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Renal drug transporters such as the organic cation transporters (OCTs), organic anion
transporters (OATs) and multidrug resistance proteins (MRPs) play an important role in the tubular
secretion of many drugs influencing their efficacy and safety. However, only little is known about
the distinct protein abundance of these transporters in human kidneys, and about the impact of
age and gender as potential factors of inter-subject variability in their expression and function.
The aim of this study was to determine the protein abundance of MDR1, MRP1-4, BCRP, OAT1-3,
OCT2-3, MATE1, PEPT1/2, and ORCTL2 by liquid chromatography-tandem mass spectrometry-based
targeted proteomics in a set of 36 human cortex kidney samples (20 males, 16 females; median age
53 and 55 years, respectively). OAT1 and 3, OCT2 and ORCTL2 were found to be most abundant
renal SLC transporters while MDR1, MRP1 and MRP4 were the dominating ABC transporters.
Only the expression levels of MDR1 and ORCTL2 were significantly higher abundant in older donors.
Moreover, we found several significant correlations between different transporters, which may
indicate their functional interplay in renal vectorial transport processes. Our data may contribute to
a better understanding of the molecular processes determining renal excretion of drugs.
Changes in Interhemispheric Motor Connectivity Across the Lifespan: A Combined TMS and DTI Study
(2019)
Age-related decline in interhemispheric connectivity between motor areas has been reported with both transcranial magnetic stimulation (TMS) and diffusion tensor imaging (DTI) measurements. However, not all studies were able to confirm these findings, and previous studies did not apply structural (DTI) and functional (TMS) measurements within each individual appropriately. Here, we investigated age dependency of the ipsilateral silent period (ISP) and integrity of fibers in the corpus callosum as operationalized by fractional anisotrophy (FA), using TMS and DTI, respectively, in 20 participants between 19 and 72 years of age. We found age-dependent increase for ISP, and decrease of FA, both indicating a decrease in interhemispheric inhibition, with a negative association between FA and ISP for the dominant hemisphere (r = −0.39, p = 0.043). Our findings suggest that aging leads to decline of interhemispheric motor connectivity, as evidenced in both structural and functional parameters, which should be taken into account when interpreting disease- or medication-related changes.