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4. Ureteral Trauma Due to Penetrating Missiles

Author

Peters, P. C., Bright, T. C., III, Kibbey, R. G., III, Andersson, L., editor, Gittes, R. F., editor, Goodwin, W. E., editor, Lutzeyer, W., editor, Zingg, E., editor, Braedel, H. U., Bright, T. C., III, Chlepas, S., Durben, G., Kibbey, R. G., III, Melchior, H., Peters, P. C., Rathert, P., Sigel, A., and Trentz, O.

Published
1981
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5. Ureteral Injuries Secondary to Operative Procedures

Author

Peters, P. C., Bright, T. C., III, Kibbey, R. G., III, Andersson, L., editor, Gittes, R. F., editor, Goodwin, W. E., editor, Lutzeyer, W., editor, Zingg, E., editor, Braedel, H. U., Bright, T. C., III, Chlepas, S., Durben, G., Kibbey, R. G., III, Melchior, H., Peters, P. C., Rathert, P., Sigel, A., and Trentz, O.

Published
1981
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6. Impact of gain-of-function mutations in the low-density lipoprotein receptor-related protein 5 (LRP5) on glucose and lipid homeostasis

Author

Foer, D, Zhu, M, Cardone, R L, Simpson, C, Sullivan, R, Nemiroff, S, Lee, G, Kibbey, R G, Petersen, Kitt Mia Falck, Insogna, K L, Foer, D, Zhu, M, Cardone, R L, Simpson, C, Sullivan, R, Nemiroff, S, Lee, G, Kibbey, R G, Petersen, Kitt Mia Falck, and Insogna, K L

Abstract

LRP5 loss-of-function mutations have been shown to cause profound osteoporosis and have been associated with impaired insulin sensitivity and dysregulated lipid metabolism. We hypothesized that gain-of-function mutations in LRP5 would also affect these parameters. We therefore studied individuals with LRP5 gain-of-function mutations exhibiting high bone mass (HBM) phenotypes and found that while there was no detected change in insulin sensitivity, there was a significant reduction in serum LDL.INTRODUCTION: Wnt signaling through LRP5 represents a newly appreciated metabolic pathway, which potentially represents a target for drug discovery in type 2 diabetes and hyperlipidemia. Studies in animal models suggest a physiologic link between LRP5 and glucose and lipid homeostasis; however, whether it plays a similar role in humans is unclear. As current literature links loss-of-function LRP5 to impaired glucose and lipid metabolism, we hypothesized that individuals with an HBM-causing mutation in LRP5 would exhibit improved glucose and lipid homeostasis. Since studies in animal models have suggested that Wnt signaling augments insulin secretion, we also examined the effect of Wnt signaling on glucose-stimulated insulin secretion on human pancreatic islets.METHODS: This was a matched case-control study. We used several methods to assess glucose and lipid metabolism in 11 individuals with HBM-causing mutations in LRP5. Affected study participants were recruited from previously identified kindreds with HBM-causing LRP5 mutations and included 9 males and 2 females. Two subjects that were being treated with insulin for type 2 diabetes were excluded from our analysis, as this would have obscured our ability to determine the impact of gain-of-function LRP5 mutations on glucose metabolism. The mean age of the evaluated study subjects was 55 ± 7 with a mean BMI of 27.2 ± 2.0. Control subjects were matched and recruited from the general community at an equivalent r

Published
2017

7. Traumatologie des Urogenitaltraktes

Author

Braedel, H. U., primary, Bright, T. C., additional, Chlepas, S., additional, Durben, G., additional, Kibbey, R. G., additional, Melchior, H., additional, Peters, P. C., additional, Rathert, P., additional, Sigel, A., additional, and Trentz, O., additional

Published
1981
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8. Diabetes - clinical

Author

Guebre-Egziabher, F., primary, Alves, T. C., additional, Perry, R. J., additional, Rahimi, Y., additional, Majumdar, S. K., additional, Ioja, S., additional, Kumashiro, N., additional, Kahn, M., additional, Zhang, D., additional, Kibbey, R., additional, Shulman, G. I., additional, Chau, Y.-Y., additional, Lee, L.-C., additional, Lee, C.-T., additional, Chen, J.-B., additional, Lee, W.-C., additional, Chiu, C.-H., additional, Ishimura, E., additional, Mori, K., additional, Wanibuchi, H., additional, Inaba, M., additional, Nakatani, S., additional, Bekker, P., additional, Charvat, T., additional, Miao, S., additional, Dairaghi, D., additional, Lohr, L., additional, Sullivan, T., additional, Seitz, L., additional, Miao, Z., additional, Powers, J., additional, Jaen, J., additional, Schall, T., additional, Idorn, T., additional, Knop, F., additional, Holst, J., additional, Hornum, M., additional, Feldt-Rasmussen, B., additional, Cucchiari, D., additional, Merizzoli, E., additional, Podesta, M., additional, Calvetta, A., additional, Angelini, C., additional, and Badalamenti, S., additional

Published
2013
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9. Through the leaves, March 1920

Author

Great Western Sugar Company, publisher; McCreery, N. R., author; Lowden, Frank O., author; Robbins, W. W., author; Rodewald, B. G., author; McMaster, P. H., author; Kibbey, R. C., author; Maxson, A. C.; Mayfield, Charles, author; Smith, George A., author; Raynor, O. S., author; Cooper, F. L., author; Brown, W. W., author and Great Western Sugar Company, publisher; McCreery, N. R., author; Lowden, Frank O., author; Robbins, W. W., author; Rodewald, B. G., author; McMaster, P. H., author; Kibbey, R. C., author; Maxson, A. C.; Mayfield, Charles, author; Smith, George A., author; Raynor, O. S., author; Cooper, F. L., author; Brown, W. W., author

Abstract

Includes articles, photographs, and illustrations related to beet farming in Colorado.

Published
1920

10. Through the leaves, 1917

Author

McCreery, N. R., author; Mendelson, H., author; Maxson, Asa C., author; Griffin, H. H., author; Jarrell, J. F., author; Mc Murdo, George A., author; Williams, Alfred R., author; Huelskemper, E. H., author; Morrill, W. J., author; Vaplon, W. E., author; Knutson, George, author; Edgell, S. M., author; Kibbey, R. C., author; Simpson, H. H., author; Ogilvy, Lord, author; Bell, E. P., author; Andrews, H. G., author; Leiper, T. E., author; Thomas, D. W., author; Young, George M., author; Harding, W., author; Hartman, Grant, author; Brock, J. A., author; O’Donnell, I. D., author; Cady, Daniel L., author; Bowers, W. E., author; Dinsmore, Wayne, author; Gilbert, A. H., author; Cooper, Thomas P., author; Griffin, Myron H., author; Eckles, C. H., author; Larson, John C., Jr., author; Scilley, H., author; Snow, Charles, author; Huelskemper, E. H., author; Youngblood, B., author; Vrooman, Carl, author; Wheelon, J. C., author; Bray, Charles I., author; House, E. B., author; Garey, L. F., author; Purvis, Miller, author and McCreery, N. R., author; Mendelson, H., author; Maxson, Asa C., author; Griffin, H. H., author; Jarrell, J. F., author; Mc Murdo, George A., author; Williams, Alfred R., author; Huelskemper, E. H., author; Morrill, W. J., author; Vaplon, W. E., author; Knutson, George, author; Edgell, S. M., author; Kibbey, R. C., author; Simpson, H. H., author; Ogilvy, Lord, author; Bell, E. P., author; Andrews, H. G., author; Leiper, T. E., author; Thomas, D. W., author; Young, George M., author; Harding, W., author; Hartman, Grant, author; Brock, J. A., author; O’Donnell, I. D., author; Cady, Daniel L., author; Bowers, W. E., author; Dinsmore, Wayne, author; Gilbert, A. H., author; Cooper, Thomas P., author; Griffin, Myron H., author; Eckles, C. H., author; Larson, John C., Jr., author; Scilley, H., author; Snow, Charles, author; Huelskemper, E. H., author; Youngblood, B., author; Vrooman, Carl, author; Wheelon, J. C., author; Bray, Charles I., author; House, E. B., author; Garey, L. F., author; Purvis, Miller, author

Abstract

Issues of Through the Leaves for the year 1917 (volume 5). Includes articles, photographs, and illustrations related to beet farming in Colorado.

Published
1917

12. Verletzungen der Genitalorgane

Author

Rathert, P., Andersson, L., editor, Gittes, R. F., editor, Goodwin, W. E., editor, Lutzeyer, W., editor, Zingg, E., editor, Braedel, H. U., Bright, T. C., III, Chlepas, S., Durben, G., Kibbey, R. G., III, Melchior, H., Peters, P. C., Rathert, P., Sigel, A., and Trentz, O.

Published
1981
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14. Verletzungen der Harnröhre und der Harnblase

Author

Sigel, A., Chlepas, S., Andersson, L., editor, Gittes, R. F., editor, Goodwin, W. E., editor, Lutzeyer, W., editor, Zingg, E., editor, Braedel, H. U., Bright, T. C., III, Chlepas, S., Durben, G., Kibbey, R. G., III, Melchior, H., Peters, P. C., Rathert, P., Sigel, A., and Trentz, O.

Published
1981
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15. Stumpfe, nicht penetrierende Verletzungen des Harnleiters

Author

Melchior, H., Andersson, L., editor, Gittes, R. F., editor, Goodwin, W. E., editor, Lutzeyer, W., editor, Zingg, E., editor, Braedel, H. U., Bright, T. C., III, Chlepas, S., Durben, G., Kibbey, R. G., III, Melchior, H., Peters, P. C., Rathert, P., Sigel, A., and Trentz, O.

Published
1981
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17. Verletzungen der Niere

Author

Lutzeyer, W., Andersson, L., editor, Gittes, R. F., editor, Goodwin, W. E., editor, Lutzeyer, W., editor, Zingg, E., editor, Braedel, H. U., Bright, T. C., III, Chlepas, S., Durben, G., Kibbey, R. G., III, Melchior, H., Peters, P. C., Rathert, P., Sigel, A., and Trentz, O.

Published
1981
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18. Phosphoenolpyruvate carboxykinase-2 (PCK2) is a therapeutic target in triple-negative breast cancer.

Author

Gunasekharan V, Lin HK, Marczyk M, Rios-Hoyo A, Campos GE, Shan NL, Ahmed M, Umlauf S, Gareiss P, Raaisa R, Williams R, Cardone R, Siebel S, Kibbey R, Surovtseva YV, and Pusztai L

Subjects
Humans, Cell Line, Tumor, Female, Enzyme Inhibitors pharmacology, Phosphoenolpyruvate Carboxykinase (ATP) metabolism, Phosphoenolpyruvate Carboxykinase (ATP) genetics, Phosphoenolpyruvate Carboxykinase (ATP) antagonists & inhibitors, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Cell Survival drug effects, Small Molecule Libraries pharmacology, Triple Negative Breast Neoplasms drug therapy, Triple Negative Breast Neoplasms pathology, Triple Negative Breast Neoplasms metabolism, Phosphoenolpyruvate Carboxykinase (GTP) metabolism, Phosphoenolpyruvate Carboxykinase (GTP) genetics, Phosphoenolpyruvate Carboxykinase (GTP) antagonists & inhibitors, Cell Proliferation drug effects
Abstract

Purpose: Metabolic rewiring in malignant transformation is often accompanied by altered expression of metabolic isozymes. Phosphoenolpyruvate carboxykinase-2 (PCK2) catalyzes the rate-limiting step of gluconeogenesis and is the dominant isoform in many cancers including triple-negative breast cancer (TNBC). Our goal was to identify small molecule inhibitors of PCK2 enzyme activity., Methods: We assessed the impact of PCK2 down regulation with shRNA on TNBC cell growth in vitro and used AtomNet® deep convolutional neural network software to identify potential small molecule inhibitors of PCK2-based structure. We iteratively tested candidate compounds in an in vitro PCK-2 enzyme assay. The impact of the top hit on metabolic flux and cell viability was also assessed., Results: PCK2 downregulation decreased growth of BT-549 and MDA-MB-231 cells and reduced metabolic flux through pyruvate carboxylase. The first AtomNet® in silico structural screen of 7 million compounds yielded 86 structures that were tested in PCK2 enzyme assay in vitro. The top hit (IC 50  = 2.4 µM) was used to refine a second round of in silico screen that yielded 82 candidates to be tested in vitro, which resulted in 45 molecules with inhibition > 20%. In the second in vitro screen we also included 3-(3,4-dihydroxyphenyl)-2-hydroxypropanoate, previously suggested to be PCK2 inhibitor based on structure, which emerged as the top hit. The specificity of this compound was tested in PCK1 and PCK2 enzymatic assays and showed IC 50 of 500 nM and 3.5-27 nM for PCK1 and PCK2, respectively., Conclusion: 3-(3,4-dihydroxyphenyl)-2-hydroxypropanoate is a high affinity PCK2 enzyme inhibitor that also has significant growth inhibitory activity in breast cell lines in vitro and represents a potential therapeutic lead compound., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2024
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19. CALHM2 is a mitochondrial protein import channel that regulates fatty acid metabolism.

Author

Jonas E, Mnatsakanyan N, Rivera-Molina F, Robson A, Garfinkel AM, Kumar A, Batter S, Padovano V, Webster K, Cardone R, Berg J, Toomre D, Kibbey R 4th, Caplan M, and Khokha M

Abstract

For mitochondrial metabolism to occur in the matrix, multiple proteins must be imported across the two (inner and outer) mitochondrial membranes. Classically, two protein import channels, TIM/TOM, are known to perform this function, but whether other protein import channels exist is not known. Here, using super-resolution microscopy, proteomics, and electrophysiological techniques, we identify CALHM2 as the import channel for the ECHA subunit of the mitochondrial trifunctional protein (mTFP), which catalyzes β-oxidation of fatty acids in the mitochondrial matrix. We find that CALHM2 sits specifically at the inner mitochondrial and cristae membranes and is critical for membrane morphology. Depletion of CALHM2 leads to a mislocalization of ECHA outside of the mitochondria leading to severe cellular metabolic defects. These defects include cytosolic accumulation of fatty acids, depletion of tricarboxylic acid cycle enzymes and intermediates, and reduced cellular respiration. Our data identify CALHM2 as an essential protein import channel that is critical for fatty acid- and glucose-dependent aerobic metabolism., Competing Interests: Additional Declarations: Yes there is potential Competing Interest. Mustafa Khokha is a founder of Victory Genomics

Published
2024
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20. Suppression of angiopoietin-like 4 reprograms endothelial cell metabolism and inhibits angiogenesis.

Author

Chaube B, Citrin KM, Sahraei M, Singh AK, de Urturi DS, Ding W, Pierce RW, Raaisa R, Cardone R, Kibbey R, Fernández-Hernando C, and Suárez Y

Subjects
Animals, Mice, Angiopoietin-Like Protein 4 genetics, Angiopoietin-Like Protein 4 metabolism, Angiopoietins metabolism, Mice, Knockout, Angiogenesis, Endothelial Cells metabolism
Abstract

Angiopoietin-like 4 (ANGPTL4) is known to regulate various cellular and systemic functions. However, its cell-specific role in endothelial cells (ECs) function and metabolic homeostasis remains to be elucidated. Here, using endothelial-specific Angptl4 knock-out mice (Angptl4 iΔEC ), and transcriptomics and metabolic flux analysis, we demonstrate that ANGPTL4 is required for maintaining EC metabolic function vital for vascular permeability and angiogenesis. Knockdown of ANGPTL4 in ECs promotes lipase-mediated lipoprotein lipolysis, which results in increased fatty acid (FA) uptake and oxidation. This is also paralleled by a decrease in proper glucose utilization for angiogenic activation of ECs. Mice with endothelial-specific deletion of Angptl4 showed decreased pathological neovascularization with stable vessel structures characterized by increased pericyte coverage and reduced permeability. Together, our study denotes the role of endothelial-ANGPTL4 in regulating cellular metabolism and angiogenic functions of EC., (© 2023. The Author(s).)

Published
2023
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21. UCP2-dependent redox sensing in POMC neurons regulates feeding.

Author

Yoon NA, Jin S, Kim JD, Liu ZW, Sun Q, Cardone R, Kibbey R, and Diano S

Subjects
Mice, Animals, Glucose metabolism, Neurons metabolism, Lactates metabolism, Hypothalamus metabolism, Uncoupling Protein 2 metabolism, Pro-Opiomelanocortin metabolism, NAD metabolism
Abstract

Paradoxically, glucose, the primary driver of satiety, activates a small population of anorexigenic pro-opiomelanocortin (POMC) neurons. Here, we show that lactate levels in the circulation and in the cerebrospinal fluid are elevated in the fed state and the addition of lactate to glucose activates the majority of POMC neurons while increasing cytosolic NADH generation, mitochondrial respiration, and extracellular pyruvate levels. Inhibition of lactate dehydrogenases diminishes mitochondrial respiration, NADH production, and POMC neuronal activity. However, inhibition of the mitochondrial pyruvate carrier has no effect. POMC-specific downregulation of Ucp2 (Ucp2 PomcKO ), a molecule regulated by fatty acid metabolism and shown to play a role as transporter in the malate-aspartate shuttle, abolishes lactate- and glucose-sensing of POMC neurons. Ucp2 PomcKO mice have impaired glucose metabolism and are prone to obesity on a high-fat diet. Altogether, our data show that lactate through redox signaling and blocking mitochondrial glucose utilization activates POMC neurons to regulate feeding and glucose metabolism., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2022
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22. Comprehensive Analysis of Metabolic Isozyme Targets in Cancer.

Author

Marczyk M, Gunasekharan V, Casadevall D, Qing T, Foldi J, Sehgal R, Shan NL, Blenman KRM, O'Meara TA, Umlauf S, Surovtseva YV, Muthusamy V, Rinehart J, Perry RJ, Kibbey R, Hatzis C, and Pusztai L

Subjects
Cell Line, Tumor, Female, Humans, Kinetics, Breast Neoplasms genetics, Isoenzymes genetics, Isoenzymes metabolism
Abstract

Metabolic reprogramming is a hallmark of malignant transformation, and loss of isozyme diversity (LID) contributes to this process. Isozymes are distinct proteins that catalyze the same enzymatic reaction but can have different kinetic characteristics, subcellular localization, and tissue specificity. Cancer-dominant isozymes that catalyze rate-limiting reactions in critical metabolic processes represent potential therapeutic targets. Here, we examined the isozyme expression patterns of 1,319 enzymatic reactions in 14 cancer types and their matching normal tissues using The Cancer Genome Atlas mRNA expression data to identify isozymes that become cancer-dominant. Of the reactions analyzed, 357 demonstrated LID in at least one cancer type. Assessment of the expression patterns in over 600 cell lines in the Cancer Cell Line Encyclopedia showed that these reactions reflect cellular changes instead of differences in tissue composition; 50% of the LID-affected isozymes showed cancer-dominant expression in the corresponding cell lines. The functional importance of the cancer-dominant isozymes was assessed in genome-wide CRISPR and RNAi loss-of-function screens: 17% were critical for cell proliferation, indicating their potential as therapeutic targets. Lists of prioritized novel metabolic targets were developed for 14 cancer types; the most broadly shared and functionally validated target was acetyl-CoA carboxylase 1 (ACC1). Small molecule inhibition of ACC reduced breast cancer viability in vitro and suppressed tumor growth in cell line- and patient-derived xenografts in vivo. Evaluation of the effects of drug treatment revealed significant metabolic and transcriptional perturbations. Overall, this systematic analysis of isozyme expression patterns elucidates an important aspect of cancer metabolic plasticity and reveals putative metabolic vulnerabilities., Significance: This study exploits the loss of metabolic isozyme diversity common in cancer and reveals a rich pool of potential therapeutic targets that will allow the repurposing of existing inhibitors for anticancer therapy. See related commentary by Kehinde and Parker, p. 1695., (©2022 American Association for Cancer Research.)

Published
2022
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23. Glutamate is a positive autocrine signal for glucagon release.

Author

Cabrera O, Jacques-Silva MC, Speier S, Yang SN, Köhler M, Fachado A, Vieira E, Zierath JR, Kibbey R, Berman DM, Kenyon NS, Ricordi C, Caicedo A, and Berggren PO

Subjects
Animals, Blood Glucose, Cells, Cultured, Glucagon-Secreting Cells physiology, Haplorhini, Homeostasis, Humans, Mice, Receptors, AMPA metabolism, Receptors, Kainic Acid, Receptors, Metabotropic Glutamate, Autocrine Communication, Glucagon metabolism, Glucagon-Secreting Cells metabolism, Glutamic Acid physiology
Abstract

An important feature of glucose homeostasis is the effective release of glucagon from the pancreatic alpha cell. The molecular mechanisms regulating glucagon secretion are still poorly understood. We now demonstrate that human alpha cells express ionotropic glutamate receptors (iGluRs) that are essential for glucagon release. A lowering in glucose concentration results in the release of glutamate from the alpha cell. Glutamate then acts on iGluRs of the AMPA/kainate type, resulting in membrane depolarization, opening of voltage-gated Ca(2+) channels, increase in cytoplasmic free Ca(2+) concentration, and enhanced glucagon release. In vivo blockade of iGluRs reduces glucagon secretion and exacerbates insulin-induced hypoglycemia in mice. Hence, the glutamate autocrine feedback loop endows the alpha cell with the ability to effectively potentiate its own secretory activity. This is a prerequisite to guarantee adequate glucagon release despite relatively modest changes in blood glucose concentration under physiological conditions.

Published
2008
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24. Mitochondrial dysfunction due to long-chain Acyl-CoA dehydrogenase deficiency causes hepatic steatosis and hepatic insulin resistance.

Author

Zhang D, Liu ZX, Choi CS, Tian L, Kibbey R, Dong J, Cline GW, Wood PA, and Shulman GI

Subjects
Acyl Coenzyme A metabolism, Animals, Calorimetry, Carbon Isotopes, Diglycerides biosynthesis, Energy Metabolism drug effects, Fatty Liver pathology, Gene Expression Regulation drug effects, Glucose metabolism, Homeostasis drug effects, Insulin pharmacology, Liver metabolism, Mice, Mitochondria drug effects, Muscle, Skeletal drug effects, Muscle, Skeletal metabolism, Oxidation-Reduction drug effects, Protein Kinase C-epsilon metabolism, Signal Transduction drug effects, Triglycerides biosynthesis, Acyl-CoA Dehydrogenase, Long-Chain deficiency, Fatty Liver enzymology, Insulin Resistance physiology, Liver enzymology, Liver pathology, Mitochondria enzymology, Mitochondria pathology
Abstract

Alterations in mitochondrial function have been implicated in the pathogenesis of insulin resistance and type 2 diabetes. However, it is unclear whether the reduced mitochondrial function is a primary or acquired defect in this process. To determine whether primary defects in mitochondrial beta-oxidation can cause insulin resistance, we studied mice with a deficiency of long-chain acyl-CoA dehydrogenase (LCAD), a key enzyme in mitochondrial fatty acid oxidation. Here, we show that LCAD knockout mice develop hepatic steatosis, which is associated with hepatic insulin resistance, as reflected by reduced insulin suppression of hepatic glucose production during a hyperinsulinemic-euglycemic clamp. The defects in insulin action were associated with an approximately 40% reduction in insulin-stimulated insulin receptor substrate-2-associated phosphatidylinositol 3-kinase activity and an approximately 50% decrease in Akt2 activation. These changes were associated with increased PKCepsilon activity and an aberrant 4-fold increase in diacylglycerol content after insulin stimulation. The increase in diacylglycerol concentration was found to be caused by de novo synthesis of diacylglycerol from medium-chain acyl-CoA after insulin stimulation. These data demonstrate that primary defects in mitochondrial fatty acid oxidation capacity can lead to diacylglycerol accumulation, PKCepsilon activation, and hepatic insulin resistance.

Published
2007
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25. The LDL receptor clustering motif interacts with the clathrin terminal domain in a reverse turn conformation.

Author

Kibbey RG, Rizo J, Gierasch LM, and Anderson RG

Subjects
Adaptor Protein Complex 2, Adaptor Protein Complex alpha Subunits, Adaptor Proteins, Vesicular Transport, Animals, Binding Sites, Cattle, Clathrin genetics, Membrane Proteins metabolism, Models, Molecular, Nuclear Magnetic Resonance, Biomolecular, Receptors, LDL genetics, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Clathrin metabolism, Protein Conformation, Receptors, LDL chemistry, Receptors, LDL metabolism
Abstract

Previously the hexapeptide motif FXNPXY807 in the cytoplasmic tail of the LDL receptor was shown to be essential for clustering in clathrin-coated pits. We used nuclear magnetic resonance line-broadening and transferred nuclear Overhauser effect measurements to identify the molecule in the clathrin lattice that interacts with this hexapeptide, and determined the structure of the bound motif. The wild-type peptide bound in a single conformation with a reverse turn at residues NPVY. Tyr807Ser, a peptide that harbors a mutation that disrupts receptor clustering, displayed markedly reduced interactions. Clustering motif peptides interacted with clathrin cages assembled in the presence or absence of AP2, with recombinant clathrin terminal domains, but not with clathrin hubs. The identification of terminal domains as the primary site of interaction for FXNPXY807 suggests that adaptor molecules are not required for receptor-mediated endocytosis of LDL, and that at least two different tyrosine-based internalization motifs exist for clustering receptors in coated pits.

Published
1998
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26. Sternal splitting midline incision.

Author

Kibbey RG and Allen TD

Subjects
Adenocarcinoma pathology, Adult, Humans, Lung pathology, Lung Neoplasms pathology, Male, Methods, Neoplasm Metastasis, Adenocarcinoma surgery, Kidney Neoplasms surgery, Lung Neoplasms surgery, Sternum surgery
Published
1974
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27. Patch graft urethroplasty: a review with emphasis on use for strictures in the region of the membranous urethra.

Author

Kibbey RG 3rd

Subjects
Adolescent, Adult, Aged, Child, Humans, Male, Methods, Middle Aged, Transplantation, Autologous, Skin Transplantation, Urethra surgery, Urethral Stricture surgery
Abstract

A series of 40 patch graft urethroplasties is presented. The surgical technique, with versatility of the procedure and its application to repair of strictures in the membranous urethra are discussed.

Published
1976
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