Micro-Raman Detection of Nuclear Membrane Lipid Fluctuations in Senescent Epithelial Breast Cancer Cells

Originally identified in cultured cells, oncogenic cellular senescence is a growth-arrest mechanism which may inhibit tumor development by limiting the ability of cells to divide. However, literature shows that these cells secrete tumor-inducing and tumor-suppressing proteins leading to poor prognos...

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Veröffentlicht in:	Analytical chemistry (Washington) 2010-05, Vol.82 (10), p.4259-4263
Hauptverfasser:	Mariani, Melissa M, Maccoux, Lindsey J, Matthäus, Christian, Diem, Max, Hengstler, Jan G, Deckert, Volker
Format:	Artikel
Sprache:	eng
Schlagworte:	Aging - metabolism Analytical chemistry Applied sciences Biological and medical sciences Breast cancer Breast Neoplasms - pathology Cell culture Cell Cycle Cell cycle, cell proliferation Cell physiology Cell transformation and carcinogenesis. Action of oncogenes and antioncogenes Cell Transformation, Neoplastic Cells, Cultured Cellular Senescence - physiology Chemistry Epithelial Cells - chemistry Exact sciences and technology Female Fundamental and applied biological sciences. Psychology Gene expression Global environmental pollution Humans Lipids Lipids - analysis Medical treatment Molecular and cellular biology Nuclear Envelope - chemistry Nuclear Envelope - pathology Pollution Proteins Ribonucleic acid RNA Spectrometric and optical methods Staining and Labeling Tumor Cells, Cultured Tumor Suppressor Proteins - analysis Tumors
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creator	Mariani, Melissa M Maccoux, Lindsey J Matthäus, Christian Diem, Max Hengstler, Jan G Deckert, Volker
description	Originally identified in cultured cells, oncogenic cellular senescence is a growth-arrest mechanism which may inhibit tumor development by limiting the ability of cells to divide. However, literature shows that these cells secrete tumor-inducing and tumor-suppressing proteins leading to poor prognosis. Understanding the progression of oncogenic cellular senescence and associated mechanisms provides important implications for improving tumorigenesis therapeutic treatments. Micro-Raman spectroscopic imaging has grown in popularity as an imaging technique compared to the standard imaging predecessors and can be attributed to its numerous benefits such as no sample perturbation and the provision of direct chemical information. Through the use of label-free micro-Raman spectroscopy, control and senescent cells were noninvasively imaged. Resulting spectral images were processed using chemometric techniques, and average nuclei spectra from each sample set were compared. In turn, changes in the -cis and -trans unsaturated lipid isomer content were found to differ among proliferating and senescent cells. This may lead to increased nuclear fluidity and may contribute to the inability of senescent cells to complete the cell cycle. In the tumor environment, this detected increase in nuclear envelope fluidity could lead to downstream gene expression modifications and increased nucleo-cytoplasmic RNA translocation. Understanding nuclear envelope fluidity could provide insight into secretory profiles of senescent cells and their role in carcinogenesis, meriting further investigation into novel therapeutic technique development for oncogenic cellular senescence.
doi_str_mv	10.1021/ac1006987
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This may lead to increased nuclear fluidity and may contribute to the inability of senescent cells to complete the cell cycle. In the tumor environment, this detected increase in nuclear envelope fluidity could lead to downstream gene expression modifications and increased nucleo-cytoplasmic RNA translocation. 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Chem</addtitle><description>Originally identified in cultured cells, oncogenic cellular senescence is a growth-arrest mechanism which may inhibit tumor development by limiting the ability of cells to divide. However, literature shows that these cells secrete tumor-inducing and tumor-suppressing proteins leading to poor prognosis. Understanding the progression of oncogenic cellular senescence and associated mechanisms provides important implications for improving tumorigenesis therapeutic treatments. Micro-Raman spectroscopic imaging has grown in popularity as an imaging technique compared to the standard imaging predecessors and can be attributed to its numerous benefits such as no sample perturbation and the provision of direct chemical information. Through the use of label-free micro-Raman spectroscopy, control and senescent cells were noninvasively imaged. 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Chem</addtitle><date>2010-05-15</date><risdate>2010</risdate><volume>82</volume><issue>10</issue><spage>4259</spage><epage>4263</epage><pages>4259-4263</pages><issn>0003-2700</issn><eissn>1520-6882</eissn><coden>ANCHAM</coden><abstract>Originally identified in cultured cells, oncogenic cellular senescence is a growth-arrest mechanism which may inhibit tumor development by limiting the ability of cells to divide. However, literature shows that these cells secrete tumor-inducing and tumor-suppressing proteins leading to poor prognosis. Understanding the progression of oncogenic cellular senescence and associated mechanisms provides important implications for improving tumorigenesis therapeutic treatments. Micro-Raman spectroscopic imaging has grown in popularity as an imaging technique compared to the standard imaging predecessors and can be attributed to its numerous benefits such as no sample perturbation and the provision of direct chemical information. Through the use of label-free micro-Raman spectroscopy, control and senescent cells were noninvasively imaged. Resulting spectral images were processed using chemometric techniques, and average nuclei spectra from each sample set were compared. In turn, changes in the -cis and -trans unsaturated lipid isomer content were found to differ among proliferating and senescent cells. This may lead to increased nuclear fluidity and may contribute to the inability of senescent cells to complete the cell cycle. In the tumor environment, this detected increase in nuclear envelope fluidity could lead to downstream gene expression modifications and increased nucleo-cytoplasmic RNA translocation. 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subjects	Aging - metabolism Analytical chemistry Applied sciences Biological and medical sciences Breast cancer Breast Neoplasms - pathology Cell culture Cell Cycle Cell cycle, cell proliferation Cell physiology Cell transformation and carcinogenesis. Action of oncogenes and antioncogenes Cell Transformation, Neoplastic Cells, Cultured Cellular Senescence - physiology Chemistry Epithelial Cells - chemistry Exact sciences and technology Female Fundamental and applied biological sciences. Psychology Gene expression Global environmental pollution Humans Lipids Lipids - analysis Medical treatment Molecular and cellular biology Nuclear Envelope - chemistry Nuclear Envelope - pathology Pollution Proteins Ribonucleic acid RNA Spectrometric and optical methods Staining and Labeling Tumor Cells, Cultured Tumor Suppressor Proteins - analysis Tumors
title	Micro-Raman Detection of Nuclear Membrane Lipid Fluctuations in Senescent Epithelial Breast Cancer Cells
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