Journal of Lipid Research (Dec 2016)

Dose-dependent effects of siRNA-mediated inhibition of SCAP on PCSK9, LDLR, and plasma lipids in mouse and rhesus monkey[S]

  • Kristian K. Jensen,
  • Marija Tadin-Strapps,
  • Sheng-ping Wang,
  • James Hubert,
  • Yanqing Kan,
  • Yong Ma,
  • David G. McLaren,
  • Stephen F. Previs,
  • Kithsiri B. Herath,
  • Ablatt Mahsut,
  • Andy Liaw,
  • Shubing Wang,
  • Steven J. Stout,
  • CarolAnn Keohan,
  • Gail Forrest,
  • David Coelho,
  • Satya Yendluri,
  • Stephanie Williams,
  • Martin Koser,
  • Steven Bartz,
  • Karen O. Akinsanya,
  • Shirly Pinto

Journal volume & issue
Vol. 57, no. 12
pp. 2150 – 2162

Abstract

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SREBP cleavage-activating protein (SCAP) is a key protein in the regulation of lipid metabolism and a potential target for treatment of dyslipidemia. SCAP is required for activation of the transcription factors SREBP-1 and -2. SREBPs regulate the expression of genes involved in fatty acid and cholesterol biosynthesis, and LDL-C clearance through the regulation of LDL receptor (LDLR) and PCSK9 expression. To further test the potential of SCAP as a novel target for treatment of dyslipidemia, we used siRNAs to inhibit hepatic SCAP expression and assess the effect on PCSK9, LDLR, and lipids in mice and rhesus monkeys. In mice, robust liver Scap mRNA knockdown (KD) was achieved, accompanied by dose-dependent reduction in SREBP-regulated gene expression, de novo lipogenesis, and plasma PCSK9 and lipids. In rhesus monkeys, over 90% SCAP mRNA KD was achieved resulting in approximately 75, 50, and 50% reduction of plasma PCSK9, TG, and LDL-C, respectively. Inhibition of SCAP function was demonstrated by reduced expression of SREBP-regulated genes and de novo lipogenesis. In conclusion, siRNA-mediated inhibition of SCAP resulted in a significant reduction in circulating PCSK9 and LDL-C in rodent and primate models supporting SCAP as a novel target for the treatment of dyslipidemia.

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