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Research Article |
1 Unité d'Immunophysiologie et Parasitisme Intracellulaire, Institut
Pasteur, 25 rue du Docteur Roux, 75724 Paris Cedex 15, France
2 INSERM U411, UFR de Médecine Necker-Enfants Malades, Paris,
France
3 Laboratoire de Cinémicrographie INSERM, Le Vésinet, France
4 Unité de Biologie des Interactions Cellulaires, Institut Pasteur,
Paris, France
* Author for correspondence (e-mail: jantoine{at}pasteur.fr )
Accepted 14 March 2002
Protozoan parasites Leishmania alternate between a flagellated
promastigote form and an amastigote form. In their mammalian hosts,
Leishmania survive and multiply in macrophages. Both forms can be
internalized by these host cells at different stages of the infectious process
and eventually establish themselves within parasitophorous vacuoles exhibiting
phagolysosomal properties. To determine whether the biogenesis of these
organelles differs according to the parasitic stage used to initiate
infection, we compared their formation kinetics after phagocytosis of either
metacyclic promastigotes or amastigotes of L. amazonensis or of
L. major by mouse bone-marrow-derived macrophages pre-exposed or not
to IFN-
. After 10 minutes of contact, an accumulation of F-actin was
observed around the promastigotes and amatigotes undergoing phagocytosis or
those that had already been internalized. This accumulation was transient and
rapidly disappeared at later times. At 30 minutes, most of the promastigotes
were located in long, narrow organelles that were exactly the same shape as
the parasites. The latter were elongated with their cell bodies near to the
macrophage nucleus and their flagella towards the periphery. This suggests
that promastigote phagocytosis mainly occurs in a polarized manner, with the
cell body entering the macrophages first. Most, if not all, of the
phagocytosed promastigotes were located in organelles that rapidly acquired
phagolysosomal properties. At 30 minutes, lamp-1, macrosialin, cathepsins B
and D were detected in 70-98% of these compartments and about 70% of them were
surrounded by rab7p. These late endosome/lysosome `markers' were recruited
through fusion with late endocytic compartments. Indeed, when late
endosomes/lysosomes were loaded with fluorescein dextran, 81-98% of the
promastigote-harbouring compartments contained the endocytic tracer 30 minutes
after infection. Electron microscopy of infected macrophages previously loaded
with peroxidase confirmed that the phagosomes rapidly fused with late
endocytic compartments. When the amastigote stage of L. amazonensis
was used to initiate infection, the kinetics of acquisition of the different
late endosome/lysosome `markers' by the phagosomes were similar to those
measured after infection with metacyclics. However, more
rab7p+-phagosomes were observed at early time points (e.g. 90% were
rab7p+ at 30 minutes). The early endosome `markers', EEA1 and the
transferrin receptor, were hardly detected in parasite-containing compartments
regardless of the parasitic stage used to infect macrophages and the time
after infection. In conclusion, both metacyclic- and amastigote-containing
phagosomes fuse with late endosomes/lysosomes within 30 minutes. However, with
L. amazonensis, the time required for the formation of the huge
parasitophorous vacuoles, which are characteristic of this species, was much
shorter after infection with amastigotes than after infection with metacyclic
promastigotes. This indicates that the initial fusions with late
endosomes/lysosomes are followed by a stage-specific sequence of events.
Key words: Leishmania, Promastigote, Amastigote, Macrophage, Phagosome, Phagolysosome, Parasitophorous vacuole
This article has been cited by other articles:
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  C. Huynh, D. L. Sacks, and N. W. Andrews A Leishmania amazonensis ZIP family iron transporter is essential for parasite replication within macrophage phagolysosomes J. Exp. Med., October 2, 2006; 203(10): 2363 - 2375. [Abstract] [Full Text] [PDF]
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