Abstract
Glutathione is a tripeptide consisting of glutamic acid, cysteine and glycine moieties, and is found in all aerobes (Kosower and Kosower 1976). Glutathione may exist in the reduced form (GSH) or as an oxidized dimer (GSSG). More than 90% of the glutathione contained in cells is in the form of GSH; the oxidized form, GSSG, is rapidly reduced to GSH by glutathione reductase or is extruded from the cells (Meister and Anderson 1983). The cellular concentration of GSH is usually high, exceeding one millimolar in many tissues (Meister and Anderson 1983). Glutathione plays an important role in multiple physiological processes, due mainly to its ability to donate reducing equivalents; indeed, most of the reducing equivalents in cells are contained in GSH (Chance et al. 1979). Although the principle role of glutathione is to detoxify potentially deleterious substances, including oxygen free radicals, it strongly modulates the redox state of cells, which is a function of the ratio of oxidizing to reducing equivalents (Chance et al. 1979).
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Allen JE, Goodman DBP, Besarab A, Rasmussen H (1973) Studies on the chemical basis of oxygen toxicity. Biochem Biophys Acta 320:708–728
Allen RG, Farmer KJ, Sohal RS (1983) Effect of catalase inactivation on levels of inorganic peroxides, superoxide dismutase, glutathione, oxygen consumption and life span in adult houseflies (Musca domestica). Biochem J 216:503–506
Allen RG, Farmer KJ, Sohal RS (1984a) Effect of diamide administration on longevity, oxygen consumption, superoxide dismutase, catalase, inorganic peroxides and glutathione in the adult housefly,Musca domestica. Comp Biochem Physiol 78C:31 – 33
Allen RG, Farmer KJ, Newton RK, Sohal RS (1984b) Effects of paraquat administration on longevity, oxygen consumption, lipid peroxidation, superoxide dismutase, catalase, glutathione reductase, inorganic peroxides and glutathione in the adult housefly. Comp Biochem Physiol 78C:283–288
Ashburner M (1970) Patterns of puffing activity in the salivary gland chromosomes ofDrosophila. Chromosom a 31:356–376
Balinsky BI (1970) Embryology, 3rd edn. Saunders, Philadelphia Barron ESG (1955) Oxidation of some oxidation-reduction systems by oxygen at high pressures. Arch Biochem Biophys 59:502–510
Brodie BB, Reid WD, Cho AK, Sipes G, Krishna G, Gillette JR (1974) Possible mechanism of liver necrosis caused by aromatic compounds. Proc Natl Acad Sci USA 68:160–164
Cameron R, Kellon J, Kolin A, Malkin A, Faber E (1978) γ Glutamyltransferase in putative premalignant liver cell populations during hepatocarcinogenesis. Cancer Res 38:823–829
Chance B, Seis H, Boveris A (1979) Hydroperoxide metabolism in mammalian organs. Physiol Rev 59:527–603
Cutler RG (1984) Antioxidants, aging and longevity. In: Pryor WA (ed) Free radicals in biology, vol 6. Academic Press, London New York, p 371
Dauterman WC, Hodgson E (1978) Detoxification mechanisms in insects. In: Rockstein M (ed) Biochemistry of insects. Academic Press, London New York, p 541
Duchesne J (1977) A unified biochemical theory of cancer, senescence and maximal life span. J Theor Biol 66:137–145
Edelhauser HF, van Horn DL, Miller P, Pederson HJ (1976) Effect of thiol-oxidation of glutathione with diamide on corneal endothelial function, junction complexes, and microfilaments. J Cell Biol 68:567–578
Eggleston EV, Krebs HA (1974) Regulation of the pentose phosphate cycle. Biochem J 138:425–435
Engin A (1976) Glutathione content of human skin carcinomas. Arch Dermatol Res 257:53–55
Fernandez-Souza JM, Michelson AM (1976) Variation of superoxide dismutases during the development of the fruitfly,Ceratitis capitata. Biochem Biophys Res Commun 73:217–223
Flohe’ L (1982) Glutathione peroxidase brought into focus. In: Pryor WA (ed) Free radicals in biology, vol 5. Academic Press, London New York, p223
Hahn HP von, Heim JM, Eichhorn GL (1970) The effect of divalent ions on the isolation of proteins from rat liver nucleoprotein. Biochim Biophys Acta 214:509–519
Halliwell B (1981) Oxygen toxicity, free radicals and aging. In: Sohal RS (ed) Age pigments. Elsevier, North-Holland, Amsterdam, p 1
Hazelton G A, Lang CA (1983a) GlutathioneS-transferase in the mosquito during growth and aging. Biochem J 210:281–287
Hazelton G A, Lang CA (1983b) Glutathione biosynthesis in the adult yellow-fever mosquito (Aedes aegypti Louisville). Biochem J 210:289–295
Hogberg J, Ekstrom T, Nundi I, Kristoferson A (1980) Metabolism of toxic substances in isolated hepatocytes. Toxicology 17:113–118
Horn RS, Haugaard N (1966) Inhibition of carbohydrate metabolism by oxygen andN-ethylmaleimide in rat heart homogenates. J Biol Chem 241:3078–3082
Huberman E, Montesano R, Drevon C, Kuroki T, Vincent L St, Pugh TD, Goldfarb S (1979) γ-Glutamyl transpeptidase and malignant transformation of cultured liver cells. Cancer Res 39:269–272
Jewell SA, Bellomo G, Thor H, Orrenius S (1982) Bleb formation in hepatocytes during drug metabolism is caused by disturbances in thiol and calcium ion homeostasis. Science 217:1257–1258
Kosower NS, Kosower EM (1976) The glutathione-glutathione disulfide system. In: Pryor WA (ed) Free radicals in biology, vol 2. Academic Press, London New York, p 55
Kroeger H, Muller G (1973) Control of puffing activity in three chromosomal segments of explanted salivary gland cells ofChironomus thummiby variation in extracellular Na+, K+and Mg2+. Exp Cell Res 82:89–94
Kroeger H, Trosch W, Müller G (1973) Changes in nuclear electrolytes ofChironomus thummisalivary gland cells development. Exp Cell Res 80:329–339
Leenders HJ, Berendes HD (1972) The effect of changes in the respiratory metabolism upon genome activity inDrosophila. Chromosoma 37:433–444
Levengood WC, Damrauer R (1969) Developmental inhibition inDrosophilausing dihydroxybenzoic acid isomers. J Insect Physiol 15:633–641
Maridonneau I, Braquet P, Garay RP (1983) Na+and K+transport damage induced by oxygen free radicals in human red cell membranes. J Biol Chem 258:3107–3113
Medvedev ZA, Medvedev MN, Robson L (1980) Age-related changes in the electrophoretic pattern of the high molecular weight non-histone proteins from mouse liver, hepatoma and spleen chromatin. Age 3:74–77
Meister A (1981) Metabolism and functions of glutathione. TIBS 6:231–234
Meister A (1983) Selective modification of glutathione metabolism. Science 220:472–477
Meister A, Anderson ME (1983) Glutathione. Annu Rev Biochem 79:711–760
Meister A, Griffith OW (1979) Effects of methionine sulfoximine analogs on the synthesis of glutamine and glutathione: possible chemotherapeutic implications. Cancer Treat Rep 63:1115–1121
Misra HP (1974) Generation of free radical during autoxidation of thiols. J Biol Chem 247:2151–2155
Morse ML, Dahl RH (1978) Cellular glutathione is the key to the oxygen effect in radiation damage. Nature (London) 271:660–662
Nations C, Allen RG (1985) Free radical defenses in yellow, white and heterokaryon microplasmodia during spherulation inPhysarum polycephalum. Cell Tissue Kinet (Abstr) (in press)
Nations C, Allen RG, McCarthy JL (1984) Nonhistone proteins, free radical defenses and acceleration of spherulation inPhysarum. In: Skehan P, Phillips SJ (eds) Growth cancer and cell cycle. Humana Press, Clifton, NJ, p 71
Nishiki K, Jamieson D, Oshino N, Chance B (1976) Oxygen toxicity in the perfused rat liver and lung under hyperbaric conditions. Biochem J 160:343–355
Oberley LW (1983) Superoxide dismutase and cancer. In: Oberley LW (ed) Superoxide dismutase, vol II. CRC Press, Boca Raton, p 127
Rensing L (1973) Effects of 2,4-dinitrophenol and dinactin on heat-sensitive and ecdysonespecific puffs ofDrosophilasalivary gland chromsomes in vitro. Cell Differ 2:221 – 228
Richards WL, Astrup EG (1982) Expression of γ-glutamyl transpeptidase activity in the developing tooth, intervertebral disc, and hair follicle. Cancer Res 42:4143–4152
Richie JP, Lang CA (1982) Acetaminophen toxicity increases with aging in the mosquito. Fed Proc 38:2303 (Abstr)
Shrieve MR, Morrissey PG, O’Brien PJ (1979) Lipid and steroid hydroperoxides as substrates for the non-selenium-dependent glutathione peroxidase. Biochem J 177:761 – 763
Smith J, Shrift A (1979) Phylogenetic distribution of glutathione peroxidase. Comp Biochem Physiol 63B:39–44
Smith MT, Thor H, Jewell S, Bellomo G, Sandy MS, Orrenius S (1984) Free radical-induced changes in the surface morphology of isolated hepatocytes. In: Armstrong D, Sohal RS, Cutler RG, Slater TF (eds) Free radicals in molecular biology, aging and disease. Raven Press, New York, p 103
Sohal RS (1981) Metabolic rate, aging and lipofuscin accumulation. In: Sohal RS (ed) Age pigments. Elsevier/North-Holland, Amsterdam, p 303
Sohal RS, Allen RG (1985) Relationship between metabolic rate, free radicals, differentiation and aging: a unified theory. In: Woodhead AD (ed) The molecular biology of aging. Brookhaven Symp No 33. Plenum Press, New York, p 75
Sohal RS, Buchan PB (1981) Relationship between physical activity and life span in the adult houseflyMusca domestica. Exp Gerontol 16:157–162
Sohal RS, Farmer K, Allen RG, Ragland SS (1984a) Effects of diethyldithiocarbamate on life span, metabolic rate, superoxide dismutase, catalase, inorganic peroxides and glutathione activity in the adult male housefly,Musca domestica. Mech Ageing Dev 24:175–183
Sohal RS, Allen RG, Farmer KJ, Proctor J (1984b) Effect of physical activity on superoxide dismutase, catalase, inorganic peroxides and glutathione in the adult male housefly,Musca domestica. Mech Ageing Dev 26:75–81
Sohal RS, Farmer KJ, Allen RG, Cohen NR (1984c) Effect of age on oxygen consumption, superoxide dismutase, catalase, glutathione, inorganic peroxides, and chloroform-soluble antioxidants in the adult male housefly,Musca domestica. Mech Aging Dev 24:185–195
Sohal RS, Allen RG, Farmer KJ, Newton RK, Toy PL (1985a) Effect of exogenous antioxidants on the levels of endogenous antioxidants, lipid soluble fluorescent material and life span in the housefly,Musca domestica. Mech Aging Dev 31:329–336
Sohal RS, Allen RG, Farmer KJ, Newton RK (1985b) Iron induces oxidative stress and may alter the rate of aging in the housefly,Musca domestica. Mech Aging Dev 32:33–38
Staal GEJ, Helleman PE, De Wael J, Veeger C (1969) Purifications and properties of an abnormal glutathione reductase from human erythrocytes. Biochem Biophys Acta 185:63–69
Talalay P, Batzinger RP, Benson AM, Bueding E, Cha YN (1978) Biochemical studies on the mechanisms by which dietary antioxidants suppress mutagenic activity. In: Weber G (ed) Advances in enzyme regulation. Academic Press, London New York, p 73
Vina J, Vina JR (1983) Role of γ-glutamyltranspeptidase in the regulation of amino acid uptake by mammary gland of lactating rat. In: Larsson A, Orrenius S, Holmgren A, Mannervik B (eds) Functions of glutathione. Raven Press, New York, p 23
Wagner AP, Psarrou E, Wagner LP (1982) Age changes of the isoelectric points of non-histone chromosomal proteins from rat liver in the pH range 5 to 8. Exp Gerontol 17:359–364
Wefers H, Sies H (1983) Oxidation of glutathione by the superoxide radical to the disulfide and the sulfonate yielding singlet oxygen. Eur J Biochem 137:29–36
Zegarelli-Schmidt EC, Goodman R (1981) The Dipteran as a model system in cell and molecular biology. Int Rev Cytol 71:245–363
Zs.-Nagy I, Lustyik G, Zs.-Nagy V, Balazs G (1983) Correlation of malignancy with intracellular Na+: K+ratio in human thyroid tumors. Cancer Res 43:5395–5402
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1986 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Allen, R.G., Sohal, R.S. (1986). Role of Glutathione in the Aging and Development of Insects. In: Collatz, KG., Sohal, R.S. (eds) Insect Aging. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-70853-4_13
Download citation
DOI: https://doi.org/10.1007/978-3-642-70853-4_13
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-70855-8
Online ISBN: 978-3-642-70853-4
eBook Packages: Springer Book Archive