Abstract: The present invention provides methods for treating cancer patients comprising assaying tumor tissue from patients and identifying those patients most likely to respond to treatment with a platinum-based agent, such as cisplatin, in combination with pemetrexed. Methods are provided for identifying those lung cancer patients most likely to respond to treatment with the combination of cisplatin+pemetrexed chemotherapy agents (“CDDP+PEM”) by determining expression patterns of a set of 38 specific proteins directly in tumor cells derived from patient tumor tissue using SRM mass spectrometry. The method further comprising determining if the patient will respond to treatment with combination therapy, and when proteomic analysis of patient tissue indicates that the patient will respond to treatment with combination therapy, the patient is administered a regimen that includes the pemetrexed/platinum agent combination.

Abstract: Methods are provided for identifying whether a tumor will be responsive to treatment with an anti-EGFR agent. Specific protein fragment peptides are precisely detected and quantitated by SRM-mass spectrometry directly in tumor cells collected from tumor tissue that was obtained from a cancer patient and compared to reference levels in order to determine if the lung cancer patient will positively respond to treatment with an anti-EGFR agent such as, for example, pamitumumab and/or erbitux.

Abstract: Methods are provided for quantifying CD56 and CHGA proteins directly in formalin-fixed biological samples by Selected Reaction Monitoring (SRM)/Multiple Reaction Monitoring (MRM) mass spectrometry. The biological samples may include formalin-fixed tissue/cells, formalin-fixed/paraffin embedded (FFPE) tissue/cells, and FFPE tissue blocks and cells from those blocks. A protein sample may be prepared from said biological sample using the Liquid Tissue reagents and protocol and a designated protein is quantitated in the Liquid Tissue sample by the method of SRM/MRM mass spectrometry by quantitating in the protein sample at least one peptide fragment derived from each of the proteins.

Abstract: Methods are provided herein for using SRM/MRM assays to detect and quantitate proteins involved in all cellular processes including cell division, cellular differentiation, cell growth inhibition, cellular metabolism, cell signaling, and tumor immune response/modulation in a protein digest prepared from a biological sample of formalin fixed tumor tissue. The SRM/MRM assays can provide a tumor tissue profile of the entire tissue microenvironment, regardless of cellular origin of expression, which can provide an optimal cancer therapy treatment.

Abstract: Methods are provided for treating a cancer patient suffering from a glioblastoma (GBM) by administering to the patient an effective amount of temozolomide, wherein a mass spectrometry analysis of a protein digest of a formalin-fixed tumor sample from the patient evidences an amount of a MGMT fragment peptide less than or substantially equal to 150 amol/?g.

Abstract: The current disclosure provides for specific peptides, and derived ionization characteristics of the peptides, from the tyrosine-protein kinase receptor UFO protein (AXL) that are particularly advantageous for quantifying the AXL protein directly in biological samples that have been fixed in formalin by the method of Selected Reaction Monitoring (SRM) mass spectrometry, or what can also be termed as Multiple Reaction Monitoring (MRM) mass spectrometry. Such biological samples are chemically preserved and fixed wherein said biological sample is selected from tissues and cells treated with formaldehyde containing agents/fixatives including formalin-fixed tissue/cells, formalin-fixed/paraffin embedded (FFPE) tissue/cells, FFPE tissue blocks and cells from those blocks, and tissue culture cells that have been formalin fixed and or paraffin embedded.

Abstract: Improved methods for treating cancer are provided herein by determining if a cancer patient, particularly a colon cancer patient or a gastric cancer patient, will clinically respond in a favorable manner to a therapeutic strategy comprising the FOLFOX regimen (fluorouracil, leucovorin, and oxaliplatin) or a combination of capecitabine and cisplatin. Diagnostic methods for measuring the OPRT, TYMP, and/or UCK2 proteins in a tissue sample, such as a tumor sample, from the patient are provided.

Abstract: The current disclosure provides for specific peptides, and derived ionization characteristics of the peptides, from the Hepatocyte Growth Factor Receptor (Met) protein that are particularly advantageous for quantifying the Met protein directly in biological samples that have been fixed in formalin by the method of Selected Reaction Monitoring (SRM) mass spectrometry, or what can also be termed as Multiple Reaction Monitoring (MRM) mass spectrometry. Methods also are provided for detecting the presence of the Met (Ex14del) mutant protein.

Abstract: Methods are provided herein for identifying whether a cancer patient, for example a colorectal cancer patient, will be responsive to treatment with a therapeutic strategy comprising administration of the FOLFOX regimen (5-fluorouracil, leucovorin, and oxaliplatin). Specified TYMP and UCK2 fragment peptides are precisely detected and quantitated by SRM-mass spectrometry directly in tumor cells, for example colorectal cancer tumor cells, that are collected from tumor tissue obtained from a cancer patient and compared to reference levels in order to determine if the cancer patients will positively respond to treatment with the combination treatment of FOLFOX (5-fluorouracil, leucovorin, and oxaliplatin).

Abstract: Methods are provided for identifying whether colorectal cancer (CRC) will be responsive to treatment with the combination of the therapeutic agents cisplatin and pemetrexed. Specified p16 fragment peptides are precisely detected and quantitated by SRM-mass spectrometry directly in formalin-fixed tissue sample that was obtained from the cancer patient and compared to a p16 reference level in order to determine if the CRC patient will positively respond to treatment with the combination of cisplatin and pemetrexed therapeutic agents.

Abstract: The current disclosure provides for a specific peptide, and derived ionization characteristics of a peptide from the tubulin beta-3 chain protein (TUBB3) that is particularly advantageous for quantifying the TUBB3 protein directly in biological samples that have been fixed in formalin by the method of Selected Reaction Monitoring (SRM) mass spectrometry. A protein sample is prepared from a biological sample using the Liquid Tissue reagents and protocol and the TUBB3 protein is quantitated by SRM/MRM mass spectrometry analysis of the sample, where the specific peptide is quantitated. Methods of treatment are provided in which the measured level of TUBB3 in a patient tumor sample is compared with a reference level and the patient is treated with a taxane-based treatment regimen when the measured TUBB3 level is lower than the reference level. A suitable reference level is, for example, about 700 amol/?g tissue.

Abstract: Methods are provided for quantifying the cyclin-dependent kinase inhibitor 2A protein (p16) p16 protein directly in biological samples that have been fixed in formalin by SRM/MRM mass spectrometry. A protein sample is prepared from the biological sample using, for example, the Liquid Tissue reagents and protocol and the p16 protein is quantitated in the resulting sample by quantitating in the protein sample at least one fragment peptide from p16. Peptides can be quantitated in modified or unmodified form. An example of a modified form of a p16 peptide is phosphorylation of a tyrosine, threonine, serine, and/or other amino acid residues within the peptide sequence.

Abstract: Molecular markers of response to various chemotherapies were measured in tumor samples of 5 sarcoma subtypes to identify effective treatment regimens based on expression of chemotherapy biomarkers. The molecular profiles for rhabdomyosarcoma support the use of standard-of-care treatment, while other profiles showed that alternative agents differing from standard-of-care will be effective, including gemcitabine (osteosarcoma), taxane (leiomyosarcoma, Ewing's sarcoma), and platinum (leiomyosarcoma, liposarcoma, and osteosarcoma).

Abstract: Specific peptides are provided, and derived ionization characteristics of those peptides, from the Hepatocyte Growth Factor Receptor (cMET) protein. The peptides are particularly and surprisingly advantageous for quantifying by the method of Selected Reaction Monitoring (SRM) mass spectrometry the cMET protein directly in biological samples that have been fixed in formalin, or what can also be termed as Multiple Reaction Monitoring (MRM) mass spectrometry. Such biological samples are chemically preserved and fixed where the biological sample is selected from tissues and cells treated with formaldehyde containing agents/fixatives including: formalin-fixed tissue/cells; formalin-fixed/paraffin embedded (FFPE) tissue/cells; FFPE tissue blocks and cells from those blocks; and tissue culture cells that have been formalin fixed and or paraffin embedded.

Abstract: Methods are provided for treating a gastric cancer patient. A specific Met fragment peptide is precisely quantitated by SRM-mass spectrometry directly in gastric tumor cells collected from gastric tumor tissue that was obtained from the cancer patient and compared to a reference level. If the Met peptide is below the reference level a second therapeutic regimen is used to treat the patient whereas if the Met peptide is above the reference level then a first therapeutic regimen combining, for example, the second regimen with one or more Met inhibitor therapeutic agents may be used to treat the patient.

Abstract: Specific peptides, and derived ionization characteristics of those peptides, from the Bcl-2-like protein 11 (BIM) are provided that are particularly advantageous for quantifying the BIM protein directly in biological samples that have been fixed in formalin by the method of Selected Reaction Monitoring (SRM) mass spectrometry, or what can also be termed as Multiple Reaction Monitoring (MRM). Such biological samples are chemically preserved and fixed where the biological sample is selected from tissues and cells treated with formaldehyde containing agents/fixatives including formalin-fixed tissue/cells, formalin-fixed/paraffin embedded (FFPE) tissue/cells, FFPE tissue blocks and cells from those blocks, and tissue culture cells that have been formalin fixed and or paraffin embedded.

Abstract: The current disclosure provides methods for detecting and quantitating the 6-O-methylguanine-DNA methyltransferase protein (MGMT) directly in biological samples that have been fixed in formalin by the method of Selected Reaction Monitoring/Multiple Reaction Monitoring (SRM/MRM) mass spectrometry. Such biological samples are chemically preserved and fixed with formaldehyde containing agents/fixatives and may include formalin-fixed tissue/cells, formalin-fixed/paraffin embedded (FFPE) tissue/cells, FFPE tissue blocks and cells from those blocks, and tissue culture cells that have been formalin fixed and/or paraffin embedded. A protein sample is prepared from the biological sample and the MGMT protein is quantitated in the sample using SRM/MRM mass spectrometry by quantitating one or more fragment peptides.

Abstract: Improved methods of treatment are provided for patients suffering from cancer. The methods identify whether a tumor will be responsive to treatment with a therapeutic regime that includes anti-Her2 therapeutic agents. A specific Her2 fragment peptide is precisely quantitated by SRM-mass spectrometry directly in tumor cells collected from tumor tissue that was obtained from a cancer patient and compared to a reference level in order to determine if the cancer patient will positively respond to treatment with a therapeutic agent that specifically targets the Her2 protein.

Abstract: Specific peptides, and derived ionization characteristics of the peptides, from the Ephrin Type-A Receptor 2 (EPHA2) protein are provided that are particularly advantageous for quantifying the EPHA2 protein directly in biological samples that have been fixed in formalin by the method of Selected Reaction Monitoring (SRM) mass spectrometry, or what can also be termed as Multiple Reaction Monitoring (MRM) mass spectrometry. Such biological samples are chemically preserved and fixed and are selected from tissues and cells treated with formaldehyde containing agents/fixatives including formalin-fixed tissue/cells, formalin-fixed/paraffin embedded (FFPE) tissue/cells, FFPE tissue blocks and cells from those blocks, and tissue culture cells that have been formalin fixed and or paraffin embedded.

Abstract: Peptides from the tyrosine-protein kinase receptor UFO protein (AXL) are provided that are particularly advantageous for quantifying the AXL protein directly in biological samples that have been fixed in formalin by the method of Selected Reaction Monitoring (SRM)/Multiple Reaction Monitoring (MRM) mass spectrometry. Such biological samples are chemically preserved and fixed and include formalin-fixed tissue/cells, formalin-fixed/paraffin embedded (FFPE) tissue/cells, FFPE tissue blocks and cells from those blocks. A protein digest is prepared from the biological sample and the AXL protein is quantitated in the Liquid Tissue sample by the method of SRM/MRM mass spectrometry by quantitating in the protein sample at least one or more of the peptides described.