Project description:Autophagic and endosomal dysfunctions are prominently observed at preclinical stages of Alzheimer's disease (AD) as well as in presenilin (PSEN) 1-deficient mice and neurons. In the latter, the defects relate to the γ-secretase-independent role of PSEN in lysosomal fusion and organelle turnover. While we demonstrated previously that the impaired capacity of lysosomal fusion is associated with a significant reduction in lysosomal calcium storage/release, the underlying mechanism remained unexplored. Here we demonstrate that PSEN-deficient cells are impaired in endosomal recycling of several cargo proteins reminiscent of clathrin-independent carriers and lipid rafts. This is accompanied by the accumulation of cholesterol in LAMP1-positive organelles. The small GTPase ARF6, an important regulator of lipid raft recycling, fully rescues the endo-lysosomal abnormalities in PSEN-/- cells, suggesting that defective recycling is upstream of lysosomal dysfunction. PSEN-/- cells and neurons present significantly reduced ARF6 expression levels. Importantly, similar decreased ARF6 levels are observed in aging murine neurons and brain and are even more pronounced in AD brains, suggesting a particular vulnerability of ARF6-mediated recycling in the early etiology of AD.

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Project description:Through substitution mapping studies, we previously identified that a <330kb region from a rat strain with no renal pathology (the Lewis rat), which when introgressed onto the genetic background of a rat with renal disease (the Dahl Salt-sensitive (S) rat), caused an increase rather than the expected decrease in proteinuria. The purpose of this study was to prioritize a candidate gene and further delineate the mechanism underlying the observed increased in proteinuria. A higher level of proteinuria independent of dietary salt was observed in the congenic rat at a very young age (50-52 day old). The critical congenic segment was further mapped to <42.5kb containing a single candidate gene, rififylin. Rififylin was expressed 1.59 fold higher in the congenic strain compared with S. Overexpression of rififylin is known to delay recycling of endosomes. Renal transcriptome analysis indicated that Atp1a1 one of the most highly differentially expressed genes. Atp1a1 was 5.33 fold higher in the congenic strain compared with S. The protein product of Atp1a1, the alpha subunit of Na+K+ATPase, was also significantly higher in the endosomes of proximal tubules from the congenic strain compared with S. To determine whether the higher amounts of this protein in the endosomes is due to a delay in recycling of endosomes caused by the overexpression of rififylin in the congenic strain, recycling of exogenously labeled-transferrin by single cell cultures of proximal tubules was monitored by confocal microscopy. Recycling of transferrin was significantly delayed in the congenic strain compared with S. These results suggest that impaired endosomal recycling in the proximal tubules from the congenic strain caused by the overexpression of rififylin is a novel molecular mechanism linked to the observed increase in proteinuria of the congenic strain. Three male S control and 3 male congenic S.LEW(10)x12x2x3x5 rats born on the same day were selected, weaned at 30 days of age, and caged with 1 congenic and 1 S rat per cage. They were raised on a low-salt (0.3%) diet (Harlan Teklad diet TD 7034; Harlan–Sprague-Dawley) and sacrificed at 53 days of age and total RNAs were isolated from the kidney. The isolated RNA from each animal was used for the cRNA preparation. cRNA was prepared and fragmented as suggested by Affymetrix technical manual, and simultaneously hybridized (15 µg adjusted cRNA for each chip) to Rat Expression Array 230 2.0 (3' IVT Expression Analysis). Statistical analyses of the microarray data were performed with BH adjustment using R statistical package (version 2.8.1).

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