A proatherogenic role for C-reactive protein in vivo.

PURPOSE OF REVIEW: We have selectively reviewed some of the latest papers on the mechanistic role of C-reactive protein in atherosclerotic cardiovascular disease. RECENT DEVELOPMENTS: C-reactive protein is known to activate the classic pathway of the complement system. One paper examined the role of C-reactive protein in complement activation by enzymatically remodeled LDL proteins. Enzymatically remodeled LDL was found to induce complement activation with or without C-reactive protein, but in the presence of C-reactive protein the activation of complement halted before its terminal sequence. Complement activation by C-reactive protein in atherogenesis remains controversial. Different laboratories have reported the multi-organ origin of C-reactive protein. The atherosclerotic lesion itself is another place where C-reactive protein could be produced. Numerous studies have continued to dissect the potential diverse proatherogenic actions of C-reactive protein on cultured vascular cells. Caution must be exercised in inadequately controlled studies that have unwittingly used commercial C-reactive protein preparations contaminated by other bioactive components. In contrast to in-vitro experiments, in-vivo studies that support a proatherogenic role of C-reactive protein are less likely to be subject to misinterpretation.
SUMMARY: Evidence suggests that C-reactive protein is a proatherogenic molecule that plays an active role. The amount of C-reactive protein in lesions is determined by its plasma levels and its local production. The biological effect of C-reactive protein on atherosclerosis development seems to encompass a complex network of interactions with other players in immunity and inflammation, such as the complement system, as well as a direct effect of C-reactive protein on the cells involved in lesion growth and development.