Amyloid-beta peptides (Abeta) and the protein human serum albumin (HSA) interact in vivo. They are both localised in the blood plasma and in the cerebrospinal fluid. Among other functions, HSA is involved in the transport of the essential metal copper. Complexes between Abeta and copper ions have been proposed to be an aberrant interaction implicated in the development of Alzheimer's disease, where Cu is involved in Abeta aggregation and production of reactive oxygen species (ROS). In the present work, we studied copper-exchange reaction between Abeta and HSA or the tetrapeptide DAHK (N-terminal Cu-binding domain of HSA) and the consequence of this exchange on Abeta-induced ROS production and cell toxicity. The following results were obtained: 1) HSA and DAHK removed Cu(II) from Abeta rapidly and stoichiometrically, 2) HSA and DAHK were able to decrease Cu-induced aggregation of Abeta, 3) HSA and DAHK suppressed the catalytic HO(.) production in vitro and ROS production in neuroblastoma cells generated by Cu-Abeta and ascorbate, 4) HSA and DAHK were able to rescue these cells from the toxicity of Cu-Abeta with ascorbate, 5) DAHK was more potent in ROS suppression and restoration of neuroblastoma cell viability than HSA, in correlation with an easier reduction of Cu(II)-HSA than Cu-DAHK by ascorbate, in vitro. Our data suggest that HSA is able to decrease aberrant Cu(II)-Abeta interaction. The repercussion of the competition between HSA and Abeta to bind Cu in the blood and brain and its relation to Alzheimer's disease are discussed.
Studying ciliopathies, like the Bardet-Biedl syndrome (BBS), allow the identification of signaling pathways potentially involved in common diseases, sharing phenotypic features like obesity or type 2 diabetes. Given the close association between obesity and insulin resistance, obese BBS patients would be expected to be insulin resistant. Surprisingly, we found that a majority of obese BBS patients retained normal glucose tolerance and insulin sensitivity. Patient's adipose tissue biopsies revealed upregulation of adipogenic genes and decrease of inflammatory mediators. In vitro studies on human primary mesenchymal stem cells (MSCs) showed that BBS12 inactivation facilitated adipogenesis, increased insulin sensitivity, and glucose utilization. We generated a Bbs12(-/-) mouse model to assess the impact of Bbs12 inactivation on adipocyte biology. Despite increased obesity, glucose tolerance was increased with specific enhanced insulin sensitivity in the fat. This correlated with an active recruitment of MSCs resulting in adipose tissue hyperplasia and decreased in inflammation.
Background:Retinal degeneration is a main feature of Bardet-Biedl syndrome for which the mechanism causing photoreceptor cell apoptosis remains elusive. Results: Apoptosis is caused by protein accumulation in the photoreceptor inner segment activating an unfolded protein response. Conclusion: Pharmacological reduction of apoptosis preserves light detection ability. Significance: This therapeutic approach could be used to slow the degeneration and is potentially applicable to other ciliopathies.
Studies of the primary cilium, now known to be present in all cells, have undergone a revolution, in part, because mutation of many of its proteins causes a large number of diseases, including cystic kidney disease. Bardet-Biedl syndrome (BBS) is an inherited ciliopathy characterized, among other dysfunctions, by renal defects for which the precise role of the cilia in kidney function remains unclear. We studied a cohort of patients with BBS where we found that these patients had a urinary concentration defect even when kidney function was near normal and in the absence of major cyst formation. Subsequent in vitro analysis showed that renal cells in which a BBS gene was knocked down were unciliated, but did not exhibit cell cycle defects. As the vasopressin receptor 2 is located in the primary cilium, we studied BBS-derived unciliated renal epithelial cells and found that they were unable to respond to luminal arginine vasopressin treatment and activate their luminal aquaporin 2. The ability to reabsorb water was restored by treating these unciliated renal epithelial cells with forskolin, a receptor-independent adenylate cyclase activator, showing that the intracellular machinery for water absorption was present but not activated. These findings suggest that the luminal receptor located on the primary cilium may be important for efficient transepithelial water absorption.
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