Specificity of anti-tau antibodies when analyzing mice models of Alzheimer's disease: problems and solutions. Petry, FR; Pelletier, J; Bretteville, A; Morin, F; Calon, F; Hébert, SS; Whittington, RA; Planel, E PloS one
9
e94251
2014
Pokaż streszczenie
Aggregates of hyperphosphorylated tau protein are found in a group of diseases called tauopathies, which includes Alzheimer's disease. The causes and consequences of tau hyperphosphorylation are routinely investigated in laboratory animals. Mice are the models of choice as they are easily amenable to transgenic technology; consequently, their tau phosphorylation levels are frequently monitored by Western blotting using a panel of monoclonal/polyclonal anti-tau antibodies. Given that mouse secondary antibodies can recognize endogenous mouse immunoglobulins (Igs) and the possible lack of specificity with some polyclonal antibodies, non-specific signals are commonly observed. Here, we characterized the profiles of commonly used anti-tau antibodies in four different mouse models: non-transgenic mice, tau knock-out (TKO) mice, 3xTg-AD mice, and hypothermic mice, the latter a positive control for tau hyperphosphorylation. We identified 3 tau monoclonal antibody categories: type 1, characterized by high non-specificity (AT8, AT180, MC1, MC6, TG-3), type 2, demonstrating low non-specificity (AT270, CP13, CP27, Tau12, TG5), and type 3, with no non-specific signal (DA9, PHF-1, Tau1, Tau46). For polyclonal anti-tau antibodies, some displayed non-specificity (pS262, pS409) while others did not (pS199, pT205, pS396, pS404, pS422, A0024). With monoclonal antibodies, most of the interfering signal was due to endogenous Igs and could be eliminated by different techniques: i) using secondary antibodies designed to bind only non-denatured Igs, ii) preparation of a heat-stable fraction, iii) clearing Igs from the homogenates, and iv) using secondary antibodies that only bind the light chain of Igs. All of these techniques removed the non-specific signal; however, the first and the last methods were easier and more reliable. Overall, our study demonstrates a high risk of artefactual signal when performing Western blotting with routinely used anti-tau antibodies, and proposes several solutions to avoid non-specific results. We strongly recommend the use of negative (i.e., TKO) and positive (i.e., hypothermic) controls in all experiments. | 24788298
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Cell fate decisions regulated by K63 ubiquitination of tumor necrosis factor receptor 1. Fritsch, J; Stephan, M; Tchikov, V; Winoto-Morbach, S; Gubkina, S; Kabelitz, D; Schütze, S Molecular and cellular biology
34
3214-28
2014
Pokaż streszczenie
Signaling by tumor necrosis factor (TNF) receptor 1 (TNF-R1), a prototypic member of the death receptor family, mediates pleiotropic biological outcomes ranging from inflammation and cell proliferation to cell death. Although many elements of specific signaling pathways have been identified, the main question of how these selective cell fate decisions are regulated is still unresolved. Here we identified TNF-induced K63 ubiquitination of TNF-R1 mediated by the ubiquitin ligase RNF8 as an early molecular checkpoint in the regulation of the decision between cell death and survival. Downmodulation of RNF8 prevented the ubiquitination of TNF-R1, blocked the internalization of the receptor, prevented the recruitment of the death-inducing signaling complex and the activation of caspase-8 and caspase-3/7, and reduced apoptotic cell death. Conversely, recruitment of the adaptor proteins TRADD, TRAF2, and RIP1 to TNF-R1, as well as activation of NF-κB, was unimpeded and cell growth and proliferation were significantly enhanced in RNF8-deficient cells. Thus, K63 ubiquitination of TNF-R1 can be sensed as a new level of regulation of TNF-R1 signaling at the earliest stage after ligand binding. | 24980434
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