Plasmodium yoelii macrophage migration inhibitory factor is necessary for efficient liver-stage development.

Mammalian macrophage migration inhibitory factor (MIF) is a multifaceted cytokine involved in both extracellular and intracellular functions. Malaria parasites express a MIF homologue that might modulate host immune responses against blood-stage parasites, but the potential importance of MIF against other life cycle stages remains unstudied. In this study, we characterized the MIF homologue of Plasmodium yoelii throughout the life cycle, with emphasis on preerythrocytic stages. P. yoelii MIF (Py-MIF) was expressed in blood-stage parasites and detected at low levels in mosquito salivary gland sporozoites. MIF expression was strong throughout liver-stage development and localized to the cytoplasm of the parasite, with no evidence of release into the host hepatocyte. To examine the importance of Py-MIF for liver-stage development, we generated a Py-mif knockout parasite (P. yoelii Δmif). P. yoelii Δmif parasites grew normally as asexual erythrocytic-stage parasites and showed normal infection of mosquitoes. In contrast, the P. yoelii Δmif strain was attenuated during the liver stage. Mice infected with P. yoelii Δmif sporozoites either did not develop blood-stage parasitemia or exhibited a delay in the onset of blood-stage patency. Furthermore, P. yoelii Δmif parasites exhibited growth retardation in vivo. Combined, the data indicate that Plasmodium MIF is important for liver-stage development of P. yoelii, during which it is likely to play an intrinsic role in parasite development rather than modulating host immune responses to infection.