Tanizawa Y, Riggs A C, Chiu K C, Janssen R C, Bell D S, Go R P, Roseman J M, Acton R T, Permutt M A
Department of Internal Medicine, Washington University School of Medicine, St. Louis, Missouri 63110.
Diabetologia. 1994 Apr;37(4):420-7. doi: 10.1007/BF00408481.
The purpose of these experiments was to test the hypothesis that impaired glucose-stimulated insulin secretion in NIDDM is due to mutations in the islet beta cell/liver glucose transporter (GLUT 2) gene. Using oligonucleotide primers flanking each of the 11 exons, the structural portion of the gene was studied by PCR-SSCP analysis. DNA from African-American females (n = 48), who had gestational diabetes but developed overt NIDDM after delivery, was studied. Each SSCP variant was sequenced directly from genomic DNA. Two amino acid substitutions from the previously reported sequence were found, one in exon 3 and the other in exon 4B. Four additional silent mutations in the coding region, and six intron mutations outside the splice junction consensus sequences, were also identified. The mutation GTC x ATC in exon 4B substituted Val197 to Ile197. This amino acid substitution was found in only one NIDDM patient in a single allele, and was not found in 52 control subjects. This residue exists in the fifth membrane spanning domain, and Val at this position is conserved in mouse and rat GLUT 2, and human GLUT 1 to GLUT 4. The other codon change in exon 3, ACT x ATT, substituted Thr110 to Ile110 in the second membrane spanning domain. To determine the frequency of this non-conservative amino acid substitution, a PCR-LCR assay was developed. This assay was simple and highly specific for detection of this single nucleotide substitution. The allelic frequency of the ATT (Ile110) in NIDDM patients (39.6%, n = 48) and that in controls (47.1%, n = 52) did not differ (p = 0.32, Fisher's exact test).(ABSTRACT TRUNCATED AT 250 WORDS)
非胰岛素依赖型糖尿病(NIDDM)中葡萄糖刺激的胰岛素分泌受损是由于胰岛β细胞/肝脏葡萄糖转运蛋白(GLUT 2)基因突变所致。使用位于11个外显子两侧的寡核苷酸引物,通过聚合酶链反应-单链构象多态性分析(PCR-SSCP)研究该基因的结构部分。研究了来自非裔美国女性(n = 48)的DNA,她们曾患妊娠期糖尿病,但产后发展为显性NIDDM。每个SSCP变异体都直接从基因组DNA进行测序。发现了两个与先前报道序列不同的氨基酸替换,一个在外显子3,另一个在外显子4B。还鉴定出编码区的另外四个沉默突变以及剪接连接共有序列之外的六个内含子突变。外显子4B中的GTC突变为ATC,使缬氨酸197替换为异亮氨酸197。这种氨基酸替换仅在一名NIDDM患者的单个等位基因中发现,在52名对照受试者中未发现。该残基存在于第五个跨膜结构域,此位置的缬氨酸在小鼠和大鼠的GLUT 2以及人类的GLUT 1至GLUT 4中保守。外显子3中的另一个密码子变化,ACT变为ATT,使第二个跨膜结构域中的苏氨酸110替换为异亮氨酸110。为了确定这种非保守氨基酸替换的频率,开发了一种聚合酶链反应-连接酶链式反应(PCR-LCR)检测方法。该检测方法简单且对检测这种单核苷酸替换具有高度特异性。NIDDM患者(n = 48)中ATT(异亮氨酸110)的等位基因频率为39.6%,对照组(n = 52)中为47.1%,两者无差异(p = 0.32,Fisher精确检验)。(摘要截短于250字)
