Karo De Rycke scite author profile

Objective: We investigated the effect of a potent TGFβ (transforming growth factor β) inhibitor peptide (P144) from the betaglycan/TGFβ receptor III on aortic aneurysm development in a Marfan syndrome mouse model. Approach and Results: We used a chimeric gene encoding the P144 peptide linked to apolipoprotein A-I via a flexible linker expressed by a hepatotropic adeno-associated vector. Two experimental approaches were performed: (1) a preventive treatment where the vector was injected before the onset of the aortic aneurysm (aged 4 weeks) and followed-up for 4 and 20 weeks and (2) a palliative treatment where the vector was injected once the aneurysm was formed (8 weeks old) and followed-up for 16 weeks. We evaluated the aortic root diameter by echocardiography, the aortic wall architecture and TGFβ signaling downstream effector expression of pSMAD2 and pERK1/2 by immunohistomorphometry, and Tgfβ1 and Tgfβ2 mRNA expression levels by real-time polymerase chain reaction. Marfan syndrome mice subjected to the preventive approach showed no aortic dilation in contrast to untreated Marfan syndrome mice, which at the same end point age already presented the aneurysm. In contrast, the palliative treatment with P144 did not halt aneurysm progression. In all cases, P144 improved elastic fiber morphology and normalized pERK1/2-mediated TGFβ signaling. Unlike the palliative treatment, the preventive treatment reduced Tgfβ1 and Tgfβ2 mRNA levels. Conclusions: P144 prevents the onset of aortic aneurysm but not its progression. Results indicate the importance of reducing the excess of active TGFβ signaling during the early stages of aortic disease progression.

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Allopurinol blocks aortic aneurysm in a mouse model of Marfan syndrome via reducing aortic oxidative stress

Rodriguez-Rovira

Arce

Rycke

et al. 2022

Free Radical Biology and Medicine

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Allopurinol Blocks Aortic Aneurysm in a Mouse Model of Marfan Syndrome via Reducing Aortic Oxidative Stress

Rodriguez-Rovira

Arce

Rycke

et al. 2021

Preprint

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The pathogenesis and progression of aortic aneurysm in Marfan syndrome (MFS) involves dysregulated TGF-β and nitric oxide signaling, altered hemodynamics, and biomechanical forces. Increasing evidence indicates that redox stress participates in MFS aortopathy development, though its contribution is not well established. We reported elevated reactive oxygen species (ROS) formation and NADPH oxidase NOX4 upregulation in MFS mice and in patient aortic samples. Here we address the contribution of xanthine dehydrogenase (XDH) which catabolizes purines into uric acid plus ROS. XDH mRNA and protein expression levels are increased in the aorta of young but not older MFS mice (Fbn1C1041G/+). The protein and enzymatic activity of the oxidase form (XO) is increased with respect to the dehydrogenase. In patients, XO protein levels were increased in the dilated and the adjacent non-dilated zone of aortic aneurysm. The palliative administration of the XDH inhibitor allopurinol attenuated the progression of the aortic root aneurysm in MFS mice. Allopurinol was also protective when administrated before the appearance of aneurysm onset. MFS-induced elastic fiber fragmentation, fibrotic remodeling, nuclear translocation of pNRF2, and increased 3-nitrotyrosine levels in the aortic tunica media, as well as endothelial dysfunction, were all prevented by allopurinol. Mechanistically, allopurinol mediates these effects by inhibiting H2O2 overproduction, with no apparent relevance for uric acid, whose plasma levels remained constant with age. This study strengthens the concept that redox stress is an important determinant of aortic aneurysm formation and progression in MFS and supports a clinical trial for allopurinol in the pharmacological treatment of MFS aortopathy.

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Karo De Rycke

Anti-TGFβ (Transforming Growth Factor β) Therapy With Betaglycan-Derived P144 Peptide Gene Delivery Prevents the Formation of Aortic Aneurysm in a Mouse Model of Marfan Syndrome

Allopurinol blocks aortic aneurysm in a mouse model of Marfan syndrome via reducing aortic oxidative stress

Allopurinol Blocks Aortic Aneurysm in a Mouse Model of Marfan Syndrome via Reducing Aortic Oxidative Stress

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