Abstract
Posttranslational modification by isolevuglandins (isoLGs), arachidonate oxidation products, is an important yet understudied process associated with altered protein properties. This type of modification is detected in cytochrome P450 27A1 (CYP27A1), a multifunction enzyme expressed in almost every cell and involved in the metabolism of cholesterol and other sterols. Previously, the CYP27A1 Lys(358)-isoLG adduct was found in human retina afflicted with age-related macular degeneration. Yet, the effect of Lys(358) modification on enzyme activity was not investigated. Herein, we characterized catalytic properties of Lys(358) as well as Lys(476) CYP27A1 mutants before and after isoLG treatment and quantified the extent of modification by multiple reaction monitoring. The K358R mutant was less susceptible to isoLG-induced loss of catalytic activity than the wild type (WT), whereas the K476R mutant was nearly as vulnerable as the WT. Both mutants showed less isoLG modification than WT. Thus, modification of Lys(358), a residue involved in redox partner interactions, is the major contributor to isoLG-associated loss of CYP27A1 activity. Our data show the specificity of isoLG modification, provide direct evidence that isoLG adduction impairs enzyme activity, and support our hypothesis that isoLG modification in the retina is detrimental to CYP27A1 enzyme activity, potentially disrupting cholesterol homeostasis.
Highlights
Posttranslational modification by isolevuglandins, arachidonate oxidation products, is an important yet understudied process associated with altered protein properties
We found that cytochrome P450 27A1 (CYP27A1) is the major retinal cholesterol hydroxylase (17–19), participating in the elimination of 7-ketocholesterol (20, 21), suggested to play a role in the development of age-related macular degeneration (AMD) (22)
We report that CYP27A1 Lys358 and Lys476 are highly amenable toward isoLG modification with the adduction at Lys358 being the underlying reason for the decreased CYP27A1 activity following isoLG treatment
Summary
Posttranslational modification by isolevuglandins (isoLGs), arachidonate oxidation products, is an important yet understudied process associated with altered protein properties. This is the first demonstration of the specificity of isoLG modification and its direct effect on enzyme activity, strengthening and providing additional mechanistic insights in our proposed schema (23) whereby increased oxidative stress deleteriously affects protein function and contributes to age-related cholesterol accumulation in the retina and associated vascular pathologies. By preventing modification at residue 358, the K358R mutation rendered the CYP27A1 less susceptible to loss of enzyme activity from iso[4]LGE2 treatment.
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