Autophagy, Oxidative Stress and Hippo Signaling in Human Aortic Aneurysm

Aortic Aneurysm Clinical Trial

Official title: Study of the Molecular Mechanisms Associated With the Formation of Human Aortic Aneurysm: a Focus on Autophagy, Oxidative Stress and Hippo Signaling

Status Completed

Clinical Trial Summary

The molecular mechanisms contributing to the development of aortic aneurysmal disease are poorly characterized making actual therapies not sufficient. Autophagy is an intracellular mechanism that removes dysfunctional organelles and unfolded proteins, thereby maintaining cellular homeostasis. Activation of autophagy was shown to limit cardiac damage during stress. Accordingly, autophagy was found to be inhibited in the heart in animal models of metabolic syndrome, diabetes, obesity and aging thereby contributing to the development of cardiac derangements associated with these conditions. However, it remains to fully dissect the association between autophagy and structural alterations of the aortic wall and endothelial dysfunction in humans. In this study the correlation between levels of autophagy and the development of human aortic aneurysm will be assessed in patients subjected to surgical interventions for aortic pathologies. The association of Hippo signaling activation with the formation of aortic disease will also be evaluated, since previous work demonstrated that the Hippo pathway negatively regulates autophagy and promotes the development of cellular abnormalities. The results of this study may provide new insights into the mechanisms underlying the development of aortic disease.

Clinical Trial Description

Autophagy may represent a new potential therapeutic target for the prevention and the treatment of aortic pathologies. It is a cellular self- digestion mechanism that prevents the accumulation of senescent organelles and damaged proteins. Autophagy plays a pivotal role in the regulation of cellular homeostasis and promotes the cellular response to stress. However, further investigations are needed to establish how autophagy is influenced by cardiovascular risk factors, as well as by pharmacological therapy. Moreover, it is still unclear in humans the association between autophagy and structural and functional alterations of aortic wall, as well as its association with endothelial dysfunction, especially in subjects affected by aortic pathologies. Furthermore, no data are available on the correlation between autophagy and the prognosis of patients who underwent cardio-surgical procedures for aortic pathologies. In this study, autophagy levels will be evaluated in human aortic aneurysm samples obtained from patients enrolled for a surgical aorta procedures. Autophagy markers in each aneurysm sample will be compared to those observed in the non-aneurysmatic aortic portion adjacent to the aneurysmatic tract obtained from the same patient. Levels of autophagy will also be correlated with markers of apoptosis and oxidative stress in both the aneurysmatic and non-aneurysmatic aortic parts. The involvement of the Hippo signaling pathway and inflammation in control and aneurysm samples will also be investigated. The investigators expect that autophagy levels will be lower in aneurysm samples with respect to non-aneurysmatic adjacent aortic portions. They will also be inversely correlated with aneurysm dimension. In contrast, the Hippo pathway will be activated in aortic aneurysms. Autophagy and Hippo signaling markers will also be correlated with markers of apoptosis and oxidative stress in aortic samples. In conclusion, the results of this study may underline the vascular role of autophagy and Hippo signaling and their involvement in the development of aortic diseases. ;

Related Conditions & MeSH terms

• Aneurysm
• Aortic Aneurysm

• NCT number: NCT03211000
• Study type: Observational
• Source: Neuromed IRCCS
• Status: Completed
• Start date: June 1, 2017
• Completion date: November 1, 2017