Increased expression of myelin-associated genes in frontal cortex of SNCA overexpressing rats and Parkinson's disease patients.

Parkinson's disease (PD) is an age-dependent neurodegenerative disorder. Besides characteristic motor symptoms, patients suffer from cognitive impairments linked to pathology in cortical areas. Due to obvious challenges in tracing the underlying molecular perturbations in human brain over time, we took advantage of a well-characterized PD rat model. Using RNA sequencing, we profiled the frontocortical transcriptome of post-mortem patient samples and aligned expression changes with perturbation patterns obtained in the model at 5 and 12 months of age reflecting a presymptomatic and symptomatic time point. Integrating cell type-specific reference data, we identified a shared expression signature between both species that pointed to oligodendrocyte-specific, myelin-associated genes. Drawing on longitudinal information from the model, their nearly identical upregulation in both species could be traced to two distinctive perturbance modes. While one mode exhibited age-independent alterations that affected genes including proteolipid protein 1 (PLP1), the other mode, impacting on genes like myelin-associated glycoprotein (MAG), was characterized by interferences of disease gene and adequate expression adaptations along aging. Our results highlight that even for a group of functionally linked genes distinct interference mechanisms may underlie disease progression that cannot be distinguished by examining the terminal point alone but instead require longitudinal interrogation of the system.

Linear ubiquitination by LUBEL has a role in Drosophila heat stress response.

The HOIP ubiquitin E3 ligase generates linear ubiquitin chains by forming a complex with HOIL-1L and SHARPIN in mammals. Here, we provide the first evidence of linear ubiquitination induced by a HOIP orthologue in Drosophila We identify Drosophila CG11321, which we named Linear Ubiquitin E3 ligase (LUBEL), and find that it catalyzes linear ubiquitination in vitro We detect endogenous linear ubiquitin chain-derived peptides by mass spectrometry in Drosophila Schneider 2 cells and adult flies. Furthermore, using CRISPR/Cas9 technology, we establish linear ubiquitination-defective flies by mutating residues essential for the catalytic activity of LUBEL Linear ubiquitination signals accumulate upon heat shock in flies. Interestingly, flies with LUBEL mutations display reduced survival and climbing defects upon heat shock, which is also observed upon specific LUBEL depletion in muscle. Thus, LUBEL is involved in the heat response by controlling linear ubiquitination in flies.

The PHD finger of p300 influences its ability to acetylate histone and non-histone targets.

In enzymes that regulate chromatin structure, the combinatorial occurrence of modules that alter and recognise histone modifications is a recurrent feature. In this study, we explored the functional relationship between the acetyltransferase domain and the adjacent bromodomain/PHD finger (bromo/PHD) region of the transcriptional coactivator p300. We found that the bromo/PHD region of p300 can bind to the acetylated catalytic domain in vitro and augment the catalytic activity of the enzyme. Deletion of the PHD finger, but not the bromodomain, impaired the ability of the enzyme to acetylate histones in vivo, whilst it enhanced p300 self-acetylation. A point mutation in the p300 PHD finger that is related to the Rubinstein-Taybi syndrome resulted in increased self-acetylation but retained the ability to acetylate histones. Hence, the PHD finger appears to negatively regulate self-acetylation. Furthermore, our data suggest that the PHD finger has a role in the recruitment of p300 to chromatin.