Hypoxia and acidosis independently regulate cell viability and cell death of immortal neuroblastoma (Neuro 2‐A) cells

Hypoxia and acidosis are hallmarks of tumors as well as critical determinants of response to treatments. In present study, we investigate the extent to which changes in O2/CO2 gas ratio may affect the pH and subsequently initiate cell death in malignant neuroblastoma. The data indicate that cell dea...

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Published in:The FASEB Journal
Main Authors: Mazzio, Elizabeth A, Kolta, Malak G, Soliman, Karam F
Other Authors: National Institutes of Health
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2009
Subjects:
Carbonic acid
Online Access:http://dx.doi.org/10.1096/fasebj.23.1_supplement.438.9
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spelling crwiley:10.1096/fasebj.23.1_supplement.438.9 2024-06-02T08:05:13+00:00 Hypoxia and acidosis independently regulate cell viability and cell death of immortal neuroblastoma (Neuro 2‐A) cells Mazzio, Elizabeth A Kolta, Malak G Soliman, Karam F National Institutes of Health 2009 http://dx.doi.org/10.1096/fasebj.23.1_supplement.438.9 en eng Wiley http://onlinelibrary.wiley.com/termsAndConditions#vor The FASEB Journal volume 23, issue S1 ISSN 0892-6638 1530-6860 journal-article 2009 crwiley https://doi.org/10.1096/fasebj.23.1_supplement.438.9 2024-05-03T11:36:41Z Hypoxia and acidosis are hallmarks of tumors as well as critical determinants of response to treatments. In present study, we investigate the extent to which changes in O2/CO2 gas ratio may affect the pH and subsequently initiate cell death in malignant neuroblastoma. The data indicate that cell death occurred in either a closed chamber containing 100% oxygen or atmosphere (.05%CO2) after 24hrs of exposure at 37°C. These effects were also accompanied by a rise in pH within cell culture medium. Under both conditions, toxicity was potentiated by the addition of sodium bicarbonate but prevented by neutralization with acetic acid. In contrast, cells grown in a closed chamber containing 100% pure CO2 underwent cell death tantamount to a drop in pH resulted from the build up of carbonic acid. Under these conditions, toxicity was exacerbated by acetic acid and reversed by neutralization with sodium bicarbonate. These data clearly indicate that while O2 appears to be toxic to cancer cells, the rise in alkalinity is the determining factor in cell death. Moreover, the pH range to which cells thrived was 5.6 to 7.4, where a slight rise in basic pH from 7.4 to 8.0, corresponded to dose dependent cell death mediated by higher levels of O2. These findings suggest a paramount role for alkalinity rather than O2 itself in mediating adverse effects on tumor cells. (Supported by NIH grant NCRR: RR 03020) Article in Journal/Newspaper Carbonic acid Wiley Online Library The FASEB Journal 23 S1
institution Open Polar
collection Wiley Online Library
op_collection_id crwiley
language English
description Hypoxia and acidosis are hallmarks of tumors as well as critical determinants of response to treatments. In present study, we investigate the extent to which changes in O2/CO2 gas ratio may affect the pH and subsequently initiate cell death in malignant neuroblastoma. The data indicate that cell death occurred in either a closed chamber containing 100% oxygen or atmosphere (.05%CO2) after 24hrs of exposure at 37°C. These effects were also accompanied by a rise in pH within cell culture medium. Under both conditions, toxicity was potentiated by the addition of sodium bicarbonate but prevented by neutralization with acetic acid. In contrast, cells grown in a closed chamber containing 100% pure CO2 underwent cell death tantamount to a drop in pH resulted from the build up of carbonic acid. Under these conditions, toxicity was exacerbated by acetic acid and reversed by neutralization with sodium bicarbonate. These data clearly indicate that while O2 appears to be toxic to cancer cells, the rise in alkalinity is the determining factor in cell death. Moreover, the pH range to which cells thrived was 5.6 to 7.4, where a slight rise in basic pH from 7.4 to 8.0, corresponded to dose dependent cell death mediated by higher levels of O2. These findings suggest a paramount role for alkalinity rather than O2 itself in mediating adverse effects on tumor cells. (Supported by NIH grant NCRR: RR 03020)
author2 National Institutes of Health
format Article in Journal/Newspaper
author Mazzio, Elizabeth A
Kolta, Malak G
Soliman, Karam F
spellingShingle Mazzio, Elizabeth A
Kolta, Malak G
Soliman, Karam F
Hypoxia and acidosis independently regulate cell viability and cell death of immortal neuroblastoma (Neuro 2‐A) cells
author_facet Mazzio, Elizabeth A
Kolta, Malak G
Soliman, Karam F
author_sort Mazzio, Elizabeth A
title Hypoxia and acidosis independently regulate cell viability and cell death of immortal neuroblastoma (Neuro 2‐A) cells
title_short Hypoxia and acidosis independently regulate cell viability and cell death of immortal neuroblastoma (Neuro 2‐A) cells
title_full Hypoxia and acidosis independently regulate cell viability and cell death of immortal neuroblastoma (Neuro 2‐A) cells
title_fullStr Hypoxia and acidosis independently regulate cell viability and cell death of immortal neuroblastoma (Neuro 2‐A) cells
title_full_unstemmed Hypoxia and acidosis independently regulate cell viability and cell death of immortal neuroblastoma (Neuro 2‐A) cells
title_sort hypoxia and acidosis independently regulate cell viability and cell death of immortal neuroblastoma (neuro 2‐a) cells
publisher Wiley
publishDate 2009
url http://dx.doi.org/10.1096/fasebj.23.1_supplement.438.9
genre Carbonic acid
genre_facet Carbonic acid
op_source The FASEB Journal
volume 23, issue S1
ISSN 0892-6638 1530-6860
op_rights http://onlinelibrary.wiley.com/termsAndConditions#vor
op_doi https://doi.org/10.1096/fasebj.23.1_supplement.438.9
container_title The FASEB Journal
container_volume 23
container_issue S1
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