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Literature DB >> 30354227

Human MicroRNA-33b Promotes Atherosclerosis in Apoe^-/- Mice.

Abstract

Entities: CellLine Chemical Disease Gene Species

Keywords: Editorials; atherosclerosis; cholesterol efflux; lipids; lipoproteins; macrophages; microRNAs; reverse cholesterol transport

Mesh：

Substances：

Year: 2018 PMID： 30354227 PMCID： PMC6207218 DOI： 10.1161/ATVBAHA.118.311617

Source DB: PubMed Journal: Arterioscler Thromb Vasc Biol ISSN： 1079-5642 Impact factor: 8.311

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23 in total

Review 1. The SREBP pathway: regulation of cholesterol metabolism by proteolysis of a membrane-bound transcription factor.

Authors: M S Brown; J L Goldstein
Journal: Cell Date: 1997-05-02 Impact factor: 41.582

2. GENE REGULATION. Breakers and blockers—miRNAs at work.

Authors: Elisa Izaurralde
Journal: Science Date: 2015-07-23 Impact factor: 47.728

Review 3. MicroRNAs and lipid metabolism.

Authors: Binod Aryal; Abhishek K Singh; Noemi Rotllan; Nathan Price; Carlos Fernández-Hernando
Journal: Curr Opin Lipidol Date: 2017-06 Impact factor: 4.776

Review 4. MicroRNAs in lipid metabolism.

Authors: Carlos Fernández-Hernando; Yajaira Suárez; Katey J Rayner; Kathryn J Moore
Journal: Curr Opin Lipidol Date: 2011-04 Impact factor: 4.776

5. MicroRNAs in metabolism and metabolic diseases.

Authors: V Rottiers; S H Najafi-Shoushtari; F Kristo; S Gurumurthy; L Zhong; Y Li; D E Cohen; R E Gerszten; N Bardeesy; R Mostoslavsky; A M Näär
Journal: Cold Spring Harb Symp Quant Biol Date: 2011-12-12

6. miR-33 links SREBP-2 induction to repression of sterol transporters.

Authors: Tyler J Marquart; Ryan M Allen; Daniel S Ory; Angel Baldán
Journal: Proc Natl Acad Sci U S A Date: 2010-06-21 Impact factor: 11.205

7. MiR-33 contributes to the regulation of cholesterol homeostasis.

Authors: Katey J Rayner; Yajaira Suárez; Alberto Dávalos; Saj Parathath; Michael L Fitzgerald; Norimasa Tamehiro; Edward A Fisher; Kathryn J Moore; Carlos Fernández-Hernando
Journal: Science Date: 2010-05-13 Impact factor: 47.728

8. MicroRNA-33 encoded by an intron of sterol regulatory element-binding protein 2 (Srebp2) regulates HDL in vivo.

Authors: Takahiro Horie; Koh Ono; Masahito Horiguchi; Hitoo Nishi; Tomoyuki Nakamura; Kazuya Nagao; Minako Kinoshita; Yasuhide Kuwabara; Hiroyuki Marusawa; Yoshitaka Iwanaga; Koji Hasegawa; Masayuki Yokode; Takeshi Kimura; Toru Kita
Journal: Proc Natl Acad Sci U S A Date: 2010-09-20 Impact factor: 11.205

9. Genetic Dissection of the Impact of miR-33a and miR-33b during the Progression of Atherosclerosis.

Authors: Nathan L Price; Noemi Rotllan; Alberto Canfrán-Duque; Xinbo Zhang; Paramita Pati; Noemi Arias; Jack Moen; Manuel Mayr; David A Ford; Ángel Baldán; Yajaira Suárez; Carlos Fernández-Hernando
Journal: Cell Rep Date: 2017-10-31 Impact factor: 9.423

10. MicroRNA-33b knock-in mice for an intron of sterol regulatory element-binding factor 1 (Srebf1) exhibit reduced HDL-C in vivo.

Authors: Takahiro Horie; Tomohiro Nishino; Osamu Baba; Yasuhide Kuwabara; Tetsushi Nakao; Masataka Nishiga; Shunsuke Usami; Masayasu Izuhara; Fumiko Nakazeki; Yuya Ide; Satoshi Koyama; Naoya Sowa; Naoya Yahagi; Hitoshi Shimano; Tomoyuki Nakamura; Koji Hasegawa; Noriaki Kume; Masayuki Yokode; Toru Kita; Takeshi Kimura; Koh Ono
Journal: Sci Rep Date: 2014-06-16 Impact factor: 4.379

3 in total