grant

Role of the Natural Killer Complex in the control of murine malarial pathogenesis [ 2005 - 2007 ]

Also known as: Control of malarial pathogenesis by NK cells

Research Grant

[Cite as https://purl.org/au-research/grants/nhmrc/356239]

Researchers: Dr Diana Hansen (Principal investigator)

Brief description Natural Killer (NK )cells are an essential arm of the innate immune system. NK cell function is controlled by a series of cell surface receptors encoded within a defined genetic region named the Natural Killer Complex (NKC). This region appears to be highly polymorphic both in mice and humans. It is known that different mouse strains, which differ in the expression of NKC molecules have distinct ability to mount inflammatory responses during infection. In fact, we have previously shown that the differential expression of NKC molecules in mice accounts for the degree of susceptibility to Plasmodium berghei-mediated cerebral malaria, a syndrome that accurately reproduces malarial disease induced by Plasmodium falciparum in humans and that results from an exacerbated pro-inflammatory response to infection. Since the NKC comprises several genes and multi-gene families, the main objective of this proposal is to identify which molecule-s within this genetic region are responsible for the induction of cerebral malaria pathogenesis. Our preliminary results indicate that an activation receptor named Ly49D, which is only expressed on the surface of NK cells from cerebral malaria-susceptible mice, plays a key role in disease-induction. Activation of Ly49D induces NK cells to secrete large amounts of IFN-gamma, a pro-inflammatory cytokine known to mediate cerebral-malaria pathogenesis. We will characterize the immunological function of Ly49D+ NK cells during P. berghei infection and determine whether these cells are the main source of IFN-gamma production. We will also identify the ligand (from parasite or host origin) responsible for the stimulation of this NKC activation receptor during malaria infection. The identification and characterization of these NKC receptors will provide new insights to explain the immunological basis of malarial pathogenesis and could lead to the development of therapeutical approaches designed to prevent severe malarial disease.

Funding Amount $AUD 487,500.00

Funding Scheme NHMRC Project Grants

Notes New Investigator Grant

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