Yasuo Chinzei scite author profile

Liver infection is an obligatory step in malarial transmission, but it remains unclear how the sporozoites gain access to the hepatocytes, which are separated from the circulatory system by the liver sinusoidal cell layer. We found that a novel microneme protein, named sporozoite microneme protein essential for cell traversal (SPECT), is produced by the liver-infective sporozoite of the rodent malaria parasite, Plasmodium berghei. Targeted disruption of the spect gene greatly reduced sporozoite infectivity to the liver. In vitro cell invasion assays revealed that these disruptants can infect hepatocytes normally but completely lack their cell passage ability. Their apparent liver infectivity was, however, restored by depletion of Kupffer cells, hepatic macrophages included in the sinusoidal cell layer. These results show that malarial sporozoites access hepatocytes through the liver sinusoidal cell layer by cell traversal motility mediated by SPECT and strongly suggest that Kupffer cells are main routes for this passage. Our findings may open the way for novel malaria transmission-blocking strategies that target molecules involved in sporozoite migration to the hepatocyte.

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A Plasmodium sporozoite protein with a membrane attack complex domain is required for breaching the liver sinusoidal cell layer prior to hepatocyte infection†

Ishino¹,

Chinzei²,

Yuda³

2004

213

245

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SummaryPlasmodium sporozoites are injected into the mammalian host during mosquito blood feeding and carried by the blood stream to the liver, where they infect hepatocytes and develop into erythrocyte-invasive forms. To reach the hepatocytes, sporozoites must cross the liver sinusoidal cell layer, which separates the hepatocytes from the circulatory system. Little is known about the molecular mechanisms by which sporozoites breach this cellular barrier. Here we report that a protein with a membrane attack complex/ perforin (MACPF)-related domain is involved in this step. This molecule is specifically expressed in liverinfective sporozoites and localized in micronemes, organelles engaged in host cell invasion. Gene disruption experiments revealed that this protein is essential for the membrane-wounding activity of the sporozoite and is involved in its traversal of the sinusoidal cell layer prior to hepatocyte-infection. Disruptants failed to leave the circulation, and most of them were eliminated from the blood by liver perfusion. Our results suggest that rupture of the host plasma membrane by the pore-forming activity of this molecule is essential for cell passage of the sporozoite. This report is the first to demonstrate an important role of a MACPF-related protein in host cell invasion by a pathogenic microorganism.

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CelTOS, a novel malarial protein that mediates transmission to mosquito and vertebrate hosts

Kariu

Ishino

Yano

et al. 2006

Molecular Microbiology

223

211

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SummaryThe malarial parasite has two hosts in its life cycle, a vertebrate and a mosquito. We report here that malarial invasion into these hosts is mediated by a protein, designated cell-traversal protein for ookinetes and sporozoites (CelTOS), which is localized to micronemes that are organelles for parasite invasive motility. Targeted disruption of the CelTOS gene in Plasmodium berghei reduced parasite infectivity in the mosquito host approximately 200-fold. The disruption also reduced the sporozoite infectivity in the liver and almost abolished its cell-passage ability. Liver infectivity was restored in Kupffer cell-depleted rats, indicating that CelTOS is necessary for sporozoite passage from the circulatory system to hepatocytes through the liver sinusoidal cell layer. Electron microscopic analysis revealed that celtos -disrupted ookinetes invade the midgut epithelial cell by rupturing the cell membrane, but then fail to cross the cell, indicating that CelTOS is necessary for migration through the cytoplasm. These results suggest that conserved cell-passage mechanisms are used by both sporozoites and ookinetes to breach host cellular barriers. Elucidation of these mechanisms might lead to novel antimalarial strategies to block parasite's transmission.

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Yasuo Chinzei

Cell-Passage Activity Is Required for the Malarial Parasite to Cross the Liver Sinusoidal Cell Layer

A Plasmodium sporozoite protein with a membrane attack complex domain is required for breaching the liver sinusoidal cell layer prior to hepatocyte infection†

CelTOS, a novel malarial protein that mediates transmission to mosquito and vertebrate hosts

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