Claire C. Morgan scite author profile

SUMMARY Polar bears are uniquely adapted to life in the High Arctic and have undergone drastic physiological changes in response to Arctic climates and a hyperlipid diet of primarily marine mammal prey. We analyzed 89 complete genomes of polar bear and brown bear using population genomic modeling and show that the species diverged only 479–343 thousand years BP. We find that genes on the polar bear lineage have been under stronger positive selection than in brown bears; nine of the top 16 genes under strong positive selection are associated with cardiomyopathy and vascular disease, implying important reorganization of the cardio-vascular system. One of the genes showing the strongest evidence of selection, APOB, encodes the primary lipoprotein component of low-density lipoprotein (LDL); functional mutations in APOB may explain how polar bears are able to cope with life-long elevated LDL levels that are associated with high risk of heart disease in humans.

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Human pancreatic islet three-dimensional chromatin architecture provides insights into the genetics of type 2 diabetes

Miguel-Escalada

et al. 2019

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Genetic studies promise to provide insight into the molecular mechanisms underlying type 2 diabetes (T2D). Variants associated with T2D are often located in tissue-specific enhancer clusters or super-enhancers. So far, such domains have been defined through clustering of enhancers in linear genome maps rather than in 3D space. Furthermore, their target genes are often unknown. We have now created promoter capture Hi-C maps in human pancreatic islets. This linked diabetes-associated enhancers with their target genes, often located hundreds of kilobases away. It also revealed >1300 groups of islet enhancers, super-enhancers and active promoters that form 3D hubs, some of which show coordinated glucose-dependent activity. We demonstrate that genetic variation in hubs impacts insulin secretion heritability, and show that hub annotations can be used for polygenic scores that predict T2D risk driven by islet regulatory variants. Human islet 3D chromatin architecture, therefore, provides a framework for interpretation of T2D GWAS signals.

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Influence of Storage on Red Blood Cell Rheological Properties

Berezina

Zaets

Morgan

et al. 2002

Journal of Surgical Research

330

277

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Changes in the Coding and Non-coding Transcriptome and DNA Methylome that Define the Schwann Cell Repair Phenotype after Nerve Injury

et al. 2017

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SummaryRepair Schwann cells play a critical role in orchestrating nerve repair after injury, but the cellular and molecular processes that generate them are poorly understood. Here, we perform a combined whole-genome, coding and non-coding RNA and CpG methylation study following nerve injury. We show that genes involved in the epithelial-mesenchymal transition are enriched in repair cells, and we identify several long non-coding RNAs in Schwann cells. We demonstrate that the AP-1 transcription factor C-JUN regulates the expression of certain micro RNAs in repair Schwann cells, in particular miR-21 and miR-34. Surprisingly, unlike during development, changes in CpG methylation are limited in injury, restricted to specific locations, such as enhancer regions of Schwann cell-specific genes (e.g., Nedd4l), and close to local enrichment of AP-1 motifs. These genetic and epigenomic changes broaden our mechanistic understanding of the formation of repair Schwann cell during peripheral nervous system tissue repair.

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Heterogeneous Models Place the Root of the Placental Mammal Phylogeny

et al. 2013

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Heterogeneity among life traits in mammals has resulted in considerable phylogenetic conflict, particularly concerning the position of the placental root. Layered upon this are gene- and lineage-specific variation in amino acid substitution rates and compositional biases. Life trait variations that may impact upon mutational rates are longevity, metabolic rate, body size, and germ line generation time. Over the past 12 years, three main conflicting hypotheses have emerged for the placement of the placental root. These hypotheses place the Atlantogenata (common ancestor of Xenarthra plus Afrotheria), the Afrotheria, or the Xenarthra as the sister group to all other placental mammals. Model adequacy is critical for accurate tree reconstruction and by failing to account for these compositional and character exchange heterogeneities across the tree and data set, previous studies have not provided a strongly supported hypothesis for the placental root. For the first time, models that accommodate both tree and data set heterogeneity have been applied to mammal data. Here, we show the impact of accurate model assignment and the importance of data sets in accommodating model parameters while maintaining the power to reject competing hypotheses. Through these sophisticated methods, we demonstrate the importance of model adequacy, data set power and provide strong support for the Atlantogenata over other competing hypotheses for the position of the placental root.

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Re-analysis of public genetic data reveals a rare X-chromosomal variant associated with type 2 diabetes

et al. 2018

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The reanalysis of existing GWAS data represents a powerful and cost-effective opportunity to gain insights into the genetics of complex diseases. By reanalyzing publicly available type 2 diabetes (T2D) genome-wide association studies (GWAS) data for 70,127 subjects, we identify seven novel associated regions, five driven by common variants (LYPLAL1, NEUROG3, CAMKK2, ABO, and GIP genes), one by a low-frequency (EHMT2), and one driven by a rare variant in chromosome Xq23, rs146662075, associated with a twofold increased risk for T2D in males. rs146662075 is located within an active enhancer associated with the expression of Angiotensin II Receptor type 2 gene (AGTR2), a modulator of insulin sensitivity, and exhibits allelic specific activity in muscle cells. Beyond providing insights into the genetics and pathophysiology of T2D, these results also underscore the value of reanalyzing publicly available data using novel genetic resources and analytical approaches.

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Therapeutic potential of KLF2-induced exosomal microRNAs in pulmonary hypertension

et al. 2020

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Pulmonary arterial hypertension (PAH) is a severe disorder of lung vasculature that causes right heart failure. Homoeostatic effects of flow-activated transcription factor Krüppel-like factor 2 (KLF2) are compromised in PAH. Here, we show that KLF2-induced exosomal microRNAs, miR-181a-5p and miR-324-5p act together to attenuate pulmonary vascular remodelling and that their actions are mediated by Notch4 and ETS1 and other key regulators of vascular homoeostasis. Expressions of KLF2, miR-181a-5p and miR-324-5p are reduced, while levels of their target genes are elevated in pre-clinical PAH, idiopathic PAH and heritable PAH with missense p.H288Y KLF2 mutation. Therapeutic supplementation of miR-181a-5p and miR-324-5p reduces proliferative and angiogenic responses in patient-derived cells and attenuates disease progression in PAH mice. This study shows that reduced KLF2 signalling is a common feature of human PAH and highlights the potential therapeutic role of KLF2-regulated exosomal miRNAs in PAH and other diseases associated with vascular remodelling.

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Effect of Trauma-Hemorrhagic Shock on Red Blood Cell Deformability and Shape

Zaets

Berezina

Morgan

et al. 2003

Shock

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Previous work in our laboratory has demonstrated a decrease in red blood cell (RBC) deformability in sepsis. This has not been studied following hemorrhagic shock. We tested the hypotheses that hemorrhagic shock, associated with soft tissue trauma, leads to decreased RBC deformability and that this is related to alterations in the resting shape of the RBC. Elongation index (EI), a measure of RBC deformability, was determined over a range of shear stresses from 0.3 to 30 Pa in 26 male rats before and at various times after 90 min of hemorrhagic shock. RBC resting shape was determined by scanning electron microscopy. The data demonstrate that EI decreased significantly at the end of shock (before resuscitation), and remained below normal throughout the 6-h postshock period. Eight of the 26 animals decompensated during shock, requiring return of a portion of the shed blood to maintain a mean arterial pressure of 30-40 mmHg. Four of eight decompensated animals died before the end of the study period, compared with none of the compensated rats. The decompensated rats had significantly lower EI at 0.3 Pa by the end of the shock period (0.050 +/- 0.009) than the compensated shock group (0.058 +/- 0.006; P < 0.05). RBC shape alterations were first demonstrated at the end of the shock period and persisted throughout the 6-h postshock resuscitation period. These data indicate that trauma and hemorrhagic shock cause RBC shape alterations and a significant decrease in RBC deformability, which becomes manifested during the shock period and persists for at least 6 h postshock. Additionally, a direct relationship appears to exist between the magnitude of the physiologic insult and the degree of RBC damage.

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Claire C. Morgan

Population Genomics Reveal Recent Speciation and Rapid Evolutionary Adaptation in Polar Bears

Human pancreatic islet three-dimensional chromatin architecture provides insights into the genetics of type 2 diabetes

Influence of Storage on Red Blood Cell Rheological Properties

Changes in the Coding and Non-coding Transcriptome and DNA Methylome that Define the Schwann Cell Repair Phenotype after Nerve Injury

Heterogeneous Models Place the Root of the Placental Mammal Phylogeny

Re-analysis of public genetic data reveals a rare X-chromosomal variant associated with type 2 diabetes

Therapeutic potential of KLF2-induced exosomal microRNAs in pulmonary hypertension

Effect of Trauma-Hemorrhagic Shock on Red Blood Cell Deformability and Shape

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