Agochukwu Nneamaka B, Solomon Benjamin D, Muenke Maximilian
Am J Audiol. 2014 Jun;23(2):135-41. doi: 10.1044/2014_AJA-13-0036.
There are a number of craniosynostosis syndromes with hearing loss-including Muenke, Apert, Pfeiffer, Crouzon, Beare-Stevenson, Crouzon with acanthosis nigricans, and Jackson-Weiss syndromes-that result from mutations in the fibroblast growth factor receptor (FGFR) genes. Studies of FGFRs and their ligands, fibroblast growth factors (FGFs), have revealed clues to the precise contribution of aberrant FGFR signaling to inner ear morphogenesis and the hearing loss encountered in craniosynostoses. The purpose of this article is to review basic studies of FGFRs with emphasis on their function and expression in the inner ear and surrounding structures.
A Medline search was performed to find basic science articles regarding FGFR, their ligands, and their expression and relevant mouse models. Additional items searched included clinical descriptions and studies of individuals with FGFR-related craniosynostosis syndromes.
The FGF signaling pathway is essential for the morphogensis and proper function of the inner ear and auditory sensory epithelium.
The variable auditory phenotypes seen in individuals with Muenke syndrome may have a genetic basis, likely due to multiple interacting factors in the genetic environment or modifying factors. Further analysis and studies of mouse models of Muenke syndrome, in particular, may provide clues to the specific effects of the defining mutation in FGFR3 in the inner ear not only at birth but also into adulthood. In particular, investigations into these models may give insight into the variable expression and incomplete penetrance of this phenotype.
有多种伴有听力损失的颅缝早闭综合征,包括穆恩克综合征、阿佩尔综合征、法伊弗综合征、克鲁宗综合征、比尔-史蒂文森综合征、伴有黑棘皮病的克鲁宗综合征和杰克逊-韦斯综合征,这些综合征是由成纤维细胞生长因子受体(FGFR)基因突变引起的。对FGFR及其配体成纤维细胞生长因子(FGF)的研究揭示了异常FGFR信号传导对内耳形态发生以及颅缝早闭中出现的听力损失的确切作用的线索。本文的目的是综述FGFR的基础研究,重点关注其在内耳及周围结构中的功能和表达。
进行了一项医学文献数据库检索,以查找有关FGFR、其配体、其表达以及相关小鼠模型的基础科学文章。检索的其他条目包括对患有FGFR相关颅缝早闭综合征个体的临床描述和研究。
FGF信号通路对于内耳和听觉感觉上皮的形态发生及正常功能至关重要。
穆恩克综合征患者中出现的不同听觉表型可能有遗传基础,可能是由于遗传环境中的多种相互作用因素或修饰因素所致。特别是,对穆恩克综合征小鼠模型的进一步分析和研究可能不仅为出生时而且为成年期FGFR3中决定性突变在内耳中的特定作用提供线索。尤其是,对这些模型的研究可能有助于深入了解该表型的可变表达和不完全外显率。
