Applying of hierarchical clustering to analysis of protein patterns in the human cancer-associated liver.
<h4>Background</h4>There are two ways that statistical methods can learn from biomedical data. One way is to learn classifiers to identify diseases and to predict outcomes using the training dataset with established diagnosis for each sample. When the training dataset is not available th...
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2014
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oai:doaj.org-article:19e68aad4d1042b8af826bda1c4f9e102021-11-25T06:06:26ZApplying of hierarchical clustering to analysis of protein patterns in the human cancer-associated liver.1932-620310.1371/journal.pone.0103950https://doaj.org/article/19e68aad4d1042b8af826bda1c4f9e102014-01-01T00:00:00Zhttps://www.ncbi.nlm.nih.gov/pmc/articles/pmid/25083712/?tool=EBIhttps://doaj.org/toc/1932-6203<h4>Background</h4>There are two ways that statistical methods can learn from biomedical data. One way is to learn classifiers to identify diseases and to predict outcomes using the training dataset with established diagnosis for each sample. When the training dataset is not available the task can be to mine for presence of meaningful groups (clusters) of samples and to explore underlying data structure (unsupervised learning).<h4>Results</h4>We investigated the proteomic profiles of the cytosolic fraction of human liver samples using two-dimensional electrophoresis (2DE). Samples were resected upon surgical treatment of hepatic metastases in colorectal cancer. Unsupervised hierarchical clustering of 2DE gel images (n = 18) revealed a pair of clusters, containing 11 and 7 samples. Previously we used the same specimens to measure biochemical profiles based on cytochrome P450-dependent enzymatic activities and also found that samples were clearly divided into two well-separated groups by cluster analysis. It turned out that groups by enzyme activity almost perfectly match to the groups identified from proteomic data. Of the 271 reproducible spots on our 2DE gels, we selected 15 to distinguish the human liver cytosolic clusters. Using MALDI-TOF peptide mass fingerprinting, we identified 12 proteins for the selected spots, including known cancer-associated species.<h4>Conclusions/significance</h4>Our results highlight the importance of hierarchical cluster analysis of proteomic data, and showed concordance between results of biochemical and proteomic approaches. Grouping of the human liver samples and/or patients into differing clusters may provide insights into possible molecular mechanism of drug metabolism and creates a rationale for personalized treatment.Natalia A PetushkovaMikhail A PyatnitskiyVladislav A RudenkoOlesya V LarinaOxana P TrifonovaJulya S KisrievaNatalia F SamenkovaGalina P KuznetsovaIrina I KaruzinaAndrey V LisitsaPublic Library of Science (PLoS)articleMedicineRScienceQENPLoS ONE, Vol 9, Iss 8, p e103950 (2014) |
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Medicine R Science Q Natalia A Petushkova Mikhail A Pyatnitskiy Vladislav A Rudenko Olesya V Larina Oxana P Trifonova Julya S Kisrieva Natalia F Samenkova Galina P Kuznetsova Irina I Karuzina Andrey V Lisitsa Applying of hierarchical clustering to analysis of protein patterns in the human cancer-associated liver. |
| description |
<h4>Background</h4>There are two ways that statistical methods can learn from biomedical data. One way is to learn classifiers to identify diseases and to predict outcomes using the training dataset with established diagnosis for each sample. When the training dataset is not available the task can be to mine for presence of meaningful groups (clusters) of samples and to explore underlying data structure (unsupervised learning).<h4>Results</h4>We investigated the proteomic profiles of the cytosolic fraction of human liver samples using two-dimensional electrophoresis (2DE). Samples were resected upon surgical treatment of hepatic metastases in colorectal cancer. Unsupervised hierarchical clustering of 2DE gel images (n = 18) revealed a pair of clusters, containing 11 and 7 samples. Previously we used the same specimens to measure biochemical profiles based on cytochrome P450-dependent enzymatic activities and also found that samples were clearly divided into two well-separated groups by cluster analysis. It turned out that groups by enzyme activity almost perfectly match to the groups identified from proteomic data. Of the 271 reproducible spots on our 2DE gels, we selected 15 to distinguish the human liver cytosolic clusters. Using MALDI-TOF peptide mass fingerprinting, we identified 12 proteins for the selected spots, including known cancer-associated species.<h4>Conclusions/significance</h4>Our results highlight the importance of hierarchical cluster analysis of proteomic data, and showed concordance between results of biochemical and proteomic approaches. Grouping of the human liver samples and/or patients into differing clusters may provide insights into possible molecular mechanism of drug metabolism and creates a rationale for personalized treatment. |
| format |
article |
| author |
Natalia A Petushkova Mikhail A Pyatnitskiy Vladislav A Rudenko Olesya V Larina Oxana P Trifonova Julya S Kisrieva Natalia F Samenkova Galina P Kuznetsova Irina I Karuzina Andrey V Lisitsa |
| author_facet |
Natalia A Petushkova Mikhail A Pyatnitskiy Vladislav A Rudenko Olesya V Larina Oxana P Trifonova Julya S Kisrieva Natalia F Samenkova Galina P Kuznetsova Irina I Karuzina Andrey V Lisitsa |
| author_sort |
Natalia A Petushkova |
| title |
Applying of hierarchical clustering to analysis of protein patterns in the human cancer-associated liver. |
| title_short |
Applying of hierarchical clustering to analysis of protein patterns in the human cancer-associated liver. |
| title_full |
Applying of hierarchical clustering to analysis of protein patterns in the human cancer-associated liver. |
| title_fullStr |
Applying of hierarchical clustering to analysis of protein patterns in the human cancer-associated liver. |
| title_full_unstemmed |
Applying of hierarchical clustering to analysis of protein patterns in the human cancer-associated liver. |
| title_sort |
applying of hierarchical clustering to analysis of protein patterns in the human cancer-associated liver. |
| publisher |
Public Library of Science (PLoS) |
| publishDate |
2014 |
| url |
https://doaj.org/article/19e68aad4d1042b8af826bda1c4f9e10 |
| work_keys_str_mv |
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