Alteration of Cellular Reduction Potential Will Change 64Cu-ATSM Signal With or Without Hypoxia

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doi:10.2967/jnumed.119.230805

Alteration of Cellular Reduction Potential Will Change ⁶⁴Cu-ATSM Signal With or Without Hypoxia

John M. Floberg & Julie K. Schwarz et al. · 2019-10-04

Therapies targeting reductive/oxidative (redox) metabolism hold potential in cancers resistant to chemotherapy and radiation. A redox imaging marker would help identify cancers susceptible to redox-directed therapies. Copper(II)-diacetyl-bis(4-methylthiosemicarbazonato) (Cu-ATSM) is a PET tracer developed for hypoxia imaging that could potentially be used for this purpose. We aimed to demonstrate that Cu-ATSM signal is dependent on cellular redox state, irrespective of hypoxia.

Links

DOI PubMed

Journal

Journal of Nuclear Medicine

Authors

John M. Floberg, Lingjue Wang, Nilantha Bandara, Ramachandran Rashmi, Cedric Mpoy, Joel R. Garbow, Buck E. Rogers, Gary J. Patti, Julie K. Schwarz

Funding

Cancer Center Support Grant Optimizing radiation therapy through the manipulation of glutamine metabolism Developing Metabolomic Technologies to Advance Environmental Exposure Analysis

NCI NIH HHS

P30 CA091842

NCI NIH HHS

R01 CA181745

NIEHS NIH HHS

R35 ES028365