Abstract
Proteomics is potentially a powerful technology for elucidating brain function and neurodegenerative diseases. So far, the brain proteome has generally been analyzed by two-dimensional gel electrophoresis, which usually leads to the complete absence of membrane proteins. We describe a proteomic approach for profiling of plasma membrane proteins from mouse brain. The procedure consists of a novel method for extraction and fractionation of membranes, on-membrane digestion, diagonal separation of peptides, and high-sensitivity analysis by advanced MS. Breaking with the classical plasma membrane fractionation approach, membranes are isolated without cell compartment isolation, by stepwise depletion of nonmembrane molecules from entire tissue homogenate by high-salt, carbonate, and urea washes followed by treatment of the membranes with sublytic concentrations of digitonin. Plasma membrane is further enriched by of density gradient fractionation and protein digested on-membrane by endoproteinase Lys-C. Released peptides are separated, fractions digested by trypsin, and analyzed by LC-MS/MS. In single experiments, the developed technology enabled identification of 862 proteins from 150 mg of mouse brain cortex. Further development and miniaturization allowed analysis of 15 mg of hippocampus, revealing 1,685 proteins. More that 60% of the identified proteins are membrane proteins, including several classes of ion channels and neurotransmitter receptors. Our work now allows in-depth study of brain membrane proteomes, such as of mouse models of neurological disease.
Highlights
Proteomics is potentially a powerful technology for elucidating brain function and neurodegenerative diseases
Application of LC-MS/MS for comparative analysis of fractions enriched in plasma membranes (PM) from mouse fore- and hindbrain resulted in identification of 355 and relative quantification of 281 proteins [10]
Recent proteomic studies aimed at identification of membrane proteins in brain required 1–15 g of tissue and resulted in the identification of up to 500 proteins [3, 7,8,9]
Summary
Proteomics is potentially a powerful technology for elucidating brain function and neurodegenerative diseases. We describe a proteomic approach for profiling of plasma membrane proteins from mouse brain. Application of 2DE for separation of proteins prior to mass spectrometric analysis enabled identification and relative quantification of 466 proteins from whole mouse brain cytosol [2]. 437 proteins were identified in mitochondrial, microsomal, and cytosolic fractions of the rat brain [3] In another studies, 30, 38, and 165 different proteins were identified from mouse cerebellum [4], human pituitary [5], and human hippocampus [6], respectively. Application of LC-MS/MS for comparative analysis of fractions enriched in plasma membranes (PM) from mouse fore- and hindbrain resulted in identification of 355 and relative quantification of 281 proteins [10]. Techniques for efficient identification of PM proteins from small amounts of frozen tissue, which are typical clinical samples, have not been developed
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