Evidence for two genetic complementation groups in pyruvate carboxylase-deficient human fibroblast cell lines |
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Authors: | Gerald L. Feldman Barry Wolf |
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Affiliation: | (1) Departments of Human Genetics and Pediatrics, Medical College of Virginia, 23298 Richmond, Virginia |
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Abstract: | We have examined genetic complementation in pyruvate carboxylase deficiency by comparing the enzyme activity in polyethylene glycol-induced heterokaryons with that in unfused mixtures of fibroblasts from three affected children. Complementation, manifested as a three- to sevenfold increase in pyruvate carboxylase activity, was observed in fusions between a biotin-responsive multiple carboxylase (pyruvate carboxylase, propionyl CoA carboxylase, and -methylcrotonyl CoA carboxylase) deficient fibroblast line and two other lines deficient only in pyruvate carboxylase activity. Kinetic analysis of complementing pyruvate carboxylase deficient lines, measured by the rate of restoration of enzyme activity as a function of time, revealed that maximum restoration was achieved within 10–24 hr after fusion. This profile is similar to those observed for fusions between the multiple carboxylase deficient line and two lines deficient in propionyl CoA carboxylase activity that are known to represent different gene mutations. Although the patients with pyruvate carboxylase deficiency had similar clinical findings, our studies indicate that pyruvate carboxylase deficiency is genetically heterogeneous, with at least two distinct, probably intergenic, complementation groups.This work was supported by an NIH research grant (AM 25675) and an A. D. Williams research grant (6-48360). B. Wolf is the recipient of an NIH Research Career Development Award (AM 00677) and is aided by a Basil O'Connor Starter Research Grant from The National Foundation-March of Dimes (5-263). G. Feldman is the recipient of an NIH predoctoral training grant (GM 07492). This article is No. 100 from the Department of Human Genetics at the Medical College of Virginia. |
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Keywords: | genetic complementation pyruvate carboxylase deficiency pyruvate carboxylase biotin-dependent enzymes |
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