TY - JOUR
T1 - Metformin-Induced Receptor Turnover Alters Antibody Accumulation in HER-Expressing Tumors
AU - Panikar, Sandeep Surendra
AU - Keltee, Nai
AU - Berry, Na Keysha
AU - Shmuel, Shayla
AU - Fisher, Zachary T.
AU - Brown, Emma
AU - Zidel, Abbey
AU - Mabry, Alex
AU - Pereira, Patrícia M.R.
N1 - Publisher Copyright:
COPYRIGHT © 2023 by the Society of Nuclear Medicine and Molecular Imaging.
PY - 2023
Y1 - 2023
N2 - Metformin has effects beyond its antihyperglycemic properties, including altering the localization of membrane receptors in cancer cells. Metformin decreases human epidermal growth factor receptor (HER) membrane density. Depletion of cell-surface HER decreases antibody–tumor binding for imaging and therapeutic approaches. Here, we used HER-targeted PET to annotate antibody–tumor binding in mice treated with metformin. Methods: Small-animal PET annotated antibody binding in HER-expressing xenografts on administration of an acute versus a daily dose schedule of metformin. Analyses at the protein level in the total, membrane, and internalized cell extracts were performed to determine receptor endocytosis, HER surface and internalized protein levels, and HER phosphorylation. Results: At 24 h after injection of radiolabeled anti-HER antibodies, control tumors had higher antibody accumulation than tumors treated with an acute dose of metformin. These differences were temporal, and by 72 h, tumor uptake in acute cohorts was similar to uptake in control. Additional PET imaging revealed a sustained decrease in tumor uptake on daily metformin treatment compared with control and acute metformin cohorts. The effects of metformin on membrane HER were reversible, and after its removal, antibody–tumor binding was restored. The time- and dose-dependent effects of metformin-induced HER depletion observed preclinically were validated with immunofluorescence, fractionation, and protein analysis cell assays. Conclusion: The findings that metformin decreases cell-surface HER receptors and reduces antibody–tumor binding may have significant implications for the use of antibodies targeting these receptors in cancer treatment and molecular imaging.
AB - Metformin has effects beyond its antihyperglycemic properties, including altering the localization of membrane receptors in cancer cells. Metformin decreases human epidermal growth factor receptor (HER) membrane density. Depletion of cell-surface HER decreases antibody–tumor binding for imaging and therapeutic approaches. Here, we used HER-targeted PET to annotate antibody–tumor binding in mice treated with metformin. Methods: Small-animal PET annotated antibody binding in HER-expressing xenografts on administration of an acute versus a daily dose schedule of metformin. Analyses at the protein level in the total, membrane, and internalized cell extracts were performed to determine receptor endocytosis, HER surface and internalized protein levels, and HER phosphorylation. Results: At 24 h after injection of radiolabeled anti-HER antibodies, control tumors had higher antibody accumulation than tumors treated with an acute dose of metformin. These differences were temporal, and by 72 h, tumor uptake in acute cohorts was similar to uptake in control. Additional PET imaging revealed a sustained decrease in tumor uptake on daily metformin treatment compared with control and acute metformin cohorts. The effects of metformin on membrane HER were reversible, and after its removal, antibody–tumor binding was restored. The time- and dose-dependent effects of metformin-induced HER depletion observed preclinically were validated with immunofluorescence, fractionation, and protein analysis cell assays. Conclusion: The findings that metformin decreases cell-surface HER receptors and reduces antibody–tumor binding may have significant implications for the use of antibodies targeting these receptors in cancer treatment and molecular imaging.
KW - HER family
KW - PET imaging
KW - metformin
UR - http://www.scopus.com/inward/record.url?scp=85166387599&partnerID=8YFLogxK
U2 - 10.2967/jnumed.122.265248
DO - 10.2967/jnumed.122.265248
M3 - Article
C2 - 37268425
AN - SCOPUS:85166387599
SN - 0161-5505
VL - 64
SP - 1195
EP - 1202
JO - Journal of Nuclear Medicine
JF - Journal of Nuclear Medicine
IS - 8
ER -