Raman spectroscopy detects metabolic signatures of radiation response and hypoxic fluctuations in non-small cell lung cancer

Raman spectroscopy detects metabolic signatures of radiation response and hypoxic fluctuations in non-small cell lung cancer

Abstract Background Radiation therapy is a standard form of treating non-small cell lung cancer, however, local recurrence is a major issue with this type of treatment. A better understanding of the metabolic response to radiation therapy may provide insight into improved approaches for local tumour...

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Main Authors: Samantha J. Van Nest, Leah M. Nicholson, Nils Pavey, Mathew N. Hindi, Alexandre G. Brolo, Andrew Jirasek, Julian J. Lum
Format: Article
Language:English
Published: BMC 2019-05-01
Series:BMC Cancer
Subjects:
Raman spectroscopy
Non-small cell lung cancer
Hypoxia
Reoxygenation
Ionizing radiation
Immunofluorescence
Online Access:http://link.springer.com/article/10.1186/s12885-019-5686-1
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spelling doaj-58792430083d40eda0b286f9c07347622020-11-25T03:48:44ZengBMCBMC Cancer1471-24072019-05-0119111310.1186/s12885-019-5686-1Raman spectroscopy detects metabolic signatures of radiation response and hypoxic fluctuations in non-small cell lung cancerSamantha J. Van Nest0Leah M. Nicholson1Nils Pavey2Mathew N. Hindi3Alexandre G. Brolo4Andrew Jirasek5Julian J. Lum6Department of Physics and Astronomy, University of VictoriaTrev and Joyce Deeley Research Centre, BC CancerTrev and Joyce Deeley Research Centre, BC CancerTrev and Joyce Deeley Research Centre, BC CancerDepartment of Chemistry, University of VictoriaDepartment of Physics, I.K. Barber School of Arts and Sciences, University of British Columbia-OkanaganTrev and Joyce Deeley Research Centre, BC CancerAbstract Background Radiation therapy is a standard form of treating non-small cell lung cancer, however, local recurrence is a major issue with this type of treatment. A better understanding of the metabolic response to radiation therapy may provide insight into improved approaches for local tumour control. Cyclic hypoxia is a well-established determinant that influences radiation response, though its impact on other metabolic pathways that control radiosensitivity remains unclear. Methods We used an established Raman spectroscopic (RS) technique in combination with immunofluorescence staining to measure radiation-induced metabolic responses in human non-small cell lung cancer (NSCLC) tumour xenografts. Tumours were established in NOD.CB17-Prkdcscid/J mice, and were exposed to radiation doses of 15 Gy or left untreated. Tumours were harvested at 2 h, 1, 3 and 10 days post irradiation. Results We report that xenografted NSCLC tumours demonstrate rapid and stable metabolic changes, following exposure to 15 Gy radiation doses, which can be measured by RS and are dictated by the extent of local tissue oxygenation. In particular, fluctuations in tissue glycogen content were observed as early as 2 h and as late as 10 days post irradiation. Metabolically, this signature was correlated to the extent of tumour regression. Immunofluorescence staining for γ–H2AX, pimonidazole and carbonic anhydrase IX (CAIX) correlated with RS-identified metabolic changes in hypoxia and reoxygenation following radiation exposure. Conclusion Our results indicate that RS can identify sequential changes in hypoxia and tumour reoxygenation in NSCLC, that play crucial roles in radiosensitivity.http://link.springer.com/article/10.1186/s12885-019-5686-1Raman spectroscopyNon-small cell lung cancerHypoxiaReoxygenationIonizing radiationImmunofluorescence
collection DOAJ
language English
format Article
sources DOAJ
author Samantha J. Van Nest
Leah M. Nicholson
Nils Pavey
Mathew N. Hindi
Alexandre G. Brolo
Andrew Jirasek
Julian J. Lum
spellingShingle Samantha J. Van Nest
Leah M. Nicholson
Nils Pavey
Mathew N. Hindi
Alexandre G. Brolo
Andrew Jirasek
Julian J. Lum
Raman spectroscopy detects metabolic signatures of radiation response and hypoxic fluctuations in non-small cell lung cancer
BMC Cancer
Raman spectroscopy
Non-small cell lung cancer
Hypoxia
Reoxygenation
Ionizing radiation
Immunofluorescence
author_facet Samantha J. Van Nest
Leah M. Nicholson
Nils Pavey
Mathew N. Hindi
Alexandre G. Brolo
Andrew Jirasek
Julian J. Lum
author_sort Samantha J. Van Nest
title Raman spectroscopy detects metabolic signatures of radiation response and hypoxic fluctuations in non-small cell lung cancer
title_short Raman spectroscopy detects metabolic signatures of radiation response and hypoxic fluctuations in non-small cell lung cancer
title_full Raman spectroscopy detects metabolic signatures of radiation response and hypoxic fluctuations in non-small cell lung cancer
title_fullStr Raman spectroscopy detects metabolic signatures of radiation response and hypoxic fluctuations in non-small cell lung cancer
title_full_unstemmed Raman spectroscopy detects metabolic signatures of radiation response and hypoxic fluctuations in non-small cell lung cancer
title_sort raman spectroscopy detects metabolic signatures of radiation response and hypoxic fluctuations in non-small cell lung cancer
publisher BMC
series BMC Cancer
issn 1471-2407
publishDate 2019-05-01
description Abstract Background Radiation therapy is a standard form of treating non-small cell lung cancer, however, local recurrence is a major issue with this type of treatment. A better understanding of the metabolic response to radiation therapy may provide insight into improved approaches for local tumour control. Cyclic hypoxia is a well-established determinant that influences radiation response, though its impact on other metabolic pathways that control radiosensitivity remains unclear. Methods We used an established Raman spectroscopic (RS) technique in combination with immunofluorescence staining to measure radiation-induced metabolic responses in human non-small cell lung cancer (NSCLC) tumour xenografts. Tumours were established in NOD.CB17-Prkdcscid/J mice, and were exposed to radiation doses of 15 Gy or left untreated. Tumours were harvested at 2 h, 1, 3 and 10 days post irradiation. Results We report that xenografted NSCLC tumours demonstrate rapid and stable metabolic changes, following exposure to 15 Gy radiation doses, which can be measured by RS and are dictated by the extent of local tissue oxygenation. In particular, fluctuations in tissue glycogen content were observed as early as 2 h and as late as 10 days post irradiation. Metabolically, this signature was correlated to the extent of tumour regression. Immunofluorescence staining for γ–H2AX, pimonidazole and carbonic anhydrase IX (CAIX) correlated with RS-identified metabolic changes in hypoxia and reoxygenation following radiation exposure. Conclusion Our results indicate that RS can identify sequential changes in hypoxia and tumour reoxygenation in NSCLC, that play crucial roles in radiosensitivity.
topic Raman spectroscopy
Non-small cell lung cancer
Hypoxia
Reoxygenation
Ionizing radiation
Immunofluorescence
url http://link.springer.com/article/10.1186/s12885-019-5686-1
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