Insulin-like growth factor 1 reduces coronary atherosclerosis in pigs with familial hypercholesterolemia
Sergiy Sukhanov, Yusuke Higashi, Tadashi Yoshida, Svitlana Danchuk, Mitzi Alfortish, Traci Goodchild, Amy Scarborough, Thomas Sharp, James S. Jenkins, Daniel Garcia, Jan Ivey, Darla L. Tharp, Jeffrey Schumacher, Zach Rozenbaum, Jay K. Kolls, Douglas Bowles, David Lefer, Patrice Delafontaine
Sergiy Sukhanov, Yusuke Higashi, Tadashi Yoshida, Svitlana Danchuk, Mitzi Alfortish, Traci Goodchild, Amy Scarborough, Thomas Sharp, James S. Jenkins, Daniel Garcia, Jan Ivey, Darla L. Tharp, Jeffrey Schumacher, Zach Rozenbaum, Jay K. Kolls, Douglas Bowles, David Lefer, Patrice Delafontaine
View: Text | PDF
Research Article Cardiology Vascular biology

Insulin-like growth factor 1 reduces coronary atherosclerosis in pigs with familial hypercholesterolemia

Abstract

Although murine models of coronary atherosclerotic disease have been used extensively to determine mechanisms, limited new therapeutic options have emerged. Pigs with familial hypercholesterolemia (FH pigs) develop complex coronary atheromas that are almost identical to human lesions. We reported previously that insulin-like growth factor 1 (IGF-1) reduced aortic atherosclerosis and promoted features of stable plaque in a murine model. We administered human recombinant IGF-1 or saline (control) in atherosclerotic FH pigs for 6 months. IGF-1 decreased relative coronary atheroma in vivo (intravascular ultrasound) and reduced lesion cross-sectional area (postmortem histology). IGF-1 increased plaque’s fibrous cap thickness, and reduced necrotic core, macrophage content, and cell apoptosis, consistent with promotion of a stable plaque phenotype. IGF-1 reduced circulating triglycerides, markers of systemic oxidative stress, and CXCL12 chemokine levels. We used spatial transcriptomics (ST) to identify global transcriptome changes in advanced plaque compartments and to obtain mechanistic insights into IGF-1 effects. ST analysis showed that IGF-1 suppressed FOS/FOSB factors and gene expression of MMP9 and CXCL14 in plaque macrophages, suggesting possible involvement of these molecules in IGF-1’s effect on atherosclerosis. Thus, IGF-1 reduced coronary plaque burden and promoted features of stable plaque in a pig model, providing support for consideration of clinical trials.

Authors

Sergiy Sukhanov, Yusuke Higashi, Tadashi Yoshida, Svitlana Danchuk, Mitzi Alfortish, Traci Goodchild, Amy Scarborough, Thomas Sharp, James S. Jenkins, Daniel Garcia, Jan Ivey, Darla L. Tharp, Jeffrey Schumacher, Zach Rozenbaum, Jay K. Kolls, Douglas Bowles, David Lefer, Patrice Delafontaine

×

Figure 3

IGF-1 reduces coronary atherosclerosis and promotes features of stable atherosclerotic plaque.

Options: View larger image (or click on image) Download as PowerPoint
IGF-1 reduces coronary atherosclerosis and promotes features of stable a...
IGF-1 increased vascular media (A and B), reduced atherosclerotic plaque cross-sectional area (CSA) (C), decreased necrotic core (D), and elevated thickness of fibrous cap (E). RCA and LAD were isolated from IGF-1– and saline-injected FH pigs and further cut onto 6 sequential fragments for embedding in paraffin. Trichrome-stained cross sections were obtained from each fragment and used for morphological analysis. n = 30 per RCA or LAD per group for males and n = 54 for females. (A) Representative images of RCA sections obtained from FH males and females. Tunica media (TM), atherosclerotic plaque (AP), fibrous cap (FC), and necrotic cores (NCs) were manually outlined to quantify TM and AP CSA, and results were normalized per EEM area. The thickness of FC was calculated as the mean length of 5 arbitrary lines distributed across the cap area. *P < 0.05, ***P < 0.005 vs. saline based on unpaired 2-tailed t test.