Reynaud Rachel, Gueydan Magali, Saveanu Alexandru, Vallette-Kasic Sophie, Enjalbert Alain, Brue Thierry, Barlier Anne
Laboratoire de Biochimie et Biologie Moléculaire, Hôpital de la Conception, 13385 Marseille Cedex 5, France.
J Clin Endocrinol Metab. 2006 Sep;91(9):3329-36. doi: 10.1210/jc.2005-2173. Epub 2006 May 30.
Mutations in transcription factors result in combined pituitary hormone deficiency (CPHD).
A genetic screening strategy, based on endocrine and neuroradiological phenotype according to published knowledge, was applied to establish the prevalence of gene defects in each category of patients and provide a useful framework for clinicians to determine the genetic etiology and recurrence risks for individuals and families.
One hundred ninety-five CPHD patients from the international GENHYPOPIT network were studied, according to their phenotype, for POU1F1, PROP1, LHX3, LHX4, and HESX1.
Patients selected had two pituitary hormone deficiencies or at least one deficiency with intracerebral malformations.
Total prevalence of mutations was 13.3 and 52.4% in 20 patients with familial CPHD history. No mutation of HESX1 was observed in 16 patients harboring septooptic dysplasia. A mutation of LHX4 gene, previously reported, was found in one familial case from 39 patients bearing pituitary stalk interruption syndrome. In 109 patients without extrapituitary abnormalities, 20 had PROP1 mutations, including eight patients with a family history of CPHD. Among 20 patients without pituitary stalk interruption syndrome, no LHX3 gene defect was found, even with a neck rotation deficit. One POU1F1 gene defect was found in one patient presenting the rare postpubertal association of thyrotroph (TSH deficiency) and somatotroph (GH deficiency) deficits.
Mutation of PROP1 gene remains the first to be looked for, and POU1F1 mutations should be sought in GH deficiency and TSH deficiency postpubertal population without extrapituitary malformations. Identification of gene defects allows early treatment of any deficit and prevention of their potentially fatal consequences. Genotyping appears highly beneficial at an individual and familial level.
转录因子突变会导致联合垂体激素缺乏症(CPHD)。
根据已发表的知识,应用一种基于内分泌和神经放射学表型的基因筛查策略,以确定各类患者中基因缺陷的患病率,并为临床医生提供一个有用的框架,用于确定个体和家庭的遗传病因及复发风险。
对国际GENHYPOPIT网络中的195例CPHD患者,根据其表型研究POU1F1、PROP1、LHX3、LHX4和HESX1基因。
入选的患者有两种垂体激素缺乏,或至少一种缺乏并伴有脑内畸形。
有家族性CPHD病史的20例患者中,突变的总患病率分别为13.3%和52.4%。16例患有视隔发育不良的患者未观察到HESX1突变。在39例患有垂体柄中断综合征的患者中,有1例家族性病例发现了先前报道的LHX4基因突变。在109例无垂体外异常的患者中,20例有PROP1突变,其中8例有CPHD家族史。在20例无垂体柄中断综合征的患者中,即使有颈部旋转缺陷,也未发现LHX3基因缺陷。在1例出现罕见的青春期后促甲状腺激素(促甲状腺激素缺乏)和促生长激素(生长激素缺乏)联合缺陷的患者中发现1例POU1F1基因缺陷。
PROP1基因突变仍是首先要查找的对象,对于青春期后无垂体外畸形的生长激素缺乏和促甲状腺激素缺乏人群,应查找POU1F1基因突变。基因缺陷的鉴定有助于早期治疗任何缺陷,并预防其潜在的致命后果。基因分型在个体和家族层面似乎非常有益。
