Cohen L E, Wondisford F E, Radovick S
Department of Medicine, Children's Hospital, Boston, Massachusetts, USA.
Endocrinol Metab Clin North Am. 1996 Sep;25(3):523-40. doi: 10.1016/s0889-8529(05)70339-x.
To date, nine different mutations in the Pit-1 gene resulting in CPHD have been described in mammals. Four of these mutations alter residues important for DNA binding or alter the predicted alpha helical nature of the Pit-1 protein (A158P, R172X, E250X, and W261C). The A158P mutation, however, has minimal effects on DNA binding. Four mutations lie outside alpha helical regions (P24L, R143Q, K216E, and R271W) and do not significantly alter DNA binding either experimentally or by prediction. One mutation is a large deletion of the Pit-1 gene locus in the Jackson dwarf mouse. Mutant Pit-1 proteins that do not interfere with binding cause CPHD through interference with target gene activation and regulation. The R271W mutant acts as a dominant inhibitor of transcription of the GH and Prl genes. The A158P mutant is incapable of activating transcription from the GH-I site and has low activation of transcription of the distal enhancer and proximal promoter sites of Prl and of 320 bp of the 5' GH promoter sequence. Some mutant proteins interfere with nuclear receptors. For example, the K216E mutant has defective retinoic acid signaling on the Pit-1 gene enhancer. There is phenotypic variability in the degree of CPHD and in pituitary size in patients with Pit-1 gene mutations. Since Pit-1 has different functions in the somatotroph, lactotroph, and thyrotroph, it is not surprising that point mutations in different regions of the gene interfere in different ways with Pit-1 function. A mutant Pit-1 may be able to carry out its developmental role, but may be aberrant in GH and Prl gene activation or Pit-1 autoregulation. Study of Pit-1 mutations and their diverse pathophysiologic mechanisms should increase the understanding of anterior pituitary gland development and gene regulation in normal and disease states.
迄今为止,在哺乳动物中已发现9种不同的Pit-1基因突变可导致复合型垂体激素缺乏症(CPHD)。其中4种突变改变了对DNA结合至关重要的残基,或改变了Pit-1蛋白预测的α螺旋性质(A158P、R172X、E250X和W261C)。然而,A158P突变对DNA结合的影响极小。4种突变位于α螺旋区域之外(P24L、R143Q、K216E和R271W),无论是通过实验还是预测,均未显著改变DNA结合。一种突变是杰克逊侏儒小鼠中Pit-1基因座的大片段缺失。不干扰结合的突变型Pit-1蛋白通过干扰靶基因的激活和调控导致CPHD。R271W突变体作为生长激素(GH)和催乳素(Prl)基因转录的显性抑制剂。A158P突变体无法激活GH-I位点的转录,对Prl远端增强子和近端启动子位点以及5' GH启动子序列320 bp的转录激活能力较低。一些突变蛋白会干扰核受体。例如,K216E突变体在Pit-1基因增强子上的视黄酸信号传导存在缺陷。Pit-1基因突变患者的CPHD程度和垂体大小存在表型差异。由于Pit-1在生长激素细胞、催乳素细胞和促甲状腺激素细胞中具有不同功能,因此该基因不同区域的点突变以不同方式干扰Pit-1功能也就不足为奇了。突变型Pit-1可能能够发挥其发育作用,但在GH和Prl基因激活或Pit-1自身调节方面可能存在异常。对Pit-1突变及其多样病理生理机制的研究应能增进对正常和疾病状态下垂体前叶发育及基因调控的理解。
