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01.03.2015 | Original Contribution

Randomized controlled trial of oral glutathione supplementation on body stores of glutathione

verfasst von: John P. Richie Jr., Sailendra Nichenametla, Wanda Neidig, Ana Calcagnotto, Jeremy S. Haley, Todd D. Schell, Joshua E. Muscat

Erschienen in: European Journal of Nutrition | Ausgabe 2/2015

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Abstract

Purpose

Glutathione (GSH), the most abundant endogenous antioxidant, is a critical regulator of oxidative stress and immune function. While oral GSH has been shown to be bioavailable in laboratory animal models, its efficacy in humans has not been established. Our objective was to determine the long-term effectiveness of oral GSH supplementation on body stores of GSH in healthy adults.

Methods

A 6-month randomized, double-blinded, placebo-controlled trial of oral GSH (250 or 1,000 mg/day) on GSH levels in blood, erythrocytes, plasma, lymphocytes and exfoliated buccal mucosal cells was conducted in 54 non-smoking adults. Secondary outcomes on a subset of subjects included a battery of immune markers.

Results

GSH levels in blood increased after 1, 3 and 6 months versus baseline at both doses. At 6 months, mean GSH levels increased 30–35 % in erythrocytes, plasma and lymphocytes and 260 % in buccal cells in the high-dose group (P < 0.05). GSH levels increased 17 and 29 % in blood and erythrocytes, respectively, in the low-dose group (P < 0.05). In most cases, the increases were dose and time dependent, and levels returned to baseline after a 1-month washout period. A reduction in oxidative stress in both GSH dose groups was indicated by decreases in the oxidized to reduced glutathione ratio in whole blood after 6 months. Natural killer cytotoxicity increased >twofold in the high-dose group versus placebo (P < 0.05) at 3 months.

Conclusions

These findings show, for the first time, that daily consumption of GSH supplements was effective at increasing body compartment stores of GSH.

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Lu SC (1999) Regulation of hepatic glutathione synthesis: current concepts and controversies. Faseb J 13:1169–1183

Meister A, Anderson ME (1983) Glutathione. Annu Rev Biochem 52:711–760CrossRef

Vina J (1990) Glutathione: metabolism and physiological functions. CRC Press, Boca Raton

Giustarini D, Rossi R, Milzani A, Colombo R, Dalle-Donne I (2004) S-glutathionylation: from redox regulation of protein functions to human diseases. J Cell Mol Med 8:201–212CrossRef

Forman HJ, Zhang H, Rinna A (2009) Glutathione: overview of its protective roles, measurement, and biosynthesis. Mol Aspects Med 30:1–12. doi:10.1016/j.mam.2008.08.006 CrossRef

Griffith OW (1999) Biologic and pharmacologic regulation of mammalian glutathione synthesis. Free Radic Biol Med 27:922–935CrossRef

Zhang H, Forman HJ (2012) Glutathione synthesis and its role in redox signaling. Semin Cell Dev Biol 23:722–728. doi:10.1016/j.semcdb.2012.03.017 CrossRef

Budihardjo I, Oliver H, Lutter M, Luo X, Wang X (1999) Biochemical pathways of caspase activation during apoptosis. Annu Rev Cell Dev Biol 15:269–290CrossRef

Jollow DJ (1980) Glutathione thresholds in reactive metabolite toxicity. Arch Toxicol Suppl 3:95–110CrossRef

10.

Ellouk-Achard S, Levresse V, Martin C, Pham-Huy C, Dutertre-Catella H, Thevenin M, Warnet JM, Claude JR (1995) Ex vivo and in vitro models in acetaminophen hepatotoxicity studies. Relationship between glutathione depletion, oxidative stress and disturbances in calcium homeostasis and energy metabolism. Arch Toxicol Suppl 17:209–214CrossRef

11.

Townsend DM, Tew KD, Tapiero H (2003) The importance of glutathione in human disease. Biomed Pharmacother 57:145–155CrossRef

12.

Nuttall SL, Martin U, Sinclair AJ, Kendall MJ (1998) Glutathione: in sickness and in health. Lancet 351:645–646CrossRef

13.

Julius M, Lang CA, Gleiberman L, Harburg E, DiFranceisco W, Schork A (1994) Glutathione and morbidity in a community-based sample of elderly. J Clin Epidemiol 47:1021–1026CrossRef

14.

Vogt BL, Richie JP Jr (1993) Fasting-induced depletion of glutathione in the aging mouse. Biochem Pharmacol 46:257–263CrossRef

15.

Jaeschke H, Wendel A (1985) Diurnal fluctuation and pharmacological alteration of mouse organ glutathione content. Biochem Pharmacol 34:1029–1033CrossRef

16.

Flagg EW, Coates RJ, Eley JW, Jones DP, Gunter EW, Byers TE, Block GS, Greenberg RS (1994) Dietary glutathione intake in humans and the relationship between intake and plasma total glutathione level. Nutr Cancer 21:33–46CrossRef

17.

Flagg EW, Coates RJ, Jones DP, Byers TE, Greenberg RS, Gridley G, McLaughlin JK, Blot WJ, Haber M, Preston-Martin S et al (1994) Dietary glutathione intake and the risk of oral and pharyngeal cancer. Am J Epidemiol 139:453–465

18.

Favilli F, Marraccini P, Iantomasi T, Vincenzini MT (1997) Effect of orally administered glutathione on glutathione levels in some organs of rats: role of specific transporters. Br J Nutr 78:293–300CrossRef

19.

Kariya C, Leitner H, Min E, van Heeckeren C, van Heeckeren A, Day BJ (2007) A role for CFTR in the elevation of glutathione levels in the lung by oral glutathione administration. Am J Physiol Lung Cell Mol Physiol 292:L1590–L1597. doi:10.1152/ajplung.00365.2006 CrossRef

20.

Aw TY, Wierzbicka G, Jones DP (1991) Oral glutathione increases tissue glutathione in vivo. Chem Biol Interact 80:89–97CrossRef

21.

Hagen TM, Wierzbicka GT, Sillau AH, Bowman BB, Jones DP (1990) Bioavailability of dietary glutathione: effect on plasma concentration. Am J Physiol 259:G524–G529

22.

Vina J, Perez C, Furukawa T, Palacin M, Vina JR (1989) Effect of oral glutathione on hepatic glutathione levels in rats and mice. Br J Nutr 62:683–691CrossRef

23.

Hunjan MK, Evered DF (1985) Absorption of glutathione from the gastro-intestinal tract. Biochim Biophys Acta 815:184–188CrossRef

24.

Furukawa T, Meydani SN, Blumberg JB (1987) Reversal of age-associated decline in immune responsiveness by dietary glutathione supplementation in mice. Mech Ageing Dev 38:107–117CrossRef

25.

Cai J, Chen Y, Seth S, Furukawa S, Compans RW, Jones DP (2003) Inhibition of influenza infection by glutathione. Free Radic Biol Med 34:928–936CrossRef

26.

Novi AM (1981) Regression of aflatoxin B1-induced hepatocellular carcinomas by reduced glutathione. Science 212:541–542CrossRef

27.

Trickler D, Shklar G, Schwartz J (1993) Inhibition of oral carcinogenesis by glutathione. Nutr Cancer 20:139–144CrossRef

28.

Schwartz JL, Shklar G (1996) Glutathione inhibits experimental oral carcinogenesis, p53 expression, and angiogenesis. Nutr Cancer 26:229–236CrossRef

29.

Shklar G, Schwartz J, Trickler D, Cheverie SR (1993) The effectiveness of a mixture of beta-carotene, alpha-tocopherol, glutathione, and ascorbic acid for cancer prevention. Nutr Cancer 20:145–151CrossRef

30.

Iantomasi T, Favilli F, Marraccini P, Magaldi T, Bruni P, Vincenzini MT (1997) Glutathione transport system in human small intestine epithelial cells. Biochim Biophys Acta 1330:274–283CrossRef

31.

Witschi A, Reddy S, Stofer B, Lauterburg BH (1992) The systemic availability of oral glutathione. Eur J Clin Pharmacol 43:667–669CrossRef

32.

Muscat JE, Kleinman W, Colosimo S, Muir A, Lazarus P, Park J, Richie JP Jr (2004) Enhanced protein glutathiolation and oxidative stress in cigarette smokers. Free Radic Biol Med 36:464–470CrossRef

33.

Droge W, Breitkreutz R (2000) Glutathione and immune function. Proc Nutr Soc 59:595–600CrossRef

34.

Hamilos DL, Zelarney P, Mascali JJ (1989) Lymphocyte proliferation in glutathione-depleted lymphocytes: direct relationship between glutathione availability and the proliferative response. Immunopharmacology 18:223–235CrossRef

35.

Hamilos DL, Wedner HJ (1985) The role of glutathione in lymphocyte activation. I. Comparison of inhibitory effects of buthionine sulfoximine and 2-cyclohexene-1-one by nuclear size transformation. J Immunol 135:2740–2747

36.

Gmunder H, Droge W (1991) Differential effects of glutathione depletion on T cell subsets. Cell Immunol 138:229–237CrossRef

37.

Morris D, Khurasany M, Nguyen T, Kim J, Guilford F, Mehta R, Gray D, Saviola B, Venketaraman V (2013) Glutathione and infection. Biochim Biophys Acta 1830:3329–3349. doi:10.1016/j.bbagen.2012.10.012 CrossRef

38.

Richie JP Jr, Skowronski L, Abraham P, Leutzinger Y (1996) Blood glutathione concentrations in a large-scale human study. Clin Chem 42:64–70

39.

Tietze F (1969) Enzymic method for quantitative determination of nanogram amounts of total and oxidized glutathione: applications to mammalian blood and other tissues. Anal Biochem 27:502–522CrossRef

40.

Kleinman WA, Richie JP Jr (2000) Status of glutathione and other thiols and disulfides in human plasma. Biochem Pharmacol 60:19–29CrossRef

41.

Drabkin DL (1949) The standardization of hemoglobin measurements. Am J Med Sci 217:711–714

42.

Nichenametla SN, Ellison I, Calcagnotto A, Lazarus P, Muscat JE, Richie JP Jr (2008) Functional significance of the GAG trinucleotide-repeat polymorphism in the gene for the catalytic subunit of gamma-glutamylcysteine ligase. Free Radic Biol Med 45:645–650. doi:10.1016/j.freeradbiomed.2008.05.012 CrossRef

43.

Gaitonde MK (1967) A spectrophotometric method for the direct determination of cysteine in the presence of other naturally occurring amino acids. Biochem J 104:627–633

44.

Richardson MP, Ayliffe MJ, Helbert M, Davies EG (1998) A simple flow cytometry assay using dihydrorhodamine for the measurement of the neutrophil respiratory burst in whole blood: comparison with the quantitative nitrobluetetrazolium test. J Immunol Methods 219:187–193CrossRef

45.

Lozzio CB, Lozzio BB (1975) Human chronic myelogenous leukemia cell-line with positive Philadelphia chromosome. Blood 45:321–334

46.

Schell TD, Mylin LM, Georgoff I, Teresky AK, Levine AJ, Tevethia SS (1999) Cytotoxic T-lymphocyte epitope immunodominance in the control of choroid plexus tumors in simian virus 40 large T antigen transgenic mice. J Virol 73:5981–5993

47.

Anderson ME, Bridges RJ, Meister A (1980) Direct evidence for inter-organ transport of glutathione and that the non-filtration renal mechanism for glutathione utilization involves gamma-glutamyl transpeptidase. Biochem Biophys Res Commun 96:848–853CrossRef

48.

Wendel A, Cikryt P (1980) The level and half-life of glutathione in human plasma. FEBS Lett 120:209–211CrossRef

49.

Allen J, Bradley RD (2011) Effects of oral glutathione supplementation on systemic oxidative stress biomarkers in human volunteers. J Altern Complement Med 17:827–833. doi:10.1089/acm.2010.0716 CrossRef

50.

Mills BJ, Richie JP Jr, Lang CA (1994) Glutathione disulfide variability in normal human blood. Anal Biochem 222:95–101CrossRef

51.

Richie JP Jr, Kleinman W, Marina P, Abraham P, Wynder EL, Muscat JE (2008) Blood iron, glutathione, and micronutrient levels and the risk of oral cancer. Nutr Cancer 60:474–482. doi:10.1080/01635580801956477 CrossRef

52.

Nichenametla SN, Lazarus P, Richie JP Jr (2011) A GAG trinucleotide-repeat polymorphism in the gene for glutathione biosynthetic enzyme, GCLC, affects gene expression through translation. Faseb J 25:2180–2187. doi:10.1096/fj.10-174011 CrossRef

53.

Nichenametla SN, Muscat JE, Liao JG, Lazarus P, Richie JP Jr (2012) A functional trinucleotide repeat polymorphism in the 5′-untranslated region of the glutathione biosynthetic gene GCLC is associated with increased risk for lung and aerodigestive tract cancers. Mol Carcinog. doi:10.1002/mc.21923

54.

Pastore A, Piemonte F (2012) S-Glutathionylation signaling in cell biology: progress and prospects. Eur J Pharm Sci Off J Eur Fed Pharm Sci 46:279–292. doi:10.1016/j.ejps.2012.03.010

55.

Galter D, Mihm S, Droge W (1994) Distinct effects of glutathione disulphide on the nuclear transcription factor kappa B and the activator protein-1. Eur J Biochem 221:639–648CrossRef

56.

Suthanthiran M, Anderson ME, Sharma VK, Meister A (1990) Glutathione regulates activation-dependent DNA synthesis in highly purified normal human T lymphocytes stimulated via the CD2 and CD3 antigens. Proc Natl Acad Sci USA 87:3343–3347CrossRef

57.

Hargrove ME, Wang J, Ting CC (1993) Regulation by glutathione of the activation and differentiation of IL-4-dependent activated killer cells. Cell Immunol 149:433–443. doi:10.1006/cimm.1993.1168 CrossRef

58.

Liang CM, Lee N, Cattell D, Liang SM (1989) Glutathione regulates interleukin-2 activity on cytotoxic T-cells. J Biol Chem 264:13519–13523

59.

Vojdani A, Mumper E, Granpeesheh D, Mielke L, Traver D, Bock K, Hirani K, Neubrander J, Woeller KN, O’Hara N, Usman A, Schneider C, Hebroni F, Berookhim J, McCandless J (2008) Low natural killer cell cytotoxic activity in autism: the role of glutathione, IL-2 and IL-15. J Neuroimmunol 205:148–154. doi:10.1016/j.jneuroim.2008.09.005 CrossRef

60.

Ilhan N, Kamanli A, Ozmerdivenli R (2004) Variable effects of exercise intensity on reduced glutathione, thiobarbituric acid reactive substance levels, and glucose concentration. Arch Med Res 35:294–300. doi:10.1016/j.arcmed.2004.03.006 CrossRef

61.

Gherghel D, Griffiths HR, Hilton EJ, Cunliffe IA, Hosking SL (2005) Systemic reduction in glutathione levels occurs in patients with primary open-angle glaucoma. Invest Ophthalmol Vis Sci 46:877–883. doi:10.1167/iovs.04-0777 CrossRef

62.

Erden-Inal M, Sunal E, Kanbak G (2002) Age-related changes in the glutathione redox system. Cell Biochem Funct 20:61–66. doi:10.1002/cbf.937 CrossRef

63.

Michelet F, Gueguen R, Leroy P, Wellman M, Nicolas A, Siest G (1995) Blood and plasma glutathione measured in healthy subjects by HPLC: relation to sex, aging, biological variables, and life habits. Clin Chem 41:1509–1517

64.

Morris D, Guerra C, Donohue C, Oh H, Khurasany M, Venketaraman V (2012) Unveiling the mechanisms for decreased glutathione in individuals with HIV infection. Clin Dev Immunol 2012:734125. doi:10.1155/2012/734125 CrossRef

65.

Nguyen D, Hsu JW, Jahoor F, Sekhar RV (2014) Effect of increasing glutathione with cysteine and glycine supplementation on mitochondrial fuel oxidation, insulin sensitivity, and body composition in older HIV-infected patients. J Clin Endocrinol Metab 99:169–177. doi:10.1210/jc.2013-2376 CrossRef

66.

Borges-Santos MD, Moreto F, Pereira PC, Ming-Yu Y, Burini RC (2012) Plasma glutathione of HIV(+) patients responded positively and differently to dietary supplementation with cysteine or glutamine. Nutrition 28:753–756. doi:10.1016/j.nut.2011.10.014 CrossRef

67.

Hummelen R, Hemsworth J, Reid G (2010) Micronutrients, N-acetyl cysteine, probiotics and prebiotics, a review of effectiveness in reducing HIV progression. Nutrients 2:626–651. doi:10.3390/nu2060626 CrossRef

68.

Morris D, Guerra C, Khurasany M, Guilford F, Saviola B, Huang Y, Venketaraman V (2013) Glutathione supplementation improves macrophage functions in HIV. J Interf Cytokine Res Off J Int Soc Interf Cytokine Res 33:270–279. doi:10.1089/jir.2012.0103 CrossRef

Titel: Randomized controlled trial of oral glutathione supplementation on body stores of glutathione
verfasst von: John P. Richie Jr.
Sailendra Nichenametla
Wanda Neidig
Ana Calcagnotto
Jeremy S. Haley
Todd D. Schell
Joshua E. Muscat
Publikationsdatum: 01.03.2015
Verlag: Springer Berlin Heidelberg
Erschienen in: European Journal of Nutrition / Ausgabe 2/2015
Print ISSN: 1436-6207
Elektronische ISSN: 1436-6215
DOI: https://doi.org/10.1007/s00394-014-0706-z

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Randomized controlled trial of oral glutathione supplementation on body stores of glutathione

Abstract

Purpose

Methods

Results

Conclusions

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Parodontalbehandlung verbessert Prognose bei Katheterablation

Antihypertensiva schützen auch alte Menschen noch vor Demenz

Stereotaktische Radiatio schlägt konventionelle Bestrahlung

Denken Sie bei starker Blutung auch an die Hemmkörper-Hämophilie

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Live-Webinar: Aktuelle Leitlinien bei Herz-Kreislauf-Erkrankungen

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Abstract

Purpose

Methods

Results

Conclusions

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