PGE receptor EP4 signaling increased hyaluronan‐vesican complex in abdominal aortic aneurysm

Abstract

Chronic inflammation and dysregulation of extracellular matrices are hallmarks of abdominal aortic aneurysm (AAA) pathophysiology. We have demonstrated that PGE receptor EP4 signaling in vascular smooth muscle cells (VSMCs) has a pivotal role in AAA formation via immune infiltrates and impairment of elastic fiber repair. However, EP4 signaling‐mediated changes in extracellular matrices have not been fully understood, and expressions of the chondroitin sulfate proteoglycan versican are controversial. Versican has multiple binding partners (e.g., hyaluronan and fibrillin‐1) and modulates VSMC phenotypes. We, therefore, aimed to clarify an expression change in versican in AAA.We administrated angiotensin‐II (AngII) to VSMC‐specific EP4 overexpression mice (EP4‐Tg) to induce AAA. The expression level of versican V0/V1 was gradually increased in the tunica media of EP4‐Tg mice 4 days after AngII administration, but not in Non‐Tg mice. This increase in versican V0/V1 became prominent 14 days after AngII administration in EP4‐Tg mice. Protein expression of versican V0/V1 was increased in the tunica media of human AAA tissues. EP4 stimulation in VSMCs derived from EP4‐Tg mice increased levels of versican mRNAs (20.0±1.4‐fold, n=5, p<0.01) and versican V0/V1 proteins (4.1±0.7‐fold, n=5, p<0.01), while administration of EP1/3 or EP2 agonist did not. The EP4‐mediated increase in versican mRNAs was completely suppressed by Actinomycin D. Versican V0/V1 are cleaved by a disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS‐1) and ADAMTS‐5. The expression levels of ADAMTS‐1, ADAMTS‐5, and cleaved versican protein expressions were not changed in EP4‐Tg VSMCs. The expression level of Hyaluronan synthase1 (Has1) mRNA was also increased in EP4‐Tg VSMCs (66.9±10.1‐fold, n=5, p<0.01). Western blotting revealed that versican V0/V1 proteins of approximately 200‐400 kDa in size in the supernatants of EP4‐Tg VSMCs stimulated with an EP4 agonist were increased by hyaluronan digestion with hyaluronidase (6.3±1.5‐fold, n=6, p<0.01). Transmission electron microscopic analysis demonstrated that elastin contractile units between elastic laminae and VSMCs were disrupted in EP4‐Tg mice administrated with 10 days of AngII, but not in Non‐Tg mice.These data suggested that EP4 signaling in VSMCs increased hyaluronan‐versican V0/V1 complex. Versican V0/V1 proteins were increased in the early stage of a mouse AAA model. It has been suggested that versican has inhibitory roles in elastic fiber formation. EP4‐mediated hyaluronan‐versican V0/V1 complex may exacerbate AAA via disruption of elastin contractile units.