Elizabeth Villalobos-Menuey
University of Colorado Boulder
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Publication
Featured researches published by Elizabeth Villalobos-Menuey.
The FASEB Journal | 2002
Mary-Ellen Harper; Andreas Antoniou; Elizabeth Villalobos-Menuey; Alicia Russo; Richard J. Trauger; Minda Vendemelio; Amanda George; Richard M. Bartholomew; Dennis J. Carlo; Azhar Shaikh; Jami Kupperman; Evan W. Newell; Ivan A. Bespalov; Susan S. Wallace; Ye Liu; Jeffrey R. Rogers; Gregory L. Gibbs; Jack L. Leahy; R. E. Camley; Robert J. Melamede; M. Karen Newell
Acquired or inherent drug resistance is the major problem in achieving successful cancer treatment. However, the mechanism(s) of pleiotropic drug resistance remains obscure. We have identified and characterized a cellular metabolic strategy that differentiates drug‐resistant cells from drug‐sensitive cells. This strategy may serve to protect drug‐resistant cells from damage caused by chemotherapeutic agents and radiation. We show that drug‐resistant cells have low mitochondrial membrane potential, use nonglucose carbon sources (fatty acids) for mitochondrial oxygen consumption when glucose becomes limited, and are protected from exogenous stress such as radiation. In addition, drug‐resistant cells express high levels of mitochondrial uncoupling protein 2 (UCP2). The discovery of this metabolic strategy potentially facilitates the design of novel therapeutic approaches to drug resistance.—Harper, M.‐E., Antoniou, A., Villalobos‐Menuey, E., Russo, A., Trauger, R., Vendemelio, George, A. M., Bartholomew, R., Carlo, D., Shaikh, A., Kupperman, J., Newell, E. W., Bespalov, I. A., Wallace, S. S., Liu, Y., Rogers, J. R., Gibbs, G. L., Leahy, J. L., Camley, R. E., Melamede, R., Newell, M. K. Characterization of a novel metabolic strategy used by drug‐resistant tumor cells. FASEB J. 16, 1550–1557 (2002)
Pediatric Blood & Cancer | 2014
Brian R. Branchford; Katherine Ruegg; Elizabeth Villalobos-Menuey; Linda Jacobson; Jorge Di Paola; Marilyn J. Manco-Johnson
Adults with von Willebrand Disease (VWD) are known to have a ratio of factor VIII activity (FVIII:C) to von Willebrand factor antigen (VWF:Ag) greater than 1. We, however, noted healthy children with ratios that are unexpectedly high. Though the FVIII:C/VWF:Ag ratio differs significantly between healthy children and VWD patients in some age groups, the substantial overlap of observed ranges suggests that a ratio threshold‐based screening approach alone cannot reliably discriminate between these groups. The diagnostic performance of this ratio is poor for VWD in children, which may decrease its value as a screening tool in the pediatric population. Pediatr Blood Cancer 2014;61:936–939.
Archive | 2004
Martha Karen Newell; Evan Newell; Elizabeth Villalobos-Menuey
Archive | 2005
Evan Newell; Martha Karen Newell; Elizabeth Villalobos-Menuey
Archive | 2002
Martha Karen Newell Rogers; Robert E. Camley; Charles Richard Ill; Thomas M. Christensen; Z. Celinski; Richard J. Trauger; Evan W. Newell; Elizabeth Villalobos-Menuey
Blood | 2014
Kim S. John; Elizabeth Villalobos-Menuey; Matthew Hathaway; Abimbola Onasoga; Jonathan Kaufman; Eduardo DaCruz; Jorge DiPaola; Marilyn J. Manco-Johnson
Blood | 2014
Natalie L Smith; Abimbola Onasoga; Linda Jacobson; Elizabeth Villalobos-Menuey; Katherine Ruegg; Michael Wang; Marilyn J. Manco-Johnson
Blood | 2011
Deana Gordon; Michael Wang; Katherine Ruegg; Elizabeth Villalobos-Menuey; Marilyn J. Manco-Johnson
Blood | 2011
Brian R. Branchford; Elizabeth Villalobos-Menuey; Linda Jacobson; Katherine Ruegg; Neil A. Goldenberg; William E. Hathaway; Marilyn J. Manco-Johnson
Archive | 2009
M. Karen Newell; Elizabeth Villalobos-Menuey; Marilyn Burnett; Robert E. Camley
