Zarza R, Moscardó M, Alvarez R, García J, Morey M, Pujades A, Vives-Corrons J L
Red Cell Pathology Unit, Institute of Hematology and Oncology, IDIBAPS, Hospital Clínic i Provincial of Barcelona, Spain.
Haematologica. 2000 Mar;85(3):227-32.
A partial red blood cell (RBC) pyruvate-kinase (PK-R) deficiency was found in a patient with concomitant hereditary spherocytosis (HS) and chronic hemolytic anemia. Clinical, biological and molecular studies were performed in the patient, his parents and a brother, in order to characterize the specific PK-R gene mutation and the inheritance mechanism of the transmission of both red cell defects in this particular family.
Conventional biological studies were used to identify the PK-LR gene mutation responsible for hereditary transmission of PK-R deficiency and HS. The family study was completed with genotypic and RBC membrane protein analyses in the patient and his family.
Molecular study of the PK deficiency was performed in all the family members and demonstrated a heterozygous condition for the 1516 G->A (506Val->Ile) mutation at the PK-LR gene in both the patient and his mother. Since this mutation has not been reported previously, it is provisionally named PK "Mallorca". The study of RBC membrane proteins demonstrated the existence of partial band 3 and protein 4.2 deficiencies in the propositus and his father but not in the mother and brother, who were also studied. These results support the dominant mode of inheritance of HS and PK-LR gene in this family.
HS and PK deficiency are not exceptional in Spain. The co-existence of both RBC defects in the same patient, however, is very rare; only a few cases have been described to date. Our findings suggest that performing an elementary RBC enzyme survey in all patients with HS would help to determine the real frequency of this apparently rare association.
在一名同时患有遗传性球形红细胞增多症(HS)和慢性溶血性贫血的患者中发现了部分红细胞(RBC)丙酮酸激酶(PK-R)缺乏症。对该患者及其父母和兄弟进行了临床、生物学和分子研究,以确定该特定家族中PK-R基因突变的具体情况以及两种红细胞缺陷的遗传传递机制。
采用常规生物学研究来确定导致PK-R缺乏症和HS遗传传递的PK-LR基因突变。通过对患者及其家族进行基因型和红细胞膜蛋白分析,完成了家族研究。
对所有家庭成员进行了PK缺乏症的分子研究,结果显示患者及其母亲的PK-LR基因均存在1516 G->A(506Val->Ile)突变的杂合状态。由于此前未报道过这种突变,故暂将其命名为PK“马略卡”。红细胞膜蛋白研究表明,先证者及其父亲存在部分带3和蛋白4.2缺乏,而其母亲和兄弟(也进行了研究)则不存在。这些结果支持了该家族中HS和PK-LR基因的显性遗传模式。
HS和PK缺乏症在西班牙并不罕见。然而,同一患者同时存在这两种红细胞缺陷的情况非常罕见;迄今为止仅描述了少数病例。我们的研究结果表明,对所有HS患者进行基本的红细胞酶检测,将有助于确定这种明显罕见关联的实际发生率。
