Hostile Takeover by Plasmodium: Reorganization of Parasite and Host Cell Membranes during Liver Stage Egress

Stefanie Graewe,Kathleen E Rankin,Ulrike Froehlke,Christine Lehmann,Volker Heussler,Leonie Hecht,Christina Deschermeier,Rebecca R Stanway,Boris Striepen

doi:10.1371/journal.ppat.1002224

Stefanie Graewe, Kathleen E Rankin + Show 7 more

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https://doi.org/10.1371/journal.ppat.1002224

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Abstract

The protozoan parasite Plasmodium is transmitted by female Anopheles mosquitoes and undergoes obligatory development within a parasitophorous vacuole in hepatocytes before it is released into the bloodstream. The transition to the blood stage was previously shown to involve the packaging of exoerythrocytic merozoites into membrane-surrounded vesicles, called merosomes, which are delivered directly into liver sinusoids. However, it was unclear whether the membrane of these merosomes was derived from the parasite membrane, the parasitophorous vacuole membrane or the host cell membrane. This knowledge is required to determine how phagocytes will be directed against merosomes. Here, we fluorescently label the candidate membranes and use live cell imaging to show that the merosome membrane derives from the host cell membrane. We also demonstrate that proteins in the host cell membrane are lost during merozoite liberation from the parasitophorous vacuole. Immediately after the breakdown of the parasitophorous vacuole membrane, the host cell mitochondria begin to degenerate and protein biosynthesis arrests. The intact host cell plasma membrane surrounding merosomes allows Plasmodium to mask itself from the host immune system and bypass the numerous Kupffer cells on its way into the bloodstream. This represents an effective strategy for evading host defenses before establishing a blood stage infection.

Highlights

Despite considerable research and eradication efforts, malaria remains one of the most debilitating infectious diseases in the developing world
We offer an explanation for the difficulty in detecting typical hepatocyte surface proteins in the merosome membrane: upon breakdown of the parasitophorous vacuole membrane (PVM), a transgenically expressed marker protein is quickly lost from the host cell membrane (HCM)
Several live stains were used to evaluate the nature of the membrane: Presence of a membrane was confirmed via the membrane stain Vybrant DiO for both freshly formed and aging detached cells and merosomes (Figure 1, top panel)

Summary

Introduction

Despite considerable research and eradication efforts, malaria remains one of the most debilitating infectious diseases in the developing world. Malaria is caused by Plasmodium, a protozoan parasite that is transmitted by infected female Anopheles mosquitoes. Transmission occurs during a blood meal and the parasite enters the bloodstream as a sporozoite. At the end of the liver stage, these merozoites are packaged into merosomes, which facilitate shuttling into the bloodstream [2]. Upon reaching the lung capillaries, the merosomes rupture and release their cargo of infectious merozoites [3] to infect erythrocytes. This mode of transition to the blood stage has been described previously [2] and while the general process of merosome formation is understood, many of its details are still unknown. There are three membranes from which it could stem: the parasite membrane (PM), the parasitophorous vacuole membrane (PVM)

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