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1. Metabolic-driven analytics of traumatic brain injury and neuroprotection by ethyl pyruvate

Author

Golovachev, Nikita, Siebold, Lorraine, Sutton, Richard L, Ghavim, Sima, Harris, Neil G, and Bartnik-Olson, Brenda

Subjects
Medical Biochemistry and Metabolomics, Biomedical and Clinical Sciences, Brain Disorders, Neurosciences, Nutrition, Traumatic Head and Spine Injury, Physical Injury - Accidents and Adverse Effects, Traumatic Brain Injury (TBI), 2.1 Biological and endogenous factors, Neurological, Animals, Pyruvates, Brain Injuries, Traumatic, Rats, Male, Rats, Sprague-Dawley, Neuroprotective Agents, Metabolomics, Brain, Disease Models, Animal, Principal Component Analysis, Traumatic brain injury, Controlled cortical impact, Oxidative stress, Inflammation, Liquid chromatography-mass spectrometry, Gas chromatography-mass spectrometry, Gas chromatography–mass spectrometry, Liquid chromatography–mass spectrometry, Clinical Sciences, Immunology, Neurology & Neurosurgery
Abstract

BackgroundResearch on traumatic brain injury (TBI) highlights the significance of counteracting its metabolic impact via exogenous fuels to support metabolism and diminish cellular damage. While ethyl pyruvate (EP) treatment shows promise in normalizing cellular metabolism and providing neuroprotection, there is a gap in understanding the precise metabolic pathways involved. Metabolomic analysis of the acute post-injury metabolic effects, with and without EP treatment, aims to deepen our knowledge by identifying and comparing the metabolite profiles, thereby illuminating the injury's effects and EP's therapeutic potential.MethodsIn the current study, an untargeted metabolomics approach was used to reveal brain metabolism changes in rats 24 h after a controlled cortical impact (CCI) injury, with or without EP treatment. Using principal component analysis (PCA), volcano plots, Random Forest and pathway analysis we differentiated the brain metabolomes of CCI and sham injured animals treated with saline (Veh) or EP, identifying key metabolites and pathways affected by injury. Additionally, the effect of EP on the non-injured brain was also explored.ResultsPCA showed a clear separation of the four study groups (sham-Veh, CCI-Veh, sham-EP, CCI-EP) based on injury. Following CCI injury (CCI-Veh), 109 metabolites belonging to the amino acid, carbohydrate, lipid, nucleotide, and xenobiotic families exhibited a twofold change at 24 h compared to the sham-Veh group, with 93 of these significantly increasing and 16 significantly decreasing (p

Published
2024

2. Metabolic fate of glucose in rats with traumatic brain injury and pyruvate or glucose treatments: A NMR spectroscopy study

Author

Shijo, Katsunori, Sutton, Richard L, Ghavim, Sima S, Harris, Neil G, and Bartnik-Olson, Brenda L

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Industrial Biotechnology, Brain Disorders, Neurosciences, Animals, Brain, Brain Injuries, Traumatic, Disease Models, Animal, Glucose, Glutamic Acid, Glutamine, Magnetic Resonance Imaging, Male, Pyruvic Acid, Rats, Sprague-Dawley, Controlled cortical impact, Ethyl pyruvate, Oxidative metabolism, Pentose phosphate pathway, Sodium pyruvate, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Neurology & Neurosurgery, Biochemistry and cell biology
Abstract

Administration of sodium pyruvate (SP; 9.08 μmol/kg, i.p.), ethyl pyruvate (EP; 0.34 μmol/kg, i.p.) or glucose (GLC; 11.1 μmol/kg, i.p.) to rats after unilateral controlled cortical impact (CCI) injury has been reported to reduce neuronal loss and improve cerebral metabolism. In the present study these doses of each fuel or 8% saline (SAL; 5.47 nmoles/kg) were administered immediately and at 1, 3, 6 and 23 h post-CCI. At 24 h all CCI groups and non-treated Sham injury controls were infused with [1,2 13C] glucose for 68 min 13C nuclear magnetic resonance (NMR) spectra were obtained from cortex + hippocampus tissues from left (injured) and right (contralateral) hemispheres. All three fuels increased lactate labeling to a similar degree in the injured hemisphere. The amount of lactate labeled via the pentose phosphate and pyruvate recycling (PPP + PR) pathway increased in CCI-SAL and was not improved by SP, EP, and GLC treatments. Oxidative metabolism, as assessed by glutamate labeling, was reduced in CCI-SAL animals. The greatest improvement in oxidative metabolism was observed in animals treated with SP and fewer improvements after EP or GLC treatments. Compared to SAL, all three fuels restored glutamate and glutamine labeling via pyruvate carboxylase (PC), suggesting improved astrocyte metabolism following fuel treatment. Only SP treatments restored the amount of [4 13C] glutamate labeled by the PPP + PR pathway to sham levels. Milder injury effects in the contralateral hemisphere appear normalized by either SP or EP treatments, as increases in the total pool of 13C lactate and labeling of lactate in glycolysis, or decreases in the ratio of PC/PDH labeling of glutamine, were found only for CCI-SAL and CCI-GLC groups compared to Sham. The doses of SP, EP and GLC examined in this study all enhanced lactate labeling and restored astrocyte-specific PC activity but differentially affected neuronal metabolism after CCI injury. The restoration of astrocyte metabolism by all three fuel treatments may partially underlie their abilities to improve cerebral glucose utilization and to reduce neuronal loss following CCI injury.

Published
2017

3. Pyruvate treatment attenuates cerebral metabolic depression and neuronal loss after experimental traumatic brain injury.

Author

Moro, Nobuhiro, Ghavim, Sima S, Harris, Neil G, Hovda, David A, and Sutton, Richard L

Subjects
Hippocampus, Cerebral Cortex, Neurons, Animals, Rats, Rats, Sprague-Dawley, Disease Models, Animal, Pyruvic Acid, Glucose, Cell Survival, Male, Brain Injuries, Traumatic, (14)C-2DG, Controlled cortical impact, Fluoro-Jade B, Pyruvate, Rat, Physical Injury - Accidents and Adverse Effects, Neurosciences, Traumatic Head and Spine Injury, Brain Disorders, Traumatic Brain Injury (TBI), Neurological, Mental health, C-14-2DG, Psychology, Cognitive Sciences, Neurology & Neurosurgery
Abstract

Experimental traumatic brain injury (TBI) is known to produce an acute increase in cerebral glucose utilization, followed rapidly by a generalized cerebral metabolic depression. The current studies determined effects of single or multiple treatments with sodium pyruvate (SP; 1000mg/kg, i.p.) or ethyl pyruvate (EP; 40mg/kg, i.p.) on cerebral glucose metabolism and neuronal injury in rats with unilateral controlled cortical impact (CCI) injury. In Experiment 1 a single treatment was given immediately after CCI. SP significantly improved glucose metabolism in 3 of 13 brain regions while EP improved metabolism in 7 regions compared to saline-treated controls at 24h post-injury. Both SP and EP produced equivalent and significant reductions in dead/dying neurons in cortex and hippocampus at 24h post-CCI. In Experiment 2 SP or EP were administered immediately (time 0) and at 1, 3 and 6h post-CCI. Multiple SP treatments also significantly attenuated TBI-induced reductions in cerebral glucose metabolism (in 4 brain regions) 24h post-CCI, as did multiple injections of EP (in 4 regions). The four pyruvate treatments produced significant neuroprotection in cortex and hippocampus 1day after CCI, similar to that found with a single SP or EP treatment. Thus, early administration of pyruvate compounds enhanced cerebral glucose metabolism and neuronal survival, with 40mg/kg of EP being as effective as 1000mg/kg of SP, and multiple treatments within 6h of injury did not improve upon outcomes seen following a single treatment.

Published
2016

4. Glucose administration after traumatic brain injury exerts some benefits and no adverse effects on behavioral and histological outcomes

Author

Shijo, Katsunori, Ghavim, Sima, Harris, Neil G, Hovda, David A, and Sutton, Richard L

Subjects
Brain Disorders, Behavioral and Social Science, Neurosciences, Traumatic Head and Spine Injury, Traumatic Brain Injury (TBI), Physical Injury - Accidents and Adverse Effects, Animals, Brain Injuries, Cell Count, Cerebral Cortex, Disease Models, Animal, Forelimb, Functional Laterality, Glucose, Locomotion, Male, Mental Disorders, Psychomotor Performance, Rats, Rats, Sprague-Dawley, Reflex, Sweetening Agents, Time Factors, Beam-walking, Cognition, Controlled cortical impact, Contusion volume, Hippocampus, Hyperglycemia, Neurological exam, Rat, Spatial working memory, Psychology, Cognitive Sciences, Neurology & Neurosurgery
Abstract

The impact of hyperglycemia after traumatic brain injury (TBI), and even the administration of glucose-containing solutions to head injured patients, remains controversial. In the current study adult male Sprague-Dawley rats were tested on behavioral tasks and then underwent surgery to induce sham injury or unilateral controlled cortical impact (CCI) injury followed by injections (i.p.) with either a 50% glucose solution (Glc; 2g/kg) or an equivalent volume of either 0.9% or 8% saline (Sal) at 0, 1, 3 and 6h post-injury. The type of saline treatment did not significantly affect any outcome measures, so these data were combined. Rats with CCI had significant deficits in beam-walking traversal time and rating scores (p's < 0.001 versus sham) that recovered over test sessions from 1 to 13 days post-injury (p's < 0.001), but these beam-walking deficits were not affected by Glc versus Sal treatments. Persistent post-CCI deficits in forelimb contraflexion scores and forelimb tactile placing ability were also not differentially affected by Glc or Sal treatments. However, deficits in latency to retract the right hind limb after limb extension were significantly attenuated in the CCI-Glc group (p < 0.05 versus CCI-Sal). Both CCI groups were significantly impaired in a plus maze test of spatial working memory on days 4, 9 and 14 post-surgery (p < 0.001 versus sham), and there was no effect of Glc versus Sal on this cognitive outcome measure. At 15 days post-surgery the loss of cortical tissue volume (p < 0.001 versus sham) was significantly less in the CCI-Glc group (30.0%; p < 0.05) compared to the CCI-Sal group (35.7%). Counts of surviving hippocampal hilar neurons revealed a significant (~40%) loss ipsilateral to CCI (p < 0.001 versus sham), but neuronal loss in the hippocampus was not different in the CCI-Sal and CCI-Glc groups. Taken together, these results indicate that an early elevation of blood glucose may improve some neurological outcomes and, importantly, the induction of hyperglycemia after isolated TBI did not adversely affect any sensorimotor, cognitive or histological outcomes.

Published
2015

5. Glucose administration after traumatic brain injury improves cerebral metabolism and reduces secondary neuronal injury

Author

Moro, Nobuhiro, Ghavim, Sima, Harris, Neil G, Hovda, David A, and Sutton, Richard L

Subjects
Traumatic Head and Spine Injury, Traumatic Brain Injury (TBI), Diabetes, Brain Disorders, Physical Injury - Accidents and Adverse Effects, Neurosciences, Neurological, Mental health, Animals, Brain, Brain Injuries, Glucose, Male, Neurons, Neuroprotective Agents, Rats, Rats, Sprague-Dawley, C-14-2DG, Controlled cortical impact, Fluoro-Jade B, Hyperglycemia, Rat, (14)C-2DG, 4′, 6-diamidino-2-phenylindol dihydrochloride, 5% dextrose in 0.9% saline, ANLS, ANOVA, ATP, CCI, CMRGlc, CMRO(2), D5NS, DAPI, FJB, FPI, GLC, Mg(++), PBS, ROS, SAL, SEM, TBI, adenosine triphosphate, analysis of variance, astrocyte-neuron lactate shuttle, cerebral metabolic rates of glucose, cerebral metabolic rates of oxygen, controlled cortical impact, fluid percussion injury, glucose, magnesium, phosphate buffered saline, reactive oxygen species, saline, standard error of the mean, traumatic brain injury, Psychology, Cognitive Sciences, Neurology & Neurosurgery
Abstract

Clinical studies have indicated an association between acute hyperglycemia and poor outcomes in patients with traumatic brain injury (TBI), although optimal blood glucose levels needed to maximize outcomes for these patients' remain under investigation. Previous results from experimental animal models suggest that post-TBI hyperglycemia may be harmful, neutral, or beneficial. The current studies determined the effects of single or multiple episodes of acute hyperglycemia on cerebral glucose metabolism and neuronal injury in a rodent model of unilateral controlled cortical impact (CCI) injury. In Experiment 1, a single episode of hyperglycemia (50% glucose at 2 g/kg, i.p.) initiated immediately after CCI was found to significantly attenuate a TBI-induced depression of glucose metabolism in cerebral cortex (4 of 6 regions) and subcortical regions (2 of 7) as well as to significantly reduce the number of dead/dying neurons in cortex and hippocampus at 24 h post-CCI. Experiment 2 examined effects of more prolonged and intermittent hyperglycemia induced by glucose administrations (2 g/kg, i.p.) at 0, 1, 3 and 6h post-CCI. The latter study also found significantly improved cerebral metabolism (in 3 of 6 cortical and 3 of 7 subcortical regions) and significant neuroprotection in cortex and hippocampus 1 day after CCI and glucose administration. These results indicate that acute episodes of post-TBI hyperglycemia can be beneficial and are consistent with other recent studies showing benefits of providing exogenous energy substrates during periods of increased cerebral metabolic demand.

Published
2013

6. Delayed sodium pyruvate treatment improves working memory following experimental traumatic brain injury

Author

Moro, Nobuhiro, Ghavim, Sima S, Hovda, David A, and Sutton, Richard L

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Psychology, Physical Injury - Accidents and Adverse Effects, Behavioral and Social Science, Traumatic Brain Injury (TBI), Brain Disorders, Neurosciences, Traumatic Head and Spine Injury, Rehabilitation, Neurological, Animals, Brain Injuries, Cerebral Cortex, Disease Models, Animal, Male, Maze Learning, Memory, Short-Term, Neuroprotective Agents, Pyruvic Acid, Rats, Rats, Sprague-Dawley, Cerebral metabolism, Cortical contusion injury, Plus-maze, Pyruvate, Rat, Spatial alternation, Cognitive Sciences, Biochemistry and cell biology, Biological psychology
Abstract

Prior work indicates that cerebral glycolysis is impaired following traumatic brain injury (TBI) and that pyruvate treatment acutely after TBI can improve cerebral metabolism and is neuroprotective. Since extracellular levels of glucose decrease during periods of increased cognitive demand and exogenous glucose improves cognitive performance, we hypothesized that pyruvate treatment prior to testing could ameliorate cognitive deficits in rats with TBI. Based on pre-surgical spatial alternation performance in a 4-arm plus-maze, adult male rats were randomized to receive either sham injury or unilateral (left) cortical contusion injury (CCI). On days 4, 9 and 14 after surgery animals received an intraperitoneal injection of either vehicle (Sham-Veh, n=6; CCI-Veh, n=7) or 1000 mg/kg of sodium pyruvate (CCI-SP, n=7). One hour after each injection rats were retested for spatial alternation performance. Animals in the CCI-SP group showed no significant working memory deficits in the spatial alternation task compared to Sham-Veh controls. The percent four/five alternation scores for CCI-Veh rats were significantly decreased from Sham-Veh scores on days 4 and 9 (p

Published
2011

7. Alleviation of Brain Injury-Induced Cerebral Metabolic Depression by Amphetamine: A Cytochrome Oxidase Histochemistry Study

Author

Sutton, Richard L, Hovda, David A, Chen, Michael J, and Feeney, Dennis M

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Psychology, Brain Disorders, Mental Health, Neurosciences, Methamphetamine, Depression, Neurological, Amphetamine, Animals, Brain, Brain Injuries, Electron Transport Complex IV, Histocytochemistry, Male, Motor Cortex, Oxidation-Reduction, Rats, Rats, Sprague-Dawley, Reference Values, Somatosensory Cortex, cerebral oxidative metabolism, diaschisis, stroke, remote functional depression, cytochrome oxidase, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

Measurements of oxidative metabolic capacity following the ablation of rat sensorimotor cortex and the administration of amphetamine were examined to determine their effects on the metabolic dysfunction that follows brain injury. Twenty-four hours after surgery, rats sustaining either sham operations or unilateral cortical ablation were administered a single injection of D-amphetamine (2 mg/kg; i.p.) or saline and then sacrificed 24 h later. Brain tissue was processed for cytochrome oxidase histochemistry, and 12 bilateral cerebral areas were measured, using optical density as an index of the relative amounts of the enzyme. Compared with that of the control groups, cytochrome oxidase in the injured animals was significantly reduced throughout the cerebral cortex and in 5 of 11 subcortical structures. This injury-induced depression of oxidative capacity was most pronounced in regions of the hemisphere ipsilateral to the ablation. Animals given D-amphetamine had less depression of oxidative capacity, which was most pronounced bilaterally in the cerebral cortex, red nucleus, and superior colliculus; and in the nucleus accumbens, caudateputamen, and globus pallidus ipsilateral to the ablation. The ability of D-amphetamine to alleviate depressed cerebral oxidative metabolism following cortical injury may be one mechanism by which drugs increasing noradrenaline release accelerate functional recovery in both animals and humans.

Published
2000

12. Long-term behavioral and pharmacodynamic effects of delta-9-tetrahydrocannabinol in female rats depend on ovarian hormone status

Author

Winsauer, Peter J., Daniel, Jill M., Filipeanu, Catalin M., Leonard, Stuart T., Hulst, Jerielle L., Rodgers, Shaefali P., Lassen-Greene, Caroline L., and Sutton, Jessie L.

Subjects
Marijuana Abuse, Reinforcement Schedule, Ovariectomy, Hippocampus, Article, Receptor, Cannabinoid, CB1, mental disorders, Animals, Rats, Long-Evans, Dronabinol, Progesterone, organic chemicals, Age Factors, Association Learning, Brain, Retention, Psychology, Estrogens, Corpus Striatum, Rats, Hallucinogens, Autoradiography, Conditioning, Operant, Female, Reinforcement, Psychology, Injections, Intraperitoneal, Psychomotor Performance
Abstract

Abuse of Δ9-THC by females during adolescence may produce long-term deficits in complex behavioral processes such as learning, and these deficits may be affected by the presence of ovarian hormones. To assess this possibility, 40 injections of saline or 5.6 mg/kg of Δ9-THC were administered i.p. daily during adolescence to gonadally intact or ovariectomized (OVX) female rats, yielding 4 treatment groups (intact/saline, intact/THC, OVX/saline, and OVX/THC). Δ9-THC (0.56-10 mg/kg) was then re-administered to each of the 4 groups during adulthood to examine their sensitivity to its disruptive effects. The behavioral task required adult subjects to both learn (acquisition component) different response sequences and repeat a known response sequence (performance component) daily. During baseline (no injection) and control (saline injection) sessions, ovariectomized subjects had significantly higher response rates and lower percentages of error in both behavioral components than the intact groups irrespective of saline or Δ9-THC administration during adolescence; the intact group that received Δ9-THC had the lowest response rates in each component. Upon re-administration of Δ9-THC, the groups that received adolescent ovariectomy alone, adolescent Δ9-THC administration alone, or both treatments were found to be less sensitive to the rate-decreasing effects, and more sensitive to the error-increasing effects of Δ9-THC than the control group (i.e., intact subjects that received saline during adolescence). Neurochemical analyses of the brains from each adolescent-treated group indicated that there were also persistent effects on cannabinoid type-1 (CB-1) receptor levels in the hippocampus and striatum that depended on the brain region and the presence of ovarian hormones. In addition, autoradiographic analyses of the brains from adolescent-treated, but behaviorally-naïve, subjects indicated that ovariectomy and Δ9-THC administration produced effects on receptor coupling in some of the same brain regions. In summary, chronic administration of Δ9-THC during adolescence in female rats produced long-term effects on operant learning and performance tasks and on the cannabinoid system that were mediated by the presence of ovarian hormones, and that altered their sensitivity to Δ9-THC as adults.

Published
2011

13. Atypical cadherin FAT4 orchestrates lymphatic endothelial cell polarity in response to flow

Author

Genevieve A. Secker, Kelly L. Betterman, Helen McNeill, Benjamin M. Hogan, Lydia Sorokin, Drew L. Sutton, Lillian Lim, Naoyuki Miura, Mark L. Kahn, Natasha L. Harvey, Anna Oszmiana, Jan Kazenwadel, Betterman, Kelly L, Sutton, Drew L, Secker, Genevieve A, Kazenwadel, Jan, Oszmiana, Anna, Lim, Lillian, Miura, Naoyuki, Sorokin, Lydia, Hogan, Benjamin M, Kahn, Mark L, McNeill, Helen, and Harvey, Natasha L

Subjects
0301 basic medicine, Mice, Transgenic, Biology, 03 medical and health sciences, Mice, 0302 clinical medicine, Cell polarity, FAT4, medicine, Lymphatic vessel, Animals, Humans, Lymphedema, Lymphangiogenesis, genes, Lymphatic Vessels, Hippo signaling pathway, Cadherin, Cell Polarity, Endothelial Cells, General Medicine, Syndrome, medicine.disease, Cadherins, human lymphedema syndrome, Cell biology, Endothelial stem cell, GATA2 Transcription Factor, Hennekam syndrome, 030104 developmental biology, Lymphatic system, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Female, calcium binding EGF domains 1 (CCBE1), Research Article
Abstract

The atypical cadherin FAT4 has established roles in the regulation of planar cell polarity and Hippo pathway signaling that are cell context dependent. The recent identification of FAT4 mutations in Hennekam syndrome, features of which include lymphedema, lymphangiectasia, and mental retardation, uncovered an important role for FAT4 in the lymphatic vasculature. Hennekam syndrome is also caused by mutations in collagen and calcium binding EGF domains 1 (CCBE1)and ADAM metallopeptidase with thrombospondin type 1 motif 3 (ADAMTS3), encoding a matrix protein and protease,respectively, that regulate activity of the key prolymphangiogenic VEGF-C/VEGFR3 signaling axis by facilitating the proteolytic cleavage and activation of VEGF-C. The fact that FAT4, CCBE1, and ADAMTS3 mutations underlie Hennekam syndrome suggested that all 3 genes might function in a common pathway. We identified FAT4 as a target gene of GATA binding protein 2 (GATA2), a key transcriptional regulator of lymphatic vascular development and, in particular, lymphatic vessel valve development. Here, we demonstrate that FAT4 functions in a lymphatic endothelial cell–autonomous manner to control cell polarity in response to flow and is required for lymphatic vessel morphogenesis throughout development.Our data reveal a crucial role for FAT4 in lymphangiogenesis and shed light on the mechanistic basis by which FAT4mutations underlie a human lymphedema syndrome usc Refereed/Peer-reviewed

Published
2020

14. The alternative splicing regulator nova2 constrains vascular erk signaling to limit specification of the lymphatic lineage

Author

Sungmin Baek, Genevieve A. Secker, Katarzyna Koltowska, Anne K. Lagendijk, Scott Paterson, Natasha L. Harvey, Kelly A. Smith, Neil I. Bower, Samuel J. Capon, Drew L. Sutton, Kazuhide S. Okuda, Cas Simons, George E.O. Muscat, Tae Gyu Oh, Gregory J. Baillie, Benjamin M. Hogan, John Toubia, Baek, Sungmin, Oh, Tae Gyu, Secker, Genevieve, Sutton, Drew L, Okuda, Kazuhide S, Paterson, Scott, Bower, Neil I, Toubia, John, Koltowska, Katarzyna, Capon, Samuel J, Baillie, Gregory J, Simons, Cas, Muscat, George EO, Lagendijk, Anne K, Smith, Kelly A, Harvey, Natasha L, and Hogan, Benjamin M

Subjects
Male, RNA splicing, MAP Kinase Signaling System, Cellular differentiation, Nerve Tissue Proteins, Cell fate determination, General Biochemistry, Genetics and Molecular Biology, Veins, Nova2, 03 medical and health sciences, 0302 clinical medicine, vascular, Neuro-Oncological Ventral Antigen, Prox1, Animals, Humans, Cell Lineage, Lymphangiogenesis, Molecular Biology, Zebrafish, 030304 developmental biology, Lymphatic Vessels, Homeodomain Proteins, 0303 health sciences, biology, Tumor Suppressor Proteins, Alternative splicing, Endothelial Cells, RNA-Binding Proteins, Cell Differentiation, Cell Biology, biology.organism_classification, Cell biology, Endothelial stem cell, lymphangiogenesis, Alternative Splicing, Lymphatic system, lymphatics, Female, signaling, 030217 neurology & neurosurgery, Developmental Biology
Abstract

The correct assignment of cell fate within fields of multipotent progenitors is essential for accurate tissue diversification. The first lymphatic vessels arise from pre-existing veins after venous endothelial cells become specified as lymphatic progenitors. Prox1 specifies lymphatic fate and labels these progenitors; however, the mechanisms restricting Prox1 expression and limiting the progenitor pool remain unknown. We identified a zebrafish mutant that displayed premature, expanded, and prolonged lymphatic specification. The gene responsible encodes the regulator of alternative splicing, Nova2. In zebrafish and human endothelial cells, Nova2 selectively regulates pre-mRNA splicing for components of signaling pathways and phosphoproteins. Nova2-deficient endothelial cells display increased Mapk/Erk signaling, and Prox1 expression is dynamically controlled by Erk signaling. We identify a mechanism whereby Nova2-regulated splicing constrains Erk signaling, thus limiting lymphatic progenitor cell specification. This identifies the capacity of a factor that tunes mRNA splicing to control assignment of cell fate during vascular differentiation. Lymphatics arise from progenitor cells that are specified along embryonic cardinal veins. How progenitor number is limited remains unknown. In this issue of Developmental Cell, Baek et al. show that Nova2 regulates a splicing program to limit vascular Flt4/Mapk/Erk signaling upstream of the master regulator of lymphatic fate, Prox1. Refereed/Peer-reviewed

Published
2019

15. GATA2 is required for lymphatic vessel valve development and maintenance

Author

Natasha L. Harvey, Jan Kazenwadel, Chan-Eng Chong, Genevieve A. Secker, Jacqueline M. Matthews, David M. Lawrence, Kelly L. Betterman, Sébastien Tabruyn, Cansaran Saygili Demir, Philippa H. Stokes, Yan Agalarov, Naoyuki Miura, Young Koung Lee, Tatiana V. Petrova, Drew L. Sutton, Marjo Salminen, Hamish S. Scott, Christopher N. Hahn, Kazenwadel, Jan, Betterman, Kelly L, Chong, Chan-Eng, Stokes, Philippa H, Lee, Young K, Secker, Genevieve A, Agalarov, Yan, Demir, Cansaran Saygili, Lawrence, David M, Sutton, Drew L, Tabruyn, Sebastien P, Miura, Naoyuki, Salminen, Marjo, Petrova, Tatiana, Matthew, Jacqueline M, Hahn, Christopher N, Scott, Hamish S, and Harvey, Natasha L

Subjects
vasculature, Myocytes, Smooth Muscle, Biology, Germline, Muscle, Smooth, Vascular, 03 medical and health sciences, DNA-binding, 0302 clinical medicine, Germline mutation, hemic and lymphatic diseases, Lymphatic vessel, medicine, Animals, Humans, Primary lymphedema, Lymphedema, 030304 developmental biology, Lymphatic Vessels, Zinc finger transcription factor, 0303 health sciences, GATA2, General Medicine, cell, medicine.disease, primary lymphedema, 3. Good health, GATA2 Transcription Factor, Lymphatic system, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Mutation, Cancer research, Lymph, genome-wide analysis, Research Article
Abstract

Heterozygous germline mutations in the zinc finger transcription factor GATA2 have recently been shown to underlie a range of clinical phenotypes, including Emberger syndrome, a disorder characterized by lymphedema and predisposition to myelodysplastic syndrome/acute myeloid leukemia (MDS/AML). Despite well-defined roles in hematopoiesis, the functionsof GATA2 in the lymphatic vasculature and the mechanisms by which GATA2 mutations result in lymphedema have not been characterized. Here, we have provided a molecular explanation for lymphedema predisposition in a subset of patients with germline GATA2 mutations. Specifically, we demonstrated that Emberger-associated GATA2 missense mutations result in complete loss of GATA2 function, with respect to the capacity to regulate the transcription of genes that are important for lymphatic vessel valve development. We identified a putative enhancer element upstream of the key lymphatic transcriptional regulator PROX1 that is bound by GATA2, and the transcription factors FOXC2 and NFATC1. Emberger GATA2missense mutants had a profoundly reduced capacity to bind this element. Conditional Gata2 deletion in mice revealed that GATA2 is required for both development and maintenance of lymphovenous and lymphatic vessel valves. Together, our data unveil essential roles for GATA2 in the lymphatic vasculature and explain why a select catalogue of human GATA2 mutations results in lymphedema Refereed/Peer-reviewed

Published
2015

16. Cloning and functional characterisation of a peroxiredoxin 1 (NKEF A) cDNA from Atlantic salmon (Salmo salar) and its expression in fish infected with Neoparamoeba perurans

Author

Kathryn A. Schuller, Grace H. Loo, Drew L. Sutton, Loo, Grace H, Sutton, Drew L, and Schuller, Kathryn A

Subjects
Gills, DNA, Complementary, Molecular Sequence Data, Salmo salar, Aquatic Science, Peroxiredoxin 1, Fish Diseases, Complementary DNA, Gene expression, Animals, Environmental Chemistry, Amino Acid Sequence, Salmo, Phylogeny, Amoebic gill disease, biology, Ecology, Amebiasis, Peroxiredoxins, General Medicine, biology.organism_classification, Molecular biology, Amoebozoa, Recombinant Proteins, Open reading frame, Gene Expression Regulation, Thioredoxin, Peroxiredoxin, Sequence Alignment
Abstract

Peroxiredoxin 1 (Prx 1), also known as natural killer enhancing factor A (NKEF A), has been implicated in the immune response of both mammals and fish. Amoebic gill disease (AGD), caused by Neoparamoeba perurans, is a significant problem for the Atlantic salmon (Salmo salar L.) aquaculture industry based in Tasmania, Australia. Here we have cloned and functionally characterized a Prx 1 open reading frame (ORF) from Atlantic salmon liver and shown that Prx 1 gene expression was down-regulated in the gills of Atlantic salmon displaying symptoms of AGD. The Prx 1 ORF encoded all of the residues and motifs characteristic of typical 2-Cys Prx proteins from eukaryotes and the recombinant protein expressed in Escherichia coli catalyzed thioredoxin (Trx)-dependent reduction of H 2O 2, cumene hydroperoxide (CuOOH) and t-butyl hydroperoxide (t-bOOH) with K m values of 122, 77 and 91 μM, respectively, confirming that it was a genuine 2-Cys Prx. The recombinant protein also displayed a double displacement reaction mechanism and a catalytic efficiency (k cat/K m) with H 2O 2 of 1.5 × 10 5 M -1 s -1 which was consistent with previous reports for the 2-Cys Prx family of proteins. This is the first time that a Prx 1 protein has been functionally characterized from any fish species and it paves the way for further investigation of this important 2-Cys Prx family member in fish. Refereed/Peer-reviewed

Published
2012
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17. Cloning and functional characterization of a typical 2-Cys peroxiredoxin from southern bluefin tuna (Thunnus maccoyii)

Author

Grace H. Loo, Kathryn A. Schuller, R. Ian Menz, Drew L. Sutton, Sutton, Drew L, Loo, Grace H, Menz, R Ian, and Schuller, Kathryn A

Subjects
Fish Proteins, antioxidant, Physiology, Molecular Sequence Data, Sequence alignment, Molecular cloning, Biochemistry, Chromatography, Affinity, 2-Cys peroxiredoxin, chemistry.chemical_compound, NKEF, Thunnus maccoyii, Rapid amplification of cDNA ends, Southern bluefin tuna, Complementary DNA, Escherichia coli, Animals, Amino Acid Sequence, Cysteine, Cloning, Molecular, Molecular Biology, Peptide sequence, Phylogeny, biology, Tuna, Peroxiredoxins, Molecular biology, chemistry, Cumene hydroperoxide, biology.protein, Thioredoxin, Sequence Alignment, natural killer enhancing factor, Peroxidase
Abstract

Peroxiredoxins (Prxs, EC: 1.11.1.15) are cysteine-dependent peroxidases proposed to function as antioxidant enzymes and also in H2O2-mediated cell signaling. They have been well characterized in yeast, mammals, protists and bacteria but not yet in fish. Here we describe the cloning and functional characterization of a Prx 2 cDNA from southern bluefin tuna (SBT, Thunnus maccoyii), an important aquaculture species in South Australia. The SBT Prx sequence was closely related (76–92% identical) to Prx 1 and 2 sequences from other fish and mammals and phylogenetic analyses showed that it was most likely a Prx 2. The deduced amino acid sequence contained the peroxidatic and resolving Cys residues characteristic of typical 2-Cys Prx proteins from all kingdoms of life. It also contained the GGLG motif associated with the sensitivity of eukaryotic typical 2-Cys Prx proteins to overoxidation and consequent inactivation by H2O2. When the SBT Prx 2 was expressed in E. coli, it showed thioredoxin (Trx)-dependent peroxidase activity with H2O2, cumene hydroperoxide (CuOOH) and t-butyl hydroperoxide (t-bOOH). The SBT Prx displayed Michaelis–Menten kinetics with Trx but sigmoidal kinetics with H2O2 and CuOOH. The Km(Trx) was 12 μM and the S0.5 values for H2O2 and CuOOH were 29 and 25 μM, respectively. At mM concentrations of H2O2, SBT Prx progressively lost its peroxidase activity as has been observed for other eukaryotic typical 2-Cys Prx proteins. The native SBT Prx enzyme existed as a mixture of dimers, tetramers, decamers and a higher order aggregate. Refereed/Peer-reviewed

Published
2010

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