Ascending aortic aneurysm associated with bicuspid and tricuspid aortic valve: involvement and clinical relevance of smooth muscle cell apoptosis and expression of cell death-initiating proteins

doi:10.1016/S1010-7940(02)00833-3

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Ascending aortic aneurysm associated with bicuspid and tricuspid aortic valve: involvement and clinical relevance of smooth muscle cell apoptosis and expression of cell death-initiating proteins

Franz-Xaver Schmid^a*, Katrin Bielenberg^b, Anette Schneider^c, Andreas Haussler^a, Andreas Keyser^a, Dietrich Birnbaum^a

^{^a} Department of Cardiothoracic and Vascular Surgery, University of Regensburg, Regensburg, Germany
^{^b} Cardiovascular Research Unit, University Hospital Regensburg, Regensburg, Germany
^{^c} Department of Anesthesiology, University Hospital Regensburg, Regensburg, Germany

Received 21 October 2002; received in revised form 21 November 2002; accepted 9 December 2002.

^{^*} Corresponding author. Tel.:+49-941-944-9805; fax: +49-941-944-9802
e-mail: franz-xaver.schmid{at}klinik.uni.regensburg.de

Objective: There is relationship between a dilated ascendingaorta and a bicuspid aortic valve. Controversy exists concerningtechniques available for surgical restoration of the functionaland anatomical integrity of the aortic root. The present studywas undertaken to define the histopathologic and molecular biologiccondition of ascending aortic aneurysms associated with bicuspid(BAV) or tricuspid aortic valve (TAV) and the relationship tovalve sparing or pulmonary autograft procedures. Methods: Aorticaneurysm wall specimens from 20 patients (10 BAV; 10 TAV) undergoingelective repair and normal aortic tissues from organ donors(n=5) were analysed for patterns of smooth muscle cells (SMCs)and infiltrating leukocytes (immunohistochemistry), apoptosis(in situ end-labelling of DNA-fragments (TUNEL)), and expressionof the death-promoting proteins perforin, Fas, and FasLigand(Immunoblotting). Results: Segments from aneurysms exhibiteda distinct pattern of medial destruction, elastic fragmentation,and disorientation with rarefication of SMCs. BAV wall segmentscontained more cells bearing markers of apoptosis than TAV specimenswhereas normal aorta displayed only few apoptotic cells (P<0.05).TUNEL showed higher levels of DNA fragmentation in BAV thanin TAV, and double immunostaining identified SMCs as the principalcell type displaying fragmented DNA. Immunohistochemistry confirmedexpression of death-promoting mediators by infiltrating lymphocytes,and Western blotting documented their presence in BAV and TAVaneurysmal tissue, with the greatest increases seen in specimensfrom aneurysms associated with BAV. Conclusions: There is evidencefor a molecular link between SMC apoptosis initiated by infiltrationand local signal expression of immune cells and weakening ofthe aortic wall being more prevalent in patients with BAV. Ourfindings may suggest a mechanism responsible for aneurysm formationof the aorta and aortic dilatation after autograft root or sinusremodelling procedures.

Key Words: Aneurysm • Bicuspid aortic valve • Apoptosis

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