颅神经发育的先天性异常：概述、分子机制以及眼球运动先天性受限综合征异质性和复杂性的更多证据。

Congenital abnormalities of cranial nerve development: overview, molecular mechanisms, and further evidence of heterogeneity and complexity of syndromes with congenital limitation of eye movements.

作者信息

Traboulsi Elias I

机构信息

Department of Pediatric Ophthalmology and Strabismus, and the Center for Genetic Eye Diseases, Cole Eye Institute, Cleveland Clinic Foundation, Cleveland, Ohio, USA.

出版信息

Trans Am Ophthalmol Soc. 2004;102:373-89.

PMID:15747768

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1280110/

Abstract

PURPOSE

The clinical and molecular genetic classification of syndromes with congenital limitation of eye movements and evidence of cranial nerve dysgenesis continues to evolve. This monograph details clinical and molecular genetic data on a number of families and isolated patients with congenital fibrosis of the extraocular muscles (CFEOM) and related disorders, and presents an overview of the mechanisms of abnormal patterns of motor and sensory cranial nerve development in these rare syndromes.

METHODS

Clinical examination of one patient with CFEOM1, one family with clinical features of CFEOM2, one family with recessive CFEOM3, one family with horizontal gaze palsy and progressive scoliosis (HGPPS), and four patients with various combinations of congenital cranial nerve abnormalities. Genotyping of families with CFEOM and HGPPS for polymorphic markers in the regions of the three known CFEOM loci and in the HGPPS region, and mutation analysis of the ARIX and KIF21A genes in patients with CFEOM were performed according to standard published protocols.

RESULTS

The patient with CFEOM1 had the second most common mutation in KIF21A, a 2861 G>A mutation that resulted in an R954Q substitution. The family with CFEOM2 phenotype did not map to the CFEOM2 locus. The family with recessive CFEOM3 did not map to any of the known loci. The HGPPS family mapped to 11q23-q25. One patient had optic nerve hypoplasia and fifth nerve dysfunction. Two patients had the rare combination of Möbius syndrome and CFEOM. One patient had Möbius syndrome and fifth nerve dysfunction.

CONCLUSIONS

There is genetic heterogeneity in CFEOM2 and CFEOM3. Abnormalities in sensory nerves can also accompany abnormalities of motor nerves, further substantiating the effect of individual mutations on developing motor as well as sensory cranial nerve nuclei.

摘要

目的

伴有先天性眼球运动受限及颅神经发育不全证据的综合征的临床和分子遗传学分类仍在不断发展。本专著详细阐述了多个患有眼外肌先天性纤维化（CFEOM）及相关疾病的家系和散发性患者的临床及分子遗传学数据，并概述了这些罕见综合征中运动和感觉颅神经发育异常模式的机制。

方法

对1例CFEOM1患者、1个具有CFEOM2临床特征的家系、1个隐性CFEOM3家系、1个患有水平凝视麻痹和进行性脊柱侧弯（HGPPS）的家系以及4例具有各种先天性颅神经异常组合的患者进行临床检查。按照已发表的标准方案，对CFEOM和HGPPS家系进行三个已知CFEOM基因座区域及HGPPS区域多态性标记的基因分型，并对CFEOM患者进行ARIX和KIF21A基因的突变分析。

结果

CFEOM1患者在KIF21A基因中发生了第二常见的突变，即2861 G>A突变，导致R954Q替换。具有CFEOM2表型的家系未定位到CFEOM2基因座。隐性CFEOM3家系未定位到任何已知基因座。HGPPS家系定位到11q23 - q25。1例患者患有视神经发育不全和第五神经功能障碍。2例患者具有罕见的莫比乌斯综合征和CFEOM组合。1例患者患有莫比乌斯综合征和第五神经功能障碍。

结论

CFEOM2和CFEOM3存在遗传异质性。感觉神经异常也可伴随运动神经异常，进一步证实了个体突变对发育中的运动及感觉颅神经核的影响。

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Congenital abnormalities of cranial nerve development: overview, molecular mechanisms, and further evidence of heterogeneity and complexity of syndromes with congenital limitation of eye movements.颅神经发育的先天性异常：概述、分子机制以及眼球运动先天性受限综合征异质性和复杂性的更多证据。

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Classification and surgical management of patients with familial and sporadic forms of congenital fibrosis of the extraocular muscles.家族性和散发性先天性眼外肌纤维化患者的分类及外科治疗

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