Abstract

The retina, a thin tissue in the back of the eye, has two apparent sources of cholesterol: in situ biosynthesis and cholesterol available from the systemic circulation. The quantitative contributions of these two cholesterol sources to the retinal cholesterol pool are unknown and have been determined in the present work. A new methodology was used. Mice were given separately deuterium-labeled drinking water and chow containing 0.3% deuterium-labeled cholesterol. In the retina, the rate of total cholesterol input was 21 μg of cholesterol/g retina • day, of which 15 μg of cholesterol/g retina • day was provided by local biosynthesis and 6 μg of cholesterol/g retina • day was uptaken from the systemic circulation. Thus, local cholesterol biosynthesis accounts for the majority (72%) of retinal cholesterol input. We also quantified cholesterol input to mouse brain, the organ sharing important similarities with the retina. The rate of total cerebral cholesterol input was 121 μg of cholesterol/g brain • day with local biosynthesis providing 97% of total cholesterol input. Our work addresses a long-standing question in eye research and adds new knowledge to the potential use of statins (drugs that inhibit cholesterol biosynthesis) as therapeutics for age-related macular degeneration, a common blinding disease.

Highlights

  • The retina, a thin tissue in the back of the eye, has two apparent sources of cholesterol: in situ biosynthesis and cholesterol available from the systemic circulation

  • Local cholesterol biosynthesis accounts for the majority (72%) of retinal cholesterol input

  • Our work addresses a long-standing question in eye research and adds new knowledge to the potential use of statins as therapeutics for age-related macular degeneration, a common blinding disease.—Lin, J

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Summary

Introduction

The retina, a thin tissue in the back of the eye, has two apparent sources of cholesterol: in situ biosynthesis and cholesterol available from the systemic circulation. Supplementary key words dietary cholesterol lipoproteins low density lipoprotein mass spectrometry brain lipids cholesterol uptake deuterium age-related macular degeneration isotopic tracer. Cholesterol maintenance in the retina is still poorly understood but needs to be studied to delineate the link between retinal cholesterol and age-related macular degeneration (AMD) [2], a blinding disease affecting the elderly of the industrialized world [3]. There are two known pathways of retinal cholesterol input: local cholesterol biosynthesis and tissue uptake of systemic cholesterol (i.e., cholesterol-containing lipoprotein particles from the systemic circulation) [5,6,7,8,9]. The relative contributions, and significances, of these pathways to the retinal cholesterol pool are unknown, impeding the prioritization of research directions in studies of retinal cholesterol [2]

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