Einzeltreffer — DigiBib

The biomolecular events resulting from the progression of hepatoblastoma remain to be elucidated. Fourier-transform infrared (FTIR) and Raman spectroscopies are capable of noninvasively and accurately capturing the biochemical properties of biological tissue from its pathological status. Our aim was to probe critial biomolecular changes of liver accompanying the progression of pure foetal hepatoblastoma (PFH) by FTIR and Raman spectroscopies. Herein, biochemical alterations were both evident in the FTIR spectra (regions of 3100-2800 cm -1 and 1800-900 cm -1 ) and the Raman spectra (region of 1800-400 cm -1 ) among normal, borderline and malignant liver tissues. Compared with normal tissues, the ratios of protein-to-lipid, α-helix-to-β-sheet, RNA-to-DNA, CH3 methyl-to-CH2 methylene, glucose-to-phospholipids, and unsaturated-to-saturated lipids intensities were significantly higher in malignant tissues, while the ratios of RNA-to-Amide II, DNA-to-Amide II, glycogen-to-cholesterol and Amide I-to-Amide II intensities were remarkably lower. These biochemical alterations in the transition from normal to malignant have profound implications not only for cyto-pathological classification but also for molecular understanding of PFH progression. The successive changes of the spectral characteristics have been shown to be consistent with the development of PFH, indicating that FTIR and Raman spectroscopies are excellent tools to interrogate the biochemical features of different grades of PFH.

Titel:	Fourier transform infrared and Raman-based biochemical profiling of different grades of pure foetal-type hepatoblastoma.
Autor/in / Beteiligte Person:	Duan, P ; Li, J ; Yang, W ; Li, X ; Long, M ; Feng, X ; Zhang, Y ; Chen, C ; Morais, CLM ; Martin, FL ; Luo, J ; Liu, D ; Xiong, C
Link:	Full Text Finder (Volltext)
Zeitschrift:	Journal of biophotonics, Jg. 12 (2019-09-01), Heft 9, S. e201800304
Veröffentlichung:	Weinheim : Wiley-VCH, 2019
Medientyp:	academicJournal
ISSN:	1864-0648 (electronic)
DOI:	10.1002/jbio.201800304
Schlagwort:	Aged Disease Progression Fourier Analysis Glucose chemistry Humans Lipids chemistry Male Middle Aged Multivariate Analysis Phospholipids chemistry Principal Component Analysis Protein Structure, Secondary Retrospective Studies Spectroscopy, Fourier Transform Infrared Hepatoblastoma diagnostic imaging Liver diagnostic imaging Liver Neoplasms diagnostic imaging Spectrophotometry, Infrared Spectrum Analysis, Raman
Sonstiges:	Nachgewiesen in: MEDLINE Sprachen: English Publication Type: Journal Article; Research Support, Non-U.S. Gov't Language: English [J Biophotonics] 2019 Sep; Vol. 12 (9), pp. e201800304. <i>Date of Electronic Publication: </i>2019 May 28. MeSH Terms: Spectrophotometry, Infrared* ; Spectrum Analysis, Raman* ; Hepatoblastoma / diagnostic imaging ; Liver / diagnostic imaging ; Liver Neoplasms / *diagnostic imaging ; Aged ; Disease Progression ; Fourier Analysis ; Glucose / chemistry ; Humans ; Lipids / chemistry ; Male ; Middle Aged ; Multivariate Analysis ; Phospholipids / chemistry ; Principal Component Analysis ; Protein Structure, Secondary ; Retrospective Studies ; Spectroscopy, Fourier Transform Infrared References: Y. Zhang, W. L. Zhang, D. S. Huang, L. Hong, Y. Z. Wang, X. Zhu, H. M. Hu, P. W. Zhang, Y. Yi, T. Han, Eur. Rev. Med. Pharmacol. Sci. 2014, 18, 1018. ; L. G. Spector, J. Birch, Pediatr. Blood Cancer 2012, 59, 776. ; A. C. Tannuri, L. M. Cristofani, R. A. Teixeira, V. Odone Filho, U. Tannuri, Clinics 2015, 70, 387. ; P. Czauderna, J. B. Otte, D. J. Roebuck, D. von Schweinitz, J. Plaschkes, Pediatr. Radiol. 2006, 36, 187. ; R. Maibach, D. Roebuck, L. Brugieres, M. Capra, P. Brock, P. Dall'Igna, J. B. Otte, B. De Camargo, J. Zsiros, A. Zimmermann, D. Aronson, M. Childs, M. Scopinaro, B. Morland, J. Plaschkes, P. Czauderna, G. Perilongo, Eur. J. Cancer 2012, 48, 1543. ; G. L. Qiao, L. Li, W. Cheng, J. Ge, Z. Zhang, Y. Wei, Eur J Surg Oncol 2014, 40, 1533. ; G.-l. Qiao, Z. Chen, C. Wang, J. Ge, Z. Zhang, L. Li, J. Ren, J. Gastroenterol. Hepatol. 2016, 31, 621. ; A. M. Adesina, D. Lopez-Terrada, K. K. Wong, P. Gunaratne, Y. Nguyen, J. Pulliam, J. Margolin, M. J. Finegold, Hum. Pathol. 2009, 40, 843. ; C. Turato, M. A. Buendia, M. Fabre, M. J. Redon, S. Branchereau, S. Quarta, M. Ruvoletto, G. Perilongo, M. A. Grotzer, A. Gatta, P. Pontisso, Eur. J. Cancer 2012, 48, 1219. ; S. Zhou, D. M. Parham, E. Yung, P. Pattengale, L. Wang, Histopathology 2015, 67, 905. ; C. W. Jiao, X. H. Jiao, A. Z. Zhu, J. T. Ge, X. Q. Xu, J. Pediatr. Surg. 2017, 52, 618. ; J. M. Rumbajan, T. Maeda, R. Souzaki, K. Mitsui, K. Higashimoto, K. Nakabayashi, H. Yatsuki, K. Nishioka, R. Harada, S. Aoki, K. Kohashi, Y. Oda, K. Hata, T. Saji, T. Taguchi, T. Tajiri, H. Soejima, K. Joh, BMC Cancer 2013, 13, 608. ; M. Diem, M. Romeo, S. Boydston-White, M. Miljkovic, C. Matthaus, Analyst 2004, 129, 880. ; J. G. Kelly, G. M. Najand, F. L. Martin, J. Biophotonics 2011, 4, 345. ; K. Aubertin, V. Q. Trinh, M. Jermyn, P. Baksic, A. A. Grosset, J. Desroches, K. St-Arnaud, M. Birlea, M. C. Vladoiu, M. Latour, R. Albadine, F. Saad, F. Leblond, D. Trudel, BJU Int. 2018, 122, 326. ; M. Jermyn, J. Mercier, K. Aubertin, J. Desroches, K. Urmey, J. Karamchandiani, E. Marple, M. C. Guiot, F. Leblond, K. Petrecca, Cancer Res. 2017, 77, 3942. ; J. O'Malley, R. Kumar, A. N. Kuzmin, A. Pliss, N. Yadav, S. Balachandar, J. M. Wang, K. Attwood, P. N. Prasad, D. Chandra, Cancer Lett. 2017, 397, 52. ; H. J. Butler, L. Ashton, B. Bird, G. Cinque, K. Curtis, J. Dorney, K. Esmonde-White, N. J. Fullwood, B. Gardner, P. L. Martin-Hirsch, M. J. Walsh, M. R. McAinsh, N. Stone, F. L. Martin, Nat. Protoc. 2016, 11, 664. ; Z. Movasaghi, S. Rehman, I. U. Rehman, Appl Spectrosc Rev 2008, 43, 134. ; M. J. Baker, J. Trevisan, P. Bassan, R. Bhargava, H. J. Butler, K. M. Dorling, P. R. Fielden, S. W. Fogarty, N. J. Fullwood, K. A. Heys, C. Hughes, P. Lasch, P. L. Martin-Hirsch, B. Obinaju, G. D. Sockalingum, J. Sule-Suso, R. J. Strong, M. J. Walsh, B. R. Wood, P. Gardner, F. L. Martin, Nat. Protoc. 2014, 9, 1771. ; K. Chrabaszcz, K. Kochan, A. Fedorowicz, A. Jasztal, E. Buczek, L. S. Leslie, R. Bhargava, K. Malek, S. Chlopicki, K. M. Marzec, Analyst 2018, 143, 2042. ; W. Liu, H. Wang, J. Du, C. Jing, Biosens. Bioelectron. 2017, 97, 70. ; G. Theophilou, K. M. Lima, P. L. Martin-Hirsch, H. F. Stringfellow, F. L. Martin, Analyst 2016, 141, 585. ; E. Kaznowska, J. Depciuch, K. Lach, M. Kolodziej, A. Koziorowska, J. Vongsvivut, I. Zawlik, M. Cholewa, J. Cebulski, Talanta 2018, 186, 337. ; K. Gajjar, L. D. Heppenstall, W. Pang, K. M. Ashton, J. Trevisan, I. I. Patel, V. Llabjani, H. F. Stringfellow, P. L. Martin-Hirsch, T. Dawson, F. L. Martin, Anal. Methods 2012, 5, 89. ; R. Gautam, S. Vanga, F. Ariese, S. Umapathy, EPJ Techn Instrum 2015, 2, 1. ; K. M. Lima, K. B. Gajjar, P. L. Martin-Hirsch, F. L. Martin, Biotechnol. Prog. 2015, 31, 832. ; A. A. Ahmadzai, J. Trevisan, W. Pang, M. J. Riding, R. J. Strong, V. Llabjani, K. Pant, P. L. Carmichael, A. D. Scott, F. L. Martin, Mutagenesis 2015, 30, 603. ; V. Llabjani, R. N. Malik, J. Trevisan, V. Hoti, J. Ukpebor, Z. K. Shinwari, C. Moeckel, K. C. Jones, R. F. Shore, F. L. Martin, Environ. Int. 2012, 48, 39. ; E. Gorrochategui, S. Lacorte, R. Tauler, F. L. Martin, Chem. Res. Toxicol. 2016, 29, 924. ; K. T. Cheung, J. Trevisan, J. G. Kelly, K. M. Ashton, H. F. Stringfellow, S. E. Taylor, M. N. Singh, P. L. Martin-Hirsch, F. L. Martin, Analyst 2011, 136, 2047. ; G. L. Owens, K. Gajjar, J. Trevisan, S. W. Fogarty, S. E. Taylor, B. Da Gama-Rose, P. L. Martin-Hirsch, F. L. Martin, J. Biophotonics 2014, 7, 200. ; P. Duan, B. Liu, C. L. M. Morais, J. Zhao, X. Li, J. Tu, W. Yang, C. Chen, M. Long, X. Feng, F. L. Martin, C. Xiong, Chemosphere 2018, 218, 64. ; J. Y. Li, G. G. Ying, K. C. Jones, F. L. Martin, Analyst 2015, 140, 2687. ; L. A. Austin, S. Osseiran, C. L. Evans, Analyst 2016, 141, 476. ; S. Kumar, A. Srinivasan, F. Nikolajeff, Curr. Med. Chem. 2018, 25, 1055. ; S. A. Mian, C. Yorucu, M. S. Ullah, I. U. Rehman, H. E. Colley, J. Tissue Eng. Regen. Med. 2017, 11, 3253. ; S. Harmsen, M. A. Wall, R. Huang, M. F. Kircher, Nat. Protoc. 2017, 12, 1400. ; K. Lin, W. Zheng, C. M. Lim, Z. W. Huang, Theranostics 2017, 7, 3517. ; H. C. McGregor, M. A. Short, A. McWilliams, T. Shaipanich, D. N. Ionescu, J. Zhao, W. Wang, G. Chen, S. Lam, H. Zeng, J. Biophotonics 2017, 10, 98. ; D. J. Roebuck, D. Aronson, P. Clapuyt, P. Czauderna, J. de Ville, F. de Goyet, G. Gauthier, R. Mackinlay, K. Maibach, O. E. McHugh, J.-B. Olsen, D. Otte, J. Pariente, M. Plaschkes, G. Childs, G. Perilongo, Int Childrhood Liver Tumor Strategy Pediatr. Radiol. 2007, 37, 123. ; L. Cui, H. J. Butler, P. L. Martin-Hirsch, F. L. Martin, Anal. Methods 2016, 8, 481. ; C. Quan, C. Wang, P. Duan, W. Huang, W. Chen, S. Tang, K. Yang, Environ. Toxicol. 2017, 32, 1977. ; J. Trevisan, P. P. Angelov, A. D. Scott, P. L. Carmichael, F. L. Martin, Bioinformatics 2013, 29, 1095. ; P. Skolik, M. R. McAinsh, F. L. Martin, Planta 2019, 249, 925. ; G. B. Jung, I. S. Kang, Y. J. Lee, D. Kim, H. K. Park, G. J. Lee, C. Kim, Curr Opt Photonics 2017, 1, 412. ; A. C. S. Talari, Z. Movasaghi, S. Rehman, I. U. Rehman, Appl Spectrosc Rev 2015, 50, 46. ; M. Szczerbowska-Boruchowska, P. Dumas, M. Z. Kastyak, J. Chwiej, M. Lankosz, D. Adamek, A. Krygowska-Wajs, Arch. Biochem. Biophys. 2007, 459, 241. ; F. Zhang, Q. Huang, J. Yan, X. Zhang, J. Li, Anal. Chem. 2015, 87, 2511. ; B. Vileno, S. Jeney, A. Sienkiewicz, P. R. Marcoux, L. M. Miller, L. Forro, Biophys. Chem. 2010, 152, 164. ; C. Ceylan, T. Tanrikul, H. Ozgener, Food Chem. 2014, 145, 1055. ; Z. Zeng, X. Xu, Y. Zhang, J. Xing, J. Long, L. Gu, X. Wang, D. Sun, W. Ka, W. Yao, Z. Wen, S. Chien, Cell Motil. Cytoskeleton 2007, 64, 186. ; J. D. Pallua, C. Pezzei, B. Zelger, G. Schaefer, L. K. Bittner, V. A. Huck-Pezzei, S. A. Schoenbichler, H. Hahn, A. Kloss-Brandstaetter, F. Kloss, G. K. Bonn, C. W. Huck, Analyst 2012, 137, 3965. ; A. Naemat, H. M. Elsheikha, A. Al-Sandaqchi, K. Kong, A. Ghita, I. Notingher, Analyst 2015, 140, 756. ; A. J. Hobro, N. I. Smith, Vib Spectrosc 2017, 91, 31. ; H. Chen, X. Li, N. Broderick, Y. W. Liu, Y. J. Zhou, J. D. Han, W. L. Xu, J. Biophotonics 2018, 11, e201800016. ; I. Yousef, O. Seksek, S. Gil, Y. Prezado, J. Sule-Suso, I. Martinez-Rovira, Analyst 2016, 141, 2238. ; H. Abramczyk, J. Surmacki, M. Kopec, A. K. Olejnik, K. Lubecka-Pietruszewska, K. Fabianowska-Majewska, Analyst 2015, 140, 2224. ; H. P. Yan, L. J. Roberts, S. S. Davies, P. Pohlmann, F. F. Parl, S. Estes, J. Maeng, B. Parker, R. Mernaugh, Free Radic. Biol. Med. 2017, 106, 62. ; G. Cakmak, L. M. Miller, F. Zorlu, F. Severcan, Arch. Biochem. Biophys. 2012, 520, 67. ; S. Yan, S. Cui, K. Ke, B. Zhao, X. Liu, S. Yue, P. Wang, Anal. Chem. 2018, 90, 6362. ; F. Kucuk Baloglu, S. Garip, S. Heise, G. Brockmann, F. Severcan, Analyst 2015, 140, 2205. ; D. Ackerman, M. C. Simon, Trends Cell Biol. 2014, 24, 472. ; X. Y. Wang, S. C. Moore, M. Laszckzak, J. Ausio, J. Biol. Chem. 2000, 275, 35013. ; Y. Sunami, M. Araki, S. Kan, A. Ito, Y. Hironaka, M. Imai, S. Morishita, A. Ohsaka, N. Komatsu, J. Biol. Chem. 2017, 292, 2815. ; Y. Chen, Q. Huang, W. Liu, Q. Zhu, C. P. Cui, L. Xu, X. Guo, P. Wang, J. Liu, G. Dong, W. Wei, C. H. Liu, Z. Feng, F. He, L. Zhang, Nat. Commun. 2018, 9, 2464. ; J. Dudala, M. B. Bialas, M. Szczerbowska-Boruchowska, M. Bereza-Buziak, A. Budzynski, A. Hubalewska-Dydejczyk, M. Kolodziej, M. Pedziwiatr, M. Lankosz, Pol. J. Pathol. 2016, 67, 60. ; K. Yano, S. Ohoshima, Y. Gotou, K. Kumaido, T. Moriguchi, H. Katayama, Anal. Biochem. 2000, 287, 218. Grant Information: 2016M602310 International China Postdoctoral Science Foundation; 2017QDJZR07 International Doctoral Startup Project of Hubei University of Medicine Contributed Indexing: Keywords: FTIR; Raman; biochemical changes; progression; pure foetal-type hepatoblastoma Substance Nomenclature: 0 (Lipids) ; 0 (Phospholipids) ; IY9XDZ35W2 (Glucose) Entry Date(s): Date Created: 20190418 Date Completed: 20201027 Latest Revision: 20201027 Update Code: 20240513

Klicken Sie ein Format an und speichern Sie dann die Daten oder geben Sie eine Empfänger-Adresse ein und lassen Sie sich per Email zusenden.

BibTeX Citavi, JabRef, u.a.
(Literaturverwaltung)

PDF kein Volltext!
(Merkzettel, Notizen)

RIS Endnote, Citavi u.a.
(Literaturverwaltung)

MODS
(XML zur Weiterverarbeitung)

oder

Wählen Sie das für Sie passende Zitationsformat und kopieren Sie es dann in die Zwischenablage, lassen es sich per Mail zusenden oder speichern es als PDF-Datei.

Gewünschter Zitations-Stil:

oder

Bitte prüfen Sie, ob die Zitation formal korrekt ist, bevor Sie sie in einer Arbeit verwenden. Benutzen Sie gegebenenfalls den "Exportieren"-Dialog, wenn Sie ein Literaturverwaltungsprogramm verwenden und die Zitat-Angaben selbst formatieren wollen.

Fourier transform infrared and Raman-based biochemical profiling of different grades of pure foetal-type hepatoblastoma.