Upregulated small GTPase immunity-associated proteins confer resistance to Neospora caninum in rat and bovine cells
Abdur Rehman Azam, Md Mukthar Mia, Julie Bedwani, William H. Witola

TL;DR
Researchers found that upregulated GIMAP proteins in rat and bovine cells help resist Neospora caninum infection by triggering lysosomal fusion and vacuole acidification.
Contribution
The study reveals a novel mechanism of resistance to Neospora caninum involving GIMAP proteins and lysosomal fusion in host cells.
Findings
Lewis rats resist Neospora caninum infection with increased GIMAP 4, 5, and 6 expression.
Overexpression of GIMAPs in macrophages leads to lysosomal fusion and vacuole acidification, inhibiting parasite proliferation.
Bovine GIMAPs are orthologous to rat GIMAPs and similarly restrict Neospora caninum growth in bovine cells.
Abstract
Neosporosis is a leading cause of abortions and neonatal mortality resulting in significant global economic losses in cattle production, and is also a common cause of a fatal neuromuscular degenerative disease in dogs, for which there are no effective treatments nor prophylactics available. Elucidation of Neospora-specific mechanisms that resistant hosts employ to orchestrate defenses against the parasite could hold the key to unveiling novel strategies for developing effective control approaches against neosporosis. Previously, we reported that the Lewis rat resists intracellular Toxoplasma gondii growth by augmenting the expression of GTPase Immunity-Associated Proteins (GIMAPs), namely GIMAP 4, 5, and 6 that mediate the resistance phenotype. Herein, we investigated the effect of upregulated expression of GIMAPs on the growth and proliferation of Neospora caninum (an evolutionarily…
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Taxonomy
TopicsToxoplasma gondii Research Studies · Parasitic Infections and Diagnostics · Pediatric health and respiratory diseases
