Division of Nephrology and Rheumatology, Department of Internal Medicine, Fukuoka University School of Medicine, Fukuoka, Japan.
1] Division of Nephrology and Rheumatology, Department of Internal Medicine, Fukuoka University School of Medicine, Fukuoka, Japan [2] Division of Medical Sciences, Fukuoka University School of Nursing, Fukuoka, Japan.
J Hum Genet. 2013 Dec;58(12):788-93. doi: 10.1038/jhg.2013.103. Epub 2013 Oct 3.
Carnitine-acylcarnitine translocase (CACT) and carnitine palmitoyltransferase II (CPT2) are key enzymes for transporting long-chain fatty acids into mitochondria. Deficiencies of these enzymes, which are clinically characterized by life-threatening non-ketotic hypoglycemia and rhabdomyolysis, cannot be distinguished by acylcarnitine analysis performed using tandem mass spectrometry. We had previously reported the CPT2 genetic structure and its role in CPT2 deficiency. Here, we analyzed the CACT gene in 2 patients diagnosed clinically with CACT deficiency, 18 patients with non-traumatic rhabdomyolysis and 58 healthy individuals, all of whom were confirmed to have normal CPT2 genotypes. To facilitate CACT genotyping, we used heat-denaturing high-performance liquid chromatography (DHPLC), which helped identify five distinct patterns. The abnormal heteroduplex fragments were subjected to CACT-specific DNA sequencing. We found that one patient with CACT deficiency, Case 1, carried c.576G>A and c.199-10t>g mutations, whereas Case 2 was heterozygous for c.106-2a>t and c.576G>A. We also found that one patient with non-traumatic rhabdomyolysis and one healthy individual were heterozygous for c.804delG and the synonymous mutation c.516T>C, respectively. In summary, c.576G>A, c.106-2a>t and c.516T>C are novel CACT gene mutations. Among the five mutations identified, three were responsible for CACT deficiency. We have also demonstrated the successful screening of CACT mutations by DHPLC.
肉碱酰基肉碱转移酶(CACT)和肉碱棕榈酰基转移酶 II(CPT2)是将长链脂肪酸转运入线粒体的关键酶。这些酶的缺乏在临床上表现为危及生命的非酮性低血糖和横纹肌溶解症,不能通过串联质谱分析进行的酰基肉碱分析来区分。我们之前已经报道了 CPT2 的基因结构及其在 CPT2 缺乏症中的作用。在这里,我们分析了 2 例临床诊断为 CACT 缺乏症的患者、18 例非创伤性横纹肌溶解症患者和 58 名健康个体的 CACT 基因,所有这些个体均被证实具有正常的 CPT2 基因型。为了便于 CACT 基因分型,我们使用了热变性高效液相色谱法(DHPLC),该方法有助于识别五种不同的模式。异常异源双链片段进行 CACT 特异性 DNA 测序。我们发现,1 例 CACT 缺乏症患者(病例 1)携带 c.576G>A 和 c.199-10t>g 突变,而病例 2 则为 c.106-2a>t 和 c.576G>A 的杂合子。我们还发现,1 例非创伤性横纹肌溶解症患者和 1 名健康个体分别为 c.804delG 和同义突变 c.516T>C 的杂合子。总之,c.576G>A、c.106-2a>t 和 c.516T>C 是 CACT 基因的新突变。在鉴定的 5 个突变中,有 3 个导致 CACT 缺乏症。我们还通过 DHPLC 成功筛选了 CACT 突变。
