Corrons Joan-Lluis Vives, Garcia Estefania, Tusell Joan J, Varughese Kottayil I, West Carol, Beutler Ernest
Red Cell Patholology Unit, ICMHO-IDIBAPS, Hospital Clinic i Provincial, Villarroel 170, 08036-Barcelona, Spain.
Blood. 2003 Jul 1;102(1):353-6. doi: 10.1182/blood-2002-07-2288. Epub 2003 Mar 20.
We report here 2 patients with chronic nonspherocytic hemolytic anemia (CNSHA) and severe red blood cell (RBC) adenylate kinase (AK) deficiency. One of these patients, a boy of Spanish origin, exhibited a neonatal icterus and splenomegaly and required blood transfusions until the age of 2 years. The other patient was a white, American infant born to parents who were first cousins; he also presented with neonatal icterus and anemia. In neither case was psychomotor impairment observed. The first patient was found to be a compound heterozygote for 2 different missense mutations, 118G>A(Gly40Arg) and 190G>A(Gly64Arg) (cDNA sequence first described by Matsuura et al, 1989). The second patient was homozygous for an in-frame deletion (GAC) from nucleotide (nt) 498 to 500 or nt 501 to 503 of the cDNA sequence, predicting deletion of either aspartic acid (Asp) 140 or 141. The crystal structure of porcine cytosolic AK was used as a molecular model to investigate how these mutations may affect enzyme structure and function.
我们在此报告2例慢性非球形细胞溶血性贫血(CNSHA)且严重红细胞(RBC)腺苷酸激酶(AK)缺乏的患者。其中1例患者为西班牙裔男孩,表现为新生儿黄疸和脾肿大,2岁前需要输血。另一例患者是一名白人美国婴儿,其父母为近亲;他也表现出新生儿黄疸和贫血。两例患者均未观察到精神运动障碍。发现第一例患者是2种不同错义突变的复合杂合子,即118G>A(甘氨酸40变为精氨酸)和190G>A(甘氨酸64变为精氨酸)(cDNA序列最早由Matsuura等人于1989年描述)。第二例患者对于cDNA序列中从核苷酸(nt)498至500或nt 501至503的框内缺失(GAC)为纯合子,预测缺失天冬氨酸(Asp)140或141。猪胞质AK的晶体结构用作分子模型,以研究这些突变如何影响酶的结构和功能。
