葡萄糖-6-磷酸脱氢酶Lodi844C在血细胞和肌肉中的表达研究。

Enzyme Pub Date : 1991-01-01 DOI:10.1159/000468887
P Ninfali, N Bresolin, L Baronciani, F Fortunato, G Comi, M Magnani, G Scarlato
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引用次数: 28

摘要

一名意大利男性的红细胞、淋巴细胞和肌肉中发现葡萄糖-6-磷酸脱氢酶(G6PD)缺乏症,该男性的家族在意大利北部伦巴第的洛迪(Lodi)居住了至少三代。受试者在剧烈运动后因肌痛和尿色深而住院,但休息时未出现贫血和慢性溶血症状。家庭研究表明,母亲和姨妈患有同样的酶病。红细胞中的酶特异性活性为对照组的15%,动力学性质如下:电泳迁移速度较慢;双相pH活度曲线;稍微降低了热稳定性,增加了衬底类似物的利用率。对患者DNA的分析显示,在844核苷酸处G----C突变导致Asp----His氨基酸在282位发生变化。这与De Vita等人在G6PD西雅图样变异中发现的突变相同。然而,通过遵循新的约定,我们将我们的变体标记为G6PD Lodi844C。就肌肉而言,我们发现该组织的酶特异性活性为对照组的14%,但培养的肌管和成肌细胞显示G6PD水平正常,皮肤成纤维细胞水平正常。相反,从G6PD地中海受试者获得的同类型培养细胞中,G6PD活性约为正常的20%。我们的结果完成了这种突变酶的表征,证明了肌肉中缺陷的表达,并描述了培养细胞中的酶行为。
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Glucose-6-phosphate dehydrogenase Lodi844C: a study on its expression in blood cells and muscle.
Glucose-6-phosphate dehydrogenase (G6PD) deficiency was found in erythrocytes, lymphocytes and muscle of an Italian male, whose family has lived for at least three generations in Lodi (Lombardy, northern Italy). The subject was hospitalized for myalgia and dark urine after intense physical exercise, but no sign of anemia and chronic hemolysis were present at rest. Family studies revealed that the mother and the maternal aunt had the same enzymopathy. The enzyme-specific activity in red blood cells was 15% of control and the kinetic properties were the following: slower electrophoretic mobility; biphasic pH activity curve; slightly reduced thermal stability, and increased utilization of the substrate analogs. The analysis of our patient's DNA showed a G----C mutation at nucleotide 844 which causes an Asp----His amino acid change in position 282. This is the same mutation found by De Vita et al. in the G6PD Seattle-like variant. However, by following a new convention, we labelled our variant as G6PD Lodi844C. As far as the muscle is concerned, we found that the enzyme-specific activity in this tissue was 14% of control values, but cultured myotubes and myoblasts revealed a normal level of G6PD as well as skin fibroblasts. On the contrary in the same type of cultured cells obtained from G6PD Mediterranean subjects, the G6PD activity was about 20% of normal. Our results complete the characterization of this mutant enzyme, demonstrate the expression of the deficit in muscle and describe the enzyme behaviour in cultured cells.
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