Stable Isotope Metabolic Labeling with a Novel 15N-Enriched Bacteria Diet for Improved Proteomic Analyses of Mouse Models for Psychopathologies

Frank, Elisabeth; Keßler, Melanie; Filiou, Michaela D.; Zhang, Yaoyang; Maccarrone, Giuseppina; Reckow, Stefan; Bunck, Mirjam; Heumann, Hermann; Turck, Christoph W.; Landgraf, Rainer; Hambsch, Boris

doi:10.1371/journal.pone.0007821

Cited by 56 publications

(68 citation statements)

References 21 publications

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“…The field of quantitative epiproteomics in gnotobiotic animals is currently in its infancy but holds great promise for enhancing our understanding of how various microbial communities impact the biology of their hosts. (13,42,43) was generated by mixing spirulina lyophilisate (Cambridge Isotope Laboratories) with proteinfree diet (Harlan Teklad). Additional information regarding the composition of these diets can be found in Tables S1 and S2.…”

Section: Resultsmentioning

confidence: 99%

Quantitative assessment of the impact of the gut microbiota on lysine ε-acetylation of host proteins using gnotobiotic mice

Simón¹,

Cheng²,

Gordon³

2012

Proc. Natl. Acad. Sci. U.S.A.

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The gut microbiota influences numerous aspects of human biology. One facet that has not been thoroughly explored is its impact on the host proteome. We hypothesized that the microbiota may produce certain of its effects through covalent modification of host proteins. We focused on protein lysine ε-acetylation because of its recently discovered roles in regulation of cell metabolism, and the potential for products of microbial fermentation to interact with the lysine acetylation machinery of host cells. Germ-free mice, fed a 15 N-labeled diet for two generations, were colonized as adults with a microbiota harvested from conventionally raised mouse donors. Using high-resolution mass spectrometry, we quantified 3,891 liver and proximal colonic proteins, 558 of which contained 1,602 sites of lysine acetylation, 43% not previously described. Multiple proteins from multiple subcellular compartments underwent microbiota-associated increases in their levels of lysine acetylation at one or more residues, in one or both tissues. Acetylated proteins were enriched in functions related to energy production, respiration, and primary metabolism. A number of the acetylation events affect lysine residues at or near the active sites of enzymes, whereas others occur at locations that may affect other facets of protein function. One of these modifications, affecting Lys292 in mouse α-1-antitrypsin, was detected in the corresponding lysine of the human serum protein. Methods described in this report can be applied to other co-or posttranslational modifications, and add quantitation of protein expression and covalent modification to the arsenal of techniques for characterizing the dynamic, important interactions between gut symbionts and their hosts.gut microbiome | quantitative proteomics | spirulina | stable isotopic labeling of mammals

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Section: Resultsmentioning

confidence: 99%

Quantitative assessment of the impact of the gut microbiota on lysine ε-acetylation of host proteins using gnotobiotic mice

Simón¹,

Cheng²,

Gordon³

2012

Proc. Natl. Acad. Sci. U.S.A.

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“…With our method, we can, moreover, address a severe problem of metabolic labeling approaches: often it is impossible to reach a high rate, let alone a complete, incorporation of stable isotopes, which is in particular true for higher organisms such as Eukaryotes (71). Although initially developed for pulse-chase experiments, our algorithm is also capable of successfully quantifying proteins having an uncertain and diversified incorporation rate of isotopic labels such as heavy stable nitrogen or carbon.…”

Section: Resultsmentioning

confidence: 99%

Protein Turnover Quantification in a Multilabeling Approach: From Data Calculation to Evaluation

Trötschel

Albaum

Wolff

et al. 2012

Molecular & Cellular Proteomics

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“…rodents) to achieve high 15 N incorporation rates for quantitative proteomics comparisons. Importantly, the introduction of 15 N may have an effect on the behavioral phenotype 4 or on protein expression levels 10 . As a consequence, labeling controls (either using internal labeled standards or reciprocal labeling) should be implemented in the experimental design to avoid artifacts caused by the 15 N isotope affecting relative protein quantification results.…”

Section: Methodological Considerationsmentioning

confidence: 99%

“…In the context of psychiatry, a 15 N metabolic labeling protocol via a bacteria-based diet was established and applied to study the mouse model of high (HAB), normal (NAB) and low (LAB) anxiety-related behavior 4 . 15 N-labeled NAB mice were used as internal standards and quantitative proteomics studies in cingulate cortex, hippocampus and plasma were performed to compare HAB and LAB mice.…”

Section: N Metabolic Labelingmentioning

confidence: 99%

O potencial da rotulação metabólica de 15N para a pesquisa de esquizofrenia

Filiou¹

2012

Arch. Clin. Psychiatry (São Paulo)

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Psychiatric research is in need of non-hypothesis driven approaches to unravel the neurobiological underpinnings and identify molecular biomarkers for psychiatric disorders. Proteomics methodologies constitute a state-of-the-art toolbox for biomarker discovery in psychiatric research. Here we present the principle of in vivo 15 N metabolic labeling for quantitative proteomics experiments and applications of this method in animal models of psychiatric phenotypes, with a particular focus on schizophrenia. Additionally we explore the potential of 15 N metabolic labeling in different experimental set-ups as well as methodological considerations of 15 N metabolic labeling-based quantification studies.Filiou MD / Rev Psiq Clín. 2013;40(1):51-2 Keywords: Schizophrenia, quantitative proteomics, 15 N metabolic labeling, biomarker, G72. ResumoPesquisas em psiquiatria ainda necessitam de estudos não dirigidos por hipóteses para revelar fundamentos neurobiológicos e biomarcadores moleculares para distúrbios psiquiátricos. Metodologias proteômicas disponibilizam uma série de ferramentas para esses fins. Apresentamos o princípio de rotulação metabólica utilizando 15 N para proteômica quantitativa e suas aplicações em modelos animais de fenótipos psiquiátricos com um foco particular em esquizofrenia. Exploramos o potencial de rotulação metabólica por 15 N em diferentes tipos de experimentos, bem como suas considerações metodológicas. The need for quantitative proteomics in schizophrenia researchIn the last years, the development of holistic approaches such as genomics, transcriptomics, proteomics and metabolomics has given rise to quantitative, non-hypothesis driven research applications. In this regard, populations of genes, proteins or metabolites of two states (e.g. disease vs. control) can be compared to identify expression level differences relevant to the observed phenotypic alterations. As the proteome of an organism can reflect phenotypic changes at the molecular level, proteomics constitutes a valuable tool to investigate the underlying mechanisms involved in psychiatric disorders.Research in schizophrenia suffers from a lack of molecular correlates for the observed behavioral alterations and disease symptoms. Molecular biomarkers for schizophrenia can aid the assessment of predisposition risk, the accurate subcategorization of patients, the monitoring of disease progression and the discovery of novel therapeutic targets. To this end, quantitative proteomics has the potential to provide sensitive molecular biomarker information and therefore offer valuable insights for schizophrenia prognosis, diagnosis and treatment. N metabolic labelingA number of quantitative proteomics approaches are available and applicable to schizophrenia research 1 . Among them, in vivo 15 N metabolic labeling holds great potential for studies in animal models as well as in patient cohorts. The principle of 15 N metabolic labeling is based on the introduction of the stable nitrogen isotope 15 N in an organism through either a 15 N-...

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Stable Isotope Metabolic Labeling with a Novel 15N-Enriched Bacteria Diet for Improved Proteomic Analyses of Mouse Models for Psychopathologies

Cited by 56 publications

References 21 publications

Quantitative assessment of the impact of the gut microbiota on lysine ε-acetylation of host proteins using gnotobiotic mice

Quantitative assessment of the impact of the gut microbiota on lysine ε-acetylation of host proteins using gnotobiotic mice

Protein Turnover Quantification in a Multilabeling Approach: From Data Calculation to Evaluation

O potencial da rotulação metabólica de 15N para a pesquisa de esquizofrenia

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