Abstract
Carriers of the apolipoprotein A-I(Milano) (apoA-I(M)) variant, R173C, have reduced levels of plasma HDL but no increase in cardiovascular disease. Despite intensive study, it is not clear whether the removal of the arginine or the introduction of the cysteine is responsible for this altered functionality. We investigated this question using two engineered variations of the apoA-I(M) mutation: R173S apoA-I, similar to apoA-I(M) but incapable of forming a disulfide bond, and R173K apoA-I, a conservative mutation. Characterization of the lipid-free proteins showed that the order of stability was wild type approximately R173K>R173S>R173C. Compared with wild-type apoA-I, apoA-I(M) had a lower affinity for lipids, while R173S apoA-I displayed intermediate affinity. The in vivo effects of the apoA-I variants were measured by injecting apoA-I-expressing adeno-associated virus into apoA-I-null mice. Mice that expressed the R173S variant again showed an intermediate phenotype. Thus, both the loss of the arginine and its replacement by a cysteine contribute to the altered properties of apoA-I(M). The arginine is potentially involved in an intrahelical salt bridge with E169 that is disrupted by the loss of the positively charged arginine and repelled by the cysteine, destabilizing the helix bundle domain in the apoA-I molecule and modifying its lipid binding characteristics.
Highlights
Carriers of the apolipoprotein A-IMilano variant, R173C, have reduced levels of plasma HDL but no increase in cardiovascular disease
ApoA-IM-phospholipid complexes demonstrated regression of existing atheromas after five weekly treatments [25, 26]. It has not been determined how the R173C substitution is responsible for altering the functional aspects of the apolipoprotein A-IMilano (apoA-IM) mutant. Is it the removal of the arginine and the loss of positive charge at position 173 or the introduction of a cysteine residue with the ability to form disulfide bonds that is responsible? To investigate this question, we generated two engineered variants of the apoA-IM mutation, R173S Apolipoprotein A-I (apoA-I), a mutation structurally similar to apoA-IM but without the ability to form disulfide bonds, and R173K apoA-I, a conservative mutation that maintains the positive charge at position 173 of WT apoA-I
The secondary structures of apoA-I variants were analyzed by far-UV circular dichroism (CD) spectroscopy
Summary
Carriers of the apolipoprotein A-IMilano (apoA-IM) variant, R173C, have reduced levels of plasma HDL but no increase in cardiovascular disease Despite intensive study, it is not clear whether the removal of the arginine or the introduction of the cysteine is responsible for this altered functionality. Despite a lipid profile that is usually associated with a high risk of premature cardiovascular disease, apoA-IM carriers display no increase in cardiovascular disease or events [10, 14, 15] This has led to speculation that apoA-IM is a gainof-function mutation that has enhanced cardio-protective effects [16,17,18,19,20,21,22], while others believe that wild-type (WT) apoA-I and apoA-IM are functionally equivalent [23, 24].
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