Departamento de Biología Animal, Facultad de Ciencias, Universidad de Málaga, Málaga, Spain.
Instituto de Investigación Biomédica de Málaga (IBIMA), Málaga, Spain.
Vet Pathol. 2020 Mar;57(2):321-331. doi: 10.1177/0300985819900018. Epub 2020 Feb 21.
Bicuspid aortic valve (BAV) is the most common human congenital cardiac malformation. Although the etiology is unknown for most patients, formation of the 2 main BAV anatomic types (A and B) has been shown to rely on distinct morphogenetic mechanisms. Animal models of BAV include 2 spontaneous hamster strains and 27 genetically modified mouse strains. To assess the value of these models for extrapolation to humans, we examined the aortic valve anatomy of 4340 hamsters and 1823 mice from 8 and 7 unmodified strains, respectively. In addition, we reviewed the literature describing BAV in nonhuman mammals. The incidences of BAV types A and B were 2.3% and 0.03% in control hamsters and 0% and 0.3% in control mice, respectively. Hamsters from the spontaneous model had BAV type A only, whereas mice from 2 of 27 genetically modified strains had BAV type A, 23 of 27 had BAV type B, and 2 of 27 had both BAV types. In both species, BAV incidence was dependent on genetic background. Unlike mice, hamsters had a wide spectrum of aortic valve morphologies. We showed interspecific differences in the occurrence of BAV between humans, hamsters, and mice that should be considered when studying aortic valve disease using animal models. Our results suggest that genetic modifiers play a significant role in both the morphology and incidence of BAV. We propose that mutations causing anomalies in specific cardiac morphogenetic processes or cell lineages may lead to BAV types A, B, or both, depending on additional genetic, environmental, and epigenetic factors.
二叶式主动脉瓣(BAV)是最常见的人类先天性心脏畸形。尽管大多数患者的病因尚不清楚,但已证明两种主要的 BAV 解剖类型(A 和 B)的形成依赖于不同的形态发生机制。BAV 的动物模型包括 2 种自发性仓鼠品系和 27 种基因修饰的小鼠品系。为了评估这些模型对人类的外推价值,我们分别检查了来自 8 种和 7 种未经修饰的品系的 4340 只仓鼠和 1823 只小鼠的主动脉瓣解剖结构。此外,我们还回顾了描述非人类哺乳动物 BAV 的文献。在对照仓鼠中,BAV 类型 A 和 B 的发生率分别为 2.3%和 0.03%,而在对照小鼠中分别为 0%和 0.3%。自发模型的仓鼠仅具有 BAV 类型 A,而 27 种基因修饰株系中的 2 种具有 BAV 类型 A,27 种中的 23 种具有 BAV 类型 B,27 种中的 2 种具有 BAV 两种类型。在这两种物种中,BAV 的发生率均依赖于遗传背景。与小鼠不同,仓鼠具有广泛的主动脉瓣形态。我们表明,在人类、仓鼠和小鼠之间,BAV 的发生存在种间差异,在使用动物模型研究主动脉瓣疾病时应考虑这些差异。我们的结果表明,遗传修饰因子在 BAV 的形态和发生率中均起重要作用。我们提出,导致特定心脏形态发生过程或细胞谱系异常的突变可能导致 BAV 类型 A、B 或两者兼有,这取决于其他遗传、环境和表观遗传因素。
