4,106 research outputs found
Ruthenium metallotherapeutics: a targeted approach to combatting multidrug resistant pathogens
The discovery of antibiotics revolutionised healthcare practice. However due to overuse, inappropriate use, widespread prophylaxis therapy and the lack of new developments, the threat of antimicrobial resistance is now a major global threat to health. By 2050, it is estimated that mortality due to antimicrobial resistant infections will exceed 10 million people per annum, superseding cancer as the leading cause of global mortality. The use of drug repurposing to identify potential therapies which combat antimicrobial resistance is one potential solution. Metals have been used as antimicrobial agents throughout the history of medicine for a broad range of applications, including the use of Silver as an antimicrobial agent which dates back to antiquity. More recently, Ruthenium metallotherapeutic complexes have been shown to exhibit highly active antimicrobial properties by targeting a range of bacterial species, and in contrast to traditional antibiotics, these compounds are thought to elicit antibacterial activity at multiple sites within the bacterial cell, which may reduce the possibility of resistance evolution. This study aimed to evaluate the antimicrobial activity of a series of Ruthenium metallotherapeutic complexes against multidrug-resistant bacterial pathogens, with a focus on use within wound care applications.
Antimicrobial susceptibility assays identified two lead candidates, Hexaammineruthenium (III) chloride and [Chlorido(η6-p-cymene)(N-(4-chlorophenyl)pyridine-2-carbothioamide) ruthenium (II)] chloride which demonstrated activity against Pseudomonas aeruginosa and Staphylococcus aureus respectively with MIC values ranging between 4 μg mL-1 and 16 μg mL-1. Furthermore, Hexaammineruthenium (III) chloride demonstrated antibiofilm activity in both a time and concentration-dependent manner. Synergy studies combining lead complexes with antibiotics demonstrated the potential for use as resistance breakers. Subsequent in vitro infection modelling using scratch assays with skin cell lines, coupled with a 3D full thickness skin wound infection model was used to determine potential applied applications of Hexaammineruthenium (III) chloride for use as topical antimicrobial agent against P. aeruginosa infections.
Antimicrobial mechanistic studies demonstrated that Hexaammineruthenium (III) chloride targeted the bacterial cell ultrastructure of P. aeruginosa strain PAO1 as cell perturbations were observed when treated cells were analysed by scanning electron microscopy. Furthermore, exposure of P. aeruginosa PAO1 to Hexaammineruthenium (III) chloride also resulted in a concentration dependent membrane depolarisation, which further supported the antimicrobial mechanistic role.
Finally, global changes in gene expression following exposure of P. aeruginosa strain PAO1 to Hexaammineruthenium (III) chloride were explored by RNA sequencing. Genes involved in ribosome function, cofactor biosynthesis and membrane fusion were downregulated, which provided a further insight into the wider mechanisms of antibacterial activity.
The research conducted in the present study indicated the potential use of Hexaammineruthenium (III) chloride (and derivatives) as a potential treatment option for chronic wounds infected with P. aeruginosa, which could be applied as either a direct treatment or used within antimicrobial wound care applications
Impacts of Global Change and Soil Properties on Phosphorus Transformation and Plant Responses in Alpine Grassland Ecosystem on the Northeastern Tibetan Plateau
The grassland ecosystems of the Tibetan Plateau have witnessed substantial transformations in recent decades, driven by various global factors, including alterations in temperature and precipitation, nitrogen (N) deposition, and regional effects. Despite documented shifts in species richness and distribution towards higher elevations, there is a scarcity of comprehensive plant and soil data along elevation gradients in alpine grasslands. The intricate interplay between soil properties and nutrient supply on vegetation patterns at high altitudes, particularly the response of the "grass-line" to global warming, remains unexplored. To bridge these knowledge gaps, our research investigated the impacts of global changes, specifically warming and N deposition, and soil properties on soil phosphorus (P) transformation and plant P uptake. Leveraging insights from long-term nutrient addition experiments, random sampling, and open-top chamber experiments along elevation gradients in an alpine grassland on the northeastern Tibetan Plateau, the study delved into soil properties such as texture, bulk density, soil organic carbon (SOC), and soil P fractions. Furthermore, it explores plant and microbial P pools, P acquisition strategies, and biomass. Results revealed that N input had a discernible effect on plant P requirements, particularly under conditions of deficient soil available P. Changes in P acquisition strategies wielded a more substantial influence on community structure and composition than alterations in root traits. The addition of P significantly impacted plant growth, signifying a shift from nitrogen to P limitation with increased N input. Soil properties exhibited variations among sites, but pH remained stable at 0–10 cm soil depth due to the adequate levels of calcium and magnesium in the soil, which could buffer the impact of N deposition on soil acidification in the grassland ecosystem. Strong positive correlations were observed between organic P pools, SOC, and total N, highlighting the pivotal role of soil organic matter in sustaining soil P reserves. More importantly, P limitation did not emerge as the primary factor propelling grasses to higher elevations; instead, other soil properties and nutrients might play a key role. These findings underscore the importance of specific combinations of soil properties in constraining plant growth on the northeastern plateau, thereby influencing biodiversity and biomass production. This research highlights the factors influencing effective soil nutrients and provides valuable insights into predicting the impact of global changes on the stability and productivity of alpine grassland ecosystems
The Genetic and Neuronal Substrates of Melatonin Signaling in Zebrafish Sleep
Sleep is hypothesized to be regulated by two processes: a circadian drive, which communicates time of day to ensure that sleep is timed to the appropriate day/night phase, and a homeostatic drive, by which the propensity for sleep becomes stronger over the course of prolonged wakefulness. While studies suggest that adenosine and serotonin signaling in part mediate the homeostatic sleep drive, factors that act downstream of the circadian clock to promote sleep were unidentified until recently. Previous work in the Prober lab has shown that the nocturnal hormone melatonin acts downstream of the circadian rhythm to promote sleep in zebrafish. The downstream processes by which melatonin promotes sleep is poorly understood across all animal models. This is likely because melatonin research has been primarily conducted using nocturnal laboratory rodent models, in whom melatonin does not seem to play a role in sleep, and because of the widely held view that melatonin informs the circadian clock and does not promote sleep directly. In Chapter 1 of this thesis, I review some of the research conducted over the last 50 years that has informed our current understanding of melatonin and its role in sleep. In Chapter 2, I describe our efforts to use the zebrafish, in which melatonin is both potently sedating and essential for nightly sleep, to uncover some of the mechanisms by which melatonin might promote sleep. We found that melatonin acts through a particular melatonin receptor family called MT1, whereas melatonin receptors belonging to other families were dispensable for sleep. We show that MT1 receptors are expressed broadly throughout the zebrafish brain and are enriched in brain regions involved in sensory processing, particularly in those related to vision. We tested the hypothesis that melatonin promotes sleep, at least in part, by dampening visual responsiveness at night. We show that, separable from sleep, exogenous melatonin suppresses behavioral responses to light stimuli, and loss of endogenous melatonin results in day-like behavioral responses to light stimuli during the night. We are using whole brain imaging in live zebrafish to corroborate our behavioral results with neuronal GCaMP recordings. We hope that the findings presented here contribute to a greater understanding of melatonin’s role in sleep, which may help enhance its value as a natural therapeutic aid
Plasticity of parental CENH3 incorporation into the centromeres in wheat × barley F1 hybrids
Incorporating the centromere-specific histone H3 protein CENH3 into the centromeric nucleosomes is indispensable for accurate centromere function and balanced chromosome segregation in most eukaryotes, including higher plants. In the cell nuclei of interspecific hybrids, divergent centromeric DNAs cohabit and lead the corresponding parental chromosomes through the mitotic and meiotic cell divisions. Depending on the transmission of the parental chromosomes carrying the CENH3-encoding genes, CENH3 proteins from one or both parents may be present in these hybrids. The incorporation of parental CENH3 proteins into the divergent centromeres and their role in the chromosome elimination process in interspecific hybrids is still poorly understood. Here, we produced wheat × barley F1 hybrids that carried different combinations of barley chromosomes with genes encoding for either one (αCENH3) or both barley CENH3 protein variants (α– and βCENH3). We generated specific antibodies distinguishing between the wheat CENH3 proteins and barley αCENH3 and applied them together with FISH probes to detect the precise pattern of parental CENH3 deposition into the wheat and barley centromeric nucleosomes. Analysis of somatic and meiotic nuclei of the wheat × barley hybrids revealed the plasticity of the maternal (wheat) CENH3 proteins to become incorporated into the paternal (barley) centromeric nucleosomes. However, no evidence for paternal CENH3 plasticity was detected in this study. The significance of the unilateral centromere plasticity and possible patterns of CENH3 incorporation into centromeres in interspecific hybrids are discussed
Unravelling the complex reproductive tactics of male humpback whales : an integrative analysis of paternity, age, testosterone, and genetic diversity
How the underlying forces of sexual selection impact reproductive tactics including elaborate acoustic displays in cetaceans remains poorly understood. Here, I combined 26 years (1995-2020) of photo-identification, behavioural, (epi)genetic, and endocrine data from an endangered population of humpback whales (New Caledonia), to explore male reproductive success, age, physiology, and population dynamics over almost a third of the lifespan of a humpback whale. First, I conducted a paternity analysis on 177 known mother-offspring pairs and confirmed previous findings of low variation in reproductive success in male humpback whales. Second, epigenetic age estimates of 485 males revealed a left-skewed population age structure in the first half of the study period that became more balanced in the second half. Further, older males (> 23 years) more often engaged in certain reproductive tactics (singing and escorting) and were more successful in siring offspring once the population age structure stabilised, suggesting reproductive tactics and reproductive success in male humpback whales may be age-dependent. Third, using enzyme immunoassays on 457 blubber samples, I observed a seasonal decline in male testosterone in the population over the breeding season. Testosterone levels appeared highest during puberty, then decreased and levelled off at the onset of maturity, yet were highly variable at any point during the breeding season and across males of all ages. Lastly, I investigated the influence of genetic diversity at the major histocompatibility complex (MHC) class I and class IIa (DQB and DRB-a) on patterns of male reproductive success in humpback whales. Mating pairs shared fewer alleles than expected under random mating at MHC class I and IIa, thus, providing evidence of an MHC-mediated female mate choice in humpback whales. This thesis provides novel, critical insights into the evolutionary consequences of commercial whaling on the demography, patterns of reproduction and sexual selection of exploited populations of baleen whales."This work was supported by a University of St Andrews School of Biology Ph.D. Scholarship and the Louis M. Herman Research Scholarship 2022 to Franca Eichenberger. Sample collection and analyses from 2018-2020 were supported by grants to Ellen C. Garland (Royal Society University Research Fellowship (UF160081 & URF\R\221020), Royal Society Research Fellows Enhancement Award (RGF\EA\180213), Royal Society Research Grants for Research Fellows 2018 (RGF\R1\181014), National Geographic Grant (#NGS-50654R-18), Carnegie Trust Research Incentive Grant (RIG007772), British Ecological Society Small Research Grant (SR18/1288) and School of Biology Research Committee funding)."--Fundin
Current Challenges and Advances in Cataract Surgery
This reprint focuses on new trials related to cataract surgery, intraocular lens power calculations for cataracts after refractive surgery, problems related to high myopia, toric IOL power calculations, etc. Intraoperative use of the 3D Viewing System and OCT, studies on the spectacle dependence of EDOF, IOL fixation status and visual function, and dry eye after FLAC are also discussed. Proteomic analysis of aqueous humor proteins is also discussed
Effects of municipal smoke-free ordinances on secondhand smoke exposure in the Republic of Korea
ObjectiveTo reduce premature deaths due to secondhand smoke (SHS) exposure among non-smokers, the Republic of Korea (ROK) adopted changes to the National Health Promotion Act, which allowed local governments to enact municipal ordinances to strengthen their authority to designate smoke-free areas and levy penalty fines. In this study, we examined national trends in SHS exposure after the introduction of these municipal ordinances at the city level in 2010.MethodsWe used interrupted time series analysis to assess whether the trends of SHS exposure in the workplace and at home, and the primary cigarette smoking rate changed following the policy adjustment in the national legislation in ROK. Population-standardized data for selected variables were retrieved from a nationally representative survey dataset and used to study the policy action’s effectiveness.ResultsFollowing the change in the legislation, SHS exposure in the workplace reversed course from an increasing (18% per year) trend prior to the introduction of these smoke-free ordinances to a decreasing (−10% per year) trend after adoption and enforcement of these laws (β2 = 0.18, p-value = 0.07; β3 = −0.10, p-value = 0.02). SHS exposure at home (β2 = 0.10, p-value = 0.09; β3 = −0.03, p-value = 0.14) and the primary cigarette smoking rate (β2 = 0.03, p-value = 0.10; β3 = 0.008, p-value = 0.15) showed no significant changes in the sampled period. Although analyses stratified by sex showed that the allowance of municipal ordinances resulted in reduced SHS exposure in the workplace for both males and females, they did not affect the primary cigarette smoking rate as much, especially among females.ConclusionStrengthening the role of local governments by giving them the authority to enact and enforce penalties on SHS exposure violation helped ROK to reduce SHS exposure in the workplace. However, smoking behaviors and related activities seemed to shift to less restrictive areas such as on the streets and in apartment hallways, negating some of the effects due to these ordinances. Future studies should investigate how smoke-free policies beyond public places can further reduce the SHS exposure in ROK
Simultaneous Multiparametric and Multidimensional Cardiovascular Magnetic Resonance Imaging
No abstract available
Funduse sinine ja lähi-infrapuna autofluorestsentsuuring autosoom-retsessiivse Stardgardti tõve, koroidereemia, PROM1-maakuli düstroofia ja okulaarse albinismi patsientidel
Väitekirja elektrooniline versioon ei sisalda publikatsiooneFunduse sinine ja lähi-infrapuna autofluorestsentsuuring autosoom-retsessiivse Stardgardti tõve, koroidereemia, PROM1-maakuli düstroofia ja okulaarse albinismi patsientidel
Pärilikud võrkkestahaigused on juhtivaks nägemiskaotuse põhjuseks tööealise elanikkonna seas arenenud riikides. Tegemist on kliiniliselt ja geneetiliselt väga heterogeense haiguste grupiga, mistõttu diagnostika ja haiguse patogeneesi uurimine on olnud vaevarikas. Võrkkesta piltdiagnostika on oluline mitte-invasiivne meetod haiguste diagnoosimiseks ja uurimiseks. Konfokaalne skanneeriv laseroftalmoskoop valgustab võrkkesta erineva lainepikkusega laserkiirega ning salvestab tagasikiirgavat valgust luues silmapõhjast pildi. Funduse autofluorestsents (AF) uuringul kasutatakse ära silmapõhja enda naturaalseid fluorofoore. Lipofustsiini ergastamiseks kasutatakse sinise spektri laserkiirt (sinine AF) ja melaniini jaoks lähipuna laserkiirt (lähipuna AF). Nende fluorofooride jaotus ja kogus silmapõhjas muutub erinevate haigusprotsesside mõjul ning need muutused on tuvastatavad AF uuringul.
Antud doktoritöös uurisime sinise ja lähipuna AF uuringu pilte autosoom-retsesiivse Stargardti tõve (STGD1), koroidereemia, PROM1-maakuli düstroofia ning okulaarse albinismi patsientidel. Töö eesmärgiks oli paremini mõista sinise ja lähipuna AF signaali allikaid erinevate haigusseisundite korral, kus võrkkesta fluorofooride jaotus ning kogused on muutunud. Lisaks kvalitatiivsele piltide hindamisele kasutamise kvantitatiivset AF signaali tugevuse mõõtmist hindamaks lipofustsiini ja melaniini taset.
Uurimustöös näitasime, et melaniin on lähipuna AF signaali peamiseks allikaks. Lisaks näitasime, et melanin võib kaudselt moduleerida lipofustsiinist tuleneva sinise AF signaali, sest okulaarse albinismi kandjate hüpopigmenteeritud võrkkesta alade sinise AF signal oli tavapärasest kõrgem. AF signaali tugevuse mõõtmisel leidsime, et lipofustsiini kuhjumine võrkkestas põhjustab lisaks sinise AF signaali tõusule ka lähipuna AF signaali tõusu STGD1 patsientidel. Kvantitatiivsel analüüsil näitasime ka, et PROM1-maakuli düstroofia patsientide sinise AF signaal oli võrreldav terve silmapõhja signaali tugevusega, eristades seda fenotüübiliselt sarnasest STGD1 haigusest ning viidates ka sellele, et lipofustsiini üleliigne kuhjumine ei ole antud haigusele omane mehhanism. Koroidereemia ja STGD1 haigete uurimisel leidsime, et pigmentepiteeli rakkude kärbumine on nähtav AF signaali hääbumisena, samas lähipuna AF uuringaitab tuvastada varasemaid muutusi kui sinine AF uuring. Lipofustsiin ja melanin on mõlemad olulised võrkkesta rakkude seisundi biomarkerid, mida on võimalik mitte-invasiivsel moel AF uuringu abil analüüsida ning hinnata haiguse progressiooni.Inherited retinal diseases are the leading cause of visual impairment among the working age-group in the developed countries. Because of genetic and phenotypical heterogeneity, diagnosis and understanding pathogenesis of inherited retinal disease has been challenging. Retinal imaging studies which are noninvasive, are an invaluable source of information. Fundus autofluorescence (FAF) utilizes natural fluorophores to create an image of the retina. Lipofuscin is the primary source for short-wavelength autofluorescence (SW-AF) and melanin for near-infrared autofluorescence (NIR-AF). The amount and distribution of these fluorophores changes in the different disease processes and is detectable in FAF images.
In this study we analyzed SW-AF and NIR-AF images in cases of genetically confirmed recessive Stargardt disease (STGD1), choroideremia, PROM1-macular disease and ocular albinism. The aim was to qualitatively describe FAF in conditions with varying levels of lipofuscin or melanin as well as to quantify FAF signal intensities. We also aimed at finding new clinical implications for autofluorescence imaging in evaluating inherited retinal disease.
We confirmed that melanin is the major source of NIR-AF signal by analyzing ocular albinism carriers and mice models with varying fundus pigmentation, but we also found that presence of melanin can modulate SW-AF signal strength. As a novel finding we confirmed that lipofuscin contributes to NIR-AF signal intensity in cases with excessive bisretinoid lipofuscin levels like seen in STGD1. The analysis of choroideremia and STGD1 patients showed that retinal pigment epithelium atrophy causes loss of signal in both SW-AF and NIR-AF, but NIR-AF could be more sensitive in detecting early cell degeneration. Quantifying the autofluorescence signal intensity helps to further understand disease processes as it is an indirect measure for levels of retinal fluorophores. We showed PROM1-macular dystrophy does not present with elevated levels of SW-AF indicating that excessive lipofuscin accumulation is likely not part of its disease mechanism. That knowledge is valuable in differentiating it from phenotypically similar STGD1 or when developing therapeutic approaches. Lipofuscin and melanin are both valuable retinal biomarkers for evaluating retinal health by using non-invasive autofluorescence imaging.https://www.ester.ee/record=b555738
Abstract Book of the II Congress of the Latin American Society for Vector Ecology
Recopilación de los resúmenes de las conferencias, simposios, paneles de discusión y "turbo talks" ofrecidos en el II Congreso de la Sociedad Latinoamericana de Ecología de Vectores (LA SOVE), realizado entre el 29 de octubre y el 3 de noviembre de 2022 en la ciudad de La Plata (Buenos Aires, Argentina).Sociedad Latinoamericana de Ecología de Vectores (LA SOVE
- …