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Literature DB >> 23380580

Phytosterol feeding causes toxicity in ABCG5/G8 knockout mice.

Allison L McDaniel¹, Heather M Alger, Janet K Sawyer, Kathryn L Kelley, Nancy D Kock, J Mark Brown, Ryan E Temel, Lawrence L Rudel.

Abstract

Plant sterols, or phytosterols, are very similar in structure to cholesterol and are abundant in typical diets. The reason for poor absorption of plant sterols by the body is still unknown. Mutations in the ABC transporters G5 and G8 are known to cause an accumulation of plant sterols in blood and tissues (sitosterolemia). To determine the significance of phytosterol exclusion from the body, we fed wild-type and ABCG5/G8 knockout mice a diet enriched with plant sterols. The high-phytosterol diet was extremely toxic to the ABCG5/G8 knockout mice but had no adverse effects on wild-type mice. ABCG5/G8 knockout mice died prematurely and developed a phenotype that included high levels of plant sterols in many tissues, liver abnormalities, and severe cardiac lesions. This study is the first to report such toxic effects of phytosterol accumulation in ABCG5/G8 knockout mice. We believe these new data support the conclusion that plant sterols are excluded from the body because they are toxic when present at high levels.

Entities: Chemical Disease Gene Species

Mesh：

Substances：

Year: 2013 PMID： 23380580 PMCID： PMC3620394 DOI： 10.1016/j.ajpath.2012.12.014

Source DB: PubMed Journal: Am J Pathol ISSN： 0002-9440 Impact factor: 4.307

27 in total

1. Accumulation of dietary cholesterol in sitosterolemia caused by mutations in adjacent ABC transporters.

Authors: K E Berge; H Tian; G A Graf; L Yu; N V Grishin; J Schultz; P Kwiterovich; B Shan; R Barnes; H H Hobbs
Journal: Science Date: 2000-12-01 Impact factor: 47.728

2. NEW CONTRIBUTIONS IN STEROL METABOLISM.

Authors: R Schoenheimer
Journal: Science Date: 1931-12-11 Impact factor: 47.728

3. Regulation of ATP-binding cassette sterol transporters ABCG5 and ABCG8 by the liver X receptors alpha and beta.

Authors: Joyce J Repa; Knut E Berge; Chris Pomajzl; James A Richardson; Helen Hobbs; David J Mangelsdorf
Journal: J Biol Chem Date: 2002-03-18 Impact factor: 5.157

4. Identification of a gene, ABCG5, important in the regulation of dietary cholesterol absorption.

Authors: M H Lee; K Lu; S Hazard; H Yu; S Shulenin; H Hidaka; H Kojima; R Allikmets; N Sakuma; R Pegoraro; A K Srivastava; G Salen; M Dean; S B Patel
Journal: Nat Genet Date: 2001-01 Impact factor: 38.330

Review 5. Genetic basis of sitosterolemia.

Authors: M H Lee; K Lu; S B Patel
Journal: Curr Opin Lipidol Date: 2001-04 Impact factor: 4.776

6. Two genes that map to the STSL locus cause sitosterolemia: genomic structure and spectrum of mutations involving sterolin-1 and sterolin-2, encoded by ABCG5 and ABCG8, respectively.

Authors: K Lu; M H Lee; S Hazard; A Brooks-Wilson; H Hidaka; H Kojima; L Ose; A F Stalenhoef; T Mietinnen; I Bjorkhem; E Bruckert; A Pandya; H B Brewer ; G Salen; M Dean; A Srivastava; S B Patel
Journal: Am J Hum Genet Date: 2001-07-09 Impact factor: 11.025

7. Coexpression of ATP-binding cassette proteins ABCG5 and ABCG8 permits their transport to the apical surface.

Authors: Gregory A Graf; Wei-Ping Li; Robert D Gerard; Ingrid Gelissen; Ann White; Jonathan C Cohen; Helen H Hobbs
Journal: J Clin Invest Date: 2002-09 Impact factor: 14.808

8. Sterol content of foods of plant origin.

Authors: J L Weihrauch; J M Gardner
Journal: J Am Diet Assoc Date: 1978-07

9. Sitosterolemia in ABC-transporter G5-deficient mice is aggravated on activation of the liver-X receptor.

Authors: Torsten Plösch; Vincent W Bloks; Yuko Terasawa; Sara Berdy; Karen Siegler; Fjodor Van Der Sluijs; Ido P Kema; Albert K Groen; Bei Shan; Folkert Kuipers; Margrit Schwarz; Margrit Schwartz
Journal: Gastroenterology Date: 2004-01 Impact factor: 22.682

10. A mouse model of sitosterolemia: absence of Abcg8/sterolin-2 results in failure to secrete biliary cholesterol.

Authors: Eric L Klett; Kangmo Lu; Astrid Kosters; Edwin Vink; Mi-Hye Lee; Michael Altenburg; Sarah Shefer; Ashok K Batta; Hongwei Yu; Jianliang Chen; Richard Klein; Norbert Looije; Ronald Oude-Elferink; Albert K Groen; Nobuyo Maeda; Gerald Salen; Shailendra B Patel
Journal: BMC Med Date: 2004-03-24 Impact factor: 8.775

18 in total

1. Investigating Sitosterolemia to Understand Lipid Physiology.

Authors: T Hang Nghiem-Rao; Shailendra B Patel
Journal: Clin Lipidol Date: 2017-01-18

2. Ezetimibe reduces plant sterol accumulation and favorably increases platelet count in sitosterolemia.

Authors: Rgia A Othman; Semone B Myrie; David Mymin; Louise S Merkens; Jean-Baptiste Roullet; Robert D Steiner; Peter J H Jones
Journal: J Pediatr Date: 2014-10-16 Impact factor: 4.406

Review 3. Plant sterol enriched functional food and atherosclerosis.

Authors: Jürgen Köhler; Daniel Teupser; Albrecht Elsässer; Oliver Weingärtner
Journal: Br J Pharmacol Date: 2017-04-05 Impact factor: 8.739

Review 4. Genetics of familial hypercholesterolemia.

Authors: Ariel Brautbar; Emili Leary; Kristen Rasmussen; Don P Wilson; Robert D Steiner; Salim Virani
Journal: Curr Atheroscler Rep Date: 2015-04 Impact factor: 5.113

Review 5. ABCG5 and ABCG8: more than a defense against xenosterols.

Authors: Shailendra B Patel; Gregory A Graf; Ryan E Temel
Journal: J Lipid Res Date: 2018-05-04 Impact factor: 5.922

Review 6. Sitosterolemia: diagnosis, investigation, and management.

Authors: Joan Carles Escolà-Gil; Helena Quesada; Josep Julve; Jesús M Martín-Campos; Lídia Cedó; Francisco Blanco-Vaca
Journal: Curr Atheroscler Rep Date: 2014-07 Impact factor: 5.113

Review 7. Multidrug Resistance in Mammals and Fungi-From MDR to PDR: A Rocky Road from Atomic Structures to Transport Mechanisms.

Authors: Narakorn Khunweeraphong; Karl Kuchler
Journal: Int J Mol Sci Date: 2021-04-30 Impact factor: 5.923