Proteomics

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Proteomic maps of breast cancer subtypes


ABSTRACT: Systems-wide profiling of breast cancer has so far built on RNA and DNA analysis by microarray and sequencing techniques. Dramatic developments in proteomic technologies now enable very deep profiling of clinical samples, with high identification and quantification accuracy. We analyzed 40 estrogen receptor positive (luminal), Her2 positive and triple negative breast tumors and reached a quantitative depth of more than 10,000 proteins. Comparison to mRNA classifiers revealed multiple discrepancies between proteins and mRNA markers of breast cancer subtypes. These proteomic profiles identified functional differences between breast cancer subtypes, related to energy metabolism, cell growth, mRNA translation and cell-cell communication. Furthermore, we derived a 19-protein predictive signature, which discriminates between the breast cancer subtypes, through Support Vector Machine (SVM)-based classification and feature selection. The deep proteome profiles also revealed novel features of breast cancer subtypes, which may be the basis for future development of subtype specific therapeutics.

INSTRUMENT(S): Q Exactive

ORGANISM(S): Homo Sapiens (human)

TISSUE(S): Breast Cancer Cell

DISEASE(S): Breast Cancer

SUBMITTER: Stefka Tyanova  

LAB HEAD: Tamar Geiger

PROVIDER: PXD002619 | Pride | 2016-01-05

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
20110610_Q2_TaGe_SA_SSM1_2.raw Raw
20110610_Q2_TaGe_SA_SSM1_3.raw Raw
20110610_Q2_TaGe_SA_SSM1_4.raw Raw
20110610_Q2_TaGe_SA_SSM1_5.raw Raw
20110610_Q2_TaGe_SA_SSM1_6.raw Raw
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Publications

Proteomic maps of breast cancer subtypes.

Tyanova Stefka S   Albrechtsen Reidar R   Kronqvist Pauliina P   Cox Juergen J   Mann Matthias M   Geiger Tamar T  

Nature communications 20160104


Systems-wide profiling of breast cancer has almost always entailed RNA and DNA analysis by microarray and sequencing techniques. Marked developments in proteomic technologies now enable very deep profiling of clinical samples, with high identification and quantification accuracy. We analysed 40 oestrogen receptor positive (luminal), Her2 positive and triple negative breast tumours and reached a quantitative depth of >10,000 proteins. These proteomic profiles identified functional differences bet  ...[more]

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