Abstract
Leishmania amastigotes lodge and multiply within parasitophorous vacuoles, which can fuse with secondary lysosomes of the host macrophages. This study examines the effect of infection with amastigotes ofL. mexicana amazonensis on the secondary lysosomes of mouse macrophage cultures. The cultures were stained for the activities of two lysosomal enzyme markers, acid phosphatase and arylsulfatase, and the light microscopic observations were supplemented by electron microscopy. Nearly all noninfected macrophages contained numerous stained secondary lysosomes. The number of such lysosomes was markedly reduced 24 h postinfection, and the reduction persisted for at least 10 days. Stained secondary lysosomes reppeared after the amastigotes were destroyed by exposure of the cultures to phenazine methosulfate or by placing them at 37.5° C. The depletion of lysosomes shown by cytochemical methods may reflect a high rate of fusion of the lysosomes with the parasitophorous vacuoles, exceeding the rate of formation of new secondary lysosomes. Alternatively, the parasites may inhibit the synthesis of lysosomal hydrolases, or the assembly or formation of primary or secondary lysosomes.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Biegel D, Topper G, Rabinovitch M (1983)Leishmania mexicana amazonesis: Temperature sensitivity of isolated amastigotes and of amastigotes infecting macrophages in culture. Exp Parasitol 56:289–297
Bray RS, Heikal B, Kaye PM, Bray MA (1983) The effect of parasitization byLeishmania mexicana mexicana on macrophage function in vitro. Acta Trop (Basel) 40:29–38
Chang KP (1983) Cellular and molecular mechanisms of intracellular symbiosis in leishmaniasis. Int Rev Cytol Suppl 14:267–305
Coombs CH (1982) Proteinases ofLeishmania mexicana and other flagellate protozoa. Parasitology 84:149–155
Dedet JP, Brunet E, Topper G, Rabinovitch M (1981) Localization of exogenous markers in relation to the parasitophorous vacuoles of macrophages infected withLeishmania mexicana amazonensis. J Cell Biol 91:244a
Duve C de, Barsy T de, Poole B, Trouet A, Tulkens P, Van Hoof F (1974) Lysosomotropic agents. Biochem Pharmacol 23:2495–2531
Dwyer DM, Gottlieb M (1983) The surface membrane chemistry ofLeishmania: its possible role in parasite sequestration and survival. J Cellular Biochem 23:35–45
El-On J, Schnur LF, Greenblatt CL (1979)Leishmania donovant: Physicochemical, immunological, and biological characterization of excreted factor from promastigotes. Exp Parasitol 47:254–269
Goldfischer S (1965) The cytochemical demonstration of lysosomal arylsulfatase activity by light and electronmicroscopy. J Histochem Cytochem 13:520–523
Gottlieb M, Dwyer DM (1981)Leishmania donovani: surface membrane acid phosphatase activity of promastigotes. Exp Parasitol 52:117–128
Hommel M (1978) The genusLeishmania: biology of the parasites and clinical aspects. Bull Inst Pasteur 75:5–102
Jong ASH de, Hak TJ, Van Dujin P, Dames WT (1979) A new dynamic model system for the study of capture reactions for diffusable compounds in cytochemistry. II. Effect of the composition of the incubation medium on the trapping of phosphate ions in acid phosphatase cytochemistry. Histochem J 11:145–161
Kutish GF, Janovy Jr J (1981) Inhibition of in vitro macrophage digestion capacity by infection withLeishmania donovani (Protozoa: Kinetoplastida). J Parasitol 67:457–462
Nichols B (1981) Use of ultrastructural histochemistry.In: Adams DO, Edelson PJ, Koren H (eds) Methods for studying mononuclear phagocytes. Academic Press, New York, pp 413–432
Rabinovitch M, Dedet JP, Ryter A, Robineaux R, Topper G, Brunet E (1982) Destruction ofLeishmania mexicana amazonensis in culture by phenazine methosulfate and other electro carriers. J Exp Med 155:415–431
Rabinovitch M, Topper G, Cristello P, Rich A (1985) Receptor-mediated entry of peroxidases into the parasitophorous vacuoles of macrophages infected withLeishmania mexicana amazonensis. J Leuk Biol (in press)
Ryter A, Dedet JP, Rabinovitch M (1983)Leishmania mexicana amazonensis: Acid phosphatase ultrastructural cytochemistry of infected mouse macrophage cultures treated with phenazine methosulfate. Exp Parasitol 55:233–242
Shepherd VL, Stahl PD, Bernd P, Rabinovitch M (1983) Receptor mediated entry of β-glucuronidase into the parasitophorous vacuoles of macrophages infected withLeishmania mexicana amazonensis. J Exp Med 157:1471–1482
Steinman RM, Cohn ZA (1972) The interaction of soluble horseradish peroxidase with mouse peritoneal macrophages in vitro. J Cell Biol 55:186–204
Steinman RM, Mellman IS, Muller WA, Cohn ZA (1983) Endocytosis and recycling of plasma membrane. J Cell Biol 96:1–27
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Barbieri, C.L., Brown, K. & Rabinovitch, M. Depletion of secondary lysosomes in mouse macrophages infected withLeishmania mexicana amazonensis: A cytochemical study. Z. Parasitenkd. 71, 159–168 (1985). https://doi.org/10.1007/BF00926266
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00926266