Summary
The ultrastructure and organization of mouse hepatic peroxisomes were investigated using serial thin sections and the alkaline diaminobenzidine technique for visualization of the peroxidatic activity of catalase. Mouse periportal hepatocytes exhibit three classes of peroxisomes which display morphological and cytochemical heterogeneity: 1) large, circular to ovoid organelles containing a crystalline nucleoid, 2) small, circular to elongate, anucleoid particles, and 3) tail-like extensions which are devoid of both catalase activity (only traces of reaction deposits) and a crystaline core.
Serial section analysis reveals that these profiles correspond to three diverse interconnecting peroxisomal segments which constitute a highly complex organelle. In particular, the large nucleoid-containing peroxisomal segment exhibits an intimate relationship to the endoplasmic reticulum. However, direct membrane continuities between the two compartments are never observed.
With respect to the complex structure of the organelle the following conclusions can be drawn concerning biochemical studies on liver peroxisomes: 1) During homogenization and subcellular fractionation procedures, fragmentation of peroxisomes into particles of different size classes should be expected. 2) These peroxisomal fragments are inhomogeneous with respect to their matrix contents and possess at least one rupture site on their membrane surface. 3) Soluble matrix and, to a lesser degree, membrane components of peroxisomes contribute to the soluble fraction. 4) Crude microsomal fractions are regularly contaminated by peroxisomal membrane fragments.
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References
Asada-Kuboto M, Kanamura S, Kanai K (1979) Postnatal development of the liver lobule of the mouse: morphometric studies on lysosomes, peroxisomes and lipid droplets of hepatocytes. Acta Histochem Cytochem 12:617
Bishop JE, Salem M, Hajra AK (1982) Topographical distribution of lipid biosynthetic enzymes on peroxisomes (microbodies). In: Kindl H, Lazarow PB (eds) Peroxisomes and glyoxysomes. Ann NY Acad Sci 386:411–413
Böck P, Kramar R, Pavelka M (1980) Peroxisomes and related particles in animal tissues. Cell Biol Monograph 7. Springer, Wien New York
Crane D, Holmes R, Masters CJ (1982) Synthesis and incorporation of phospholipid by peroxisomes of mouse liver. Biochim Biophys Acta 712:57–64
Daems WT (1966) The fine structure of mouse-liver microbodies. J Microsc 5:295–304
Declercq PE, Haagsman HP, van Veldhoven P, Debeer LJ, van Golde LMG, Mannaerts GP (1984) Rat liver dihydroxyacetone-phosphate acyltransferases and their contribution to glycerolipid synthesis. J Biol Chem 259:9064–9075
De Duve Ch (1973) Biochemical studies on the occurrence, biogenesis and life history of mammalian peroxisomes. J Histochem Cytochem 21:941–948
Donaldson RP, Tolbert NE, Schnarrenberger C (1972) A comparison of microbody membranes with microsomes and mitochondria from plant and animal tissue. Arch Biochem Biophys 152:199–215
Essner E (1967) Endoplasmic reticulum and the origin of microbodies in fetal mouse liver. Lab Invest 17:71–87
Essner E (1969) Localization of peroxidase activity in microbodies of fetal mouse liver. J Histochem Cytochem 17:454–466
Fahimi HD, Gray BAG, Herzog VK (1976) Cytochemical localization of catalase and peroxidase in sinusoidal cells of rat liver. Lab Invest 34:192–201
Flatmark T, Kryvi H (1982) Polydispersity and biochemical heterogeneity of rat liver peroxisomes induced by clofibrate: a model for studying peroxisomal biogenesis. In: Kindl H, Lazarow PB (eds) Peroxisomes and glyoxysomes. Ann NY Acad Sci 386:456–459
Flatmark T, Christiansen EN, Kryvi H (1981) Polydispersity of rat liver peroxisomes induced by the hypolipidemic and carcinogenic agent clofibrate. Eur J Cell Biol 24:62–69
Fujiki Y, Fowler S, Shio H, Hubbard AL, Lazarow PB (1982) Polypeptide and phospholipid composition of the membrane of rat liver peroxisomes: comparison with endoplasmic reticulum and mitochondrial membranes. J Cell Biol 93:103–110
Fujiki Y, Rachubinski RA, Lazarow PB (1984) Synthesis of a major integral membrane polypeptide of rat liver peroxisomes on free polysomes. Proc Natl Acad Sci USA 81:7127–7131
Goldfischer S, Reddy JK (1984) Peroxisomes (microbodies) in cell pathology. Int Rev Exp Pathol 26:45–83
Goldman BM, Blobel G (1978) Biogenesis of peroxisomes: Intracellular site of synthesis of catalase and uricase. Proc Natl Acad Sci USA 75:5066–5070
Goodman JM, Scott CW, Donahue PN, Atherton JP (1984) Alcohol oxidase assembles post-translationally into the peroxisome of Candida boidinii. J Biol Chem 259:8485–8493
Gorgas K (1982) Serial section analysis of peroxisomal shape and membrane relationships in the mouse preputial gland. In: Kindl H. Lazarow PB (eds) Peroxisomes and glyoxysomes. Ann NY Acad Sci 386:519–522
Gorgas K (1984) Peroxisomes in sebaceous glands. V. Complex peroxisomes in the mouse preputial gland: Serial sectioning and three-dimensional reconstruction studies. Anat Embryol 69:261–270
Gorgas K, Völkl A (1984) Peroxisomes in sebaceous glands. IV. Aggregates of tubular peroxisomes in the mouse Meibomian gland. Histochem J 16:1079–1098
Gorgas K, Yokota S (1980) Striking involvement of peroxisomes in holocrine secretion. Eur J Cell Biol 22:168
Gorgas K, Zaar K (1984) Peroxisomes in sebaceous glands. III. Morphological similarities of peroxisomes with smooth endoplasmic reticulum and Golgi stacks in the circumanal gland of the dog. Anat Embryol 169:9–20
Gotoh M, Griffin C, Hruban Z (1975) Effect of citrate and aminotriazole on matrical plates induced in hepatic microbodies. Virchows Arch B Cell Path 17:279–294
Hajra AK, Bishop JE (1982) Glycerolipid biosynthesis in peroxisomes via the acyl dihydroxyacetone phosphate pathway. Ann NY Sci 386:170–182
Hajra AK, Datta N, Salem M (1983) Properties of microsomal dihydroxyacetone phosphate acyltransferase. Fed Proc 42:1864 (abstr 625)
Hashimoto T (1984) Biogenesis of peroxisomal β-oxidation enzymes. Internat symp on membrane biogenesis and recycling. Biological and medical aspects. Sept 1–3, 1984. Shizuoka Japan, pp VII/2
Hasty DL, Hay ED (1978) Freeze-fracture studies of the developing cell surface. II. Particle-free membrane blisters on glutaraldehyde-fixed corneal fibroblasts are artefacts. J Cell Biol 78:756–768
Hayashi H, Suga T, Niinobe S (1971) Studies on peroxisomes. I. Intraparticulate localization of peroxisomal enzymes in rat liver. Biochim Biophys Acta 252:58–68
Hayashi H, Suga T, Niinobe S (1973) Studies on peroxisomes. III. Further studies on the intraparticulate localization of peroxisomal components in the liver of the rat. Biochim Biophys Acta 297:110–119
Higashi T, Peters T jr (1963a) Studies on rat liver catalase. I. Combined immunochemical and enzymatic determination of catalase in liver cell fractions. J Biol Chem 238:3945–3951
Higashi T, Peters T jr (1963b) Studies on rat liver catalase. II. Incorporation of 14C-leucine into catalase of liver cell fractions in vivo. J Biol Chem 238:3952–3954
Hirai K, Ogawa K (1973) Appearance of giant peroxisomes in-mouse hepatocytes treated with a hypolipidemic drug, simfibrate. Acta Histochem Cytochem 6:193–204
Hirai K-I, Ogawa K (1975) Ultrastructural studies on the morphogenesis of peroxisomes in mouse hepatocytes treated with simfibrate. Acta Histochem Cytochem 8:18–29
Hruban Z, Rechcigl M (1969) Microbodies and related particles. Acad Press, New York London
Hruban Z, Swift H, Slesers A (1966) Ultrastructural alterations of hepatic microbodies. Lab Invest 15:1884–1901
Hruban Z, Vigil EL, Slesers A, Hopkins E (1972) Microbodies. Constituent organelles of animal cells. Lab Invest 279:184–191
Hruban Z, Gotoh M, Slesers A, Chou S-F (1974) Structure of hepatic microbodies in rats treated with acetylsalicylic acid, clofibrate, and dimethrin. Lab Invest 30:64–75
Jones CL, Hajra AK (1980) Properties of guinea pig liver peroxisomal dihydroxyacetone phosphate acyltransferase. J Biol Chem 255:8289–8295
Karnovsky MJ (1971) Use of ferrocyanide-reduced osmium tetroxide in electron microscopy. J Cell Biol: abstr 284
Komorowska M, Koter M, Bartosz G, Gomulkiewicz I (1982) The effects of glutaraldehyde and osmium tetroxide on the erythrocyte membrane. A spin label study. Biochim Biophys Acta 686:94–98
Kreibich G, Bar-Nun S, Czako-Graham M, Mok W, Nack E, Okada Y, Rosenfeld MG, Sabatini DD (1980) The role of free membrane-bound polysomes in organelle biogenesis. In: Bücher T, Sebald W, Weiss H (eds) 31th Mosbach Colloquium, Biological chemistry of organelle formation. Springer, Berlin Heidelberg, pp 147–163
Lazarow PB (1980) Properties of the natural precursor of catalase: implications for peroxisome biogenesis. Ann NY Acad Sci 343:293–303
Lazarow PB (1981) Functions and biogenesis of peroxisomes, 1980. In: Schweiger HG (ed) International Cell Biology 1980–1981. Springer, Berlin Heidelberg New York, pp 633–639
Lazarow PB, De Duve Ch (1973a) The synthesis and turnover of rat liver peroxisomes. IV. Biochemical pathway of catalase synthesis. J Cell Biol 59:491–506
Lazarow PB, De Duve Ch (1973b) The synthesis and turnover of rat liver peroxisomes. V. Intracellular pathway of catalase synthesis. J Cell Biol 59:507–524
Lazarow PB, Shio H, Robbi M (1980) Biogenesis of peroxisomes and the peroxisome reticulum hypothesis. In: Bücher T, Sebald W, Weiss H (eds) 31st Mosbach Colloquium, Biological chemistry of organelle formation. Springer, Berlin Heidelberg, pp 187–206
Lazarow PB, Robbi M, Fujiki Y, Wong L (1982) Biogenesis of peroxisomal proteins in vivo and in vitro. In: Kindl H, Lazarow PB (eds) Peroxisomes and glyoxysomes. Ann NY Acad Sci 386:285–300
Lazarow PB, Fujiki Y, Rachubinski R, Mortensen RM (1984) Biogenesis of peroxisomal content and membrane proteins. Internat symp on membrane biogenesis and recycling. Biological and medical aspects. Sept 1–3, 1984. Shiuoka Japan, pp VII/1
Legg PG, Wood RL (1970) New observations on microbodies. A cytochemical study on CPIB-treated rat liver. J Cell Biol 45:118–129
Leighton F, Coloma L, Koenig C (1975) Structure, composition, physical properties, and turnover of proliferated peroxisomes. J Cell Biol 67:281–309
LeHir M, Herzog V, Fahimi HD (1979) Cytochemical detection of catalase with 3,3′-diaminobenzidine. A quantitative reinvestigation of the optimal conditions. Histochemistry 64:51–66
Miura S, Mori M, Takiguchi M, Tatibana M, Furuta S, Miyazawa S, Hashimoto T (1984) Biosynthesis and intracellular transport of enzymes of peroxisomal β-oxidation. J Biol Chem 259:6397–6402
Nakamura M (1984) A processing aspect of peroxisomes by high voltage electron microscope. In: Seno S, Okada Y (eds) International Cell Biology, 1984. Acad. Press, Japan, Tokyo, pp 282 (abstr 1266)
Novikoff PM, Novikoff AB (1972) Peroxisomes in absorptive cells of mammalian small intestine. J Cell Biol 53:532–560
Novikoff AB, Novkoff PM (1973) Microperoxisomes. J Histochem Cytochem 21:963–966
Novikoff AB, Novikoff PM (1982) Microperoxisomes and peroxisomes in relation to lipid metabolism. In: Kindl H, Lazarow PB (eds) Peroxisomes and glyoxysomes. Ann NY Acad Sci 386:519–522
Novikoff AB, Shin WY (1964) The endoplasmic reticulum in the Golgi zone and its relation to microbodies, Golgi apparatus and autophagic vacuoles in rat liver. J Microsc 3:186–206
Novikoff AB, Novikoff PM, Davis C, Quintana N (1972) Studies on microperoxisomes. II. A cytochemical method for light and electron microscopy. J Histochem Cytochem 20:1006–1023
Novikoff PM, Novikoff AB, Quintana N, Davis C (1973a) Studies on microperoxisomes. III. Observations on human and rat hepatocytes. J Histochem Cytochem 21:540–558
Novikoff AB, Novikoff PM, Davis C, Quintana N (1973b) Studies on microperoxisomes. V. Are microperoxisomes ubiquitous in mammalian cells? J Histochem Cytochem 21:737–755
Poole B, Higashi T, De Duve Ch (1970) The synthesis and turnover of rat liver peroxisomes. III. The size distribution of peroxisomes and the incorporation of new catalase. J Cell Biol 45:408–415
Rachubinski RA, Fujiki Y, Mortensen RM, Lazarow PB (1984) Acyl-CoA oxidase and hydratase-dehydrogenase, two enzymes of the peroxisomal β-oxidation system, are synthesized on free polysomes of clofibrate-treated rat liver. J Cell Biol 99:2241–2246
Reddy J, Svoboda D (1971) Microbodies in experimentally altered cells. VIII. Continuities between microbodies and their possible biologic significance. Lab Invest 24:74–81
Reddy J, Svoboda D (1973) Further evidence to suggest that microbodies do not exist as individual entities. Am J Pathol 70:421–438
Reddy J, Bunyaratvej S, Svoboda D (1969a) Microbodies in experimentally altered cells. IV. Acatalasemic (Cs b) mice treated with CPIB. J Cell Biol 42:587–596
Reddy J, Bunyaratvej S, Svoboda D (1969b) Microbodies in experimentally altered cells. V. Histochemical and cytochemical studies on the livers of rats and actalasemic (Cs b) mice treated with CPIB. Am J Pathol 56:351–370
Redman CM, Grab DJ, Irukulla R (1972) The intracellular pathway of newly formed rat liver catalase. Arch Biochem Biophys 152:496–501
Reynolds ES (1963) The use of lead citrate at high pH as an electron opaque stain in electron microscopy. J Cell Biol 17:208–229
Richardson KC, Jarett L, Finke EH (1960) Embedding in epoxy resins for ultrathin sectioning in electron microscopy. Stain Technol 35:313–325
Rigatsu JL, Legg PG, Wood RL (1970) Microbody formation in regenerating rat liver. J Histochem Cytochem 18:893–900
Roa M, Blobel G (1983) Biosynthesis of peroxisomal enzyme in the methylotrophic yeast Hansenula polymorpha. Proc Natl Acad Sci USA 80:6872–6876
Robbi M, Lazarow PB (1978) Synthesis of catalase in two cell-free protein synthesizing systems and in rat liver. Proc Natl. Acad Sci USA 75:4344–4348
Robbi M, Lazarow PB (1982) Peptide mapping of peroxisomal catalase and its precursor. Comparison to the primary wheat germ translation product. J Biol Chem 257:964–970
Roggenkamp R, Janowicz Z, Stanikowski B, Hollenberg CP (1984) Biosynthesis and regulation of the peroxisomal methanol oxidase from the methylotrophic yeast Hansenula polymorpha. Mol Gen Genet 194:489–493
Shio H, Lazarow PB (1981) Relationship between peroxisomes and endoplasmic reticulum investigated by combined catalase and glucose-6-phosphatase cytochemistry. J Histochem Cytochem 29:1263–1272
Svoboda D, Azarnoff DL (1966) Response of hepatic microbodies to a hypolipidemic agent, ethyl chlorophenoxyisobutyrate (CPIB). J Cell Biol 30:442–450
Svoboda D, Grady H, Azarnoff D (1967) Microbodies in experimentally altered cells. J Cell Biol 35:127–152
Tobe T, Higashi T (1980) Studies on rat liver catalase. XI. Site of synthesis and segregation by stripped ER membranes. J Biochem 88:1341–1347
Tsukada H, Mochizuki Y, Konishi T (1968) Morphogenesis and development of microbodies of hepatocytes of rats during preand postnatal growth. J Cell Biol 37:231–243
Wedel FP, Berger ER (1975) On the quantiative stereomorphology of microbodies in rat hepatocytes. J Ultrastruct Res 51:153–165
Yokota S, Fahimi HD (1978) The peroxisome (microbody) membrane: effects of detergents and lipid solvents on its ultrastructure and permeability to catalase. Histochem J 10:469–487
Zaar K, Gorgas K (1984) Peroxisomes in the uropygial gland of white pekin duck. Acta Anat 120:81 (abstr 332)
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This study was supported by a grant of the Deutsche Forschungsgemeinschaft, Fa 146/1-2
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Gorgas, K. Serial section analysis of mouse hepatic peroxisomes. Anat Embryol 172, 21–32 (1985). https://doi.org/10.1007/BF00318940
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DOI: https://doi.org/10.1007/BF00318940