Toxoplasma gondii Sequesters Lysosomes from Mammalian Hosts in the Vacuolar Space

Isabelle Coppens; Joe Dan Dunn; Julia D. Romano; Marc Pypaert; Hui Zhang; John C. Boothroyd; Keith A. Joiner

doi:10.1016/j.cell.2006.01.056

Toxoplasma gondii Sequesters Lysosomes from Mammalian Hosts in the Vacuolar Space

Isabelle Coppens, Joe Dan Dunn, Julia D. Romano, Marc Pypaert, Hui Zhang, John C. Boothroyd, Keith A. Joiner

Research output: Contribution to journal › Article › peer-review

226 Scopus citations

Abstract

The intracellular compartment harboring Toxoplasma gondii satisfies the parasite's nutritional needs for rapid growth in mammalian cells. We demonstrate that the parasitophorous vacuole (PV) of T. gondii accumulates material coming from the host mammalian cell via the exploitation of the host endo-lysosomal system. The parasite actively recruits host microtubules, resulting in selective attraction of endo-lysosomes to the PV. Microtubule-based invaginations of the PV membrane serve as conduits for the delivery of host endo-lysosomes within the PV. These tubular conduits are decorated by a parasite coat, including the tubulogenic protein GRA7, which acts like a garrote that sequesters host endocytic organelles in the vacuolar space. These data define an unanticipated process allowing the parasite intimate and concentrated access to a diverse range of low molecular weight components produced by the endo-lysosomal system. More generally, they identify a unique mechanism for unidirectional transport and sequestration of host organelles.

Original language	English (US)
Pages (from-to)	261-274
Number of pages	14
Journal	Cell
Volume	125
Issue number	2
DOIs	https://doi.org/10.1016/j.cell.2006.01.056
State	Published - Apr 21 2006

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.cell.2006.01.056

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title = "Toxoplasma gondii Sequesters Lysosomes from Mammalian Hosts in the Vacuolar Space",

abstract = "The intracellular compartment harboring Toxoplasma gondii satisfies the parasite's nutritional needs for rapid growth in mammalian cells. We demonstrate that the parasitophorous vacuole (PV) of T. gondii accumulates material coming from the host mammalian cell via the exploitation of the host endo-lysosomal system. The parasite actively recruits host microtubules, resulting in selective attraction of endo-lysosomes to the PV. Microtubule-based invaginations of the PV membrane serve as conduits for the delivery of host endo-lysosomes within the PV. These tubular conduits are decorated by a parasite coat, including the tubulogenic protein GRA7, which acts like a garrote that sequesters host endocytic organelles in the vacuolar space. These data define an unanticipated process allowing the parasite intimate and concentrated access to a diverse range of low molecular weight components produced by the endo-lysosomal system. More generally, they identify a unique mechanism for unidirectional transport and sequestration of host organelles.",

author = "Isabelle Coppens and Dunn, {Joe Dan} and Romano, {Julia D.} and Marc Pypaert and Hui Zhang and Boothroyd, {John C.} and Joiner, {Keith A.}",

note = "Funding Information: The authors gratefully thank the members of K.A. Joiner laboratory for helpful discussions during the course of this work and the technical staff from the Yale Microscopy Facility. T. gondii knockouts of GRA2/6 or 5 and the strain IFLA/BR/67/PH8 of Leishmania amazonensis were kindly provided by Marie-France Delauw and Norma Andrews, respectively. We acknowledge Pietro De Camilli and Khashayar Farsad for their helpful advice for the liposome tubulation assays. The work was supported by grants from the AHA (0230079N) to I.C., from the NIH AI060767 to I.C., AI488443 to K.A.J., and AI45057 to J.C.B. J.D.D. was supported by a predoctoral fellowship from HHMI and by NIH T32 GM07276. ",

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AU - Zhang, Hui

AU - Boothroyd, John C.

AU - Joiner, Keith A.

N1 - Funding Information: The authors gratefully thank the members of K.A. Joiner laboratory for helpful discussions during the course of this work and the technical staff from the Yale Microscopy Facility. T. gondii knockouts of GRA2/6 or 5 and the strain IFLA/BR/67/PH8 of Leishmania amazonensis were kindly provided by Marie-France Delauw and Norma Andrews, respectively. We acknowledge Pietro De Camilli and Khashayar Farsad for their helpful advice for the liposome tubulation assays. The work was supported by grants from the AHA (0230079N) to I.C., from the NIH AI060767 to I.C., AI488443 to K.A.J., and AI45057 to J.C.B. J.D.D. was supported by a predoctoral fellowship from HHMI and by NIH T32 GM07276.

PY - 2006/4/21

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N2 - The intracellular compartment harboring Toxoplasma gondii satisfies the parasite's nutritional needs for rapid growth in mammalian cells. We demonstrate that the parasitophorous vacuole (PV) of T. gondii accumulates material coming from the host mammalian cell via the exploitation of the host endo-lysosomal system. The parasite actively recruits host microtubules, resulting in selective attraction of endo-lysosomes to the PV. Microtubule-based invaginations of the PV membrane serve as conduits for the delivery of host endo-lysosomes within the PV. These tubular conduits are decorated by a parasite coat, including the tubulogenic protein GRA7, which acts like a garrote that sequesters host endocytic organelles in the vacuolar space. These data define an unanticipated process allowing the parasite intimate and concentrated access to a diverse range of low molecular weight components produced by the endo-lysosomal system. More generally, they identify a unique mechanism for unidirectional transport and sequestration of host organelles.

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Toxoplasma gondii Sequesters Lysosomes from Mammalian Hosts in the Vacuolar Space

Abstract

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