Oral Carbon Monoxide Enhances Autophagy Modulation in Prostate, Pancreatic, and Lung Cancers

Jianling Bi; Emily Witt; Megan K. McGovern; Arielle B. Cafi; Lauren L. Rosenstock; Anna B. Pearson; Timothy J. Brown; Thomas B. Karasic; Lucas C. Absler; Srija Machkanti; Hannah Boyce; David Gallo; Sarah L. Becker; Keiko Ishida; Joshua Jenkins; Alison Hayward; Alexandra Scheiflinger; Kellie L. Bodeker; Ritesh Kumar; Scott K. Shaw; Salma K. Jabbour; Vitor A. Lira; Michael D. Henry; Michael S. Tift; Leo E. Otterbein; Giovanni Traverso; James D. Byrne

doi:10.1002/advs.202308346

Oral Carbon Monoxide Enhances Autophagy Modulation in Prostate, Pancreatic, and Lung Cancers

Jianling Bi, Emily Witt, Megan K. McGovern, Arielle B. Cafi, Lauren L. Rosenstock, Anna B. Pearson, Timothy J. Brown, Thomas B. Karasic, Lucas C. Absler, Srija Machkanti, Hannah Boyce, David Gallo, Sarah L. Becker, Keiko Ishida, Joshua Jenkins, Alison Hayward, Alexandra Scheiflinger, Kellie L. Bodeker, Ritesh Kumar, Scott K. ShawSalma K. Jabbour, Vitor A. Lira, Michael D. Henry, Michael S. Tift, Leo E. Otterbein, Giovanni Traverso, James D. Byrne

Research output: Contribution to journal › Article › peer-review

Abstract

Modulation of autophagy, specifically its inhibition, stands to transform the capacity to effectively treat a broad range of cancers. However, the clinical efficacy of autophagy inhibitors has been inconsistent. To delineate clinical and epidemiological features associated with autophagy inhibition and a positive oncological clinical response, a retrospective analysis of patients is conducted treated with hydroxychloroquine, a known autophagy inhibitor. A direct correlation between smoking status and inhibition of autophagy with hydroxychloroquine is identified. Recognizing that smoking is associated with elevated circulating levels of carbon monoxide (CO), it is hypothesized that supplemental CO can amplify autophagy inhibition. A novel, gas-entrapping material containing CO in a pre-clinical model is applied and demonstrated that CO can dramatically increase the cytotoxicity of autophagy inhibitors and significantly inhibit the growth of tumors when used in combination. These data support the notion that safe, therapeutic levels of CO can markedly enhance the efficacy of autophagy inhibitors, opening a promising new frontier in the quest to improve cancer therapies.

Original language	English (US)
Article number	2308346
Journal	Advanced Science
Volume	11
Issue number	9
DOIs	https://doi.org/10.1002/advs.202308346
State	Published - Mar 6 2024
Externally published	Yes

Keywords

CO biofoams
autophagy modulation
combination therapies
smoking

ASJC Scopus subject areas

Medicine (miscellaneous)
General Chemical Engineering
General Materials Science
Biochemistry, Genetics and Molecular Biology (miscellaneous)
General Engineering
General Physics and Astronomy

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10.1002/advs.202308346

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Bi, J., Witt, E., McGovern, M. K., Cafi, A. B., Rosenstock, L. L., Pearson, A. B., Brown, T. J., Karasic, T. B., Absler, L. C., Machkanti, S., Boyce, H., Gallo, D., Becker, S. L., Ishida, K., Jenkins, J., Hayward, A., Scheiflinger, A., Bodeker, K. L., Kumar, R., ... Byrne, J. D. (2024). Oral Carbon Monoxide Enhances Autophagy Modulation in Prostate, Pancreatic, and Lung Cancers. Advanced Science, 11(9), Article 2308346. https://doi.org/10.1002/advs.202308346

Bi, J, Witt, E, McGovern, MK, Cafi, AB, Rosenstock, LL, Pearson, AB, Brown, TJ, Karasic, TB, Absler, LC, Machkanti, S, Boyce, H, Gallo, D, Becker, SL, Ishida, K, Jenkins, J, Hayward, A, Scheiflinger, A, Bodeker, KL, Kumar, R, Shaw, SK, Jabbour, SK, Lira, VA, Henry, MD, Tift, MS, Otterbein, LE, Traverso, G & Byrne, JD 2024, 'Oral Carbon Monoxide Enhances Autophagy Modulation in Prostate, Pancreatic, and Lung Cancers', Advanced Science, vol. 11, no. 9, 2308346. https://doi.org/10.1002/advs.202308346

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title = "Oral Carbon Monoxide Enhances Autophagy Modulation in Prostate, Pancreatic, and Lung Cancers",

abstract = "Modulation of autophagy, specifically its inhibition, stands to transform the capacity to effectively treat a broad range of cancers. However, the clinical efficacy of autophagy inhibitors has been inconsistent. To delineate clinical and epidemiological features associated with autophagy inhibition and a positive oncological clinical response, a retrospective analysis of patients is conducted treated with hydroxychloroquine, a known autophagy inhibitor. A direct correlation between smoking status and inhibition of autophagy with hydroxychloroquine is identified. Recognizing that smoking is associated with elevated circulating levels of carbon monoxide (CO), it is hypothesized that supplemental CO can amplify autophagy inhibition. A novel, gas-entrapping material containing CO in a pre-clinical model is applied and demonstrated that CO can dramatically increase the cytotoxicity of autophagy inhibitors and significantly inhibit the growth of tumors when used in combination. These data support the notion that safe, therapeutic levels of CO can markedly enhance the efficacy of autophagy inhibitors, opening a promising new frontier in the quest to improve cancer therapies.",

keywords = "CO biofoams, autophagy modulation, combination therapies, smoking",

author = "Jianling Bi and Emily Witt and McGovern, {Megan K.} and Cafi, {Arielle B.} and Rosenstock, {Lauren L.} and Pearson, {Anna B.} and Brown, {Timothy J.} and Karasic, {Thomas B.} and Absler, {Lucas C.} and Srija Machkanti and Hannah Boyce and David Gallo and Becker, {Sarah L.} and Keiko Ishida and Joshua Jenkins and Alison Hayward and Alexandra Scheiflinger and Bodeker, {Kellie L.} and Ritesh Kumar and Shaw, {Scott K.} and Jabbour, {Salma K.} and Lira, {Vitor A.} and Henry, {Michael D.} and Tift, {Michael S.} and Otterbein, {Leo E.} and Giovanni Traverso and Byrne, {James D.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. Advanced Science published by Wiley-VCH GmbH.",

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month = mar,

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doi = "10.1002/advs.202308346",

language = "English (US)",

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AU - Bi, Jianling

AU - Witt, Emily

AU - McGovern, Megan K.

AU - Cafi, Arielle B.

AU - Rosenstock, Lauren L.

AU - Pearson, Anna B.

AU - Brown, Timothy J.

AU - Karasic, Thomas B.

AU - Absler, Lucas C.

AU - Machkanti, Srija

AU - Boyce, Hannah

AU - Gallo, David

AU - Becker, Sarah L.

AU - Ishida, Keiko

AU - Jenkins, Joshua

AU - Hayward, Alison

AU - Scheiflinger, Alexandra

AU - Bodeker, Kellie L.

AU - Kumar, Ritesh

AU - Shaw, Scott K.

AU - Jabbour, Salma K.

AU - Lira, Vitor A.

AU - Henry, Michael D.

AU - Tift, Michael S.

AU - Otterbein, Leo E.

AU - Traverso, Giovanni

AU - Byrne, James D.

PY - 2024/3/6

Y1 - 2024/3/6

N2 - Modulation of autophagy, specifically its inhibition, stands to transform the capacity to effectively treat a broad range of cancers. However, the clinical efficacy of autophagy inhibitors has been inconsistent. To delineate clinical and epidemiological features associated with autophagy inhibition and a positive oncological clinical response, a retrospective analysis of patients is conducted treated with hydroxychloroquine, a known autophagy inhibitor. A direct correlation between smoking status and inhibition of autophagy with hydroxychloroquine is identified. Recognizing that smoking is associated with elevated circulating levels of carbon monoxide (CO), it is hypothesized that supplemental CO can amplify autophagy inhibition. A novel, gas-entrapping material containing CO in a pre-clinical model is applied and demonstrated that CO can dramatically increase the cytotoxicity of autophagy inhibitors and significantly inhibit the growth of tumors when used in combination. These data support the notion that safe, therapeutic levels of CO can markedly enhance the efficacy of autophagy inhibitors, opening a promising new frontier in the quest to improve cancer therapies.

AB - Modulation of autophagy, specifically its inhibition, stands to transform the capacity to effectively treat a broad range of cancers. However, the clinical efficacy of autophagy inhibitors has been inconsistent. To delineate clinical and epidemiological features associated with autophagy inhibition and a positive oncological clinical response, a retrospective analysis of patients is conducted treated with hydroxychloroquine, a known autophagy inhibitor. A direct correlation between smoking status and inhibition of autophagy with hydroxychloroquine is identified. Recognizing that smoking is associated with elevated circulating levels of carbon monoxide (CO), it is hypothesized that supplemental CO can amplify autophagy inhibition. A novel, gas-entrapping material containing CO in a pre-clinical model is applied and demonstrated that CO can dramatically increase the cytotoxicity of autophagy inhibitors and significantly inhibit the growth of tumors when used in combination. These data support the notion that safe, therapeutic levels of CO can markedly enhance the efficacy of autophagy inhibitors, opening a promising new frontier in the quest to improve cancer therapies.

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Oral Carbon Monoxide Enhances Autophagy Modulation in Prostate, Pancreatic, and Lung Cancers

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Keywords

ASJC Scopus subject areas

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