Hirano Makito, Furiya Yoshiko, Asai Hirohide, Yasui Akira, Ueno Satoshi
Department of Neurology, Nara Medical University, 840 Shijo-cho, Kashihara 634-8522, Japan.
Proc Natl Acad Sci U S A. 2006 Feb 14;103(7):2298-303. doi: 10.1073/pnas.0505598103. Epub 2006 Feb 7.
Triple A syndrome is an autosomal recessive neuroendocrinological disease caused by mutations in a gene that encodes 546 amino acid residues. The encoded protein is the nucleoporin ALADIN, a component of nuclear pore complex (NPC). We identified a mutant ALADIN(I482S) that fails to target NPC and investigated the consequences of mistargeting using cultured fibroblasts (I482Sf) from a patient with triple A syndrome. ALADIN(I482S) affected a karyopherin-alpha/beta-mediated import pathway and decreased nuclear accumulations of aprataxin (APTX), a repair protein for DNA single-strand breaks (SSBs), and of DNA ligase I in I482Sf. This decrease was restored by wild-type ALADIN. ALADIN(I482S) had no effect on imports of M9/kap-beta2, BIB/kap-beta3, histone H1/importin 7, the ubiquitin conjugating enzyme UbcM2/importin 11, or the spliceosome protein U1A, indicating that ALADIN(I482S) selectively impaired transport of discrete import complexes through NPC. Cell survival assay showed hypersensitivity of I482Sf to l-buthionine-(S,R)-sulfoximine (BSO), a glutathione-depleting agent. BSO decreased nuclear APTX and ligase I levels in I482Sf and normal control fibroblasts, but increased SSBs only in I482Sf. These observations implied that I482Sf are hypersensitive to BSO and no longer sufficiently repair SSBs. Consistent with this notion, I482Sf transfected with both APTX and ligase I had increased resistance to BSO, whereas I482Sf transfected with LacZ vector remained hypersensitive to BSO. We propose that oxidative stress aggravates nuclear import failure, which is already compromised in patient cells. Consequent DNA damage, beyond the limited capacity of DNA repair proteins, i.e., APTX and ligase I, may participate in triggering cell death.
三 A 综合征是一种常染色体隐性神经内分泌疾病,由一个编码 546 个氨基酸残基的基因突变引起。所编码的蛋白质是核孔蛋白 ALADIN,它是核孔复合体(NPC)的一个组成部分。我们鉴定出一种无法靶向 NPC 的突变型 ALADIN(I482S),并使用来自一名三 A 综合征患者的培养成纤维细胞(I482Sf)研究了靶向错误的后果。ALADIN(I482S)影响了一种核转运蛋白α/β介导的输入途径,并降低了 I482Sf 中 aprataxin(APTX,一种 DNA 单链断裂(SSB)修复蛋白)和 DNA 连接酶 I 的核积累。野生型 ALADIN 可恢复这种降低。ALADIN(I482S)对 M9/核转运蛋白β2、BIB/核转运蛋白β3、组蛋白 H1/输入蛋白 7、泛素结合酶 UbcM2/输入蛋白 11 或剪接体蛋白 U1A 的输入没有影响,这表明 ALADIN(I482S)选择性地损害了离散输入复合体通过 NPC 的转运。细胞存活试验表明,I482Sf 对谷胱甘肽消耗剂 l-丁硫氨酸-(S,R)-亚砜亚胺(BSO)高度敏感。BSO 降低了 I482Sf 和正常对照成纤维细胞中的核 APTX 和连接酶 I 水平,但仅在 I482Sf 中增加了 SSB。这些观察结果表明,I482Sf 对 BSO 高度敏感,并且不再能够充分修复 SSB。与此观点一致,同时转染了 APTX 和连接酶 I 的 I482Sf 对 BSO 的抗性增加,而转染了 LacZ 载体的 I482Sf 对 BSO 仍然高度敏感。我们提出,氧化应激会加剧核输入失败,而这在患者细胞中已经受损。由此导致的 DNA 损伤超出了 DNA 修复蛋白(即 APTX 和连接酶 I)的有限能力,可能参与触发细胞死亡。