CD11c- and CD11b-expressing mouse leukocytes transport single Toxoplasma gondii tachyzoites to the brain

Abstract: The protozoan parasite Toxoplasma gondii enters hosts through the intestinal mucosa and colonizes distant tissues such as the brain, where its progeny persists for a lifetime. We investigated the role of CD11c-and CD11b-expressing leukocytes in T gondii transport during the early step of parasitism from the mouse small intestine and during subsequent parasite localization in the brain. Following intragastric inoculation of cystcontaining parasites in mice, CD11c ؉ dendritic cells from the intestinal lamina pro… Show more

“…Surprisingly little is known about how T. gondii behaves in the small intestine of orally infected hosts. There are isolated reports of dividing parasites in intestinal tissue 1 d after infection (dpi), and the parasite increases in number in the small intestine between 3 and 7 dpi (2,(4)(5)(6)9). However, we lack basic information concerning the distribution of parasites in the small intestine during the first week of infection and how this distribution…”

“…between tissues. For example, dendritic cells (DCs) have been implicated in spread between tissues, transporting T. gondii from the intestine to the draining mesenteric lymph node early after infection (4). We speculated that immune cells also may be involved in spread within the intestine by facilitating exit of the parasite into the intestinal lumen and the reinfection of new villi.…”

“…This model is useful to further our understanding of host-pathogen interactions in the intestine and of common mechanisms underpinning the development of inflammatory bowel disease (3). Nevertheless, we have limited understanding of how and in which cells infection is established in the intestine, the extent to which the parasite replicates and spreads within the intestine, and how these factors contribute to the development of pathology (2,(4)(5)(6)(7)(8)(9). The ability to label living parasites fluorescently and track them in the tissues of infected hosts provides an important tool for investigating these questions (10)(11)(12)(13)(14).…”

“…Consequently, recent studies have focused on the role of immune cells in transporting parasites between tissues (4,(16)(17)(18)(19)(20)(21)(22)(23). For example, cluster of differentiation 11b-positive (CD11b + ) cells have been implicated in the dissemination of T. gondii through the blood and across the blood-brain barrier (4,19). Following oral infection, it is thought that the initial invasion or traversal of intestinal epithelial cells by ingested parasites is followed by parasite replication in tissue and the transport by host cells to other tissues.…”

Motile invaded neutrophils in the small intestine ofToxoplasma gondii-infected mice reveal a potential mechanism for parasite spread

“…Surprisingly little is known about how T. gondii behaves in the small intestine of orally infected hosts. There are isolated reports of dividing parasites in intestinal tissue 1 d after infection (dpi), and the parasite increases in number in the small intestine between 3 and 7 dpi (2,(4)(5)(6)9). However, we lack basic information concerning the distribution of parasites in the small intestine during the first week of infection and how this distribution…”

“…between tissues. For example, dendritic cells (DCs) have been implicated in spread between tissues, transporting T. gondii from the intestine to the draining mesenteric lymph node early after infection (4). We speculated that immune cells also may be involved in spread within the intestine by facilitating exit of the parasite into the intestinal lumen and the reinfection of new villi.…”

“…This model is useful to further our understanding of host-pathogen interactions in the intestine and of common mechanisms underpinning the development of inflammatory bowel disease (3). Nevertheless, we have limited understanding of how and in which cells infection is established in the intestine, the extent to which the parasite replicates and spreads within the intestine, and how these factors contribute to the development of pathology (2,(4)(5)(6)(7)(8)(9). The ability to label living parasites fluorescently and track them in the tissues of infected hosts provides an important tool for investigating these questions (10)(11)(12)(13)(14).…”

“…Consequently, recent studies have focused on the role of immune cells in transporting parasites between tissues (4,(16)(17)(18)(19)(20)(21)(22)(23). For example, cluster of differentiation 11b-positive (CD11b + ) cells have been implicated in the dissemination of T. gondii through the blood and across the blood-brain barrier (4,19). Following oral infection, it is thought that the initial invasion or traversal of intestinal epithelial cells by ingested parasites is followed by parasite replication in tissue and the transport by host cells to other tissues.…”

Motile invaded neutrophils in the small intestine ofToxoplasma gondii-infected mice reveal a potential mechanism for parasite spread

“…The active penetration model was defined largely by using nonphagocytic host cells and hypervirulent strains of the parasite. Unlike their virulent counterparts, the interaction of avirulent Toxoplasma strains with macrophage and dendritic cell results in heightened innate cytokine and chemokine production (9) and the development of a "hypermotile" host cellular phenotype (10), which promotes the control of acute infection and mediates dissemination into sites of parasite latency (11,12). Here, we investigated whether avirulent parasites interact with phagocytic host cells in a fundamentally different way from the outset.…”

Avirulent strains of Toxoplasma gondii infect macrophages by active invasion from the phagosome

Apicomplexa: Toxoplasma gondii