Instituto de Biomedicina de Valencia of the CSIC, Valencia, Spain.
Centro para Investigación Biomédica en Red sobre Enfermedades Raras CIBERER-ISCIII, Valencia, Spain.
J Inherit Metab Dis. 2020 Jul;43(4):657-670. doi: 10.1002/jimd.12220. Epub 2020 Feb 9.
The bifunctional homooligomeric enzyme Δ -pyrroline-5-carboxylate synthetase (P5CS) and its encoding gene ALDH18A1 were associated with disease in 1998. Two siblings who presented paradoxical hyperammonemia (alleviated by protein), mental disability, short stature, cataracts, cutis laxa, and joint laxity, were found to carry biallelic ALDH18A1 mutations. They showed biochemical indications of decreased ornithine/proline synthesis, agreeing with the role of P5CS in the biosynthesis of these amino acids. Of 32 patients reported with this neurocutaneous syndrome, 21 familial ones hosted homozygous or compound heterozygous ALDH18A1 mutations, while 11 sporadic ones carried de novo heterozygous ALDH18A1 mutations. In 2015 to 2016, an upper motor neuron syndrome (spastic paraparesis/paraplegia SPG9) complicated with some traits of the neurocutaneous syndrome, although without report of cutis laxa, joint laxity, or herniae, was associated with monoallelic or biallelic ALDH18A1 mutations with, respectively, dominant and recessive inheritance. Of 50 SPG9 patients reported, 14 and 36 (34/2 familial/sporadic) carried, respectively, biallelic and monoallelic mutations. Thus, two neurocutaneous syndromes (recessive and dominant cutis laxa 3, abbreviated ARCL3A and ADCL3, respectively) and two SPG9 syndromes (recessive SPG9B and dominant SPG9A) are caused by essentially different spectra of ALDH18A1 mutations. On the bases of the clinical data (including our own prior patients' reports), the ALDH18A1 mutations spectra, and our knowledge on the P5CS protein, we conclude that the four syndromes share the same pathogenic mechanisms based on decreased P5CS function. Thus, these syndromes represent a continuum of increasing severity (SPG9A < SPG9B < ADCL3 ≤ ARCL3A) of the same disease, P5CS deficiency, in which the dominant mutations cause loss-of-function by dominant-negative mechanisms.
双功能同型寡聚酶 Δ -吡咯啉-5-羧酸合成酶 (P5CS) 及其编码基因 ALDH18A1 于 1998 年与疾病相关。两名表现出矛盾性高氨血症(蛋白质缓解)、精神残疾、身材矮小、白内障、皮肤松弛和关节松弛的同胞,被发现携带双等位基因 ALDH18A1 突变。他们表现出鸟氨酸/脯氨酸合成减少的生化迹象,这与 P5CS 在这些氨基酸生物合成中的作用一致。在报告的 32 名患有这种神经皮肤综合征的患者中,21 名家族性患者携带纯合或复合杂合 ALDH18A1 突变,而 11 名散发性患者携带新生杂合 ALDH18A1 突变。2015 年至 2016 年,一种上运动神经元综合征(痉挛性截瘫/截瘫 SPG9)伴有神经皮肤综合征的一些特征,尽管没有皮肤松弛、关节松弛或疝的报告,与单等位基因或双等位基因 ALDH18A1 突变相关,分别为显性和隐性遗传。在报告的 50 名 SPG9 患者中,分别有 14 名和 36 名(34/2 家族性/散发性)携带双等位基因和单等位基因突变。因此,两种神经皮肤综合征(隐性和显性皮肤松弛 3,分别缩写为 ARCL3A 和 ADCL3)和两种 SPG9 综合征(隐性 SPG9B 和显性 SPG9A)由本质上不同的 ALDH18A1 突变谱引起。根据临床数据(包括我们自己以前患者的报告)、ALDH18A1 突变谱以及我们对 P5CS 蛋白的了解,我们得出结论,这四种综合征基于 P5CS 功能降低具有相同的发病机制。因此,这些综合征代表了同一种疾病(P5CS 缺乏症)的严重程度不断增加(SPG9A<SPG9B<ADCL3≤ARCL3A)的连续体,显性突变通过显性负性机制导致功能丧失。
