Ken Overturf scite author profile

Current strategies for hepatic gene therapy are either quantitatively inefficient or suffer from lack of permanent gene expression. We have utilized an animal model of hereditary tyrosinaemia type I (HT1), a recessive liver disease caused by deficiency of fumarylacetoacetate hydrolase (FAH), to determine whether in vivo selection of corrected hepatocytes could improve the efficiency of liver gene transfer. As few as 1,000 transplanted wild-type hepatocytes were able to repopulate mutant liver, demonstrating their strong competitive growth advantage. Mutant hepatocytes corrected in situ by retroviral gene transfer were also positively selected. In mutant animals treated by multiple retrovirus injections >90% of hepatocytes became FAH positive and liver function was restored to normal. Our results demonstrate that in vivo selection is a useful strategy for hepatic gene therapy and may lead to effective treatment of human HT1 by retroviral gene transfer.

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Status and opportunities for genomics research with rainbow trout

Thorgaard

Bailey

Williams

et al. 2002

Comparative Biochemistry and Physiology Part B: Biochemistry an

226

130

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The Repopulation Potential of Hepatocyte Populations Differing in Size and Prior Mitotic Expansion

Overturf

Al‐Dhalimy

Finegold

et al. 1999

The American Journal of Pathology

176

110

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Cloning and characterization of a Kv1.5 delayed rectifier K+ channel from vascular and visceral smooth muscles

Overturf

Russell

Carl

et al. 1994

American Journal of Physiology-Cell Physiology

122

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We have cloned and characterized the expression of a Kv1.5 K+ channel (cKv1.5) from canine colonic smooth muscle. The amino acid sequence displayed a high level of identity to other K+ channels of the Kv1.5 class in the core region between transmembrane segments S1-S6; however, identity decreased to between 74 and 82% in the NH2 and COOH terminal segments, suggesting that cKv1.5 is a distinct isoform of the Kv1.5 class. Functional expression of cKv1.5 in oocytes demonstrated a channel highly selective for K+, which activates in a voltage-dependent manner on depolarization to membrane potentials positive to -40 mV. At room temperature the channel showed fast activation (time to half of peak current, 5.5 ms) and slow inactivation that was incomplete after 20-s depolarizations. Single channel analysis of the channel expressed in oocytes displayed a linear current-voltage curve and had a slope conductance of 9.8 +/- 1.1 pS. Northern blot analysis demonstrated differential expression of cKv1.5 in smooth muscles of the gastrointestinal tract and abundant expression in several vascular smooth muscles. We propose that cKv1.5 represents a component of the delayed rectifier current in both vascular and visceral smooth muscles.

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Alterations in expression of genes associated with muscle metabolism and growth during nutritional restriction and refeeding in rainbow trout

Johansen¹,

Overturf²

2006

Comparative Biochemistry and Physiology Part B: Biochemistry an

112

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Ken Overturf

Hepatocytes corrected by gene therapy are selected in vivo in a murine model of hereditary tyrosinaemia type I

Status and opportunities for genomics research with rainbow trout

The Repopulation Potential of Hepatocyte Populations Differing in Size and Prior Mitotic Expansion

Cloning and characterization of a Kv1.5 delayed rectifier K+ channel from vascular and visceral smooth muscles

Alterations in expression of genes associated with muscle metabolism and growth during nutritional restriction and refeeding in rainbow trout

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