Cellular and Molecular Remodeling of the Endocytic Pathway during Differentiation of Trypanosoma brucei Bloodstream Forms
Down-Regulation -- genetics
Biochimie
Lipoproteins
Cell Surface -- genetics -- metabolism
Trypanosoma brucei brucei
Intracellular Space
Down-Regulation
Receptors, Cell Surface
Trypanosoma brucei brucei -- cytology -- genetics -- growth & development -- ultrastructure
Ligands
HDL -- metabolism
LDL -- metabolism
Mice
03 medical and health sciences
Receptors
Animals
Humans
Developmental
Parasitologie
Life Cycle Stages
0303 health sciences
Biologie moléculaire
Gene Expression Regulation, Developmental
Cell Differentiation
Intracellular Space -- metabolism
Endocytosis
Cold Temperature
Lipoproteins, LDL
Subcellular Fractions -- metabolism
Gene Expression Regulation
Biologie cellulaire
Lipoproteins, HDL
Cell Division
Signal Transduction
Subcellular Fractions
DOI:
10.1128/ec.00076-10
Publication Date:
2010-06-26T02:22:59Z
AUTHORS (5)
ABSTRACT
ABSTRACT
During the course of mammalian infection, African trypanosomes undergo extensive cellular differentiation, as actively dividing long slender (SL) forms progressively transform into intermediate (I) forms and finally quiescent G
1
/G
0
-locked short stumpy (ST) forms. ST forms maintain adaptations compatible with their survival in the mammalian bloodstream, such as high endocytic activity, but they already show preadaptations to the insect midgut conditions. The nutritional requirements of ST forms must differ from those of SL forms because the ST forms stop multiplying. We report that the uptake of several ligands was reduced in ST forms compared with that in SL forms. In particular, the haptoglobin-hemoglobin (Hp-Hb) complex was no longer taken up due to dramatic downregulation of its cognate receptor, TbHpHbR. As this receptor also allows uptake of trypanolytic particles from human serum, ST forms were resistant to trypanolysis by human serum lipoproteins. These observations allowed both flow cytometry analysis of SL-to-ST differentiation and the generation of homogeneous ST populations after positive selection upon exposure to trypanolytic particles. In addition, we observed that in ST forms the lysosome relocates anterior to the nucleus. Altogether, we identified novel morphological and molecular features that characterize SL-to-ST differentiation.
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CITATIONS (17)
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