2021
Hofmanová, Jiřina; Slavík, Josef; Ciganek, Miroslav; Ovesná, Petra; Tylichová, Zuzana; Karasová, Martina; Zapletal, Ondřej; Straková, Nicol; Procházková, Jiřina; Bouchal, Jan; Kolář, Zdeněk; Ehrmann, Jiří; Levková, Monika; Hušková, Zlatka; Skalický, Pavel; Kozubík, Alois; Machala, Miroslav; Vondráček, Jan
Complex Alterations of Fatty Acid Metabolism and Phospholipidome Uncovered in Isolated Colon Cancer Epithelial Cells. Journal Article
In: International journal of molecular sciences, vol. 22, no. 13, 2021, ISSN: 1422-0067, (Place: Switzerland).
Abstract | Links | BibTeX | Tags: *Gene Expression Regulation, *Lipid Metabolism, Adenocarcinoma/enzymology/genetics/*metabolism, Aged, Colonic Neoplasms/enzymology/genetics/*metabolism, colorectal carcinoma, desaturation, EpCAM, Epithelial Cells, Epithelial Cells/enzymology/metabolism, Fatty Acid Desaturases/genetics/metabolism, Fatty Acid Elongases/genetics/metabolism, Fatty Acid Synthases/genetics/metabolism, fatty acid synthesis, Fatty Acids/*metabolism, Female, Humans, lipidomics, Lipogenesis, lysophospholipids, Male, Neoplastic, Phospholipids, Phospholipids/*metabolism, Stearoyl-CoA Desaturase/genetics/metabolism
@article{hofmanova_complex_2021,
title = {Complex Alterations of Fatty Acid Metabolism and Phospholipidome Uncovered in Isolated Colon Cancer Epithelial Cells.},
author = {Jiřina Hofmanová and Josef Slavík and Miroslav Ciganek and Petra Ovesná and Zuzana Tylichová and Martina Karasová and Ondřej Zapletal and Nicol Straková and Jiřina Procházková and Jan Bouchal and Zdeněk Kolář and Jiří Ehrmann and Monika Levková and Zlatka Hušková and Pavel Skalický and Alois Kozubík and Miroslav Machala and Jan Vondráček},
doi = {10.3390/ijms22136650},
issn = {1422-0067},
year = {2021},
date = {2021-06-01},
journal = {International journal of molecular sciences},
volume = {22},
number = {13},
abstract = {The development of colon cancer, one of the most common malignancies, is accompanied with numerous lipid alterations. However, analyses of whole tumor samples may not always provide an accurate description of specific changes occurring directly in tumor epithelial cells. Here, we analyzed in detail the phospholipid (PL), lysophospholipid (lysoPL), and fatty acid (FA) profiles of purified EpCAM(+) cells, isolated from tumor and adjacent non-tumor tissues of colon cancer patients. We found that a number of FAs increased significantly in isolated tumor cells, which also included a number of long polyunsaturated FAs. Higher levels of FAs were associated with increased expression of FA synthesis genes, as well as with altered expression of enzymes involved in FA elongation and desaturation, including particularly fatty acid synthase, stearoyl-CoA desaturase, fatty acid desaturase 2 and ELOVL5 fatty acid elongase 5 We identified significant changes in ratios of specific lysoPLs and corresponding PLs. A number of lysophosphatidylcholine and lysophosphatidylethanolamine species, containing long-chain and very-long chain FAs, often with high numbers of double bonds, were significantly upregulated in tumor cells. Increased de novo synthesis of very long-chain FAs, or, altered uptake or incorporation of these FAs into specific lysoPLs in tumor cells, may thus contribute to reprogramming of cellular phospholipidome and membrane alterations observed in colon cancer.},
note = {Place: Switzerland},
keywords = {*Gene Expression Regulation, *Lipid Metabolism, Adenocarcinoma/enzymology/genetics/*metabolism, Aged, Colonic Neoplasms/enzymology/genetics/*metabolism, colorectal carcinoma, desaturation, EpCAM, Epithelial Cells, Epithelial Cells/enzymology/metabolism, Fatty Acid Desaturases/genetics/metabolism, Fatty Acid Elongases/genetics/metabolism, Fatty Acid Synthases/genetics/metabolism, fatty acid synthesis, Fatty Acids/*metabolism, Female, Humans, lipidomics, Lipogenesis, lysophospholipids, Male, Neoplastic, Phospholipids, Phospholipids/*metabolism, Stearoyl-CoA Desaturase/genetics/metabolism},
pubstate = {published},
tppubtype = {article}
}
The development of colon cancer, one of the most common malignancies, is accompanied with numerous lipid alterations. However, analyses of whole tumor samples may not always provide an accurate description of specific changes occurring directly in tumor epithelial cells. Here, we analyzed in detail the phospholipid (PL), lysophospholipid (lysoPL), and fatty acid (FA) profiles of purified EpCAM(+) cells, isolated from tumor and adjacent non-tumor tissues of colon cancer patients. We found that a number of FAs increased significantly in isolated tumor cells, which also included a number of long polyunsaturated FAs. Higher levels of FAs were associated with increased expression of FA synthesis genes, as well as with altered expression of enzymes involved in FA elongation and desaturation, including particularly fatty acid synthase, stearoyl-CoA desaturase, fatty acid desaturase 2 and ELOVL5 fatty acid elongase 5 We identified significant changes in ratios of specific lysoPLs and corresponding PLs. A number of lysophosphatidylcholine and lysophosphatidylethanolamine species, containing long-chain and very-long chain FAs, often with high numbers of double bonds, were significantly upregulated in tumor cells. Increased de novo synthesis of very long-chain FAs, or, altered uptake or incorporation of these FAs into specific lysoPLs in tumor cells, may thus contribute to reprogramming of cellular phospholipidome and membrane alterations observed in colon cancer.
2020
Hofmanová, Jiřina; Slavík, Josef; Ovesná, Petra; Tylichová, Zuzana; Dušek, Ladislav; Straková, Nicol; Vaculová, Alena Hyršlová; Ciganek, Miroslav; Kala, Zdeněk; Jíra, Miroslav; Penka, Igor; Kyclová, Jitka; Kolář, Zdeněk; Kozubík, Alois; Machala, Miroslav; Vondráček, Jan
In: PloS one, vol. 15, no. 1, pp. e0228010, 2020, ISSN: 1932-6203, (Place: United States).
Abstract | Links | BibTeX | Tags: *Lipidomics, Cell Line, Colon/*pathology, Colonic Neoplasms/*metabolism/*pathology, Epithelial Cells/*metabolism/pathology, Humans, Phospholipids/*metabolism, Principal Component Analysis, Tumor
@article{hofmanova_phospholipid_2020,
title = {Phospholipid profiling enables to discriminate tumor- and non-tumor-derived human colon epithelial cells: Phospholipidome similarities and differences in colon cancer cell lines and in patient-derived cell samples.},
author = {Jiřina Hofmanová and Josef Slavík and Petra Ovesná and Zuzana Tylichová and Ladislav Dušek and Nicol Straková and Alena Hyršlová Vaculová and Miroslav Ciganek and Zdeněk Kala and Miroslav Jíra and Igor Penka and Jitka Kyclová and Zdeněk Kolář and Alois Kozubík and Miroslav Machala and Jan Vondráček},
doi = {10.1371/journal.pone.0228010},
issn = {1932-6203},
year = {2020},
date = {2020-01-01},
journal = {PloS one},
volume = {15},
number = {1},
pages = {e0228010},
abstract = {Identification of changes of phospholipid (PL) composition occurring during colorectal cancer (CRC) development may help us to better understand their roles in CRC cells. Here, we used LC-MS/MS-based PL profiling of cell lines derived from normal colon mucosa, or isolated at distinct stages of CRC development, in order to study alterations of PL species potentially linked with cell transformation. We found that a detailed evaluation of phosphatidylinositol (PI) and phosphatidylserine (PS) classes allowed us to cluster the studied epithelial cell lines according to their origin: i) cells originally derived from normal colon tissue (NCM460, FHC); ii) cell lines derived from colon adenoma or less advanced differentiating adenocarcinoma cells (AA/C1, HT-29); or, iii) cells obtained by in vitro transformation of adenoma cells and advanced colon adenocarcinoma cells (HCT-116, AA/C1/SB10, SW480, SW620). Although we tentatively identified several PS and PI species contributing to cell line clustering, full PI and PS profiles appeared to be a key to the successful cell line discrimination. In parallel, we compared PL composition of primary epithelial (EpCAM-positive) cells, isolated from tumor and adjacent non-tumor tissues of colon cancer patients, with PL profiles of cell lines derived from normal colon mucosa (NCM460) and from colon adenocarcinoma (HCT-116, SW480) cells, respectively. In general, higher total levels of all PL classes were observed in tumor cells. The overall PL profiles of the cell lines, when compared with the respective patient-derived cells, exhibited similarities. Nevertheless, there were also some notable differences in levels of individual PL species. This indicated that epithelial cell lines, derived either from normal colon tissue or from CRC cells, could be employed as models for functional lipidomic analyses of colon cells, albeit with some caution. The biological significance of the observed PL deregulation, or their potential links with specific CRC stages, deserve further investigation.},
note = {Place: United States},
keywords = {*Lipidomics, Cell Line, Colon/*pathology, Colonic Neoplasms/*metabolism/*pathology, Epithelial Cells/*metabolism/pathology, Humans, Phospholipids/*metabolism, Principal Component Analysis, Tumor},
pubstate = {published},
tppubtype = {article}
}
Identification of changes of phospholipid (PL) composition occurring during colorectal cancer (CRC) development may help us to better understand their roles in CRC cells. Here, we used LC-MS/MS-based PL profiling of cell lines derived from normal colon mucosa, or isolated at distinct stages of CRC development, in order to study alterations of PL species potentially linked with cell transformation. We found that a detailed evaluation of phosphatidylinositol (PI) and phosphatidylserine (PS) classes allowed us to cluster the studied epithelial cell lines according to their origin: i) cells originally derived from normal colon tissue (NCM460, FHC); ii) cell lines derived from colon adenoma or less advanced differentiating adenocarcinoma cells (AA/C1, HT-29); or, iii) cells obtained by in vitro transformation of adenoma cells and advanced colon adenocarcinoma cells (HCT-116, AA/C1/SB10, SW480, SW620). Although we tentatively identified several PS and PI species contributing to cell line clustering, full PI and PS profiles appeared to be a key to the successful cell line discrimination. In parallel, we compared PL composition of primary epithelial (EpCAM-positive) cells, isolated from tumor and adjacent non-tumor tissues of colon cancer patients, with PL profiles of cell lines derived from normal colon mucosa (NCM460) and from colon adenocarcinoma (HCT-116, SW480) cells, respectively. In general, higher total levels of all PL classes were observed in tumor cells. The overall PL profiles of the cell lines, when compared with the respective patient-derived cells, exhibited similarities. Nevertheless, there were also some notable differences in levels of individual PL species. This indicated that epithelial cell lines, derived either from normal colon tissue or from CRC cells, could be employed as models for functional lipidomic analyses of colon cells, albeit with some caution. The biological significance of the observed PL deregulation, or their potential links with specific CRC stages, deserve further investigation.