Astrocytes exhibit regional heterogeneity in morphology, function and molecular composition to support and modulate neuronal function and signaling in a regionspecific manner. To characterize regional heterogeneity of astrocytic proteomes of different brain regions we established an inducible Aldh1l1-methionyl-tRNAsynthetase L274G (MetRS L274G ) mouse line that allows astrocyte-specific metabolic labeling of newly synthesized proteins by azidonorleucine (ANL) in vivo and subsequent isolation of tagged proteins by click chemistry. We analyzed astrocytic proteins from four different brain regions by mass spectrometry. The induced expression of MetRS L274G is restricted to astrocytes and identified proteins show a high overlap with proteins compiled in "AstroProt," a newly established database for astrocytic proteins. Gene enrichment analysis reveals a high similarity among brain regions with subtle differences in enriched biological processes and in abundances of key astrocytic proteins for hippocampus, cortex and striatum. However, the cerebellar proteome stands out with proteins being highly associated with the calcium signaling pathway or with bipolar disorder. Subregional analysis of single astrocyte TAMRA intensities in hippocampal layers indicates distinct subregional heterogeneity of astrocytes and highlights the applicability of our toolbox to study differences of astrocytic proteomes in vivo.
Astrocytes exhibit regional heterogeneity in morphology, function and molecular composition to support and modulate neuronal function and signaling in a region-specific manner. To characterize regional heterogeneity of astrocytic proteomes of different brain regions we established an Aldh1l1-MetRSL274G mouse line that allows cell-type specific labeling of newly synthesized proteins in vivo and analyzed astrocytic proteins from four different brain regions by mass spectrometry. Identified proteins are specific for astrocytes and show a high overlap with proteins compiled in AstroProt, a newly established database for astrocytic proteins. Gene enrichment analysis reveals high overlap among brain regions, and only subtle changes in abundances of key astrocytic proteins for hippocampus, cortex and striatum. However, the cerebellar proteome stands out with proteins being associated with calcium signaling or bipolar disorder. Subregional differences of translation dynamics in single hippocampal astrocytes indicates distinct subregional heterogeneity and highlights the applicability of our toolbox to study dynamic astrocytic proteomes in vivo.
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