Leishmania braziliensis strain M2903 was
adapted for growth and serially maintained as amastigotes at
34°C in modified
UM-54 medium, with growth curves exhibiting typical log and
stationary phases. In late passages, amastigote growth took
place in the absence of supplementary haemin and was unaffected
when the initial medium pH was adjusted between 5·4
and 6·3. In contrast to promastigotes, which were
elongated and exhibited very long free flagella endowed with the
paraflagellar rod (PFR), axenic amastigotes were rounded to
ovoid and displayed a short flagellum restricted to the pocket
area. The absence of PFR in axenic amastigotes was confirmed
in Western blots and confocal immunofluorescence
microscopy, by lack of reactivity with mAb 1B10. The antibody,
which specifically labelled the paraflagellar structure,
recognized a 70/72 kDa doublet in Trypanosoma
cruzi epimastigotes and two 70/74 kDa related proteins
in L. braziliensis
promastigotes. Surface 125I-labelling experiments
identified promastigote-specific components (>100,
74, 45/47 and 28 kDa) and at least 1, a 76 kDa polypeptide
was specific for the amastigote stage. While axenic
amastigotes were agglutinated by both peanut (PNA) and
Lens culinaris (LCA) agglutinins, respectively at 50
and 12·5 μg/ml, promastigotes
were not agglutinated by PNA and agglutinated in the
presence of LCA at concentrations of 100 μg/ml and
higher. Axenic amastigotes infected rat bone marrow-derived
macrophages and were avidly taken up by J774 cells, from
which numerous organisms, able to proliferate at 34°C in
UM-54 medium, could be recovered 48 h later.