Self-sufficient control of urate homeostasis in mice by a synthetic circuit
- PMID: 20351688
- DOI: 10.1038/nbt.1617
Self-sufficient control of urate homeostasis in mice by a synthetic circuit
Abstract
Synthetic biology has shown that the metabolic behavior of mammalian cells can be altered by genetic devices such as epigenetic and hysteretic switches, timers and oscillators, biocomputers, hormone systems and heterologous metabolic shunts. To explore the potential of such devices for therapeutic strategies, we designed a synthetic mammalian circuit to maintain uric acid homeostasis in the bloodstream, disturbance of which is associated with tumor lysis syndrome and gout. This synthetic device consists of a modified Deinococcus radiodurans-derived protein that senses uric acids levels and triggers dose-dependent derepression of a secretion-engineered Aspergillus flavus urate oxidase that eliminates uric acid. In urate oxidase-deficient mice, which develop acute hyperuricemia, the synthetic circuit decreased blood urate concentration to stable sub-pathologic levels in a dose-dependent manner and reduced uric acid crystal deposits in the kidney. Synthetic gene-network devices providing self-sufficient control of pathologic metabolites represent molecular prostheses, which may foster advances in future gene- and cell-based therapies.
Comment in
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Essential information for synthetic DNA sequences.Nat Biotechnol. 2011 Jan;29(1):22; discussion 22-3. doi: 10.1038/nbt.1753. Nat Biotechnol. 2011. PMID: 21221092 No abstract available.
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