Literature DB >> 18486587

Estimating glutathione synthesis with deuterated water: a model for peptide biosynthesis.

Carolina B Cabral1, Kevin H Bullock, David J Bischoff, Ronald G Tompkins, Yong M Yu, Joanne K Kelleher.   

Abstract

Glutathione (GSH), an intracellular tripeptide that combats oxidative stress, must be continually replaced due to loss through conjugation and destruction. Previous methods, estimating the synthesis of GSH in vivo, used constant infusions of labeled amino acid precursors. We developed a new method based on incorporation of (2)H from orally supplied (2)H(2)O into stable C-H bonds on the tripeptide. The incorporation of (2)H(2)O into GSH was studied in rabbits over a 2-week period. The method estimated N, the maximum number of C-H bonds in GSH that equilibrate with (2)H(2)O as amino acids. GSH was analyzed by liquid chromatography/mass spectrometry after derivatization to yield GSH-N-ethylmaleimide (GSNEM). A model, which simulated the expected abundance at each mass isotopomer for the GSNEM ion at various values for N, was used to find the best fit to the data. The plateau labeling fit best a model with N=6 of a possible 10 C-H bonds. Thus, the amino acid precursors do not completely equilibrate with (2)H(2)O prior to GSH synthesis. Advantages of this new method include replacing costly amino acid infusions with the oral administration of (2)H(2)O and a statistical basis for estimating N.

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Year:  2008        PMID: 18486587      PMCID: PMC4065382          DOI: 10.1016/j.ab.2008.04.042

Source DB:  PubMed          Journal:  Anal Biochem        ISSN: 0003-2697            Impact factor:   3.365


  18 in total

1.  Fast liquid chromatography-mass spectrometry glutathione measurement in whole blood: micromolar GSSG is a sample preparation artifact.

Authors:  Jean-Paul Steghens; Françoise Flourié; Khelifa Arab; Christian Collombel
Journal:  J Chromatogr B Analyt Technol Biomed Life Sci       Date:  2003-12-25       Impact factor: 3.205

Review 2.  Glutathione metabolism and its implications for health.

Authors:  Guoyao Wu; Yun-Zhong Fang; Sheng Yang; Joanne R Lupton; Nancy D Turner
Journal:  J Nutr       Date:  2004-03       Impact factor: 4.798

3.  Measurement of protein turnover rates by heavy water labeling of nonessential amino acids.

Authors:  Robert Busch; Yoo-Kyeong Kim; Richard A Neese; Valerie Schade-Serin; Michelle Collins; Mohamad Awada; James L Gardner; Carine Beysen; Michael E Marino; Lisa M Misell; Marc K Hellerstein
Journal:  Biochim Biophys Acta       Date:  2006-01-24

4.  Potent and specific inhibition of glutathione synthesis by buthionine sulfoximine (S-n-butyl homocysteine sulfoximine).

Authors:  O W Griffith; A Meister
Journal:  J Biol Chem       Date:  1979-08-25       Impact factor: 5.157

5.  In vivo rates of erythrocyte glutathione synthesis in children with severe protein-energy malnutrition.

Authors:  M Reid; A Badaloo; T Forrester; J F Morlese; M Frazer; W C Heird; F Jahoor
Journal:  Am J Physiol Endocrinol Metab       Date:  2000-03       Impact factor: 4.310

6.  Measurement of fractional lipid synthesis using deuterated water (2H2O) and mass isotopomer analysis.

Authors:  W N Lee; S Bassilian; Z Guo; D Schoeller; J Edmond; E A Bergner; L O Byerley
Journal:  Am J Physiol       Date:  1994-03

Review 7.  Role of the liver in interorgan homeostasis of glutathione and cyst(e)ine.

Authors:  M Ookhtens; N Kaplowitz
Journal:  Semin Liver Dis       Date:  1998       Impact factor: 6.115

8.  A rabbit model for metabolic studies after burn injury.

Authors:  R H Hu; Y M Yu; D Costa; V R Young; C M Ryan; J F Burke; R G Tompkins
Journal:  J Surg Res       Date:  1998-03       Impact factor: 2.192

9.  Quantifying rates of protein synthesis in humans by use of 2H2O: application to patients with end-stage renal disease.

Authors:  Stephen F Previs; Richard Fatica; Visvanathan Chandramouli; James C Alexander; Henri Brunengraber; Bernard R Landau
Journal:  Am J Physiol Endocrinol Metab       Date:  2003-12-23       Impact factor: 4.310

10.  Blood glutathione synthesis rates in healthy adults receiving a sulfur amino acid-free diet.

Authors:  J Lyons; A Rauh-Pfeiffer; Y M Yu; X M Lu; D Zurakowski; R G Tompkins; A M Ajami; V R Young; L Castillo
Journal:  Proc Natl Acad Sci U S A       Date:  2000-05-09       Impact factor: 11.205
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  10 in total

1.  Quantifying apoprotein synthesis in rodents: coupling LC-MS/MS analyses with the administration of labeled water.

Authors:  Haihong Zhou; Wenyu Li; Sheng-Ping Wang; Vivienne Mendoza; Raymond Rosa; James Hubert; Kithsiri Herath; Theresa McLaughlin; Rory J Rohm; Michael E Lassman; Kenny K Wong; Douglas G Johns; Stephen F Previs; Brian K Hubbard; Thomas P Roddy
Journal:  J Lipid Res       Date:  2012-03-03       Impact factor: 5.922

2.  Measuring proteome dynamics in vivo: as easy as adding water?

Authors:  Nadia Rachdaoui; Leanne Austin; Eric Kramer; Michael J Previs; Vernon E Anderson; Takhar Kasumov; Stephen F Previs
Journal:  Mol Cell Proteomics       Date:  2009-09-01       Impact factor: 5.911

3.  Quantitation of Glutathione by Quinoline-5, 8-Dione-Based Tag Strategy Using MALDI Mass Spectrometry.

Authors:  Liming Guo; Chunsheng Xiao; Sheng Wang; Tianyang Gao; Ling Ling; Xinhua Guo
Journal:  J Am Soc Mass Spectrom       Date:  2019-02-11       Impact factor: 3.109

4.  Measuring protein synthesis using metabolic ²H labeling, high-resolution mass spectrometry, and an algorithm.

Authors:  Takhar Kasumov; Serguey Ilchenko; Ling Li; Nadia Rachdaoui; Rovshan G Sadygov; Belinda Willard; Arthur J McCullough; Stephen Previs
Journal:  Anal Biochem       Date:  2011-01-20       Impact factor: 3.365

5.  Application of gas chromatography-tandem mass spectrometry (GC/MS/MS) for the analysis of deuterium enrichment of water.

Authors:  Dillon K Walker; John J Thaden; Nicolaas E P Deutz
Journal:  J Mass Spectrom       Date:  2015-06       Impact factor: 1.982

6.  In situ metabolic flux analysis to quantify the liver metabolic response to experimental burn injury.

Authors:  Maria-Louisa Izamis; Nripen S Sharma; Basak Uygun; Robert Bieganski; Nima Saeidi; Yaakov Nahmias; Korkut Uygun; Martin L Yarmush; Francois Berthiaume
Journal:  Biotechnol Bioeng       Date:  2010-12-04       Impact factor: 4.530

7.  Vitamin B-6 restriction tends to reduce the red blood cell glutathione synthesis rate without affecting red blood cell or plasma glutathione concentrations in healthy men and women.

Authors:  Yvonne Lamers; Bruce O'Rourke; Lesa R Gilbert; Christine Keeling; Dwight E Matthews; Peter W Stacpoole; Jesse F Gregory
Journal:  Am J Clin Nutr       Date:  2009-06-10       Impact factor: 7.045

8.  Dynamics of glutathione and ophthalmate traced with 2H-enriched body water in rats and humans.

Authors:  Rajan S Kombu; Guo-Fang Zhang; Rime Abbas; John J Mieyal; Vernon E Anderson; Joanne K Kelleher; Juan R Sanabria; Henri Brunengraber
Journal:  Am J Physiol Endocrinol Metab       Date:  2009-04-28       Impact factor: 4.310

9.  A Western diet induced NAFLD in LDLR(-/)(-) mice is associated with reduced hepatic glutathione synthesis.

Authors:  Ling Li; Guo-Fang Zhang; Kwangwon Lee; Rocio Lopez; Stephen F Previs; Belinda Willard; Arthur McCullough; Takhar Kasumov
Journal:  Free Radic Biol Med       Date:  2016-03-30       Impact factor: 7.376

10.  Comparing DNA enrichment of proliferating cells following administration of different stable isotopes of heavy water.

Authors:  Don E Farthing; Nataliya P Buxbaum; Philip J Lucas; Natella Maglakelidze; Brittany Oliver; Jiun Wang; Kevin Hu; Ehydel Castro; Catherine V Bare; Ronald E Gress
Journal:  Sci Rep       Date:  2017-06-22       Impact factor: 4.379
  10 in total

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