Matthew A. Kennedy scite author profile

Here we demonstrate that the ABC transporter ABCG1 plays a critical role in lipid homeostasis by controlling both tissue lipid levels and the efflux of cellular cholesterol to HDL. Targeted disruption of Abcg1 in mice has no effect on plasma lipids but results in massive accumulation of both neutral lipids and phospholipids in hepatocytes and in macrophages within multiple tissues following administration of a high-fat and -cholesterol diet. In contrast, overexpression of human ABCG1 protects murine tissues from dietary fat-induced lipid accumulation. Finally, we show that cholesterol efflux to HDL specifically requires ABCG1, whereas efflux to apoA1 requires ABCA1. These studies identify Abcg1 as a key gene involved in both cholesterol efflux to HDL and in tissue lipid homeostasis.

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Expression and Regulation of Multiple Murine ATP-binding Cassette Transporter G1 mRNAs/Isoforms That Stimulate Cellular Cholesterol Efflux to High Density Lipoprotein

Nakamura¹,

Kennedy²,

Baldán³

et al. 2004

Journal of Biological Chemistry

156

128

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The murine Abcg1 gene is reported to consist of 15 exons that encode a single mRNA (herein referred to as Abcg1-a) and protein. We now demonstrate that (i) the murine gene contains two additional coding exons downstream of exon 1, (ii) transcription involves the use of multiple promoters, and (iii) the RNA undergoes alternative splicing reactions. As a result, three mRNAs are expressed that encode three putative protein isoforms that differ at their amino terminus. ABCG1 transcripts are induced in vivo in multiple tissues in response to the liver X receptor ligand T0901317. Identification and characterization of four liver X receptor response elements in the intron downstream of exon 2 provides a mechanism by which this induction occurs. Importantly, cholesterol efflux to high density lipoprotein was stimulated following transfection of Hek293 cells with plasmids encoding individual ABCG1 isoforms. In situ hybridization studies in embryonic day 11.5-15.5 mouse embryos revealed strong expression of ABCG1 transcripts in the olfactory epithelium, hind brain, eye, and dorsal root ganglia. The relatively high levels of expression in neuronal tissues and the eye suggest that ABCG1-dependent cholesterol efflux may be critical for normal neuronal function in addition to its role in macrophages.There are more than 373 members in the ATP-binding cassette (ABC)

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Transcriptional regulation of the squalene synthase gene (ERG9) in the yeast Saccharomyces cerevisiae

Kennedy

Barbuch

Bard

1999

Biochimica et Biophysica Acta (BBA) - Gene Structure and Expres

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Sequencing, Disruption, and Characterization of the Candida albicans Sterol Methyltransferase ( ERG6 ) Gene: Drug Susceptibility Studies in erg6 Mutants

Jensen-Pergakes

Kennedy

Lees

et al. 1998

Antimicrob Agents Chemother

114

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The rise in the frequency of fungal infections and the increased resistance noted to the widely employed azole antifungals make the development of new antifungals imperative for human health. The sterol biosynthetic pathway has been exploited for the development of several antifungal agents (allylamines, morpholines, azoles), but additional potential sites for antifungal agent development are yet to be fully investigated. The sterol methyltransferase gene (ERG6) catalyzes a biosynthetic step not found in humans and has been shown to result in several compromised phenotypes, most notably markedly increased permeability, when disrupted in Saccharomyces cerevisiae. The Candida albicans ERG6 gene was isolated by complementation of a S. cerevisiae erg6 mutant by using a C. albicans genomic library. Sequencing of theCandida ERG6 gene revealed high homology with theSaccharomyces version of ERG6. The first copy of the Candida ERG6 gene was disrupted by transforming with the URA3 blaster system, and the second copy was disrupted by both URA3 blaster transformation and mitotic recombination. The resulting erg6 strains were shown to be hypersusceptible to a number of sterol synthesis and metabolic inhibitors, including terbinafine, tridemorph, fenpropiomorph, fluphenazine, cycloheximide, cerulenin, and brefeldin A. No increase in susceptibility to azoles was noted. Inhibitors of the ERG6gene product would make the cell increasingly susceptible to antifungal agents as well as to new agents which normally would be excluded and would allow for clinical treatment at lower dosages. In addition, the availability of ERG6 would allow for its use as a screen for new antifungals targeted specifically to the sterol methyltransferase.

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Characterization of the Human ABCG1 Gene

Kennedy¹,

Venkateswaran²,

Tarr³

et al. 2001

Journal of Biological Chemistry

230

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The human ABCG1 gene encodes a member of the ATPbinding cassette (ABC) superfamily of transporter proteins and is highly induced when macrophages are incubated with oxysterols. Using mRNA from oxysterol-treated human THP-1 cells together with 5-rapid amplification of cDNA ends and polymerase chain reaction, we identified a novel ABCG1 transcript that encodes a putative protein of 786 residues containing a new amino terminus of 203 amino acids. Characterization of the genomic organization and structure of the human ABCG1 gene demonstrates that: (i) the gene consists of 23 exons spanning 98 kilobase pairs (kb) on chromosome 21q22.3, (ii) the 203 amino acids are encoded on three previously unidentified exons, 8-10, and (iii) a promoter, containing a TATA box and two liver X receptor (LXR) ␣ response elements (LXREs), is located upstream of exon 8. Northern analysis using exon-specific probes confirms that oxysterol treatment results in >10-fold induction of ABCG1 transcripts that are derived from either exons 8-23 or exons 5, 7, and 11-23. Electromobility shift assays demonstrate that LXR␣ and retinoid X receptor ␣ bind to the two LXREs in intron 7. Cells were transiently transfected with reporter luciferase constructs under the control of either (i) 9 kb of genomic DNA corresponding to intron 7 and part of exon 8 and containing either wild-type or mutant LXREs or (ii) two copies of the wild-type or mutant LXRE. In all cases, the wild-type construct was regulated in an LXR-and oxysterol-dependent manner, and this regulation was attenuated when the LXREs were mutated. In conclusion, the human ABCG1 gene contains multiple promoters, spans more than 98 kb and comprises 23 exons that give rise to alternative transcripts encoding proteins with different amino-terminal sequences. Elucidation of the various roles of different ABCG1 isoforms will be important for our understanding of mammalian cholesterol homeostasis.In the presence of oxidized, aggregated, or acetylated LDL, 1 macrophages take on a "foamy" appearance as a result of the cytoplasmic accumulation of cholesteryl ester lipid droplets (1-3). Such macrophage foam cells are found in both fatty streaks and more advanced lesions in the artery wall and appear to be important in the development of atherosclerosis (2). Recent studies have begun to explore the changes in macrophage gene expression that occur during lipid loading, on the assumption that such changes effect the development of fatty streaks and/or the stability of advanced plaques. These studies led to the identification of three mRNAs, ABCG1, ABCA1, and apoE, that are highly induced when macrophages are incubated in the presence of either modified LDL or specific oxysterols (4 -7). Induction of each mRNA requires the nuclear hormone receptor LXR (4 -6, 8, 9). ABCG1 (also referred to as human White or murine ABC8), and ABCA1 are two members of the ATP-binding cassette (ABC) transporter superfamily of proteins (10 -12). The ABC superfamily consists of membrane-bound proteins that mediate the ATP-dependent ...

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