Lenvatinib halts aortic aneurysm growth by restoring smooth muscle cell contractility
Albert Busch, … , Valentina Paloschi, Lars Maegdefessel
Albert Busch, … , Valentina Paloschi, Lars Maegdefessel
Published June 29, 2021
Citation Information: JCI Insight. 2021;6(15):e140364. https://doi.org/10.1172/jci.insight.140364.
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Research Article Vascular biology

Lenvatinib halts aortic aneurysm growth by restoring smooth muscle cell contractility

Abstract

Abdominal aortic aneurysm (AAA) is a disease with high morbidity and mortality, especially when ruptured. The rationale of this study was to evaluate the repurposing of lenvatinib, a multi–tyrosine kinase inhibitor, in limiting experimental AAA growth targeting vascular smooth muscle cells (VSMCs) and angiogenesis. We applied systemic and local lenvatinib treatment to elastase-induced murine aortic aneurysms, and RNA profiling identified myosin heavy chain 11 (Myh11) as the most deregulated transcript. Daily oral treatment substantially reduced aneurysm formation in 2 independent mouse models. In addition, a large animal aneurysm model in hypercholesterolemic low-density lipoprotein receptor–knockout (LDLR–/–) Yucatan minipigs was applied to endovascularly deliver lenvatinib via drug-eluting balloons (DEBs). Here, a single local endovascular delivery blocked AAA progression successfully compared with a DEB-delivered control treatment. Reduced VSMC proliferation and a restored contractile phenotype were observed in animal tissues (murine and porcine), as well as AAA patient-derived cells. Apart from increasing MYH11 levels, lenvatinib reduced downstream ERK signaling. Hence, lenvatinib is a promising therapy to limit aortic aneurysm expansion upon local endovascular delivery. The tyrosine kinase inhibitor was able to positively affect pathways of key relevance to human AAA disease, even in a potentially new local delivery using DEBs.

Authors

Albert Busch, Jessica Pauli, Greg Winski, Sonja Bleichert, Ekaterina Chernogubova, Susanne Metschl, Hanna Winter, Matthias Trenner, Armin Wiegering, Christoph Otto, Johannes Fischer, Judith Reiser, Julia Werner, Joy Roy, Christine Brostjan, Christoph Knappich, Hans-Henning Eckstein, Valentina Paloschi, Lars Maegdefessel

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Figure 5

Endovascular lenvatinib treatment LDLR–/– minipigs with AAA disease.

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Endovascular lenvatinib treatment LDLR–/– minipigs with AAA disease. (A)...
(A) Transfemoral angiography of the infrarenal aorta ($ = right renal artery to € = aortic trifurcation) on day 7 after AAA induction shows the dilated aortic segment. Radiopaque markers guided the DEB (12 × 20 mm) to the lesion. Surgical clips from the aneurysm induction procedure sealed the lumbar vessels. The photograph shows the dilated part of the aorta (arrow) at the time of sacrifice (no circulating blood) next to the cava vein (asterisk). En face preparation of the complete aorta demonstrates severe atherosclerosis and fatty streaks at the level of the aortic valve, the coronary and supra-aortic branch ostia, and the infrarenal level and the renal artery (#). (B) Singular treatment with a lenvatinib-coated balloon (red: Lenva-DEB; n = 4) on day 7 after PPE-AAA induction shows a significant aortic diameter reduction compared with nontreated (blue: PPE only; n = 7) animals (*P < 0.05; 2-way repeated measures ANOVA). (C) H&E indicates a parallel fibrous structure in the nonintervened (normal) LDLR–/– pig aorta with marked noncalcified plaque formation. Similar to the murine PPE-AAA model, a substantial MYH11 restoration was detected upon local lenvatinib treatment (Lenva-DEB) compared with PPE-AAAs. (D) Quantification of MYH11-positive cells confirmed loss of MYH11 in PPE-AAA minipigs compared with untreated (normal) LDLR–/– aorta and restoration upon Lenva-DEB treatment. (E) WB analysis confirmed higher MYH11 protein content in Lenva-DEB–treated minipigs compared with DEB-controls (PPE) with progressing AAA. (F) MYH11 WB analysis on primary pig aortic cells treated for 48 hours with lenvatinib (normalized to β-actin). (*P < 0.05, **P < 0.01; original magnification 5×/20×; scale bar: 200 μm; vessel lumen oriented upward; complete WB and quantifications are shown in Supplemental Figure 13.)