Vascular smooth muscle–specific YAP/TAZ deletion triggers aneurysm development in mouse aorta
Marycarmen Arévalo Martínez, Olivia Ritsvall, Joakim Armstrong Bastrup, Selvi Celik, Gabriel Jakobsson, Fatima Daoud, Christopher Winqvist, Anders Aspberg, Catarina Rippe, Lars Maegdefessel, Alexandru Schiopu, Thomas A. Jepps, Johan Holmberg, Karl Swärd, Sebastian Albinsson
Marycarmen Arévalo Martínez, Olivia Ritsvall, Joakim Armstrong Bastrup, Selvi Celik, Gabriel Jakobsson, Fatima Daoud, Christopher Winqvist, Anders Aspberg, Catarina Rippe, Lars Maegdefessel, Alexandru Schiopu, Thomas A. Jepps, Johan Holmberg, Karl Swärd, Sebastian Albinsson
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Research Article Cell biology Vascular biology

Vascular smooth muscle–specific YAP/TAZ deletion triggers aneurysm development in mouse aorta

Abstract

Inadequate adaption to mechanical forces, including blood pressure, contributes to development of arterial aneurysms. Recent studies have pointed to a mechanoprotective role of YAP and TAZ in vascular smooth muscle cells (SMCs). Here, we identified reduced expression of YAP1 in human aortic aneurysms. Vascular SMC–specific knockouts (KOs) of YAP/TAZ were thus generated using the integrin α8–Cre (Itga8-Cre) mouse model (i8-YT-KO). i8-YT-KO mice spontaneously developed aneurysms in the abdominal aorta within 2 weeks of KO induction and in smaller arteries at later times. The vascular specificity of Itga8-Cre circumvented gastrointestinal effects. Aortic aneurysms were characterized by elastin disarray, SMC apoptosis, and accumulation of proteoglycans and immune cell populations. RNA sequencing, proteomics, and myography demonstrated decreased contractile differentiation of SMCs and impaired vascular contractility. This associated with partial loss of myocardin expression, reduced blood pressure, and edema. Mediators in the inflammatory cGAS/STING pathway were increased. A sizeable increase in SOX9, along with several direct target genes, including aggrecan (Acan), contributed to proteoglycan accumulation. This was the earliest detectable change, occurring 3 days after KO induction and before the proinflammatory transition. In conclusion, Itga8-Cre deletion of YAP and TAZ represents a rapid and spontaneous aneurysm model that recapitulates features of human abdominal aortic aneurysms.

Authors

Marycarmen Arévalo Martínez, Olivia Ritsvall, Joakim Armstrong Bastrup, Selvi Celik, Gabriel Jakobsson, Fatima Daoud, Christopher Winqvist, Anders Aspberg, Catarina Rippe, Lars Maegdefessel, Alexandru Schiopu, Thomas A. Jepps, Johan Holmberg, Karl Swärd, Sebastian Albinsson

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Figure 5

Lineage tracing in i8-YT-KO mice shows that SMCs contribute the bulk of cells to the neointima.

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Lineage tracing in i8-YT-KO mice shows that SMCs contribute the bulk of ...
i8-YT-KO mice on the mT/mG background were used to track cells derived from SMCs in aneurysms. mT/mG mice carry a transgene that expresses Tomato (red) before recombination. After recombination, the cells instead express GFP (green). The media stained red in control (Ctrl) Cre mice at 8 weeks after tamoxifen administration. The only green staining was from elastin autofluorescence. Ctrl Cre refers to Cre-negative tamoxifen-treated ROSA Itga8-CreERT2 mice, whereas Ctrl Cre+ refers to Cre-positive tamoxifen-treated ROSA Itga8-CreERT2 mice. Following recombination (i8-YT-KO), medial red staining was reduced, and green staining appeared between the autofluorescent lamellae. In advanced lesions with thick neointimas (NI) inside the internal elastic lamina (IEL, dashed line), the neointima was intensely green. This suggests that SMCs derived from the media contributed to the formation of neointima. In contrast, the adventitia (A) was largely GFP negative. The top right section is identical to the right panel in Figure 3B. DAPI (blue) was used as nuclear stain. L, lumen; EEL, external elastic lamina (dashed line).