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1.
Proc Natl Acad Sci U S A ; 112(34): 10732-7, 2015 Aug 25.
Article in English | MEDLINE | ID: mdl-26261303

ABSTRACT

The diphthamide on human eukaryotic translation elongation factor 2 (eEF2) is the target of ADP ribosylating diphtheria toxin (DT) and Pseudomonas exotoxin A (PE). This modification is synthesized by seven dipthamide biosynthesis proteins (DPH1-DPH7) and is conserved among eukaryotes and archaea. We generated MCF7 breast cancer cell line-derived DPH gene knockout (ko) cells to assess the impact of complete or partial inactivation on diphthamide synthesis and toxin sensitivity, and to address the biological consequence of diphthamide deficiency. Cells with heterozygous gene inactivation still contained predominantly diphthamide-modified eEF2 and were as sensitive to PE and DT as parent cells. Thus, DPH gene copy number reduction does not affect overall diphthamide synthesis and toxin sensitivity. Complete inactivation of DPH1, DPH2, DPH4, and DPH5 generated viable cells without diphthamide. DPH1ko, DPH2ko, and DPH4ko harbored unmodified eEF2 and DPH5ko ACP- (diphthine-precursor) modified eEF2. Loss of diphthamide prevented ADP ribosylation of eEF2, rendered cells resistant to PE and DT, but does not affect sensitivity toward other protein synthesis inhibitors, such as saporin or cycloheximide. Surprisingly, cells without diphthamide (independent of which the DPH gene compromised) were presensitized toward nuclear factor of kappa light polypeptide gene enhancer in B cells (NF-κB) and death-receptor pathways without crossing lethal thresholds. In consequence, loss of diphthamide rendered cells hypersensitive toward TNF-mediated apoptosis. This finding suggests a role of diphthamide in modulating NF-κB, death receptor, or apoptosis pathways.


Subject(s)
Apoptosis/physiology , Histidine/analogs & derivatives , NF-kappa B/physiology , Peptide Elongation Factor 2/chemistry , Receptors, Death Domain/physiology , Apoptosis/drug effects , Apoptosis/genetics , Bacterial Proteins/pharmacology , Breast Neoplasms/pathology , Carbon-Nitrogen Ligases/deficiency , Carbon-Nitrogen Ligases/physiology , Cell Line, Tumor , Diphtheria Toxin/pharmacology , Female , Gene Dosage , Gene Knockout Techniques , Histidine/biosynthesis , Histidine/deficiency , Humans , Neoplasm Proteins/physiology , Protein Processing, Post-Translational
2.
Mol Cell Proteomics ; 14(10): 2786-99, 2015 Oct.
Article in English | MEDLINE | ID: mdl-26149442

ABSTRACT

The ability to accurately quantify proteins in formalin-fixed paraffin-embedded tissues using targeted mass spectrometry opens exciting perspectives for biomarker discovery. We have developed and evaluated a selectedreaction monitoring assay for the human receptor tyrosine-protein kinase erbB-2 (HER2) in formalin-fixed paraffin-embedded breast tumors. Peptide candidates were identified using an untargeted mass spectrometry approach in relevant cell lines. A multiplexed assay was developed for the six best candidate peptides and evaluated for linearity, precision and lower limit of quantification. Results showed a linear response over a calibration range of 0.012 to 100 fmol on column (R(2): 0.99-1.00).The lower limit of quantification was 0.155 fmol on column for all peptides evaluated. The six HER2 peptides were quantified by selected reaction monitoring in a cohort of 40 archival formalin-fixed paraffin-embedded tumor tissues from women with invasive breast carcinomas, which showed different levels of HER2 gene amplification as assessed by standard methods used in clinical pathology. The amounts of the six HER2 peptides were highly and significantly correlated with each other, indicating that peptide levels can be used as surrogates of protein amounts in formalin-fixed paraffin-embedded tissues. After normalization for sample size, selected reaction monitoring peptide measurements were able to correctly predict 90% of cases based on HER2 amplification as defined by the American Society of Clinical Oncology and College of American Pathologists. In conclusion, the developed assay showed good analytical performance and a high agreement with immunohistochemistry and fluorescence in situ hybridization data. This study demonstrated that selected reaction monitoring allows to accurately quantify protein expression in formalin-fixed paraffin-embedded tissues and represents therefore a powerful approach for biomarker discovery studies. The untargeted mass spectrometry data is available via ProteomeXchange whereas the quantification data by selected reaction monitoring is available on the Panorama Public website.


Subject(s)
Breast Neoplasms/metabolism , Proteomics/methods , Receptor, ErbB-2/metabolism , Female , Formaldehyde , Humans , In Situ Hybridization, Fluorescence , Mass Spectrometry , Paraffin Embedding , Peptides/metabolism , Tissue Fixation
3.
Proteomics Clin Appl ; 9(7-8): 651-61, 2015 Aug.
Article in English | MEDLINE | ID: mdl-26097162

ABSTRACT

PURPOSE: Cell surface proteins are the primary means for a cell to sense and interact with its environment and their dysregulation has been linked to numerous diseases. In particular, the identification of proteins specific to a single tissue type or to a given disease phenotype may enable the characterization of novel therapeutic targets. We tested here the feasibility of a cell surface proteomics approach to identify pertinent markers directly in a clinically relevant tissue. EXPERIMENTAL DESIGN: We analyzed the cell surface proteome of freshly isolated primary heptatocytes using a glycocapture-specific approach combined with a robust bioinformatics filtering. RESULTS: Using primary lung epithelial cell cultures as negative controls, we identified 32 hepatocyte-specific cell surface proteins candidates. We used mRNA expression to select six markers that may provide adequate specificity for targeting therapeutics to the liver. CONCLUSIONS AND CLINICAL RELEVANCE: We demonstrate the feasibility and the importance of conducting such studies directly in a clinically relevant tissue. In particular, the cell surface proteome of freshly isolated hepatocytes differed substantially from cultured cell lines.


Subject(s)
Drug Delivery Systems , Liver/metabolism , Membrane Proteins/metabolism , Glycomics , Glycoproteins/metabolism , Hep G2 Cells , Hepatocytes/metabolism , Humans , Organ Specificity , Peptides/metabolism , Proteome/metabolism , Reproducibility of Results
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