Ruiz-Pacheco R, Chatelain P, Sizonenko P C, Bost M, Garandau P, Sultan C
Institut National de la Santé et de la Recherche Médicale, Unité 58, Montpellier, France.
Hum Genet. 1993 Oct 1;92(3):273-81. doi: 10.1007/BF00244472.
Familial isolated growth hormone deficiency (IGHD) has been associated with complete deletions of the hGH-N gene encoding the pituitary growth hormone (GH) in a large number of cases. However, there is still no alternative empirical explanation for the remaining familial or non-familial IGHD cases. We studied a large kindred including five IGHD-affected first cousins to determine possible IGHD inheritance and whether the hGH-N gene was the cause of IGHD in this pedigree. Sex-linked and autosomal recessive transmission of IGHD in this kindred was rejected. Autosomal dominant inheritance was the most probable explanation according to a model of one locus with two alleles, one being dominant for IGHD, under genetic modifiers or epistasis. Southern blotting analysis (BamHI and HindIII digestions) was used to determine whether the hGH-N gene was present in the patients and their family members. Because we found that the hGH-N gene was present, five restriction fragment length polymorphisms (RFLPs; HincII, MspI-A and B, and BglII-A and B) linked to the hGH-N gene were used to try to identify the possible RFLP haplotypes in the pedigree that could be markers or associated with the abnormal hGH-N alleles responsible for IGHD. From the haplotype analysis, it appeared that other genes not linked to the hGH-N gene cluster were the cause of the IGHD phenotype in this kindred. An alternative conclusion could be that the hGH-N gene was responsible for IGHD in this kindred, if a mutation (gene conversion) at the MspI-B site or a reciprocal recombination event between the HincII and MspI-B sites occurred from generation P to F1 and a similar event took place from generation F1 to F2. The non-significant GH responses of patients to the growth releasing factor test confirmed that the hGH-N gene structural product or some step in its regulation was responsible for causing IGHD in this kindred. We suggest that genetic micromutations in the hGH-N gene are present and are responsible for IGHD. We developed a method using the polymerase chain reaction to amplify a 790-bp fragment of the hGH-N gene. The fragment spanned from the second part of the dyad symmetry region in the non-transcribed 5' end of the hGH-N gene to 9 bp before the alternative splice-acceptor site in exon 3. The expected fragment was verified by its digestion with seven diagnostic restriction endonucleases (BamHI, FspI, PstI, NdeI, BssHII, BglII and HincII).(ABSTRACT TRUNCATED AT 400 WORDS)
在大量病例中,家族性孤立性生长激素缺乏症(IGHD)与编码垂体生长激素(GH)的hGH - N基因的完全缺失有关。然而,对于其余的家族性或非家族性IGHD病例,仍然没有其他经验性解释。我们研究了一个大家族,其中包括五名受IGHD影响的一级表亲,以确定可能的IGHD遗传方式以及hGH - N基因是否为此家系中IGHD的病因。此家系中IGHD的性连锁和常染色体隐性遗传传递被排除。根据一个具有两个等位基因的位点模型,在遗传修饰因子或上位性作用下,常染色体显性遗传是最有可能的解释,其中一个等位基因对IGHD呈显性。采用Southern印迹分析(BamHI和HindIII酶切)来确定患者及其家庭成员中是否存在hGH - N基因。由于我们发现hGH - N基因存在,因此使用与hGH - N基因连锁的五个限制性片段长度多态性(RFLP;HincII、MspI - A和B以及BglII - A和B)来尝试识别家系中可能的RFLP单倍型,这些单倍型可能是标记物或与导致IGHD的异常hGH - N等位基因相关。从单倍型分析来看,似乎与hGH - N基因簇不连锁的其他基因是此家系中IGHD表型的病因。另一种结论可能是,如果从P代到F1代在MspI - B位点发生突变(基因转换)或在HincII和MspI - B位点之间发生相互重组事件,并且从F1代到F2代发生类似事件,那么hGH - N基因是此家系中IGHD的病因。患者对生长释放因子试验的GH反应不显著,证实hGH - N基因的结构产物或其调控中的某些步骤是此家系中导致IGHD的原因。我们认为hGH - N基因中存在遗传微突变并导致了IGHD。我们开发了一种利用聚合酶链反应扩增hGH - N基因790 bp片段的方法。该片段从hGH - N基因非转录5'端的二元对称区域的第二部分延伸至外显子3中可变剪接受体位点前9 bp处。通过用七种诊断性限制性内切酶(BamHI、FspI、PstI、NdeI、BssHII、BglII和HincII)消化来验证预期片段。(摘要截短至400字)
