Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-24T12:40:46.926Z Has data issue: false hasContentIssue false
  • English
  • Français

Cytolysomes in the erythrocytes of lizards infected with Plasmodium spp.

Published online by Cambridge University Press:  06 April 2009

J. V. Scorza ,
Cecilia Clara Monteiro  and
Cecilia de Scorza
J. V. Scorza
Affiliation:
Department of Histochemistry, Royal Postgraduate Medical School, London, W.12
Cecilia Clara Monteiro*
Affiliation:
Department of Histochemistry, Royal Postgraduate Medical School, London, W.12
Cecilia de Scorza
Affiliation:
Department of Histochemistry, Royal Postgraduate Medical School, London, W.12
*
Dr Monteiro carried out this work with the aid of a grant from the Gulbenkian Foundation, Lisbon, Portugal.
Get access Rights & Permissions [Opens in a new window]

Extract

Erythrocytes of Tropidurus torquatus (Sauria, Iguanidae) infected with Plasmodium (Sauramoeba) tropiduri show acid phosphatase activity in Golgi vesicles, multivesicular bodies, secondary lysosomes and autophagic vacuoles. The functional relations between these structures and exocytotic activity is discussed.

The authors express their gratitude to: Professor A. G. E. Pearse for his helpful criticism of the work and during the preparation of the revised manuscript; to Professor P. C. C. Garnham for his advice and for his provision of facilities. We are also indebted to Mr Ian McLure for his help in translating the original Spanish into English.

Type
Research Article
Information
Parasitology , Volume 62 , Issue 1 , February 1971 , pp. 63 - 69
Copyright
Copyright © Cambridge University Press 1971

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Adler, A. & Huber, E. (1923). Untersuchungen über Blutzellen und Zellbildung bei Amphibien und Reptilien. Folia haematologica, Leipzig 29, 122.Google Scholar
Altland, P. D. & Thompson, E. C. (1958). Some factors affecting blood formation in turtles. Proceedings of the Society for Experimental Biology and Medicine 99, 456–9.Google Scholar
Altland, P. D. & Brace, K. C. (1962). Red cell life span in the turtle and the toad. American Journal of Physiology 203, 1188–90.Google Scholar
Barka, T. & Anderson, P. J. (1962). Histochemical methods for acid phosphatase using hexazonium pararosanilin as coupler. Journal of Histochemistry and Cytochemistry 10, 741–53.Google Scholar
Brecher, G. (1949). New methylene blue as a reticulocyte stain. American Journal of Clinical Pathology 19, 895–6.CrossRefGoogle ScholarPubMed
Caulfield, J. B. (1957). Effects of varying the vehicle for OsO4 in tissue fixation. Journal of Biophysics and Biochemical Cytology 3, 827.Google Scholar
de Duve, C. (1963). The lysosome concept. In Ciba Foundation Symp. Lysosomes, pp. 131. Eds. de Reuck, A. V. S. and Cameron, M..Google Scholar
Fawcett, D. W. (1959). Electron microscopic observations on the marginal band of nucleated erythrocytes. Anatomical Record 133, 379.Google Scholar
Jordan, H. (1919). The histology of the blood and the red bone-marrow of the leopard frog, Rana pipiens. American Journal of Anatomy 25, 437–80.Google Scholar
Jordan, H. (1938). Comparative hematology (Reptilia). In Downey, Handbook of Hematology. New York, Hoeber II.Google Scholar
Kent, G., Minick, O. T., Volini, F. I. & Orfli, E. (1966). Autophagic vacuoles in human red cells. American Journal of Pathology 48, 831–42.Google Scholar
Novikoff, A. B., Essner, E. & Quintana, N. (1964). Golgi apparatus and lysosomes. Federation Proceedings 23, 1010–22.Google ScholarPubMed
Pienaar, U. de V. (1962). Haematology of some South African reptiles. Johannesburg: Witwatersrand University Press.Google Scholar
Reynolds, E. G. (1963). The use of lead citrate as an electron dense stain in electron microscopy. Journal of Cell Biology 17, 208–12.Google Scholar
Scorza, J. V., de Scorza, C. & Monteiro, C. (1971). In press.Google Scholar
Simpson, C. & Kling, J. M. (1968). The mechanism of mitochondrial extrusion from phenylhydrazine-induced reticulocytes in the circulating blood. Journal of Cell Biology 36, 103–9.Google Scholar
Tooze, J. & Davies, G. (1965). Cytolysomes in amphibian erythrocytes. Journal of Cell Biology 24, 146–50.Google Scholar
Tooze, J. & Davies, G. (1967). Light- and electron-microscope studies on the spleen of the newt Triturus cristatus: the fine structure of the erythropoietic cells. Journal of Cell Science 2, 617–40.CrossRefGoogle ScholarPubMed
Wetzel, B. K., Spicer, S. S. & Horna, R. G. (1967). Fine structural localization of acid and alkaline phosphatases in cells of rabbit blood and bone marrow. Journal of Histochemistry and Cytochemistry 15, 311–34.Google Scholar
Zuckerman, A. (1957). Blood loss and replacement in plasmodial infections. Journal of Infectious Diseases 100, 172206.Google Scholar