Subjects

Adaptor Proteins, Signal Transducing genetics, Animals, Axons metabolism, Biological Transport, Active, Caenorhabditis elegans Proteins genetics, Cyclin-Dependent Kinase 5 metabolism, Intercellular Signaling Peptides and Proteins, Adaptor Proteins, Signal Transducing metabolism, Caenorhabditis elegans metabolism, Caenorhabditis elegans Proteins metabolism, Intracellular Signaling Peptides and Proteins metabolism, Motor Neurons metabolism, Organelles metabolism, Phosphoproteins metabolism, Protein Serine-Threonine Kinases metabolism

Abstract

The conserved protein UNC-16 (JIP3) inhibits the active transport of some cell soma organelles, such as lysosomes, early endosomes, and Golgi, to the synaptic region of axons. However, little is known about UNC-16's organelle transport regulatory function, which is distinct from its Kinesin-1 adaptor function. We used an unc-16 suppressor screen in Caenorhabditis elegans to discover that UNC-16 acts through CDK-5 (Cdk5) and two conserved synapse assembly proteins: SAD-1 (SAD-A Kinase), and SYD-2 (Liprin-α). Genetic analysis of all combinations of double and triple mutants in unc-16(+) and unc-16(-) backgrounds showed that the three proteins (CDK-5, SAD-1, and SYD-2) are all part of the same organelle transport regulatory system, which we named the CSS system based on its founder proteins. Further genetic analysis revealed roles for SYD-1 (another synapse assembly protein) and STRADα (a SAD-1-interacting protein) in the CSS system. In an unc-16(-) background, loss of the CSS system improved the sluggish locomotion of unc-16 mutants, inhibited axonal lysosome accumulation, and led to the dynein-dependent accumulation of lysosomes in dendrites. Time-lapse imaging of lysosomes in CSS system mutants in unc-16(+) and unc-16(-) backgrounds revealed active transport defects consistent with the steady-state distributions of lysosomes. UNC-16 also uses the CSS system to regulate the distribution of early endosomes in neurons and, to a lesser extent, Golgi. The data reveal a new and unprecedented role for synapse assembly proteins, acting as part of the newly defined CSS system, in mediating UNC-16's organelle transport regulatory function., (Copyright © 2015 by the Genetics Society of America.)

Published

2015

46. Intestinal smooth muscle phenotype determines enteric neuronal survival via GDNF expression.

Author

Han TY, Lourenssen S, Miller KG, and Blennerhassett MG

Subjects

Animals, Axons drug effects, Axons physiology, Cattle, Cell Proliferation physiology, Cell Survival drug effects, Coculture Techniques, Colitis physiopathology, Enteric Nervous System drug effects, Glial Cell Line-Derived Neurotrophic Factor antagonists & inhibitors, Intestines drug effects, Intestines immunology, Male, Mice, Inbred BALB C, Muscle, Smooth drug effects, Neurons drug effects, Rats, Sprague-Dawley, Trinitrobenzenesulfonic Acid, Cell Survival physiology, Enteric Nervous System physiology, Glial Cell Line-Derived Neurotrophic Factor metabolism, Intestines physiology, Muscle, Smooth physiology, Neurons physiology

Abstract

Intestinal inflammation causes initial axonal degeneration and neuronal death, as well as the proliferation of intestinal smooth muscle cells (ISMC), but subsequent axonal outgrowth leads to re-innervation. We recently showed that expression of glial cell-derived neurotrophic factor (GDNF), the critical neurotrophin for the post-natal enteric nervous system (ENS) is upregulated in ISMC by inflammatory cytokines, leading us to explore the relationship between ISMC growth and GDNF expression. In co-cultures of myenteric neurons and ISMC, GDNF or fetal calf serum (FCS) was equally effective in supporting neuronal survival, with neurons forming extensive axonal networks among the ISMC. However, only GDNF was effective in low-density cultures where neurons lacked contact with ISMC. In early-passage cultures of colonic circular smooth muscle cells (CSMC), polymerase chain reaction (PCR) and western blotting showed that proliferation was associated with expression of GDNF, and the successful survival of neonatal neurons co-cultured on CSMC was blocked by vandetanib or siGDNF. In tri-nitrobenzene sulfonic acid (TNBS)-induced colitis, immunocytochemistry showed the selective expression of GDNF in proliferating CSMC, suggesting that smooth muscle proliferation supports the ENS in vivo as well as in vitro. However, high-passage CSMC expressed significantly less GDNF and failed to support neuronal survival, while expressing reduced amounts of smooth muscle marker proteins. We conclude that in the inflamed intestine, smooth muscle proliferation supports the ENS, and thus its own re-innervation, by expression of GDNF. In chronic inflammation, a compromised smooth muscle phenotype may lead to progressive neural damage. Intestinal stricture formation in human disease, such as inflammatory bowel disease (IBD), may be an endpoint of failure of this homeostatic mechanism., (Copyright © 2015 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2015

47. Early inflammatory damage to intestinal neurons occurs via inducible nitric oxide synthase.

Author

Venkataramana S, Lourenssen S, Miller KG, and Blennerhassett MG

Subjects

Animals, Cell Line, Coculture Techniques, Colitis pathology, Disease Models, Animal, Enteric Nervous System drug effects, Enteric Nervous System immunology, Enteric Nervous System pathology, Female, Hyperplasia drug therapy, Hyperplasia pathology, Hyperplasia physiopathology, Macrophages drug effects, Macrophages pathology, Macrophages physiology, Male, Mice, Inbred BALB C, Mice, Inbred C3H, Muscle, Smooth drug effects, Muscle, Smooth enzymology, Muscle, Smooth immunology, Muscle, Smooth pathology, Neuroimmunomodulation drug effects, Neuroimmunomodulation physiology, Neurons drug effects, Neurons immunology, Neurons pathology, Neutrophils drug effects, Neutrophils pathology, Neutrophils physiology, Nitric Oxide metabolism, Nitric Oxide Synthase Type II antagonists & inhibitors, Rats, Sprague-Dawley, Trinitrobenzenesulfonic Acid, Colitis enzymology, Enteric Nervous System enzymology, Neurons enzymology, Nitric Oxide Synthase Type II metabolism

Abstract

Intestinal inflammation affects the enteric nervous system (ENS) that lies adjacent to the smooth muscle layers. Previously, we showed that the loss of ENS neurons in animal models such as tri-nitrobenzene sulphonic acid (TNBS)-induced colitis was a limited and early event despite progressive worsening of inflammation. Here, we demonstrated that the rapid appearance of activated immune cells in the intestinal wall is selectively neurotoxic via iNOS-derived NO, using TNBS-induced colitis in both rats and mice, and a co-culture model of ENS neurons and smooth muscle. An influx of neutrophils and macrophages occurred within hours of initiation of rat colitis, correlating with iNOS expression, acutely elevated NO and neuronal death. In vitro, chemical donors of NO selectively caused axonal damage and neuronal death. These outcomes were similar to those seen with combined culture with either activated peritoneal immune cells or the immune cell lines RAW-264 and RBL-2H3. Immune cell-mediated neurotoxicity was blocked by the iNOS inhibitor L-NIL, and neuronal death was inhibited by the RIP-1 kinase inhibitor necrostatin. In a mouse model, the stereotypic loss of myenteric neurons by Day 4 post-TNBS was abrogated by the selective iNOS inhibitors L-NIL or 1400W without effect on other parameters of intestinal inflammation. Preservation of ENS neurons also ameliorated the hyperplasia of smooth muscle that is characteristic of intestinal inflammation, in line with prior work showing neural regulation of smooth muscle phenotype. This identifies a predominant pathway of immune cell damage to the ENS, where early, acute elevation of NO from iNOS can be cytotoxic to myenteric neurons., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2015

48. Paleoceanography. Antarctic role in Northern Hemisphere glaciation.

Author

Woodard SC, Rosenthal Y, Miller KG, Wright JD, Chiu BK, and Lawrence KT

Subjects

Antarctic Regions, Hot Temperature, Global Warming, Ice Cover, Oceans and Seas

Abstract

Earth's climate underwent a major transition from the warmth of the late Pliocene, when global surface temperatures were ~2° to 3°C higher than today, to extensive Northern Hemisphere glaciation (NHG) ~2.73 million years ago (Ma). We show that North Pacific deep waters were substantially colder (4°C) and probably fresher than the North Atlantic Deep Water before the intensification of NHG. At ~2.73 Ma, the Atlantic-Pacific temperature gradient was reduced to <1°C, suggesting the initiation of stronger heat transfer from the North Atlantic to the deep Pacific. We posit that increased glaciation of Antarctica, deduced from the 21 ± 10-meter sea-level fall from 3.15 to 2.75 Ma, and the development of a strong polar halocline fundamentally altered deep ocean circulation, which enhanced interhemispheric heat and salt transport, thereby contributing to NHG., (Copyright © 2014, American Association for the Advancement of Science.)

Published

2014

49. Swallowed prostheses.

Author

Miller KG

Subjects

Female, Humans, Male, Deglutition, Dental Prosthesis adverse effects, Foreign Bodies etiology, Respiratory Aspiration etiology

Published

2014

50. Next science wound gel technology, a novel agent that inhibits biofilm development by gram-positive and gram-negative wound pathogens.

Author

Miller KG, Tran PL, Haley CL, Kruzek C, Colmer-Hamood JA, Myntti M, and Hamood AN

Subjects

Acinetobacter Infections drug therapy, Acinetobacter Infections microbiology, Acinetobacter baumannii drug effects, Administration, Topical, Animals, Biofilms growth & development, Female, Gels pharmacology, Klebsiella Infections drug therapy, Klebsiella Infections microbiology, Klebsiella pneumoniae drug effects, Mice, Pseudomonas Infections drug therapy, Pseudomonas Infections microbiology, Pseudomonas aeruginosa drug effects, Staphylococcal Infections drug therapy, Staphylococcal Infections microbiology, Staphylococcus aureus drug effects, Staphylococcus epidermidis drug effects, Wound Infection drug therapy, Wound Infection microbiology, Acinetobacter Infections prevention & control, Anti-Infective Agents pharmacology, Biofilms drug effects, Klebsiella Infections prevention & control, Pseudomonas Infections prevention & control, Staphylococcal Infections prevention & control, Wound Infection prevention & control

Abstract

Loss of the skin barrier facilitates the colonization of underlying tissues with various bacteria, where they form biofilms that protect them from antibiotics and host responses. Such wounds then become chronically infected. Topical antimicrobials are a major component of chronic wound therapy, yet currently available topical antimicrobials vary in their effectiveness on biofilm-forming pathogens. In this study, we evaluated the efficacy of Next Science wound gel technology (NxtSc), a novel topical agent designed to kill planktonic bacteria, penetrate biofilms, and kill the bacteria within. In vitro quantitative analysis, using strains isolated from wounds, showed that NxtSc inhibited biofilm development by Staphylococcus aureus, Staphylococcus epidermidis, Pseudomonas aeruginosa, Acinetobacter baumannii, and Klebsiella pneumoniae by inhibiting bacterial growth. The gel formulation NxtSc-G5, when applied to biofilms preformed by these pathogens, reduced the numbers of bacteria present by 7 to 8 log10 CFU/disc or CFU/g. In vivo, NxtSc-G5 prevented biofilm formation for 72 h when applied at the time of wounding and infection and eliminated biofilm infection when applied 24 h after wounding and infection. Storage of NxtSc-G5 at room temperature for 9 months did not diminish its efficacy. These results establish that NxtSc is efficacious in vitro and in vivo in preventing infection and biofilm development by different wound pathogens when applied immediately and in eliminating biofilm infection already established by these pathogens. This novel antimicrobial agent, which is nontoxic and has a usefully long shelf life, shows promise as an effective agent for the prevention and treatment of biofilm-related infections., (Copyright © 2014, American Society for Microbiology. All Rights Reserved.)

Published

2014