Krox20 heterozygous mice: A model of aortic regurgitation associated with decreased expression of fibrillar collagen genes

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• 作者：Alexis Thé ; ron^a ; ^b ; ^c ; ¹ ; Gaë ; lle Odelin^a ; ^b ; ¹ ; Emilie Faure^a ; ^b ; Jean-Franç ; ois Avierinos^a ; ^b ; ^d ; Sté ; phane Zaffran^a ; ^b ; ^{stephane.zaffran@univ-amu.fr" class="auth_mail" title="E-mail the corresponding author}
• 关键词：Aortic valve regurgitation ; Krox20 ; Heart valve ; Extracellular matrix ; Collagens
• 刊名：Archives of Cardiovascular Diseases
• 出版年：2016
• 出版时间：March 2016
• 年：2016
• 卷：109
• 期：3
• 页码：188-198
• 全文大小：2000 K

文摘

The mechanism involved in the onset of aortic valve (AoV) disease remains unclear despite its poor prognosis and frequency. Recently, we reported that Krox20 (EGR2 in humans) is involved in AoV development and dysfunction.

Aim

Analyze Krox20 heterozygous mice (Krox20^+/−) to discover whether incomplete expression of Krox20 can cause valvular diseases.

Methods

Transcriptional levels of Col1a2/COL1A2 and Krox20/EGR2 in AoVs from Krox20^+/− mice and human patients operated on for severe aortic regurgitation were evaluated by quantitative reverse transcription-polymerase chain reaction (qRT-PCR). Human control valves were obtained from three transplanted patients without AoV disease. Twenty-one heterozygous Krox20^+/− mice were compared with 35 controls at different ages. Three independent measurements of valve thickness were performed on magnified tissue sections using Image J software. In vivo valve structure and function were evaluated using the high-frequency Vevo^® 2100 echocardiogram.

Results

qRT-PCR analysis using AoVs from patients with severe aortic regurgitation showed a decrease in EGR2 expression associated with significant downregulation of COL1A2 expression (P < 0.05). Similar results were observed in the AoVs of Krox20^+/− mice. Anatomical examination revealed that incomplete invalidation of Krox20 caused significant thickening of the aortic leaflet compared with controls (145 ± 22 vs. 75 ± 24 μm; P = 0.01). Within the mutant group, this thickening worsened significantly over time (Krox20^+/− mice aged > 7 vs. < 7 months: 136 ± 48 vs. 102 ± 41 μm; P < 0.001). Moreover, the aortic leaflets of embryonic day 18.5 Krox20^+/− embryos were significantly more thickened than those from controls, suggesting that this disease begins during embryonic development. Echo-Doppler analysis showed a significant increase in AoV dysfunction in heterozygous versus control mice (53% vs. 17%; P < 0.001), suggesting a tight relationship between valve architecture and function. Morphometric analysis revealed that the most severe AoV dysfunction was always associated with the most thickened valves. Classic histological analysis revealed that mutant AoVs had extracellular matrix disorganization, with features of human myxomatous degeneration, including excess of proteoglycan deposition in spongiosa and reduction of collagen fibre in fibrosa, but no calcification.

Conclusion

Decreased expression of Krox20 in mice causes degeneration of the aortic leaflets and disorganization of the extracellular matrix, causing valvular dysfunction.