Abstract
Pharmacological inhibition of dietary lipid absorption induces favorable changes in serum lipoprotein levels in patients that are at risk for cardiovascular disease and is considered an adjuvant or alternative treatment with HMG-CoA reductase inhibitors (statins). Here we demonstrate the feasibility of identifying novel inhibitors of intestinal lipid absorption using the zebrafish system. A pilot screen of an unbiased chemical library identified novel compounds that inhibited processing of fluorescent lipid analogues in live zebrafish larvae. Secondary assays identified those compounds suitable for testing in mammals and provided insight into mechanism of action, which for several compounds could be distinguished from ezetimibe, a drug used to inhibit cholesterol absorption in humans that broadly inhibited lipid absorption in zebrafish larvae. These findings support the utility of zebrafish screening assays to identify novel compounds that target complex physiological processes.
Highlights
Inhibition of dietary lipid absorption is an evolving strategy to treat cardiovascular complications of disorders of lipid metabolism
The screening assays used for this study were derived from previous work using fluorescent lipid reporters in zebrafish larvae [19]
The principal findings of this study support the utility of zebrafish screening assays for lead compounds that can be developed into new drugs that inhibit lipid absorption
Summary
Inhibition of dietary lipid absorption is an evolving strategy to treat cardiovascular complications of disorders of lipid metabolism. Given the high prevalence of lipid metabolism disorders it is desirable to identify lead compounds that can be developed into new drugs that inhibit lipid absorption via novel mechanisms. We report the utility of using the zebrafish for this purpose. Because of their small size, optical transparency zebrafish larvae are well suited for chemical library screens using fluorescent, histochemical or morphological assays [11,12,13,14,15,16]. Given the high degree of conservation of lipid metabolism in teleost fish and mammals [17,18,19,20], it is likely that compounds identified in a zebrafish screen will act through comparable mechanisms in mammals
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