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In the project “Phosphoproteomic analysis of UBQLN2 mutant cells” by Laura Strohm, Zehan Hu, Jörn Dengjel, and Christian Behrends eight sets of SILAC experiments were performed, two times four biological replicates, comparing proteome and phosphoproteome of control and UBQLN2 mutant, patient-derived lymphoblasts (LCLs).
Creators: Rainer Malik, Christian Behrends
Submitter: Rainer Malik
CD4+ T cells orchestrate both humoral and cytotoxic immune responses. While it is known that CD4+ T cell proliferation relies on autophagy, direct identification of the autophagosomal cargo involved is still missing. Here, we created a transgenic mouse model, which, for the first time, enables us to directly map the proteinaceous content of autophagosomes in any primary cell by LC3 proximity labelling. IL-7Rα, a cytokine receptor mostly found in naïve and memory T cells, was reproducibly detected ...
Creators: Rainer Malik, Christian Behrends
Submitter: Rainer Malik
C9orf72 binds SMCR8 to from a robust complex that regulates small GTPases, lysosomal integrity and autophagy. In contrast to this functional understanding, we know far less about assembly and turnover of the C9orf72-SMCR8 complex. Loss of either subunit causes the concurrent ablation of the respective partner. However, the molecular mechanism underlying this interdependence remains elusive.
Creators: Rainer Malik, Christian Behrends
Submitter: Rainer Malik
In the context of studying the role of the COP9 signalosome (CSN) in neuroinflammation and ischemic neuronal damage, we studied the effect of the cullin NEDDylation state-modifying drugs MLN4924 and CSN5i-3 in BV2 microglial cells, an immortalized murine cell line featuring many of the characteristics of primary microglia. Owing to its potent inhibitory effect on the NEDDylation cascade, MLN4924 exhibits a CSN5-like anti-inflammatory activity. Csn5i-3 is a small molecule inhibitor that specifically ...
Creators: Rainer Malik, Christian Behrends, Jürgen Bernhagen
Submitter: Rainer Malik
To determine how the mutant TBK1-E696K protein impacts autophagosomes, we performed autophagosome content profiling using protease protection coupled APEX2 proximity proteomics of autophagosomes of homozygous TBK1-E696K knockin and wiltype mouse embryonic fibroblasts (MEFs) transfected with a APEX2-LC3 as previously described in Zellner et al. 2021 Molecular Cell.
Creators: Rainer Malik, Christian Behrends
Submitter: Rainer Malik
While deleterious mutations are responsible for the vast majority of TBK1-linked ALS/FTD cases, the ALS/FTD causing missense mutation p.E696K leads to a selective loss of TBK1/optineurin binding. Knock-in of this specific missense mutation causes progressive autophagolysosomal dysfunction and an ALS/FTD-like phenotype in mice, while, as opposed to TBK1 deletion, RIPK/TNF-α-dependent necroptosis or overt inflammation are absent. Our results highlight the role of autophagolysosomal dysfunction as ...
Creators: Rainer Malik, Christian Behrends
Submitter: Rainer Malik
Signal peptide peptidase (SPP) and the four homologous SPP-like (SPPL) proteases constitute a family of intramembrane aspartyl proteases with selectivity for type II-oriented transmembrane segments. Here, we have analysed the physiological function of the orphan protease SPPL2c, previously considered to represent a non-expressed pseudogene. We identified proteolytic activity of SPPL2c towards selected tail-anchored proteins. Despite shared ER localization, SPPL2c and SPP exhibit distinct, though ...
Creators: Rainer Malik, Stephan Müller, Stefan Lichtenthaler
Submitter: Rainer Malik