A functional role for inducible costimulator (ICOS) in atherosclerosis

Abstract 

Background:

Lymphocytes appear to influence atherosclerosis by altering cytokine production. Whereas primary lymphocyte activation requires T cell receptor ligation, costimulatory signals also appear requisite for generation of a functional T cell response. Inducible costimulator (ICOS) is a newly discovered T cell molecule with a dual role in immune mediated disorders. Herein, we tested the importance of ICOS in atherosclerosis.

Methods and results:

Atherosclerotic plaques from ApoE-KO mice were studied immunohistochemically for the presence and localization of ICOS and its receptors and its expression in splenocytes. ApoE-KO mice were immunized with human ICOS/Fc-chimera or non-fused Fc and either provided a chow diet for 6 weeks, or a high fat diet for 8 weeks.

ICOS and its ligand were abundantly expressed within plaques from ApoE-KO mice:

Spleen cells from atherosclerotic mice exhibited lowered constitutive expression of ICOS yet priming with oxLDL enhanced ICOS expression dose-dependently. In mice induced to develop fatty streaks and to generate ICOS blocking antibodies, early atherosclerosis was increased by ∼77% whereas upon inducing more advanced lesions, the increase in plaque area upon ICOS blockade group was ∼36%. IFN-gamma secretion by oxLDL-primed splenocytes in ICOS-immunized mice increased whereas IL-10 secretion diminished as compared to control animals. A similar trend in cytokine production was evident in the lesion by immunohistochemistry.

Conclusion:

ICOS appears as an influential costimulatory pathway in atherosclerosis that may play a protective rather that a proatherogenic role.

Keywords: Atherosclerosis, Immune system, Lymphocyte, Oxidized LDL