Your search keyword '"Christensen, Charlotte R."' showing total 3 results

1. Machine-learning guided Venom Induced Dermonecrosis Analysis tooL: VIDAL.

Author

Laprade W, Bartlett KE, Christensen CR, Kazandjian TD, Patel RN, Crittenden E, Dawson CA, Mansourvar M, Wolff DS, Fryer T, Laustsen AH, Casewell NR, Gutiérrez JM, Hall SR, and Jenkins TP

Subjects

Humans, Mice, Animals, Antivenins pharmacology, Global Health, Necrosis, Venoms, Snake Bites therapy

Abstract

Snakebite envenoming is a global public health issue that causes significant morbidity and mortality, particularly in low-income regions of the world. The clinical manifestations of envenomings vary depending on the snake's venom, with paralysis, haemorrhage, and necrosis being the most common and medically relevant effects. To assess the efficacy of antivenoms against dermonecrosis, a preclinical testing approach involves in vivo mouse models that mimic local tissue effects of cytotoxic snakebites in humans. However, current methods for assessing necrosis severity are time-consuming and susceptible to human error. To address this, we present the Venom Induced Dermonecrosis Analysis tooL (VIDAL), a machine-learning-guided image-based solution that can automatically identify dermonecrotic lesions in mice, adjust for lighting biases, scale the image, extract lesion area and discolouration, and calculate the severity of dermonecrosis. We also introduce a new unit, the dermonecrotic unit (DnU), to better capture the complexity of dermonecrosis severity. Our tool is comparable to the performance of state-of-the-art histopathological analysis, making it an accessible, accurate, and reproducible method for assessing dermonecrosis in mice. Given the urgent need to address the neglected tropical disease that is snakebite, high-throughput technologies such as VIDAL are crucial in developing and validating new and existing therapeutics for this debilitating disease., (© 2023. The Author(s).)

Published

2023

2. Functional and genetic epidemiological characterisation of the FFAR4 (GPR120) p.R270H variant in the Danish population.

Author

Vestmar MA, Andersson EA, Christensen CR, Hauge M, Glümer C, Linneberg A, Witte DR, Jørgensen ME, Christensen C, Brandslund I, Lauritzen T, Pedersen O, Holst B, Grarup N, Schwartz TW, and Hansen T

Subjects

Adult, Biomarkers metabolism, Blood Glucose genetics, Case-Control Studies, Cell Line, Female, Glucose genetics, Glucose Tolerance Test methods, HEK293 Cells, Humans, Inflammation genetics, Ligands, Lipids genetics, Liver metabolism, Male, Middle Aged, Obesity genetics, Signal Transduction genetics, beta-Arrestins genetics, Genetic Variation genetics, Receptors, G-Protein-Coupled genetics

Abstract

Background: p.R270H (rs116454156) in the long chain fatty acid 7TM receptor FFAR4 (GPR120) which results in impaired Gαq (Gq) coupled signalling, has been associated with obesity. We aimed to extend the functional in vitro analyses of p.R270H and to investigate the association with obesity and glucose-related traits in the Danish population., Methods: Surface expression, Gq and Gi coupled signalling as well as β-arrestin recruitment were examined in vitro. p.R270H was genotyped using the exome chip array in 11 479 Danish adult individuals. Of these 4391 were obese and 4415 were normal weight. Association with quantitative metabolic traits comprised 8720 non-diabetic individuals., Results: p.R270H showed reduced surface expression of FFAR4. Ligand-independent activity was eliminated and strongly impaired through the Gq and Gi signalling pathways, respectively. The ligand-induced maximal signalling efficacy of p.R270H was reduced only through the Gq pathway. The p.R270H variant did not affect β-arrestin recruitment. p.R270H was not associated with increased risk of obesity nor increased fasting plasma glucose levels in the Danish study populations. Nor was it associated with these two traits in the European Network for Genetic and Genomic Epidemiology consortium data (N=34 901-71 175; p>0.70). It was also not associated with waist-hip ratio, glucose metabolism during an oral glucose tolerance test, lipid levels or with markers of adiposity (leptin, adiponectin), inflammation (high-sensitive C reactive protein; hs-CRP) and liver function (alanine aminotransferase) in the Danish population (p>0.05)., Conclusions: We demonstrate that p.R270H of FFAR4 impairs Gq and Gi signalling of FFAR4 in vitro; however, this impaired signalling for p.R270H does not translate into associations with human metabolic phenotypes in the investigated populations., (Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/)

Published

2016

3. High velocity dispersion in a rare grand-design spiral galaxy at redshift z = 2.18.

Author

Law DR, Shapley AE, Steidel CC, Reddy NA, Christensen CR, and Erb DK

Abstract

Although grand-design spiral galaxies are relatively common in the local Universe, only one has been spectroscopically confirmed to lie at redshift z > 2 (HDFX 28; z = 2.011); and it may prove to be a major merger that simply resembles a spiral in projection. The rarity of spirals has been explained as a result of disks being dynamically 'hot' at z > 2 (refs 2-5), which may instead favour the formation of commonly observed clumpy structures. Alternatively, current instrumentation may simply not be sensitive enough to detect spiral structures comparable to those in the modern Universe. At z < 2, the velocity dispersion of disks decreases, and spiral galaxies are more numerous by z ≈ 1 (refs 7, 13-15). Here we report observations of the grand-design spiral galaxy Q2343-BX442 at z = 2.18. Spectroscopy of ionized gas shows that the disk is dynamically hot, implying an uncertain origin for the spiral structure. The kinematics of the galaxy are consistent with a thick disk undergoing a minor merger, which can drive the formation of short-lived spiral structure. A duty cycle of <100 Myr for such tidally induced spiral structure in a hot massive disk is consistent with its rarity.

Published

2012