journal contribution
posted on 2023-03-31, 18:46 authored by Juliana Benito, Marc S. Ramirez, Niki Zacharias Millward, Juliana Velez, Karine G. Harutyunyan, Hongbo Lu, Yue-xi Shi, Polina Matre, Rodrigo Jacamo, Helen Ma, Sergej Konoplev, Teresa McQueen, Andrei Volgin, Marina Protopopova, Hong Mu, Jaehyuk Lee, Pratip K. Bhattacharya, Joseph R. Marszalek, R. Eric Davis, James A. Bankson, Jorge E. Cortes, Charles P. Hart, Michael Andreeff, Marina Konopleva <p>Supplementary Figure S1. TH-302 has potent antitumor activity in a 3D in vitro co-culture system of leukemia cells and bone marrow-derived mesenchymal stromal cells that recapitulates the multidimensional BM niche Supplementary Figure S2. Hypoxia is present in spheroids as indicated by PIMO positive staining in spheroids incubated with PIMO for 3hr before harvesting Supplementary figure S3. In vitro synergistic activity of TH-302 in combination with chemotherapy and demethylating agents Supplementary Figure S4. TH-302 has anti-leukemia activity in an in vivo primary AML xenograft murine model. Supplementary figure S5. In vitro synergistic activity of TH-302 in combination with sorafenib Supplementary figure S6 A, B. Assessment of BM hypoxia in AML/ETO bearing mice treated with TH-302 or chemotherapy</p>
Funding
Leukemia and Lymphoma Scholar in Clinical Research
NIH
Leukemia Spore
U.S. Public Health Service
Cancer Prevention and Research Institute of Texas
NCI
MD Anderson Institutional Research
History
ARTICLE ABSTRACT
Purpose: To characterize the prevalence of hypoxia in the leukemic bone marrow, its association with metabolic and transcriptional changes in the leukemic blasts and the utility of hypoxia-activated prodrug TH-302 in leukemia models.Experimental Design: Hyperpolarized magnetic resonance spectroscopy was utilized to interrogate the pyruvate metabolism of the bone marrow in the murine acute myeloid leukemia (AML) model. Nanostring technology was used to evaluate a gene set defining a hypoxia signature in leukemic blasts and normal donors. The efficacy of the hypoxia-activated prodrug TH-302 was examined in the in vitro and in vivo leukemia models.Results: Metabolic imaging has demonstrated increased glycolysis in the femur of leukemic mice compared with healthy control mice, suggesting metabolic reprogramming of hypoxic bone marrow niches. Primary leukemic blasts in samples from AML patients overexpressed genes defining a “hypoxia index” compared with samples from normal donors. TH-302 depleted hypoxic cells, prolonged survival of xenograft leukemia models, and reduced the leukemia stem cell pool in vivo. In the aggressive FLT3/ITD MOLM-13 model, combination of TH-302 with tyrosine kinase inhibitor sorafenib had greater antileukemia effects than either drug alone. Importantly, residual leukemic bone marrow cells in a syngeneic AML model remain hypoxic after chemotherapy. In turn, administration of TH-302 following chemotherapy treatment to mice with residual disease prolonged survival, suggesting that this approach may be suitable for eliminating chemotherapy-resistant leukemia cells.Conclusions: These findings implicate a pathogenic role of hypoxia in leukemia maintenance and chemoresistance and demonstrate the feasibility of targeting hypoxic cells by hypoxia cytotoxins. Clin Cancer Res; 22(7); 1687–98. ©2015 AACR.
