Positron emission tomography imaging of renal mitochondria is a powerful tool in the study of acute and progressive kidney disease models.

Mitochondrial dysfunction plays a critical role in the pathogenesis of kidney diseases via ATP depletion and reactive oxygen species overproduction. Nonetheless, few studies have reported the renal mitochondrial status clinical settings, partly due to a paucity of methodologies. Recently, a positron emission tomography probe, 18F-BCPP-BF, was developed to non-invasively visualize and quantitate the renal mitochondrial status in vivo. Here, 18F-BCPP-BF positron emission tomography was applied to three mechanistic kidney disease models in rats: kidney ischemia-reperfusion, 5/6 nephrectomy and anti-glomerular basement membrane glomerulonephritis. In rats with ischemia-reperfusion, a slight decrease in the kidney uptake of 18F-BCPP-BF was accompanied by morphological abnormality of the mitochondria in the proximal tubular cells after three hours of reperfusion, when the kidney function was slightly declined. In 5/6 nephrectomy and rats with anti-glomerular basement membrane glomerulonephritis, the kidney uptake of 18F-BCPP-BF cumulatively decreased with impairment of the kidney function, which was accompanied by a reduction of mitochondrial protein and a pathological tubulointerstitial exacerbation rather than glomerular injury. The 18F-BCPP-BF uptake in the injured kidney was suggested to represent the volume of healthy tubular epithelial cells with normally functioning mitochondria. Thus, this positron emission tomography probe can be a powerful tool for studying the pathophysiological meanings of the mitochondrial status in kidney disease.