Abstract
Malaria liver stage infection is an obligatory parasite development step and represents a population bottleneck in Plasmodium infections, providing an advantageous target for blocking parasite cycle progression. Parasite development inside hepatocytes implies a gross cellular insult evoking innate host responses to counteract intra-hepatocytic infection. Using primary hepatocyte cultures, we investigated the role of Kupffer cell-derived hepatocyte growth factor (HGF) in malaria liver stage infection. We found that Kupffer cells from Plasmodium-infected livers produced high levels of HGF, which trigger apoptosis of infected hepatocytes through a mitochondrial-independent apoptosis pathway. HGF action in infected hepatocyte primary cultures results in a potent reduction of parasite yield by specifically sensitizing hepatocytes carrying established parasite exo-erythrocytic forms to undergo apoptosis. This apoptosis mechanism is distinct from cell death that is spontaneously induced in infected cultures and is governed by Fas signaling modulation through a mitochondrial-dependent apoptosis pathway. This work indicates that HGF and Fas signaling pathways are part of an orchestrated host apoptosis response that occurs during malaria liver stage infection, decreasing the success of infection of individual hepatocytes. Our results raise the hypothesis that paracrine signals derived from Kupffer cell activation are implicated in directing death of hepatocytes infected with the malaria parasite.
Highlights
Malaria remains a major global health problem
It has been reported that hepatocyte growth factor (HGF) and its mRNA localize exclusively to Non-Parenchymal Cells (NPCs) in the liver [23,24,25], and we have confirmed that expression of Hgf mRNA in primary hepatocytes was not detectable, irrespective to infection with P. berghei
HGF pre-treatment of C57BL/6 hepatocytes infected with P. yoelii (Figure 1E) or P. berghei-spect(-)1 (Figure 1F) revealed that reduction of parasite yield induced by HGF transcends Plasmodium species and is independent of hepatocyte traversing [19]
Summary
It is estimated that 3.2 billion people are at risk of developing the disease [1], which represents a serious socioeconomic burden in malaria endemic countries [2]. The natural infection is initiated by Plasmodium sporozoites that reach the liver and infect hepatocytes—the preferred site of parasite replication and an obligatory step for cycle progression in the mammalian host [3]. Through a high-efficacy process of pre-erythrocytic schizogony, one sporozoite develops into a liver stage form that undergoes exponential growth entrenching thousands of merozoites inside the parasitophorous vacuole in each infected hepatocyte [4]. Kupffer Cells Control Malaria-Infected Hepatocytes invasion and the expansion of exo-erythrocytic forms (EEFs) inside hepatocytes represent a prominent cellular insult that plausibly elicits host strategies to counteract EEFs development
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