Analysis of the misregulation of RhoA and RhoH in autoimmune mice. (HUM7P.302)

Abstract

Abstract When cultured in the presence of apoptotic cells, cell bodies or lipids, RhoA is misregulated in macrophages from all 6 autoimmune mouse strains but none of the 7 normal strains tested. Misregulation of RhoA results in defective morphology, altered cytokine production, and increased adhesion. The same macrophages cultured without apoptotic cell lipids had properly regulated RhoA and behaved normally. Normal mouse macrophages cultured with the Rho inhibitor C3 toxin, had defective macrophage morphology and behavior. Therefore, we proposed that autoimmunity is due to an apoptotic cell recognition signaling defect and that normal macrophage function may be restored by a chemical reversal of the defect. Our new data demonstrate that lupus strain, MRL, macrophages cultured in the presence of C3 no longer had defects in morphology and function. The fact that a RhoA inhibitor restored RhoA function indicates that the misregulation in autoimmune macrophages involves a RhoA regulator also affected by C3 and not RhoA itself. RhoH is a known inhibitor of RhoA and it is only expressed in hematopoietic cells. Experiments comparing RhoH expression in BALB and MRL macrophages suggest at least four different sizes of RhoH protein are expressed in normal macrophages in response to lipid exposure and that lupus macrophages do not express the multiple forms of RhoH even in the presence of lipids. A lack of proper RhoH expression could be behind the autoimmune macrophage defect.