Summary
Erythroid cells of the liver and peripheral blood of rabbit embryos, as welt of bone-marrow and peripheral blood of adult rabbits with phenylhydrazine-induced hemolytic anemia, were analysed ultrastructurally to investigate the formation of hemosomes, organelles suggested to be sites of heme integration into the four globin polypeptides. After the incorporation of iron-containing material, free ferruginous inclusions appear. Mitochondria apparently give rise to lamellated bodies whose double lamellae expand for the captation of the ferruginous inclusions, a source of iron for heme synthesis, and globin polypeptidic chains already synthesized in the diffusely distributed polysomes. The expanding lamellae return, so that prehemosomal vesicles containing ferruginous material and globin are formed. Through invaginations of the inner membrane and a possible rotational movement of these vesicles the beginning of prohemosome formation takes place concomitant with the occurrence of heme synthesis. A structural rearrangement of prohemosomes occurs, and typical hemosomes containing hemoglobin molecules develop, whose content spreads throughout the cytoplasm by disruption of the organelle membranes.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Brunner Jr A, Vallejo-Freire A (1956) Electron microscopic observations on granules and filaments (reticulosomes) of reticulocytes. Exp Cell Res 10:55–62
Brunner Jr A, Schwantes AR, Schwantes ML, Beçak W (1972) Hemoglobin in immature erythrocyte mitochondrion-like organelles. Experientia (Basel) 28:569–571
Brunner Jr A, Coiro JRR, Schwantes ML, Schwantes AR (1973) Hemosome and hemoglobin biosynthesis in embryo and in regressive anemias. Mem Inst Butantan 37:335–344
Brunner Jr A, Coiro JRR, Jamra M, Genter G (1975) Cytomorphologic findings on the final stages of erythrocyte maturation in mammals. Rev Bras Pesq Méd Biol 8:441–450
Brunner Jr A, Mitsutani CY, Araújo Peres C (1977a) Comparative ultrastructure of late rabbit-embryo erythroid cells in liver and peripheral blood. Am J Hematol 2:227–236
Brunner Jr A, Rizzo E de, Mitsutani CY, Ribeiro de Barros MA (1977b) Induction of hemosome formation and hemoglobin biosynthesis in HeLa cells. Res Exp Med 170:17–22
Brunner Jr A, Mitsutani CY, Bilotta JAT, Araújo Peres C (1980) Cytomorphology and behavior of late bone marrow and peripheral blood erythroid cells in experimental hemolytic anemia. Cytologia 45:411–421
Brunner Jr A, Rizzo E de, Mitsutani CY, Mendes IF, Ribeiro de Barros MA (1982) The mitochondrial function in hemosome formation and hemoglobin biosynthesis. Comp Biochem Physiol 73 B: 829–833
Brunner Jr A, Sano Martins IS, Mitsutani CY, Bilotta JAT, Araújo Peres C (1983) A relative morphological evaluation of hemoglobin biosynthesis in peripheral blood reticulocytes of normal and anemic rabbits. Comp Biochem Physiol 74A:755–760
Carvalho dos Santos MAS (1979) Citomorfologia ultra-estrutural dos elementos da série eritrocitária de Bufo ictericus. Aspectos da biossíntese de hemoglobina. Dissertação de Mestrado, Universidade de São Paulo
Claussen C-P (1979) Elektronenmikroskopische Untersuchungen zur Hämoglobinbildung bei Trisomie 12 des Mäusefetus. Verh Anat Ges 73:855–861
Claussen C-P (1980) Elektronenmikroskopische Untersuchungen zur Dottersackerythropoese und Hämoglobinbildung bei fetaler Trisomie der Maus. Verh Anat Ges 74:269–276
Claussen C-P, Bielek E (1981) Zellorganellen der Hämoglobinbildung in roten Blutzellen von Säugern und Fischen. Hauptversammlung der Deutschen Gesellschaft für Säugetierkunde in Heidelberg, 7–11 September
Coiro JRR (1975) Comparative study on the ultrastructure of elements of the avian and mammalian erythrocytic series. Correlation with hemoglobin biosynthesis. Mem Inst Butantan 39:169–206
Coiro JRR, Brunner Jr A (1972) A new embedding medium for electron microscopy. Rev Microsc Electr 1:12
Fantoni A, De la Chapelle A, Rifkind RA, Marks PA (1968) Erythroid cell development in fetal mice: synthetic rapacity for different proteins. J Mol Biol 33:79–91
Millonig G (1961) Advantages of a phosphate buffer for OsO4 solutions in fixation. J Appl Physics 32:1637 (Abstr)
Policard A, Bessis M (1958) Sur un mode d'incorporation des macromolécules par la cellule, visible au microscope électronique: la rhopheocytose. CR Acad Sciences 246:3194–3197
Reynolds ES (1963) The use of lead citrate at high pH as an electron-opaque stain in electron microscopy. J Cell Biol 17:208–212
Tice LW, Barrnett RJ (1965) Diazophthalocyanins as reagents for fine structural cytochemistry. J Cell Biol 25:23–41
Author information
Authors and Affiliations
Additional information
This work was supported by the Conselho Nacional de Desenvolvimento Científico e Tecnológico — CNPq (Proc. 2222.0128/78, 40.2487/79), and by the FEDIB (Instituto Butantan)
Rights and permissions
About this article
Cite this article
Brunner, A., Bilotta, J.A.T. & Morena, D.D.S. Mitochondria, hemosomes and hemoglobin biosynthesis. Cell Tissue Res. 233, 215–225 (1983). https://doi.org/10.1007/BF00222245
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00222245