Studies

Multidimensional single cell-analyses of T cells have fueled the debate about either extensive plasticity or “mixed” priming of T helper cell subsets in vivo. Here, we developed an experimental framework to probe the idea that the site of priming in the systemic immune compartment is a determinant of T helper cell-induced immunopathology in remote organs. By site-specific in vivo labeling of antigen-specific T cells in inguinal (i) or gut draining mesenteric (m) lymph nodes, we show that i-T cells ...

The β-secretase β-site APP cleaving enzyme 1 (BACE1) is a major drug target for Alzheimer's disease (AD). Clinically tested BACE1 inhibitors induced unexpected cognitive side effects that may stem from their cross-inhibition of the homologous protease BACE2. Yet, little is known about BACE2 functions and substrates in vivo, and no biomarker is available to monitor the extent of BACE2 inhibition in vivo, particularly in cerebrospinal fluid (CSF). To identify a potential CSF biomarker for monitoring ...

The centrosome acts as the cell’s microtubule organizing center, supporting cell division and the extension of cilia and neurites. Newly born neurons require the microtubule organizing activity of centrosomes to migrate away from their birthplace at the ventricle. O’Neill et al. analyzed the centrosome proteome of human induced pluripotent stem cell–derived neural stem cells and neurons. The neural centrosome proteome contains a variety of RNA-binding/modifying proteins, including an RNA-splicing ...

The centrosome provides an intracellular anchor for the cytoskeleton, regulating cell division, cell migration, and cilia formation. We used spatial proteomics to elucidate protein interaction networks at the centrosome of human induced pluripotent stem cell-derived neural stem cells (NSCs) and neurons. Centrosome-associated proteins were largely cell type-specific, with protein hubs involved in RNA dynamics. Analysis of neurodevelopmental disease cohorts identified a significant overrepresentation ...

Spatial molecular profiling of complex tissues is essential to investigate cellular function in physiological and pathological states. However, methods for molecular analysis of biological specimens imaged in 3D as a whole are lacking. Here, we present DISCO-MS, a technology combining whole-organ/ism imaging, deep learning-based image analysis, robotic tissue extraction and ultra-high sensitivity mass spectrometry. DISCO-MS yielded qualitative and quantitative proteomics data indistinguishable ...

Hereditary sensory and autonomic neuropathy 9 (HSAN9) is a rare neurological disease caused by mutations in the gene encoding for Tectonin β-propeller repeat containing protein 2 (TECPR2) which possibly result in loss of the protein. Beside its potential role in autophagy, TECPR2 may serve as positive modulator of COPII-mediated ER export. However, the molecular consequences of TECPR2 deficiency for the secretory pathway remain unclear, in particular with regard to specific cargo proteins. By ...

Understanding the complexity of cellular function within a tissue necessitates the combination of multiple phenotypic readouts. Here, we developed a method that links spatially-resolved gene expression of single cells with their ultrastructural morphology by integrating multiplexed error-robust fluorescence in situ hybridization (MERFISH) and large area volume electron microscopy (EM) on adjacent tissue sections. Using this method, we characterized in situ ultrastructural and transcriptional ...