COMPLEMENTATION OF DEFECTIVE LEUCINE DECARBOXYLATION IN FIBROBLASTS FROM A MAPLE-SYRUP-URINE-DISEASE PATIENT BY RETROVIRUS-MEDIATED GENE-TRANSFER

被引:0
|
作者
MUELLER, GM
MCKENZIE, LR
HOMANICS, GE
WATKINS, SC
ROBBINS, PD
PAUL, HS
机构
[1] UNIV PITTSBURGH,SCH MED,DEPT MOLEC GENET & BIOCHEM,PITTSBURGH,PA 15261
[2] UNIV PITTSBURGH,SCH MED,DEPT ANESTHESIOL & CRIT CARE MED,PITTSBURGH,PA 15261
[3] UNIV PITTSBURGH,SCH MED,DEPT CELL BIOL & PHYSIOL,PITTSBURGH,PA 15261
[4] UNIV PITTSBURGH,SCH MED,DEPT MED,PITTSBURGH,PA 15261
来源
GENE THERAPY | 1995年 / 2卷 / 07期
关键词
MSUD; GENE THERAPY; RETROVIRAL VECTORS; BCAA METABOLISM;
D O I
暂无
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Maple syrup urine disease (MSUD) is a genetic disease caused by a deficiency of branched-chain keto acid dehydrogenase, a mitochondrial multienzyme complex responsible for the decarboxylation of leucine, isoleucine and valine. The complex consists of three subunits (E(1), E(2), and E(3)) and mutations in any subunit result in MSUD. No satisfactory treatment for MSUD is currently available. Here we report the successful use the retroviral gene transfer to restore leucine decarboxylation activity in fibroblasts derived from a MSUD patient containing a mutation in the E(2) subunit. A full-length human E(2) cDNA was inserted into a retroviral vector (MFG) and a stable CRIP producer lien was generated. The amphotropic virus was then used to transduce mutant human fibroblasts. In untransduced mutant cells, 1-C-14 leucine decarboxylation activity was less than 2% that of the wild-type cells. Decarboxylation of 1-C-14 leucine in transduced mutant cells was restored to 93% of the wild-type level. Correct targeting of the expressed wild-type E(2) protein to mitochondria was demonstrated by comparing the immunofluorescent pattern of E(2) and a mitochondrial marker protein. Stable expression of enzyme activity has been obtained for at least 7 weeks. In contrast to most previous gene therapy attempts, which replace a single enzyme defect, the present results demonstrate complementation of a phenotype resulting from a gene defect whose product is a part of a multienzyme complex. Based on these results, studies can now be undertaken to investigate the feasibility of gene therapy to correct MSUD.
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页码:461 / 468
页数:8
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