93 Publications (Page 3 of 4)
2008
Oxidative stress impairs endothelial progenitor cell function.Case, Jamie⋅Ingram, David A and Haneline, Laura SAntioxidants & redox signaling, vol. 10, (no. 11), pp. 1895-907, 2008/Nov.
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Pak1 regulates multiple c-Kit mediated Ras-MAPK gain-in-function phenotypes in Nf1+/- mast cells.McDaniel, Andrew S⋅McDaniel, Andrew S⋅Allen, Jayme D⋅Allen, Jayme D⋅Park, Su-Jung⋅Park, Su-Jung⋅Jaffer, Zahara M⋅Jaffer, Zahara M⋅Michels, Elizabeth G⋅Michels, Elizabeth G⋅Burgin, Sarah J⋅Burgin, Sarah J⋅Chen, Shi⋅Chen, Shi⋅Bessler, Waylan K⋅Bessler, Waylan K⋅Hofmann, Clemens⋅Hofmann, Clemens⋅Ingram, David A⋅Ingram, David A⋅Chernoff, Jonathan⋅Chernoff, Jonathan⋅Clapp, D Wade and Clapp, D. WBlood, vol. 112, (no. 12), pp. 4646-54, 2008/Dec/1.
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Periostin is required for maturation and extracellular matrix stabilization of noncardiomyocyte lineages of the heart.Snider, Paige⋅Snider, Paige⋅Snider, Paige⋅Hinton, Robert⋅Hinton, Robert B⋅Hinton, Robert⋅Moreno-Rodriguez, Ricardo⋅Moreno-Rodriguez, Ricardo A⋅Moreno-Rodriguez, Ricardo⋅Wang, Jian⋅Wang, Jian⋅Wang, Jian⋅Rogers, Rhonda⋅Rogers, Rhonda⋅Rogers, Rhonda⋅Lindsley, Andrew⋅Lindsley, Andrew⋅Lindsley, Andrew⋅Li, Fang⋅Li, Fang⋅Li, Fang⋅Ingram, David A⋅Ingram, David⋅Ingram, David⋅Menick, Donald⋅Menick, Donald⋅Menick, Donald R⋅Field, Loren⋅Field, Loren J⋅Field, Loren⋅Firulli, Anthony⋅Firulli, Anthony B⋅Firulli, Anthony⋅Molkentin, Jeffery⋅Molkentin, Jeffery⋅Molkentin, Jeffery D⋅Markwald, Roger⋅Markwald, Roger⋅Markwald, Roger⋅Conway, Simon⋅Conway, Simon J and Conway, SimonCirculation research, vol. 102, (no. 7), pp. 752-60, 2008/Apr/11.
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Rap1a Is a Key Regulator of Fibroblast Growth Factor 2-Induced Angiogenesis and Together with Rap1b Controls Human Endothelial Cell FunctionsYan, Jingliang⋅Yan, Jingliang⋅Li, Fang⋅Li, Fang⋅Ingram, David A⋅Ingram, David⋅Quilliam, Lawrence and Quilliam, Lawrence AMolecular and Cellular Biology, vol. 28, (no. 18), pp. 5810, 20080915.
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2007
Acute Myocardial Infarction in Swine Rapidly and Selectively Releases Highly Proliferative Endothelial Colony Forming Cells (ECFCs) into CirculationHuang, Lan⋅Huang, Lan⋅Hou, Dongming⋅Hou, Dongming⋅Thompson, Meredith A⋅Thompson, Meredith A⋅Baysden, Sarah E⋅Baysden, Sarah E⋅Shelley, W C⋅Shelley, W. Christopher⋅Ingram, David A⋅Ingram, David A⋅March, Keith L⋅March, Keith L⋅Yoder, Mervin C and Yoder, Mervin CCell Transplantation, vol. 16, (no. 9), pp. 897, 20071000.
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Clonogenic Endothelial Progenitor Cells Are Sensitive to Oxidative StressIngram, David A⋅Krier, Theresa R⋅Mead, Laura E⋅McGuire, Colleen⋅Prater, Daniel N⋅Bhavsar, Janak⋅Saadatzadeh, MReza⋅Bijangi-Vishehsaraei, Khadijeh⋅Li, Fang⋅Yoder, Mervin C and Haneline, Laura SStem Cells, vol. 25, (no. 2), pp. 297-304, 2007.
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Human CD34+ AC133+ VEGFR-2+ cells are not endothelial progenitor cells but distinct, primitive hematopoietic progenitorsCase, Jamie⋅Case, Jamie⋅Mead, Laura⋅Mead, Laura E⋅Bessler, Waylan⋅Bessler, Waylan K⋅Prater, Daniel⋅Prater, Daniel⋅White, Hilary A⋅White, Hilary⋅Saadatzadeh, M R⋅Saadatzadeh, M.⋅Bhavsar, Janak R⋅Bhavsar, Janak⋅Yoder, Mervin⋅Yoder, Mervin C⋅Haneline, Laura S⋅Haneline, Laura⋅Ingram, David and Ingram, David AExperimental Hematology, vol. 35, (no. 7), pp. 1118, 2007.
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K-ras Is Critical for Modulating Multiple c-kit-Mediated Cellular Functions in Wild-Type and Nf1+/- Mast CellsKhalaf, Waleed⋅Khalaf, Waleed⋅Yang, Feng Chun⋅Yang, Feng-Chun⋅Chen, Shi⋅Chen, Shi⋅White, Hilary⋅White, Hilary⋅Bessler, Waylan⋅Bessler, Waylan⋅Ingram, David⋅Ingram, David⋅Clapp, D. and Clapp, D.The Journal of Immunology, vol. 178, (no. 4), pp. 2534, 20070215.
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Production of the endocannabinoids anandamide and 2-arachidonoylglycerol by endothelial progenitor cellsOpitz, Christiane A⋅Opitz, Christiane A⋅Rimmerman, Neta⋅Rimmerman, Neta⋅Zhang, Yanmin⋅Zhang, Yanmin⋅Mead, Laura E⋅Mead, Laura E⋅Yoder, Mervin C⋅Yoder, Mervin C⋅Ingram, David A⋅Ingram, David A⋅Walker, J. Michael⋅Walker, J M⋅Rehman, Jalees and Rehman, JaleesFEBS Letters, vol. 581, (no. 25), pp. 4931, 2007.
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Redefining endothelial progenitor cells via clonal analysis and hematopoietic stem/progenitor cell principalsYoder, Mervin C⋅Yoder, Mervin C⋅Yoder, Mervin C⋅Yoder, Mervin C⋅Mead, Laura E⋅Mead, Laura E⋅Mead, Laura E⋅Mead, Laura E⋅Prater, Daniel⋅Prater, Daniel⋅Prater, Daniel⋅Prater, Daniel⋅Krier, Theresa R⋅Krier, Theresa R⋅Krier, Theresa R⋅Krier, Theresa R⋅Mroueh, Karim N⋅Mroueh, Karim N⋅Mroueh, Karim N⋅Mroueh, Karim N⋅Li, Fang⋅Li, Fang⋅Li, Fang⋅Li, Fang⋅Krasich, Rachel⋅Krasich, Rachel⋅Krasich, Rachel⋅Krasich, Rachel⋅Temm, Constance J⋅Temm, Constance J⋅Temm, Constance J⋅Temm, Constance J⋅Prchal, Josef T⋅Prchal, Josef T⋅Prchal, Josef T⋅Prchal, Josef T⋅Ingram, David A⋅Ingram, David A⋅Ingram, David A and Ingram, David ABlood, vol. 109, (no. 5), pp. 1809, 2007-Mar-01.
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Reply to Fadini et al: Critical assessment of putative endothelial progenitor phenotypesCase, Jamie, Ph.D⋅Case, Jamie, Ph.D⋅Haneline, Laura⋅Haneline, Laura⋅Yoder, Mervin⋅Yoder, Mervin⋅Ingram, David and Ingram, DavidExperimental Hematology, vol. 35, (no. 10), pp. 1482, 2007.
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Suppression of Hepatocyte Growth Factor Production Impairs the Ability of Adipose-Derived Stem Cells to Promote Ischemic Tissue RevascularizationCai, Liying⋅Cai, Liying⋅Cai, Liying⋅Johnstone, Brian H⋅Johnstone, Brian H⋅Johnstone, Brian⋅Cook, Todd G⋅Cook, Todd G⋅Cook, Todd G⋅Liang, Zhong⋅Liang, Zhong⋅Liang, Zhong⋅Traktuev, Dmitry⋅Traktuev, Dmitry O⋅Traktuev, Dmitry⋅Cornetta, Kenneth⋅Cornetta, Kenneth⋅Cornetta, Kenneth⋅Ingram, David A⋅Ingram, David A⋅Ingram, David A⋅Rosen, Elliot D⋅Rosen, Elliot D⋅Rosen, Elliot D⋅March, Keith L⋅March, Keith L and March, Keith LStem Cells, vol. 25, (no. 12), pp. 3234-3243, 2007.
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2006
Angiogenic cells can be rapidly mobilized and efficiently harvested from the blood following treatment with AMD3100Shepherd, Rebecca M⋅Shepherd, Rebecca M⋅Capoccia, Benjamin J⋅Capoccia, Benjamin J⋅Devine, Steven M⋅Devine, Steven M⋅Di Persio, John F⋅Dipersio, John⋅Trinkaus, Kathryn M⋅Trinkaus, Kathryn M⋅Ingram, David⋅Ingram, David⋅Link, Daniel C and Link, Daniel CBlood, vol. 108, (no. 12), pp. 3667, 2006-Dec-01.
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Cord Blood Stem and Progenitor CellsBroxmeyer, Hal E⋅Broxmeyer, Hal E⋅Srour, Edward F⋅Srour, Edward⋅Orschell, Christie⋅Orschell, Christie M⋅Ingram, David A⋅Ingram, David A⋅Cooper, Scott⋅Cooper, Scott⋅Plett, P A⋅Plett, P. Artur⋅Mead, Laura E⋅Mead, Laura E⋅Yoder, Mervin C and Yoder, Mervin CMethods in Enzymology, vol. 419, pp. 473, 2006.
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Endothelial-monocyte-activating polypeptide II induces migration of endothelial progenitor cells via the chemokine receptor CXCR3.Hou, Yonghao⋅Plett, P A⋅Ingram, David A⋅Rajashekhar, Gangaraju⋅Orschell, Christie M⋅Yoder, Mervin C⋅March, Keith L and Clauss, Matthias AExperimental hematology, vol. 34, (no. 8), pp. 1125-32, 2006/Aug.
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Endothelial-monocyte–activating polypeptide II induces migration of endothelial progenitor cells via the chemokine receptor CXCR3Hou, Yonghao⋅Hou, Yonghao⋅Hou, Yonghao⋅Plett, P. Artur⋅Plett, P. Artur⋅Plett, P. Artur⋅Ingram, David A⋅Ingram, David A⋅Ingram, David A⋅Rajashekhar, Gangaraju⋅Rajashekhar, Gangaraju⋅Rajashekhar, Gangaraju⋅Orschell, Christie M⋅Orschell, Christie M⋅Orschell, Christie M⋅Yoder, Mervin C⋅Yoder, Mervin C⋅Yoder, Mervin C⋅March, Keith L⋅March, Keith L⋅March, Keith L⋅Clauss, Matthias⋅Clauss, Matthias and Clauss, MatthiasExperimental Hematology, vol. 34, (no. 8), pp. 1132, 2006.
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Genetic reduction of class IA PI-3 kinase activity alters fetal hematopoiesis and competitive repopulating ability of hematopoietic stem cells in vivo.Haneline, Laura S⋅Haneline, Laura S⋅Haneline, Laura S⋅White, Hilary⋅White, Hilary⋅White, Hilary⋅Yang, Feng-Chun⋅Yang, Feng Chun⋅Yang, Feng-Chun⋅Chen, Shi⋅Chen, Shi⋅Chen, Shi⋅Orschell, Christie⋅Orschell, Christie M⋅Orschell, Christie⋅Kapur, Reuben⋅Kapur, Reuben⋅Kapur, Reuben⋅Ingram, David A⋅Ingram, David A and Ingram, David ABlood, vol. 107, (no. 4), pp. 1375-82, 2006/Feb/15.
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Hyperactivation of p21ras and PI3K cooperate to alter murine and human neurofibromatosis type 1–haploinsufficient osteoclast functionsYang, Feng Chun⋅Yang, Feng Chun⋅Yang, Feng-Chun⋅Chen, Shi⋅Chen, Shi⋅Chen, Shi⋅Robling, Alexander G⋅Robling, Alexander G⋅Robling, Alexander⋅Yu, Xijie⋅Yu, Xijie⋅Yu, Xijie⋅Nebesio, Todd D⋅Nebesio, Todd D⋅Nebesio, Todd D⋅Yan, Jincheng⋅Yan, Jincheng⋅Yan, Jincheng⋅Morgan, Trent⋅Morgan, Trent⋅Morgan, Trent⋅Li, Xiaohong⋅Li, Xiaohong⋅Li, Xiaohong⋅Yuan, Jin⋅Yuan, Jin⋅Yuan, Jin⋅Hock, Janet⋅Hock, Janet⋅Hock, Janet⋅Ingram, David A⋅Ingram, David A⋅Ingram, David A⋅Clapp, D Wade⋅Clapp, D Wade and Clapp, DWadeThe Journal of clinical investigation, vol. 116, (no. 11), pp. 2891, 2006-Nov.
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Neurofibroma-associated growth factors activate a distinct signaling network to alter the function of neurofibromin-deficient endothelial cellsMunchhof, Amy M⋅Munchhof, Amy M⋅Li, Fang⋅Li, Fang⋅White, Hilary A⋅White, Hilary A⋅Mead, Laura E⋅Mead, Laura E⋅Krier, Theresa R⋅Krier, Theresa R⋅Fenoglio, Amy⋅Fenoglio, Amy⋅Li, Xiaohong⋅Li, Xiaohong⋅Yuan, Jin⋅Yuan, Jin⋅Yang, Feng-Chun⋅Yang, Feng Chun⋅Ingram, David A and Ingram, David AHuman molecular genetics, vol. 15, (no. 11), pp. 1869, 2006-Jun-01.
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Neurofibromin is a novel regulator of RAS-induced signals in primary vascular smooth muscle cells.Li, Fang⋅Munchhof, Amy M⋅White, Hilary A⋅Mead, Laura E⋅Krier, Theresa R⋅Fenoglio, Amy⋅Chen, Shi⋅Wu, Xiaohua⋅Cai, Shanbao⋅Yang, Feng-Chun and Ingram, David AHuman molecular genetics, vol. 15, (no. 11), pp. 1921-1930, June 1, 2006.
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Neurofibromin plays a critical role in modulating osteoblast differentiation of mesenchymal stem/progenitor cellsWu, Xiaohua⋅Wu, Xiaohua⋅Estwick, Selina A⋅Estwick, Selina A⋅Chen, Shi⋅Chen, Shi⋅Yu, Menggang⋅Yu, Menggang⋅Ming, Wenyu⋅Ming, Wenyu⋅Nebesio, Todd⋅Nebesio, Todd D⋅Li, Yan⋅Li, Yan⋅Yuan, Jin⋅Yuan, Jin⋅Kapur, Reuben⋅Kapur, Reuben⋅Ingram, David⋅Ingram, David A⋅Yoder, Mervin C⋅Yoder, Mervin C⋅Yang, Feng Chun and Yang, Feng ChunHuman Molecular Genetics, vol. 15, (no. 19), pp. 2837-45, Oct 1, 2006.
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Nf1+/- mast cells induce neurofibroma like phenotypes through secreted TGF-{beta} signalingYang, Feng Chun⋅Chen, Shi⋅Clegg, Travis⋅Li, Xiaohong⋅Morgan, Trent⋅Estwick, Selina A⋅Yuan, Jin⋅Khalaf, Waleed⋅Burgin, Sarah⋅Travers, Jeffrey B⋅Parada, Luis F⋅Ingram, David A and Clapp, DWadeHuman Molecular Genetics, vol. 15, (no. 16), pp. 2421-2437, 2006.
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Nf1+/- mast cells induce neurofibroma like phenotypes through secreted TGF-beta signaling.Yang, Feng Chun⋅Chen, Shi⋅Clegg, Travis⋅Li, Xiaohong⋅Morgan, Trent⋅Estwick, Selina A⋅Yuan, Jin⋅Khalaf, Waleed⋅Burgin, Sarah⋅Travers, Jeff⋅Parada, Luis F⋅Ingram, David A and Clapp, D WadeHuman molecular genetics, vol. 15, (no. 16), pp. 2421-2437, August 15, 2006.
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Nf1+/− mast cells induce neurofibroma like phenotypes through secreted TGF-β signalingYang, Feng-Chun⋅Yang, Feng-Chun⋅Yang, Feng Chun⋅Chen, Shi⋅Chen, Shi⋅Chen, Shi⋅Clegg, Travis⋅Clegg, Travis⋅Clegg, Travis⋅Li, Xiaohong⋅Li, Xiaohong⋅Li, Xiaohong⋅Morgan, Trent⋅Morgan, Trent⋅Morgan, Trent⋅Estwick, Selina A⋅Estwick, Selina A⋅Estwick, Selina A⋅Yuan, Jin⋅Yuan, Jin⋅Yuan, Jin⋅Khalaf, Waleed⋅Khalaf, Waleed⋅Khalaf, Waleed⋅Burgin, Sarah⋅Burgin, Sarah⋅Burgin, Sarah⋅Travers, Jeff⋅Travers, Jeff⋅Travers, Jeff⋅Parada, Luis F⋅Parada, Luis F⋅Parada, Luis F⋅Ingram, David A⋅Ingram, David A⋅Ingram, David A⋅Clapp, D Wade⋅Clapp, D Wade and Clapp, D WadeHuman molecular genetics, vol. 15, (no. 16), pp. 2437, 2006-Aug-15.
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Rac2 Concentrations in Umbilical Cord NeutrophilsMeade, Virginia M⋅Barese, Cecilia N⋅Kim, Chaekyun⋅Njinimbam, Charles G⋅Marchal, Christophe C⋅Ingram, David A⋅Clapp, DWade⋅Dinauer, Mary C and Yoder, Mervin CBiology of the Neonate, vol. 90, (no. 3), pp. 156-159, 2006.
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