USING A DROSOPHILA MODEL TO IDENTIFY INHIBITORS OF OXALATE NEPHROLITHIASIS
$118,190U54FY2017DKNIH
Mayo Clinic Rochester, Rochester MN
Investigators
Linked publications & trials
Paper 39102294Paper 38039384Paper 36967473Paper 36319741Paper 35411063Paper 35306035Paper 35014212Paper 34074247Paper 34044181Paper 34031587Paper 33867205Paper 33644833Paper 33367720Paper 32726309Paper 31934946Paper 31907321Paper 31890054Paper 31852738Paper 31635759Paper 31461349Paper 31364377Paper 31300088Paper 31175141Paper 30728476Paper 30531469Paper 30527866Paper 30520657Paper 30460525Paper 30287145Paper 30232135Paper 30213974Paper 30146423Paper 30084728Paper 29791142Paper 29740846Paper 29531098Paper 29454545Paper 29452705Paper 29406740Paper 29270519Paper 28943700Paper 28932781Paper 28829430Paper 28764885Paper 28458443Paper 28402129Paper 28392615Paper 28241103Paper 28217694Paper 28148559Paper 27776839Paper 27717761Paper 27654929Paper 27489300Paper 27256549Paper 27224260Paper 27210573Paper 27117801Paper 27072072Paper 26932693Paper 26865949Paper 26837814Paper 26818529Paper 26772639Paper 26688770Paper 26598423Paper 26587926Paper 26538444Paper 26496550Paper 26422682Paper 26349951Paper 26332888Paper 26324901Paper 26302388Paper 26240296Paper 26206452Paper 26204304Paper 26167684Paper 26022722Paper 25963767Paper 25896425Paper 25845008Paper 25729563Paper 25681832Paper 25652357Paper 25539242Paper 25440821Paper 25354237Paper 25306481Paper 25278549Paper 25229337Paper 25228763Paper 25104803Paper 25092598Paper 25085645Paper 25061988Paper 25037635Paper 24992333Paper 24848936Paper 24578335
Abstract
Slc26a6 knockout results in altered gut oxalate secretion and stone formation. Two groups recently knocked out Slc26a6 in mice. With proximal tubule (PT) oxalate secretion knocked out, one might predict that mice would develop hypo-oxaluria. However, the findings are the opposite, i.e., the Slc26a6-/- mice have hyperoxaluria and CaOx stones. Decreased intestinal ox2- secretion was demonstrated in one model. These knockout animals could give us insight into the pathophysiology of ox^ stone-formation, however, there has been little additional insight in the past several vears from these mice because, in part, the experiments are slow-going (i.e.. Slc26a6(-/-) mouse generated in 2006).
View original record on NIH RePORTER →