Ian R. Ross scite author profile

Ian R. Ross

2Publications

76Citation Statements Received

91Citation Statements Given

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East Tennessee State University

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Developing Potent Human Uric Acid Transporter 1 (hURAT1) Inhibitors

et al. 2011

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The kidneys are a vital organ in the human body. They serve several purposes including homeostatic functions such as regulating extracellular fluid volume, maintaining acid-base and electrolyte balance, and are essential regarding the excretion of metabolic waste. Furthermore, the kidneys play an important role in uric acid secretion/re-absorption. Abnormalities associated with kidney transporters have been associated with various diseases, such as gout. The current study utilized Xenopus oocytes expressing human uric acid transporter 1 (hURAT1; SLC22A12) as an in vitro method to investigate novel compounds and their ability to inhibit 14C-uric acid uptake via hURAT1. We have prepared and tested a series of 2-ethyl-benzofuran compounds and probed the hURAT1 in vitro inhibitor structure-activity relationship (SAR). Compared to di-methoxy analogs, mono-phenols formed on the C-Ring showed the best in vitro inhibitory potential. Compounds with sub-micromolar (i.e. IC50 < 1000 nM) inhibitors were prepared by brominating the corresponding phenols to produce compounds with potent uricosuric activity.

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Brain glucose transporter (Glut3) haploinsufficiency does not impair mouse brain glucose uptake

et al. 2011

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Mouse brain expresses three principle glucose transporters. Glut1 is an endothelial marker and is the principal glucose transporter of the blood-brain barrier. Glut3 and Glut6 are expressed in glial cells and neural cells. A mouse line with a null allele for Glut3 has been developed. The Glut3−/− genotype is intrauterine lethal by seven days post-coitis, but the heterozygous (Glut3+/−) littermate survives, exhibiting rapid post-natal weight gain, but no seizures or other behavioral aberrations. At twelve weeks of age, brain uptake of tail vein-injected 3 H-2-deoxy glucose in Glut3+/− mice was not different from Glut3+/+ littermates, despite 50% less Glut3 protein expression in the brain. The brain uptake of injected 18 F-2-fluoro-2-deoxy glucose was similarly not different from Glut3+/− littermates in the total amount, time course, or brain imaging in the Glut3+/− mice. Glut1 and Glut6 protein expressions evaluated by immunoblots were not affected by the diminished Glut3 expression in the Glut3+/− mice. We conclude that a 50% decrease in Glut3 is not limiting for the uptake of glucose into the mouse brain, since Glut3 haploinsufficiency does not impair brain glucose uptake or utilization.

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Ian R. Ross

Developing Potent Human Uric Acid Transporter 1 (hURAT1) Inhibitors

Brain glucose transporter (Glut3) haploinsufficiency does not impair mouse brain glucose uptake

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