Author
Listed:
- Qian Li
(Harvard Medical School
Harvard Medical School)
- Jialin Fu
(Harvard Medical School
Harvard Medical School)
- Yu Xia
(Harvard Medical School
Harvard Medical School
Shandong Provincial Hospital Affiliated to Shandong University)
- Weier Qi
(Cardiovascular and Metabolic Research, AstraZeneca)
- Atsushi Ishikado
(Harvard Medical School
Harvard Medical School)
- Kyoungmin Park
(Harvard Medical School
Harvard Medical School)
- Hisashi Yokomizo
(Harvard Medical School
Harvard Medical School)
- Qian Huang
(Harvard Medical School)
- Weikang Cai
(Harvard Medical School)
- Christian Rask-Madsen
(Harvard Medical School)
- C. Ronald Kahn
(Harvard Medical School)
- George L. King
(Harvard Medical School
Harvard Medical School)
Abstract
Insulin and IGF-1 actions in vascular smooth muscle cells (VSMC) are associated with accelerated arterial intima hyperplasia and restenosis after angioplasty, especially in diabetes. To distinguish their relative roles, we delete insulin receptor (SMIRKO) or IGF-1 receptor (SMIGF1RKO) in VSMC and in mice. Here we report that intima hyperplasia is attenuated in SMIRKO mice, but not in SMIGF1RKO mice. In VSMC, deleting IGF1R increases homodimers of IR, enhances insulin binding, stimulates p-Akt and proliferation, but deleting IR decreases responses to insulin and IGF-1. Studies using chimeras of IR(extracellular domain)/IGF1R(intracellular-domain) or IGF1R(extracellular domain)/IR(intracellular-domain) demonstrate homodimer IRα enhances insulin binding and signaling which is inhibited by IGF1Rα. RNA-seq identifies hyaluronan synthase2 as a target of homo-IR, with its expression increases by IR activation in SMIGF1RKO mice and decreases in SMIRKO mice. Enhanced intima hyperplasia in diabetes is mainly due to insulin signaling via homo-IR, associated with increased Has2 expression.
Suggested Citation
Qian Li & Jialin Fu & Yu Xia & Weier Qi & Atsushi Ishikado & Kyoungmin Park & Hisashi Yokomizo & Qian Huang & Weikang Cai & Christian Rask-Madsen & C. Ronald Kahn & George L. King, 2019.
"Homozygous receptors for insulin and not IGF-1 accelerate intimal hyperplasia in insulin resistance and diabetes,"
Nature Communications, Nature, vol. 10(1), pages 1-15, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-12368-2
DOI: 10.1038/s41467-019-12368-2
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