Your search keyword '"Evofosfamide"' showing total 1,560 results

51. Data from Combined Antitumor Therapy with Metronomic Topotecan and Hypoxia-Activated Prodrug, Evofosfamide, in Neuroblastoma and Rhabdomyosarcoma Preclinical Models

Author

Sylvain Baruchel, Paul Thorner, Sushil Kumar, Bing Wu, Paula Marrano, and Libo Zhang

Abstract

Purpose: Tumor cells residing in tumor hypoxic zones are a major cause of drug resistance and tumor relapse. In this study, we investigated the efficacy of evofosfamide, a hypoxia-activated prodrug, and its combination with topotecan in neuroblastoma and rhabdomyosarcoma preclinical models.Experimental Design: Neuroblastoma and rhabdomyosarcoma cells were tested in vitro to assess the effect of evofosfamide on cell proliferation, both as a single agent and in combination with topotecan. In vivo antitumor activity was evaluated in different xenograft models. Animal survival was studied with the neuroblastoma metastatic tumor model.Results: All tested cell lines showed response to evofosfamide under normoxic conditions, but when exposed to hypoxia overnight, a 2- to 65-fold decrease of IC50 was observed. Adding topotecan to the evofosfamide treatment significantly increased cytotoxicity in vitro. In neuroblastoma xenograft models, single-agent evofosfamide treatment delayed tumor growth. Complete tumor regression was observed in the combined topotecan/evofosfamide treatment group after 2-week treatment. Combined treatment also improved survival in a neuroblastoma metastatic model, compared to single-agent treatments. In rhabdomyosarcoma xenograft models, combined treatment was more effective than single agents. We also showed that evofosfamide mostly targeted tumor cells within hypoxic regions while topotecan was more effective to tumor cells in normoxic regions. Combined treatment induced tumor cell apoptosis in both normoxic and hypoxic regions.Conclusions: Evofosfamide shows antitumor effects in neuroblastoma and rhabdomyosarcoma xenografts. Compared with single-agent, evofosfamide/topotecan, combined therapy improves tumor response, delays tumor relapse, and enhances animal survival in preclinical tumor models. Clin Cancer Res; 22(11); 2697–708. ©2015 AACR.

Published

2023

52. Supplementary Figure 2 from Combined Antitumor Therapy with Metronomic Topotecan and Hypoxia-Activated Prodrug, Evofosfamide, in Neuroblastoma and Rhabdomyosarcoma Preclinical Models

Author

Sylvain Baruchel, Paul Thorner, Sushil Kumar, Bing Wu, Paula Marrano, and Libo Zhang

Abstract

Continued 3-day hypoxia does not increase cytotoxicity of evofosfamide compared to overnight hypoxia. A panel of two NBL cell lines (CHLA-20 and SK-N-BE(2)) and two rhabdomyosarcoma cell line (RH4 and RD) were selected to assess the effects of evofosfamide on cell proliferation in vitro. Cell viability was measured by Alamar Blue assays after exposing tumor cells to increasing concentrations of evofosfamide in vitro for 72 hours under normoxia, 1% O2 for 2 hours, 1% O2 overnight, or 1% O2 for three days. Dose-response curves were fit to the data by GraphPad Prism software.

Published

2023

53. Data from Preclinical Benefit of Hypoxia-Activated Intra-arterial Therapy with Evofosfamide in Liver Cancer

Author

Jean-François Geschwind, Charles P. Hart, Jessica D. Sun, MingDe Lin, Constantine Frangakis, Rüdiger E. Schernthaner, Julius Chapiro, Juvenal Reyes, Boris Gorodetski, Toby C. Cornish, Cory F. Brayton, Shanmugasundaram Ganapathy-Kanniappan, Vasily Pekurovsky, Sahar Mirpour, and Rafael Duran

Abstract

Purpose: To evaluate safety and characterize anticancer efficacy of hepatic hypoxia-activated intra-arterial therapy (HAIAT) with evofosfamide in a rabbit model.Experimental Design: VX2-tumor-bearing rabbits were assigned to 4 intra-arterial therapy (IAT) groups (n = 7/group): (i) saline (control); (ii) evofosfamide (Evo); (iii) doxorubicin–lipiodol emulsion followed by embolization with 100–300 μm beads (conventional, cTACE); or (iv) cTACE and evofosfamide (cTACE + Evo). Blood samples were collected pre-IAT and 1, 2, 7, and 14 days post-IAT. A semiquantitative scoring system assessed hepatocellular damage. Tumor volumes were segmented on multidetector CT (baseline, 7/14 days post-IAT). Pathologic tumor necrosis was quantified using manual segmentation on whole-slide images. Hypoxic fraction (HF) and compartment (HC) were determined by pimonidazole staining. Tumor DNA damage, apoptosis, cell proliferation, endogenous hypoxia, and metabolism were quantified (γ-H2AX, Annexin V, caspase-3, Ki-67, HIF1α, VEGF, GAPDH, MCT4, and LDH).Results: cTACE + Evo showed a similar profile of liver enzymes elevation and pathologic scores compared with cTACE. Neither hematologic nor renal toxicity were observed. Animals treated with cTACE + Evo demonstrated smaller tumor volumes, lower tumor growth rates, and higher necrotic fractions compared with cTACE. cTACE + Evo resulted in a marked reduction in the HF and HC. Correlation was observed between decreases in HF or HC and tumor necrosis. cTACE + Evo promoted antitumor effects as evidenced by increased expression of γ-H2AX, apoptotic biomarkers, and decreased cell proliferation. Increased HIF1α/VEGF expression and tumor glycolysis supported HAIAT.Conclusions: HAIAT achieved a promising step towards the locoregional targeting of tumor hypoxia. The favorable toxicity profile and enhanced anticancer effects of evofosfamide in combination with cTACE pave the way towards clinical trials in patients with liver cancer. Clin Cancer Res; 23(2); 536–48. ©2016 AACR.

Published

2023

54. Data from Administration of Hypoxia-Activated Prodrug Evofosfamide after Conventional Adjuvant Therapy Enhances Therapeutic Outcome and Targets Cancer-Initiating Cells in Preclinical Models of Colorectal Cancer

Author

Catherine A. O'Brien, Myles Smith, David A. Jaffray, Ur Metser, Bradly G. Wouters, Benjamin Haibe-Kains, Douglass C. Vines, Eva Szentgyorgyi, Robin Wolman, Antonija Kreso, Evelyne Lima-Fernandes, Deena M.A. Gendoo, Cherry Leung, Yadong Wang, Andrew Haller, Trevor D. McKee, and Jennifer Haynes

Abstract

Purpose: Cancer-initiating cells (C-IC) have been described in multiple cancer types, including colorectal cancer. C-ICs are defined by their capacity to self-renew, thereby driving tumor growth. C-ICs were initially thought to be static entities; however, recent studies have determined these cells to be dynamic and influenced by microenvironmental cues such as hypoxia. If hypoxia drives the formation of C-ICs, then therapeutic targeting of hypoxia could represent a novel means to target C-ICs.Experimental Design: Patient-derived colorectal cancer xenografts were treated with evofosfamide, a hypoxia-activated prodrug (HAP), in combination with 5-fluorouracil (5-FU) or chemoradiotherapy (5-FU and radiation; CRT). Treatment groups included both concurrent and sequential dosing regimens. Effects on the colorectal cancer-initiating cell (CC-IC) fraction were assessed by serial passage in vivo limiting dilution assays. FAZA-PET imaging was utilized as a noninvasive method to assess intratumoral hypoxia.Results: Hypoxia was sufficient to drive the formation of CC-ICs and colorectal cancer cells surviving conventional therapy were more hypoxic and C-IC-like. Using a novel approach to combination therapy, we show that sequential treatment with 5-FU or CRT followed by evofosfamide not only inhibits tumor growth of xenografts compared with 5-FU or CRT alone, but also significantly decreases the CC-IC fraction. Furthermore, noninvasive FAZA-PET hypoxia imaging was predictive of a tumor's response to evofosfamide.Conclusions: Our data demonstrate a novel means to target the CC-IC fraction by adding a HAP sequentially after conventional adjuvant therapy, as well as the use of FAZA-PET as a biomarker for hypoxia to identify tumors that will benefit most from this approach. Clin Cancer Res; 24(9); 2116–27. ©2018 AACR.

Published

2023

55. 18F-FMISO PET Imaging Identifies Hypoxia and Immunosuppressive Tumor Microenvironments and Guides Targeted Evofosfamide Therapy in Tumors Refractory to PD-1 and CTLA-4 Inhibition

Author

Anna G. Sorace, Eddy S. Yang, Benjamin M. Larimer, Deborah L. Della Manna, Yufeng Li, Patrick N. Song, Allyson Angermeier, Jianbo Wang, and Kirsten Reeves

Subjects

Cancer Research, Tumor microenvironment, Evofosfamide, Tumor hypoxia, business.industry, medicine.medical_treatment, Immunotherapy, Hypoxia (medical), Immune checkpoint, Article, chemistry.chemical_compound, Immune system, Oncology, chemistry, CTLA-4, Cancer research, medicine, medicine.symptom, business

Abstract

Purpose: Hypoxia is a common characteristic of many tumor microenvironments, and it has been shown to promote suppression of antitumor immunity. Despite strong biological rationale, longitudinal correlation of hypoxia and response to immunotherapy has not been investigated. Experimental Design: In this study, we probed the tumor and its surrounding microenvironment with 18F-FMISO PET imaging to noninvasively quantify tumor hypoxia in vivo prior to and during PD-1 and CTLA-4 checkpoint blockade in preclinical models of breast and colon cancer. Results: Longitudinal imaging identified hypoxia as an early predictive biomarker of therapeutic response (prior to anatomic changes in tumor volume) with a decreasing standard uptake value (SUV) ratio in tumors that effectively respond to therapy. PET signal correlated with ex vivo markers of tumor immune response including cytokines (IFNγ, GZMB, and TNF), damage-associated molecular pattern receptors (TLR2/4), and immune cell populations (macrophages, dendritic cells, and cytotoxic T cells). Responding tumors were marked by increased inflammation that were spatially distinct from hypoxic regions, providing a mechanistic understanding of the immune signaling pathways activated. To exploit image-guided combination therapy, hypoxia signal from PET imaging was used to guide the addition of a hypoxia targeted treatment to nonresponsive tumors, which ultimately provided therapeutic synergy and rescued response as determined by longitudinal changes in tumor volume. Conclusions: The results generated from this work provide an immediately translatable paradigm for measuring and targeting hypoxia to increase response to immune checkpoint therapy and using hypoxia imaging to guide combinatory therapies.

Published

2021

56. Evofosfamide Is Effective against Pediatric Aggressive Glioma Cell Lines in Hypoxic Conditions and Potentiates the Effect of Cytotoxic Chemotherapy and Ionizing Radiations

Author

Angel M. Carcaboso, Xuefen Le Bourhis, Samuel Meignan, Alessandro Furlan, Pauline Navarin, Mélanie Arcicasa, Christine Bal-Mahieu, Pierre Leblond, and Quentin Bailleul

Subjects

0301 basic medicine, Cancer Research, medicine.medical_treatment, lcsh:RC254-282, Article, Evofosfamide, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Glioma, medicine, Doxorubicin, Clonogenic assay, Etoposide, radiotherapy, Chemotherapy, child, business.industry, hypoxia, Hypoxia (medical), lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, Radiation therapy, 030104 developmental biology, Oncology, chemistry, 030220 oncology & carcinogenesis, Cancer research, DIPG, medicine.symptom, business, high-grade glioma, medicine.drug

Abstract

Simple Summary Despite many therapeutic approaches attempted over the last years, the prognosis of children with high-grade glioma or diffuse intrinsic pontine glioma remains dismal. Hypoxia-activated prodrugs (HAPs) were developed to target hypoxic areas within solid tumors as gliomas. Evofosfamide (Evo) is a 2nd generation HAP exhibiting significant preclinical and clinical activities against adult glioblastoma. We thus investigated the potential of Evo in six pediatric glioma cell lines. Interestingly, we showed that the growth of all cell lines was inhibited by Evo, mainly under hypoxia as expected. We also evidenced a significant synergism between Evo and three drugs widely used in pediatric oncology. Finally, Evo appeared able to potentiate the effect of ionizing radiations. Since these tumors are highly hypoxic and Evo appears effective in hypoxic glioma cells as a single drug and in combination with radio- and chemotherapy, hypoxia-activated prodrugs could represent a promising therapeutic option for children with brain tumors. Abstract Hypoxia is a hallmark of many solid tumors and is associated with resistance to anticancer treatments. Hypoxia-activated prodrugs (HAPs) were developed to target the hypoxic regions of these tumors. Among 2nd generation HAPs, Evofosfamide (Evo, also known as TH-302) exhibits preclinical and clinical activities against adult glioblastoma. In this study, we evaluated its potential in the field of pediatric neuro-oncology. We assessed the efficacy of Evo in vitro as a single drug, or in combination with SN38, doxorubicin, and etoposide, against three pediatric high-grade glioma (pHGG) and three diffuse intrinsic pontine glioma (DIPG) cell lines under hypoxic conditions. We also investigated radio-sensitizing effects using clonogenic assays. Evo inhibited the growth of all cell lines, mainly under hypoxia. We also highlighted a significant synergism between Evo and doxorubicin, SN38, or etoposide. Finally, Evo radio-sensitized the pHGG cell line tested, both with fractionated and single-dose irradiation schedules. Altogether, we report here the first preclinical proof of evidence about Evofosfamide efficiency against hypoxic pHGG and DIPG cells. Since such tumors are highly hypoxic, and Evo potentiates the effect of ionizing radiation and chemotherapy, it appears as a promising therapeutic strategy for children with brain tumors.

Published

2021

57. Hypoxia-Activated Prodrug Evofosfamide Treatment in Pancreatic Ductal Adenocarcinoma Xenografts Alters the Tumor Redox Status to Potentiate Radiotherapy.

Author

Kishimoto, Shun, Brender, Jeffrey R., Chandramouli, Gadisetti V.R., Saida, Yu, Yamamoto, Kazutoshi, Mitchell, James B., and Krishna, Murali C.

Published

2021

58. Phase IB study of sorafenib and evofosfamide in patients with advanced hepatocellular and renal cell carcinomas (NCCTG N1135, Alliance)

Author

Nguyen H Tran, Joleen M. Hubbard, Steven R. Alberts, Thomas J. Byrne, Alvin C. Silva, Nathan R. Foster, Kabir Mody, Mitesh J. Borad, and Amit Mahipal

Subjects

0301 basic medicine, Sorafenib, Male, medicine.medical_specialty, Carcinoma, Hepatocellular, Maximum Tolerated Dose, Nausea, Gastroenterology, Article, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, Antineoplastic Combined Chemotherapy Protocols, medicine, Mucositis, Humans, Pharmacology (medical), Adverse effect, neoplasms, Carcinoma, Renal Cell, Aged, Pharmacology, Evofosfamide, business.industry, Liver Neoplasms, Middle Aged, medicine.disease, Rash, Kidney Neoplasms, 030104 developmental biology, Treatment Outcome, Oncology, chemistry, Nitroimidazoles, 030220 oncology & carcinogenesis, Hepatocellular carcinoma, Vomiting, Female, Phosphoramide Mustards, medicine.symptom, business, medicine.drug

Abstract

Background: Sorafenib (Sor) remains a first-line option for hepatocellular carcinoma (HCC) or refractory renal cell carcinomas (RCC). PLC/PRF/5 HCC model showed upregulation of hypoxia with enhanced efficacy when Sor is combined with hypoxia-activated prodrug evofosfamide (Evo). Methods: This phase IB 3 + 3 design investigated 3 Evo dose levels (240, 340, 480 mg/m2 on days 8, 15, 22), combined with Sor 200 mg orally twice daily (po bid) on days 1-28 of a 28-day cycle. Primary objectives included determining maximum tolerated dose (MTD) and recommended phase II dose (RP2D) of Sor + Evo. Results: Eighteen patients were enrolled (median age 62.5 years; 17 male /1 female; 12 HCC/6 RCC) across three dose levels (DL0: Sor 200 mg bid/Evo 240 mg/m2 [n=6], DL1:Sor 200 mg bid/Evo 480 mg/m2 [n=5], DL1a: Sor 200 mg bid/Evo 340 mg/m2 [n=7]). Two dose-limiting toxicities (DLTs) were reported with Evo 480 mg/m2 (grade 3 mucositis, grade 4 hepatic failure). Grade 3 rash DLT was observed in one patient at Evo 240 mg/m2. No DLTs were observed at Evo 340 mg/m2. MTD and RP2D were established as Sor 200 mg/Evo 340 mg/m2 and Sor 200/Evo 240 mg/m2, respectively. The most common treatment-related adverse events included fatigue, hand-foot syndrome, hypertension, and nausea/vomiting. Two partial responses were observed, one each at DL0 and DL1a.; disease control rate was 55%.Conclusions: RP2D was established as sorafenib 200 mg bid + Evo 240 mg/m2. While preliminary anti-tumor activity was observed, future development must account for advances in immunotherapy in HCC/RCC. NCT01497444Date of registration December 20, 2011

Published

2021

59. Supplementary Figure 4 from Combined Antitumor Therapy with Metronomic Topotecan and Hypoxia-Activated Prodrug, Evofosfamide, in Neuroblastoma and Rhabdomyosarcoma Preclinical Models

Author

Sylvain Baruchel, Paul Thorner, Sushil Kumar, Bing Wu, Paula Marrano, and Libo Zhang

Abstract

Topotecan enhanced intracellular ROS in rhabdomyosarcoma cells under hypoxia. Tumor cells were exposed different concentrations of evofosfamide overnight with or without the presence of topotecan (20nM). DCFDA assay was performed as described above. The results are expressed as the percentage of DCF fluorescence intensity with respect to controls cells under normoxia. Data are means {plus minus} SEM of three independent experiments. *P

Published

2023

60. Supplementary Data from 18F-FMISO PET Imaging Identifies Hypoxia and Immunosuppressive Tumor Microenvironments and Guides Targeted Evofosfamide Therapy in Tumors Refractory to PD-1 and CTLA-4 Inhibition

Author

Benjamin M. Larimer, Anna G. Sorace, Eddy S. Yang, Jianbo Wang, Yufeng Li, Deborah Della Manna, Allyson Angermeier, Patrick N. Song, and Kirsten M. Reeves

Abstract

Supplementary Data from 18F-FMISO PET Imaging Identifies Hypoxia and Immunosuppressive Tumor Microenvironments and Guides Targeted Evofosfamide Therapy in Tumors Refractory to PD-1 and CTLA-4 Inhibition

Published

2023

61. Evofosfamide Is Effective against Pediatric Aggressive Glioma Cell Lines in Hypoxic Conditions and Potentiates the Effect of Cytotoxic Chemotherapy and Ionizing Radiations

Author

Bailleul Q, Navarin P, Arcicasa M, Bal-Mahieu C, Carcaboso AM, Le Bourhis X, Furlan A, Meignan S, and Leblond P

Subjects

child, hypoxia, DIPG, high-grade glioma, radiotherapy, Evofosfamide

Abstract

Simple Summary Despite many therapeutic approaches attempted over the last years, the prognosis of children with high-grade glioma or diffuse intrinsic pontine glioma remains dismal. Hypoxia-activated prodrugs (HAPs) were developed to target hypoxic areas within solid tumors as gliomas. Evofosfamide (Evo) is a 2nd generation HAP exhibiting significant preclinical and clinical activities against adult glioblastoma. We thus investigated the potential of Evo in six pediatric glioma cell lines. Interestingly, we showed that the growth of all cell lines was inhibited by Evo, mainly under hypoxia as expected. We also evidenced a significant synergism between Evo and three drugs widely used in pediatric oncology. Finally, Evo appeared able to potentiate the effect of ionizing radiations. Since these tumors are highly hypoxic and Evo appears effective in hypoxic glioma cells as a single drug and in combination with radio- and chemotherapy, hypoxia-activated prodrugs could represent a promising therapeutic option for children with brain tumors. Hypoxia is a hallmark of many solid tumors and is associated with resistance to anticancer treatments. Hypoxia-activated prodrugs (HAPs) were developed to target the hypoxic regions of these tumors. Among 2nd generation HAPs, Evofosfamide (Evo, also known as TH-302) exhibits preclinical and clinical activities against adult glioblastoma. In this study, we evaluated its potential in the field of pediatric neuro-oncology. We assessed the efficacy of Evo in vitro as a single drug, or in combination with SN38, doxorubicin, and etoposide, against three pediatric high-grade glioma (pHGG) and three diffuse intrinsic pontine glioma (DIPG) cell lines under hypoxic conditions. We also investigated radio-sensitizing effects using clonogenic assays. Evo inhibited the growth of all cell lines, mainly under hypoxia. We also highlighted a significant synergism between Evo and doxorubicin, SN38, or etoposide. Finally, Evo radio-sensitized the pHGG cell line tested, both with fractionated and single-dose irradiation schedules. Altogether, we report here the first preclinical proof of evidence about Evofosfamide efficiency against hypoxic pHGG and DIPG cells. Since such tumors are highly hypoxic, and Evo potentiates the effect of ionizing radiation and chemotherapy, it appears as a promising therapeutic strategy for children with brain tumors.

Published

2021

62. Doxorubicin plus evofosfamide versus doxorubicin alone in locally advanced, unresectable or metastatic soft-tissue sarcoma (TH CR-406/SARC021):an international, multicentre, open-label, randomised phase 3 trial

Author

Tap, William D, Papai, Zsuzsanna, Van Tine, Brian A, Attia, Steven, Ganjoo, Kristen N, Jones, Robin L, Schuetze, Scott, Reed, Damon, Chawla, Sant P, Riedel, Richard F, Krarup-Hansen, Anders, Toulmonde, Maud, Ray-Coquard, Isabelle, Hohenberger, Peter, Grignani, Giovanni, Cranmer, Lee D, Okuno, Scott, Agulnik, Mark, Read, William, Ryan, Christopher W, Alcindor, Thierry, Del Muro, Xavier F Garcia, Budd, G Thomas, Tawbi, Hussein, Pearce, Tillman, Kroll, Stew, Reinke, Denise K, Schöffski, Patrick, Tap, William D, Papai, Zsuzsanna, Van Tine, Brian A, Attia, Steven, Ganjoo, Kristen N, Jones, Robin L, Schuetze, Scott, Reed, Damon, Chawla, Sant P, Riedel, Richard F, Krarup-Hansen, Anders, Toulmonde, Maud, Ray-Coquard, Isabelle, Hohenberger, Peter, Grignani, Giovanni, Cranmer, Lee D, Okuno, Scott, Agulnik, Mark, Read, William, Ryan, Christopher W, Alcindor, Thierry, Del Muro, Xavier F Garcia, Budd, G Thomas, Tawbi, Hussein, Pearce, Tillman, Kroll, Stew, Reinke, Denise K, and Schöffski, Patrick

Abstract

BACKGROUND: Evofosfamide is a hypoxia-activated prodrug of bromo-isophosphoramide mustard. We aimed to assess the benefit of adding evofosfamide to doxorubicin as first-line therapy for advanced soft-tissue sarcomas.METHODS: We did this international, open-label, randomised, phase 3, multicentre trial (TH CR-406/SARC021) at 81 academic or community investigational sites in 13 countries. Eligible patients were aged 15 years or older with a diagnosis of an advanced unresectable or metastatic soft-tissue sarcoma, of intermediate or high grade, for which no standard curative therapy was available, an Eastern Cooperative Oncology Group performance status of 0-1, and measurable disease by Response Evaluation Criteria in Solid Tumors version 1.1. Patients were randomly assigned (1:1) to receive doxorubicin alone (75 mg/m2via bolus injection administered over 5-20 min or continuous intravenous infusion for 6-96 h on day 1 of every 21-day cycle for up to six cycles) or doxorubicin (given via the same dose procedure) plus evofosfamide (300 mg/m2intravenously for 30-60 min on days 1 and 8 of every 21-day cycle for up to six cycles). After six cycles of treatment, patients in the single-drug doxorubicin group were followed up expectantly whereas patients with stable or responsive disease in the combination group were allowed to continue with evofosfamide monotherapy until documented disease progression. A web-based central randomisation with block sizes of two and four was stratified by extent of disease, doxorubicin administration method, and previous systemic therapy. Patients and investigators were not masked to treatment assignment. The primary endpoint was overall survival, analysed in the intention-to-treat population. Safety analyses were done in all patients who received any amount of study drug. This study was registered with ClinicalTrials.gov, number NCT01440088.FINDINGS: Between Sept 26, 2011, and Jan 22, 2014, 640 patients were enrolled and randoml

Published

2017

63. The hypoxia-activated prodrug evofosfamide in combination with multiple regimens of radiotherapy

Author

Nytko, Katarzyna J; https://orcid.org/0000-0001-8148-6329, Grgic, Ivo, Bender, Sabine, Ott, Janosch, Guckenberger, Matthias; https://orcid.org/0000-0002-7146-9071, Riesterer, Oliver; https://orcid.org/0000-0002-9508-0546, Pruschy, Martin; https://orcid.org/0000-0002-3124-9015, Nytko, Katarzyna J; https://orcid.org/0000-0001-8148-6329, Grgic, Ivo, Bender, Sabine, Ott, Janosch, Guckenberger, Matthias; https://orcid.org/0000-0002-7146-9071, Riesterer, Oliver; https://orcid.org/0000-0002-9508-0546, and Pruschy, Martin; https://orcid.org/0000-0002-3124-9015

Abstract

The promising treatment combination of ionizing radiation (IR) with a hypoxia-activated prodrug (HAP) is based on biological cooperation. Here we investigated the hypoxia-activated prodrug evofosfamide in combination with different treatment regimens of IR against lung A549- and head&neck UT-SCC-14-derived tumor xenografts. DNA damage-related endpoints and clonogenic cell survival of A549 and UT-SCC-14 carcinoma cells were probed under normoxia and hypoxia.Evofosfamide (TH-302) induced DNA-damage and a dose-dependent antiproliferative response in A549 cells on cellular pretreatment under hypoxia, and supra-additively reduced clonogenic survival in combination with IR. Concomitant treatment of A549-derived tumor xenografts with evofosfamide and fractionated irradiation induced the strongest treatment response in comparison to the corresponding neoadjuvant and adjuvant regimens. Adjuvant evofosfamide was more potent than concomitant and neoadjuvant evofosfamide when combined with a single high dose of IR. Hypoxic UT-SCC-14 cells and tumor xenografts thereof were resistant to evofosfamide alone and in combination with IR, most probably due to reduced P450 oxidoreductase expression, which might act as major predictive determinant of sensitivity to HAPs.In conclusion, evofosfamide with IR is a potent combined treatment modality against hypoxic tumors. However, the efficacy and the therapeutic outcome of this combined treatment modality is, as indicated here in preclinical tumor models, dependent on scheduling parameters and tumor type, which is most probably related to the status of respective HAP-activating oxidoreductases. Further biomarker development is necessary for the launch of successful clinical trials.

Published

2017

64. Targeting Hypoxia Using Evofosfamide and Companion Hypoxia Imaging of FMISO-PET in Advanced Biliary Tract Cancer

Author

Seo Young Kang, Kyung Hun Lee, Gi Jeong Cheon, Jeesun Yoon, and Do Youn Oh

Subjects

0301 basic medicine, Oncology, Male, Cancer Research, medicine.medical_specialty, medicine.medical_treatment, Metastasis, Evofosfamide, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, Gastrointestinal Cancer, medicine, Humans, Chemotherapy, Prospective Studies, Misonidazole, Hypoxia, Survival rate, Tumor hypoxia, business.industry, Hypoxia (medical), Middle Aged, medicine.disease, Cell Hypoxia, Phase II, 030104 developmental biology, Biliary Tract Neoplasms, chemistry, Nitroimidazoles, 030220 oncology & carcinogenesis, Positron-Emission Tomography, Toxicity, TH302, Female, Phosphoramide Mustards, Original Article, medicine.symptom, business, FMISO

Abstract

Purpose Hypoxia is widely known as one of the mechanisms of chemoresistance and as an environmental condition which triggers invasion and metastasis of cancer. Evofosfamide is a hypoxia-activated prodrug of the cytotoxin bromo-isophosphoramide mustard conjugated with 2-nitroimidazole. Biliary tract cancer (BTC) is known to contain large hypoxic area. This study evaluated the efficacy and safety of evofosfamide as a second-line treatment of advanced BTC. Materials and methods Patients received evofosfamide at a dose of 340 mg/m2 on days 1, 8, and 15 of every 28-day cycle. Primary end-point was progression-free survival rate at 4-months (4m-PFSR). Secondary end-points included overall survival (OS), progression-free survival (PFS), disease control rate (DCR), metabolic response by 18F-fluorodeoxyglucose positron emission tomography (PET), hypoxic parameters evaluated by 18F-fluoromisonidazole (FMISO) PET and toxicity. Results Twenty patients were treated with evofosfamide, with 16 response-evaluable patients. There was no objective response; stable disease was observed in nine patients, with a DCR of 56.25%. 4m-PFSR was 40.6%. Median PFS was 3.60 months (95% confidence interval [CI], 1.68 to 5.52). Median OS was 6.37 months (95% CI, 3.94 to 8.79). Reduction of tumor metabolic activity was observed in eight of 15 patients (53.3%). High baseline hypoxic parameters were associated with poor PFS. Change of hypoxic parameters between pretreatment and post-treatment reflected hypoxic-activated drug response. There was no treatment-related death. Conclusion Evofosfamide as second-line treatment of advanced BTC showed acceptable safety and comparable efficacy to other agents. Changes in volumetric parameters measured with FMISO PET, showing the degree of tumor hypoxia, reflected the response to evofosfamide based on the mode of action.

Published

2020

65. Reoxygenation after Evofosfamide Treatment in Pancreatic Ductal Adenocarcinoma Xenografts is due to Decreased Oxygen Consumption and not Increased Oxygen Supply

Author

Shun Kishimoto, Yu Saida, Jeffrey R. Brender, Murali C. Krishna, Kazutoshi Yamamoto, and James B. Mitchell

Subjects

Chemotherapy, Evofosfamide, Tumor hypoxia, business.industry, medicine.medical_treatment, Oxygenation, Radiation therapy, chemistry.chemical_compound, chemistry, In vivo, Cancer research, Pimonidazole, Medicine, business, Ex vivo

Abstract

Evofosfamide is designed to release a cytotoxic bromo-isophosphoramide (Br-IPM) moiety in a hypoxic microenvironment. This drug therefore preferentially attacks hypoxic regions in tumors where other standard anti-cancer treatments such as chemotherapy and radiation therapy are often ineffective. Various combination therapies with evofosfamide have been proposed and tested in preclinical and clinical settings. However, the treatment effect of evofosfamide monotherapy on tumor hypoxia has not been fully understood, partly due to the lack of quantitative methods to assess tumor pO2 in vivo. Here, we use quantitative pO2 imaging by EPR to evaluate the change in tumor hypoxia in response to evofosfamide treatment using two pancreatic ductal adenocarcinom a xenograft models; MIA Paca-2 tumors responding to evofosfamide and Su.86.86 tumors which do not respond. EPR imaging showed oxygenation improved globally after evofosfamide treatment in hypoxic MIA Paca-2 tumors, in agreement with the ex vivo results obtained from hypoxia staining by pimonidazole and in apparent contrast to the decrease in Ktrans observed in DCE MRI. This suggests reoxygenation after treatment is due to decreased oxygen demand rather than improved prefusion. Following the change in pO2 after treatment may therefore yield a way of monitoring treatment response. The observation that evofosfamide not only kills the hypoxic region of the tumor but also improves oxygenation in the residual tumor regions provides a rationale for combination therapies using radiation and anti-proliferatives post evofosfamide for improved outcomes.

Published

2020

66. A Phase I/II Study of Evofosfamide, A Hypoxia-activated Prodrug with or without Bortezomib in Subjects with Relapsed/Refractory Multiple Myeloma

Author

Philippe Armand, Damian R. Handisides, Irene M. Ghobrial, Jacalyn Rosenblatt, Kenneth C. Anderson, Jacquelyn Hedlund, Paul G. Richardson, Henry Dumke, Bradley Rivotto, Stacey Chuma, Robert L. Schlossman, Kenneth H. Shain, Stew Kroll, Patrick Henrick, Chia Jen Liu, Noopur Raje, Michael Gary Martin, Alexandra Savell, Andrew Yee, Craig Reynolds, Kalvis Hornburg, Laura Stampleman, Jacob P. Laubach, and Ira Zackon

Subjects

0301 basic medicine, Cancer Research, medicine.medical_specialty, Neutropenia, Gastroenterology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, hemic and lymphatic diseases, Internal medicine, Mucositis, Medicine, Multiple myeloma, Dexamethasone, Leukopenia, Evofosfamide, business.industry, Bortezomib, medicine.disease, 030104 developmental biology, Oncology, chemistry, 030220 oncology & carcinogenesis, medicine.symptom, business, Progressive disease, medicine.drug

Abstract

Purpose: The presence of hypoxia in the diseased bone marrow presents a new therapeutic target for multiple myeloma. Evofosfamide (formerly TH-302) is a 2-nitroimidazole prodrug of the DNA alkylator, bromo-isophosphoramide mustard, which is selectively activated under hypoxia. This trial was designed as a phase I/II study investigating evofosfamide in combination with dexamethasone, and in combination with bortezomib and dexamethasone in relapsed/refractory multiple myeloma. Patients and Methods: Fifty-nine patients initiated therapy, 31 received the combination of evofosfamide and dexamethasone, and 28 received the combination of evofosfamide, bortezomib, and dexamethasone. Patients were heavily pretreated with a median number of prior therapies of 7 (range: 2–15). All had previously received bortezomib and immunomodulators. The MTD, treatment toxicity, and efficacy were determined. Results: The MTD was established at 340 mg/m2 evofosfamide + dexamethasone with dose-limiting mucositis at higher doses. For the combination of evofosfamide, bortezomib, and dexamethasone, no patient had a dose-limiting toxicity (DLT) and the recommended phase II dose was established at 340 mg/m2. The most common ≥grade 3 adverse events (AE) were thrombocytopenia (25 patients), anemia (24 patients), neutropenia (15 patients), and leukopenia (9 patients). Skin toxicity was reported in 42 (71%) patients. Responses included 1 very good partial response (VGPR), 3 partial response (PR), 2 minor response (MR), 20 stable disease (SD), and 4 progressive disease (PD) for evofosfamide + dexamethasone and 1 complete response (CR), 2 PR, 1 MR, 18 SD, and 5 PD for evofosfamide + bortezomib + dexamethasone. Disease stabilization was observed in over 80% and this was reflective of the prolonged overall survival of 11.2 months. Conclusions: Evofosfamide can be administered at 340 mg/m2 twice a week with or without bortezomib. Clinical activity has been noted in patients with heavily pretreated relapsed refractory multiple myeloma.

Published

2019

67. Hypoxia-Targeting Drug Evofosfamide (TH-302) Enhances Sunitinib Activity in Neuroblastoma Xenograft Models

Author

Yan Wang, Bing Wu, Fanying Meng, Sylvain Baruchel, Libo Zhang, Jessica D Sun, Reza Bayat Mokhtari, Herman Yeger, Qian Liu, Sushil Kumar, Charles P. Hart, and Deepthi Bhupathi

Subjects

0301 basic medicine, Drug, Original article, Cancer Research, media_common.quotation_subject, lcsh:RC254-282, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Neuroblastoma, medicine, media_common, Evofosfamide, business.industry, Sunitinib, Hypoxia (medical), Prodrug, medicine.disease, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, In vitro, 030104 developmental biology, Oncology, chemistry, Apoptosis, 030220 oncology & carcinogenesis, Cancer research, medicine.symptom, business, medicine.drug

Abstract

Antiangiogenic therapy has shown promising results in preclinical and clinical trials. However, tumor cells acquire resistance to this therapy by gaining ability to survive and proliferate under hypoxia induced by antiangiogenic therapy. Combining antiangiogenic therapy with hypoxia-activated prodrugs can overcome this limitation. Here, we have tested the combination of antiangiogenic drug sunitinib in combination with hypoxia-activated prodrug evofosfamide in neuroblastoma. In vitro, neuroblastoma cell line SK-N-BE(2) was 40-folds sensitive to evofosfamide under hypoxia compared to normoxia. In IV metastatic model, evofosfamide significantly increased mice survival compared to the vehicle (P=.02). In SK-N-BE(2) subcutaneous xenograft model, we tested two different treatment regimens using 30 mg/kg sunitinib and 50 mg/kg evofosfamide. Here, sunitinib therapy when started along with evofosfamide treatment showed higher efficacy compared to single agents in subcutaneous SK-N-BE(2) xenograft model, whereas sunitinib when started 7 days after evofosfamide treatment did not have any advantage compared to treatment with either single agent. Immunofluorescence of tumor sections revealed higher number of apoptotic cells and hypoxic areas compared to either single agent when both treatments were started together. Treatment with 80 mg/kg sunitinib with 50 mg/kg evofosfamide was significantly superior to single agents in both xenograft and metastatic models. This study confirms the preclinical efficacy of sunitinib and evofosfamide in murine models of aggressive neuroblastoma. Sunitinib enhances the efficacy of evofosfamide by increasing hypoxic areas, and evofosfamide targets hypoxic tumor cells. Consequently, each drug enhances the activity of the other.

Published

2018

68. Efficacy of the hypoxia-activated prodrug evofosfamide (TH-302) in nasopharyngeal carcinoma in vitro and in vivo

Author

Lin Liu, Yuanyuan Zhao, Li Zhang, Xiaobo He, Cong Xue, Jianhua Zhan, Yan Huang, and Ying Tian

Subjects

Male, 0301 basic medicine, Cancer Research, chemistry.chemical_compound, 0302 clinical medicine, Nude mouse, Antineoplastic Combined Chemotherapy Protocols, Prodrugs, Hypoxia, Mice, Inbred BALB C, Nasopharyngeal Carcinoma, biology, Cell cycle, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Cell Hypoxia, Treatment Outcome, Oncology, Nitroimidazoles, 030220 oncology & carcinogenesis, Phosphoramide Mustards, medicine.symptom, medicine.drug, Cell Survival, Xenograft tumor models, Mice, Nude, lcsh:RC254-282, 03 medical and health sciences, In vivo, Nasopharyngeal carcinoma (NPC), Cell Line, Tumor, medicine, Animals, Humans, Chemotherapy, Hypoxia-activated prodrug, Cisplatin, Evofosfamide, Tumor hypoxia, Nasopharyngeal Neoplasms, Hypoxia (medical), Hypoxia-Inducible Factor 1, alpha Subunit, biology.organism_classification, medicine.disease, Xenograft Model Antitumor Assays, 030104 developmental biology, chemistry, Nasopharyngeal carcinoma, Cancer research, Hypoxia-induced factor-1α (HIF-1α)

Abstract

Background Tumor hypoxia is considered an important factor in metastasis and disease relapse. Evofosfamide is a hypoxia-activated prodrug that selectively targets the hypoxic regions of solid tumors. As hypoxia-inducible factor-1α (HIF-1α) is overexpressed in nasopharyngeal carcinoma (NPC) tissues, we performed the present study to evaluate the efficacy profile of evofosfamide in NPC. Methods We evaluated the efficacy of evofosfamide as a single agent or combined with cisplatin (DDP) in the NPC cell lines CNE-2, HONE-1 and HNE-1, and in nude mouse xenograft tumor models. Results Evofosfamide exhibited hypoxia-selective cytotoxicity in NPC cell lines, with 50% inhibition concentration (IC50) values of 8.33 ± 0.75, 7.62 ± 0.67, and 0.31 ± 0.07 μmol/L under hypoxia in CNE-2, HONE-1 and HNE-1 cells, respectively. The sensitization ranged from ninefold to greater than 300-fold under hypoxia compared with normoxia controls. The combination of evofosfamide with DDP had a synergistic effect on cytotoxicity in the NPC cell lines by combination index values assessment. Cell cycle G2 phase was arrested after treated with 0.05 μmol/L evofosfamide under hypoxia. Histone H2AX phosphorylation (γH2AX) (a marker of DNA damage) expression increased while HIF-1α expression suppressed after evofosfamide treatment under hypoxic conditions. In the HNE-1 NPC xenograft models, evofosfamide exhibited antitumor activity both as a single agent and combined with DDP. Hypoxic regions in xenograft tissue were reduced after both evofosfamide monotherapy and combined therapy with DDP. Conclusions Our results present preclinical evidence for targeting the selective hypoxic portion of NPC by evofosfamide as a single agent and combined with DDP and provide rationale for the potential clinical application of evofosfamide for the treatment of nasopharyngeal carcinoma.

Published

2018

69. Data from 18F-FMISO PET Imaging Identifies Hypoxia and Immunosuppressive Tumor Microenvironments and Guides Targeted Evofosfamide Therapy in Tumors Refractory to PD-1 and CTLA-4 Inhibition

Author

Benjamin M. Larimer, Anna G. Sorace, Eddy S. Yang, Jianbo Wang, Yufeng Li, Deborah Della Manna, Allyson Angermeier, Patrick N. Song, and Kirsten M. Reeves

Abstract

Purpose:Hypoxia is a common characteristic of many tumor microenvironments, and it has been shown to promote suppression of antitumor immunity. Despite strong biological rationale, longitudinal correlation of hypoxia and response to immunotherapy has not been investigated.Experimental Design:In this study, we probed the tumor and its surrounding microenvironment with 18F-FMISO PET imaging to noninvasively quantify tumor hypoxia in vivo prior to and during PD-1 and CTLA-4 checkpoint blockade in preclinical models of breast and colon cancer.Results:Longitudinal imaging identified hypoxia as an early predictive biomarker of therapeutic response (prior to anatomic changes in tumor volume) with a decreasing standard uptake value (SUV) ratio in tumors that effectively respond to therapy. PET signal correlated with ex vivo markers of tumor immune response including cytokines (IFNγ, GZMB, and TNF), damage-associated molecular pattern receptors (TLR2/4), and immune cell populations (macrophages, dendritic cells, and cytotoxic T cells). Responding tumors were marked by increased inflammation that were spatially distinct from hypoxic regions, providing a mechanistic understanding of the immune signaling pathways activated. To exploit image-guided combination therapy, hypoxia signal from PET imaging was used to guide the addition of a hypoxia targeted treatment to nonresponsive tumors, which ultimately provided therapeutic synergy and rescued response as determined by longitudinal changes in tumor volume.Conclusions:The results generated from this work provide an immediately translatable paradigm for measuring and targeting hypoxia to increase response to immune checkpoint therapy and using hypoxia imaging to guide combinatory therapies.

Published

2023

70. Table S1 from Administration of Hypoxia-Activated Prodrug Evofosfamide after Conventional Adjuvant Therapy Enhances Therapeutic Outcome and Targets Cancer-Initiating Cells in Preclinical Models of Colorectal Cancer

Author

Catherine A. O'Brien, Myles Smith, David A. Jaffray, Ur Metser, Bradly G. Wouters, Benjamin Haibe-Kains, Douglass C. Vines, Eva Szentgyorgyi, Robin Wolman, Antonija Kreso, Evelyne Lima-Fernandes, Deena M.A. Gendoo, Cherry Leung, Yadong Wang, Andrew Haller, Trevor D. McKee, and Jennifer Haynes

Abstract

Supplementary Table S1. Summary of colorectal cancer patient samples used in this study. The tissue site from which samples originated or were collected, disease stage, and main driver mutations are listed.

Published

2023

71. Supplementary Figure 1 from Combined Antitumor Therapy with Metronomic Topotecan and Hypoxia-Activated Prodrug, Evofosfamide, in Neuroblastoma and Rhabdomyosarcoma Preclinical Models

Author

Sylvain Baruchel, Paul Thorner, Sushil Kumar, Bing Wu, Paula Marrano, and Libo Zhang

Abstract

Limited anti-tumor effects of ifosfamide in the CHLA-20 xenograft model. A total of 1 Ã- 106 CHLA-20 cells were implanted subcutaneously into SCID/SCID mice. Once tumors were palpable (about 0.25cm3), mice were randomized into vehicle control (n=6) or ifosfamide treatment group (n = 6 for each group). Ifosfamide was administered intraperitoneally at 50 mg/kg five times a week. After 2 weeks, there was slightly delay of tumor growth with ifosfamide treatment, but the difference between control tumors and ifosfamide group was not statistically significant (p>0.05).

Published

2023

72. Supplementary Figure S1 from Preclinical Benefit of Hypoxia-Activated Intra-arterial Therapy with Evofosfamide in Liver Cancer

Author

Jean-François Geschwind, Charles P. Hart, Jessica D. Sun, MingDe Lin, Constantine Frangakis, Rüdiger E. Schernthaner, Julius Chapiro, Juvenal Reyes, Boris Gorodetski, Toby C. Cornish, Cory F. Brayton, Shanmugasundaram Ganapathy-Kanniappan, Vasily Pekurovsky, Sahar Mirpour, and Rafael Duran

Abstract

Supplementary Figure S1: Quantitative volumetric image analysis.

Published

2023

73. Supplementary Materials and Methods from Administration of Hypoxia-Activated Prodrug Evofosfamide after Conventional Adjuvant Therapy Enhances Therapeutic Outcome and Targets Cancer-Initiating Cells in Preclinical Models of Colorectal Cancer

Author

Catherine A. O'Brien, Myles Smith, David A. Jaffray, Ur Metser, Bradly G. Wouters, Benjamin Haibe-Kains, Douglass C. Vines, Eva Szentgyorgyi, Robin Wolman, Antonija Kreso, Evelyne Lima-Fernandes, Deena M.A. Gendoo, Cherry Leung, Yadong Wang, Andrew Haller, Trevor D. McKee, and Jennifer Haynes

Abstract

Supplementary Materials and Methods (unmarked)

Published

2023

74. Supplementary Figure 3 from Combined Antitumor Therapy with Metronomic Topotecan and Hypoxia-Activated Prodrug, Evofosfamide, in Neuroblastoma and Rhabdomyosarcoma Preclinical Models

Author

Sylvain Baruchel, Paul Thorner, Sushil Kumar, Bing Wu, Paula Marrano, and Libo Zhang

Abstract

Increased ROS in neuroblastoma and rhabdomyosarcoma cells under hypoxia. The generation of intracellular oxidative activities was evaluated by measuring intracellular peroxide-dependent oxidation of 2′,7′-dichlorodihydrofluorescein diacetate (DCFDA, Sigma D6883) to form the fluorescent compound, 2′,7′-dichlorofluorescein (DCF) (50). Tumor cells were cultured in 96-well culture plates. After culturing overnight under normoxic or hypoxic (1%O2) conditions, the cells were incubated with 20μM of DCFDA at 37{degree sign}C for 30min. The culture medium was then removed, and the cells were washed twice with Hank's buffered salt solution. The fluorescence intensity of the cells in each well was determined using a Spectromax plate reader with excitation at 495nm and emission at 529nm. Thereafter cell viability was determined by AlamarBlue assay and DCF fluorescence was normalized to the viability. Results are expressed as a percentage of fluorescence intensity with respect to the cells under normoxic conditions. Error bars indicate SEM from three independent experiments. *P

Published

2023

75. Supplementary Figure S1-S3 legends from Preclinical Benefit of Hypoxia-Activated Intra-arterial Therapy with Evofosfamide in Liver Cancer

Author

Jean-François Geschwind, Charles P. Hart, Jessica D. Sun, MingDe Lin, Constantine Frangakis, Rüdiger E. Schernthaner, Julius Chapiro, Juvenal Reyes, Boris Gorodetski, Toby C. Cornish, Cory F. Brayton, Shanmugasundaram Ganapathy-Kanniappan, Vasily Pekurovsky, Sahar Mirpour, and Rafael Duran

Abstract

Supplementary Figure S1-S3 legends

Published

2023

76. Supplementary Data from A Phase I Dose-Escalation Study to Evaluate the Safety and Tolerability of Evofosfamide in Combination with Ipilimumab in Advanced Solid Malignancies

Author

David S. Hong, Michael A. Curran, Kimal Rajapakshe, Ly M. Nguyen, Di Nguyen, Hira Zain, Elizabeth Sumner, Funda Meric-Bernstam, JoAnn Lim, Thomas F. Wilson, Eric T. Williams, Jack P. Higgins, Cristian Coarfa, Priya Bhosale, Vivek Subbiah, Timothy A. Yap, Ecaterina E. Dumbrava, Siqing Fu, Shubham Pant, Jordi Rodon, Daniel Karp, Sarina Piha-Paul, Coline A. Couillault, Priyamvada Jayaprakash, and Aparna Hegde

Abstract

Compilation of supplemental tables and figures

Published

2023

77. supplemental figure legend from Combined Antitumor Therapy with Metronomic Topotecan and Hypoxia-Activated Prodrug, Evofosfamide, in Neuroblastoma and Rhabdomyosarcoma Preclinical Models

Author

Sylvain Baruchel, Paul Thorner, Sushil Kumar, Bing Wu, Paula Marrano, and Libo Zhang

Abstract

supplemental figure legend

Published

2023

78. Figure S1-S6 from Administration of Hypoxia-Activated Prodrug Evofosfamide after Conventional Adjuvant Therapy Enhances Therapeutic Outcome and Targets Cancer-Initiating Cells in Preclinical Models of Colorectal Cancer

Author

Catherine A. O'Brien, Myles Smith, David A. Jaffray, Ur Metser, Bradly G. Wouters, Benjamin Haibe-Kains, Douglass C. Vines, Eva Szentgyorgyi, Robin Wolman, Antonija Kreso, Evelyne Lima-Fernandes, Deena M.A. Gendoo, Cherry Leung, Yadong Wang, Andrew Haller, Trevor D. McKee, and Jennifer Haynes

Abstract

Supplementary Figure S1. Hypoxia increases stem gene expression and stabilizes HIF proteins. Supplementary Figure S2. Chemotherapy enriches for colorectal C-IC markers and increases expression of Wnt and HIF targets. Supplementary Figure S3. Growth of colorectal cancer PDXs shown in Figure 4. Supplementary Figure S4. Hypoxic fraction in a panel of colorectal cancer PDX models. Supplementary Figure S5. Growth of colorectal cancer PDXs shown in Figure 5. Supplementary Figure S6. Hypoxia gene sets are prognostic for clinical outcome of colon cancer patients.

Published

2023

79. Targeting hypoxic habitats with hypoxia pro-drug evofosfamide in preclinical models of sarcoma

Author

Bruna Victorasso Jardim-Perassi, Marilyn M. Bui, Robert J. Gillies, Michal R. Tomaszewski, Mahmoud A. Abdalah, Wei Mu, Suning Huang, Mikalai M. Budzevich, Gary V. Martinez, William Dominguez-Viqueira, Joseph O. Johnson, Damon R. Reed, and Jan Poleszczuk

Subjects

Evofosfamide, business.industry, Histology, Prodrug, Hypoxia (medical), medicine.disease, chemistry.chemical_compound, chemistry, medicine, Cancer research, Doxorubicin, Sarcoma, medicine.symptom, Rhabdomyosarcoma, Fibrosarcoma, business, medicine.drug

Abstract

Hypoxic regions (habitats) within tumors are heterogeneously distributed and can be widely variant. Hypoxic habitats are generally pan-therapy resistant. For this reason, hypoxia-activated prodrugs (HAPs) have been developed to target these resistant volumes. The HAP evofosfamide (TH-302) has shown promise in preclinical and early clinical trials of sarcoma. However, in a phase III clinical trial, TH-302 did not improve survival in combination with doxorubicin (dox), most likely due to a lack of patient stratification based on hypoxic status. Herein, our goal was to develop deep-learning (DL) models to identify hypoxic habitats, using multiparametric (mp) MRI and co-registered histology, and to non-invasively monitor response to TH-302 in a patient-derived xenograft (PDX) of rhabdomyosarcoma and a syngeneic model of fibrosarcoma (RIF-1). A DL convolutional neural network showed strong correlations (>0.81) between the true hypoxic portion in histology and the predicted hypoxic portion in multiparametric MRI. TH-302 monotherapy or in combination with Dox delayed tumor growth and increased survival in the hypoxic PDX model (pOne Sentence SummaryDevelopment of non-invasive MR imaging to assess hypoxia is crucial in determining the effectiveness of TH-302 therapy and to follow response.

Published

2020

80. Phase 2 trial of hypoxia activated evofosfamide (TH302) for treatment of recurrent bevacizumab-refractory glioblastoma

Author

Shiliang Huang, David A. Reardon, Patrick Y. Wen, Lisa Fichtel, Joel E. Michalek, Eudocia Q. Lee, John Floyd, Andrew Brenner, and Kunal P. Kanakia

Subjects

Adult, Male, medicine.medical_specialty, Bevacizumab, Science, Phases of clinical research, Drug development, Gastroenterology, Article, chemistry.chemical_compound, Young Adult, Targeted therapies, Refractory, Internal medicine, medicine, Clinical endpoint, Humans, Chemotherapy, Clinical significance, Progression-free survival, Adverse effect, Aged, Multidisciplinary, Evofosfamide, business.industry, Middle Aged, CNS cancer, chemistry, Nitroimidazoles, Medicine, Female, Phosphoramide Mustards, business, Glioblastoma, medicine.drug

Abstract

Evofosfamide (Evo or TH302) is a hypoxia-activated prodrug which is reduced leading to the release of alkylating agent bromo-isophosphoramide mustard, which has shown safety and signals of efficacy in a prior phase 1 study in recurrent glioblastoma. We performed a dual center single-arm Phase II study to expand on the safety and efficacy of Evo plus bevacizumab in bevacizumab refractory glioblastoma. 33 patients with bevacizumab refractory GBM received Evo 670 mg/m2 in combination with Bevacizumab 10 mg/kg IV every 2 weeks. Assessments included adverse events, response, and survival. Median age of patients was 47 (range 19–76) and 24 (69%) were male. At the time of study entry, 9 (26%) had ongoing corticosteroid use. ECOG performance status was 0 or 1 in 83% of patients. Patients were mostly heavily pretreated with 77% have three or more prior regimens. A total of 12 patients (36%) suffered grade 3–4 drug associated adverse event (AE); no grade 5 AE were reported. Of the 33 evaluable patients, best response was PR in 3 (9%), SD in 14 (43%), and PD in 16 (48%) with responses confirmed by a second reviewer. Median time to progression of disease was 53 days (95% CI 42–113) and Median time to death was 129 days (95% CI 86–199 days). Progression free survival at 4 months (PFS-4) on Evo-Bev was 31%, which was a statistically significant improvement over the historical rate of 3%. The median overall survival of patients receiving Evo-Bevacizumab was 4.6 months (95% CI 2.9–6.6). The progression free survival of patients on Evo-Bevacizumab met the primary endpoint of progression free survival at 4 months of 31%, although the clinical significance of this may be limited. Given the patient population and Phase II design, these clinical outcomes will need further validation.

Published

2020

81. Sunitinib and Evofosfamide (TH-302) in Systemic Treatment-Naïve Patients with Grade 1/2 Metastatic Pancreatic Neuroendocrine Tumors: The GETNE-1408 Trial.

Author

Grande E, Rodriguez-Antona C, López C, Alonso-Gordoa T, Benavent M, Capdevila J, Teulé A, Custodio A, Sevilla I, Hernando J, Gajate P, Molina-Cerrillo J, Díez JJ, Santos M, Lanillos J, and García-Carbonero R

Subjects

Humans, Middle Aged, Nitroimidazoles, Phosphoramide Mustards, Progression-Free Survival, Sunitinib pharmacology, Sunitinib therapeutic use, Neoplasms, Second Primary, Pancreatic Neoplasms drug therapy

Abstract

Background: Sunitinib (SUN)-induced hypoxia within the tumor could promote the activation of the prodrug evofosfamide (EVO), locally releasing the cytotoxic DNA alkylator bromo-isophosphoramide mustard. SUNEVO, a phase II, open-label, single-arm trial, investigated the potential synergy of SUN plus EVO in advanced progressive pancreatic neuroendocrine tumors (panNETs)., Methods: Systemic treatment-naïve patients with advanced or metastatic, unresectable, grade 1/2 panNETs with a Ki67 ≤20%, received EVO 340 mg/m 2 on days 8, 15, and 22 every 4 weeks and sunitinib 37.5 mg/day continuously. The primary endpoint was objective response rate, measured every 8 weeks by RECIST version 1.1., Results: From 2015 to 2018, 17 patients were enrolled. The median age was 62.4 years, 47% had a Ki67 >10%, and 70.6% had liver metastasis. Patients received a median of five and four cycles of SUN and EVO, respectively. After a median follow-up of 15.7 months, 17.6% of patients achieved a complete (n = 1) or partial response (n = 2), and 11 patients had stable disease (64.7%). The median progression-free survival was 10.4 months (95% confidence interval, 2.6-18.0). Treatment-related adverse events (grade ≥3) were observed in 64.7% of the patients, the most frequent being neutropenia (35.3%), fatigue (17.6%), and thrombopenia (11.8%). Treatment discontinuation due to toxicity was reported in 88.2% of the patients. No correlation was found between treatment response and DAXX, ATRX, MEN1, SETD2, and PTEN gene mutations., Conclusion: SUN plus EVO had a negative toxicity profile that should be taken into account for further clinical research in advanced panNETs. The combination showed moderate activity in terms of treatment response that did not correlate with somatic mutations. (Clinical trial identification number: NCT02402062) IMPLICATIONS FOR PRACTICE: Addition of hypoxia-activated prodrugs has been proposed as a potential mechanism to overcome tumor resistance to antiangiogenic agents. Sunitinib and evofosfamide, which were widely proposed as a potential synergistic option, showed modest efficacy in pancreatic neuroendocrine tumors (panNETs), reaching a median objective response rate of 17.6% and median progression-free survival of 10.4 months. Treatment response does not correlate with the biomarkers analyzed. The high systemic toxicity, with 88.2% of patients discontinuing the treatment, makes this therapeutic approach unfeasible and encourages future research to overcome panNETs' resistance to antiangiogenic agents with other therapies with a safer profile., (© 2021 AlphaMed Press.)

Published

2021

82. The hypoxia-activated prodrug evofosfamide in combination with multiple regimens of radiotherapy

Author

Ivo Grgic, Martin Pruschy, Katarzyna J. Nytko, Janosch Ott, Matthias Guckenberger, Sabine Bender, Oliver Riesterer, University of Zurich, and Pruschy, Martin

Subjects

0301 basic medicine, Radiobiology, medicine.medical_treatment, 610 Medicine & health, P450 oxidoreductase, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Cell Line, Tumor, medicine, Carcinoma, Animals, Humans, Prodrugs, evofosfamide, TH-302, Evofosfamide, Radiotherapy, business.industry, Chemoradiotherapy, Tumor Oxygenation, Prodrug, medicine.disease, 10044 Clinic for Radiation Oncology, Cell Hypoxia, 3. Good health, Radiation therapy, 030104 developmental biology, Oncology, chemistry, hypoxia-activated prodrug, Head and Neck Neoplasms, Nitroimidazoles, 030220 oncology & carcinogenesis, Concomitant, Immunology, Cancer research, 2730 Oncology, Phosphoramide Mustards, business, ionizing radiation, Adjuvant, Research Paper

Abstract

// Katarzyna J. Nytko 1, 2 , Ivo Grgic 1, 2 , Sabine Bender 1 , Janosch Ott 1 , Matthias Guckenberger 3 , Oliver Riesterer 2, 3 , Martin Pruschy 1, 2 1 Laboratory for Applied Radiobiology, Department of Radiation Oncology, University Hospital Zurich, Zurich, Switzerland 2 Clinical Research Priority Program “Tumor Oxygenation”, Zurich, Switzerland 3 Department of Radiation Oncology, University Hospital Zurich, Zurich, Switzerland Correspondence to: Martin Pruschy, email: martin.pruschy@usz.ch Keywords: evofosfamide, TH-302, hypoxia-activated prodrug, ionizing radiation, P450 oxidoreductase Received: June 29, 2016 Accepted: February 06, 2017 Published: February 28, 2017 ABSTRACT The promising treatment combination of ionizing radiation (IR) with a hypoxia-activated prodrug (HAP) is based on biological cooperation. Here we investigated the hypoxia-activated prodrug evofosfamide in combination with different treatment regimens of IR against lung A549- and head&neck UT-SCC-14-derived tumor xenografts. DNA damage-related endpoints and clonogenic cell survival of A549 and UT-SCC-14 carcinoma cells were probed under normoxia and hypoxia. Evofosfamide (TH-302) induced DNA-damage and a dose-dependent antiproliferative response in A549 cells on cellular pretreatment under hypoxia, and supra-additively reduced clonogenic survival in combination with IR. Concomitant treatment of A549-derived tumor xenografts with evofosfamide and fractionated irradiation induced the strongest treatment response in comparison to the corresponding neoadjuvant and adjuvant regimens. Adjuvant evofosfamide was more potent than concomitant and neoadjuvant evofosfamide when combined with a single high dose of IR. Hypoxic UT-SCC-14 cells and tumor xenografts thereof were resistant to evofosfamide alone and in combination with IR, most probably due to reduced P450 oxidoreductase expression, which might act as major predictive determinant of sensitivity to HAPs. In conclusion, evofosfamide with IR is a potent combined treatment modality against hypoxic tumors. However, the efficacy and the therapeutic outcome of this combined treatment modality is, as indicated here in preclinical tumor models, dependent on scheduling parameters and tumor type, which is most probably related to the status of respective HAP-activating oxidoreductases. Further biomarker development is necessary for the launch of successful clinical trials.

Published

2017

83. Impact of Tumour Hypoxia on Evofosfamide Sensitivity in Head and Neck Squamous Cell Carcinoma Patient-Derived Xenograft Models

Author

Amy Lai, Tet Woo Lee, John M. Chaplin, William R. Wilson, Dennis Kee, Andrew Macann, Stephen M. F. Jamieson, Tao Wang, Julia K. Harms, Francis W. Hunter, and Nick McIvor

Subjects

0301 basic medicine, patient-derived xenograft (PDX), SLFN11, medicine.medical_treatment, MKI67, Article, head and neck squamous cell carcinoma (HNSCC), Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cytochrome P-450 Enzyme System, Mice, Inbred NOD, medicine, Animals, Humans, evofosfamide, lcsh:QH301-705.5, Evofosfamide, Squamous Cell Carcinoma of Head and Neck, business.industry, pimonidazole, Nuclear Proteins, General Medicine, Gene signature, Hypoxia (medical), medicine.disease, Xenograft Model Antitumor Assays, Head and neck squamous-cell carcinoma, POR, Radiation therapy, stomatognathic diseases, Ki-67 Antigen, 030104 developmental biology, lcsh:Biology (General), chemistry, Head and Neck Neoplasms, Nitroimidazoles, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, Tumor Hypoxia, Immunohistochemistry, tumour hypoxia, Phosphoramide Mustards, medicine.symptom, business, Chemoradiotherapy

Abstract

Tumour hypoxia is a marker of poor prognosis and failure of chemoradiotherapy in head and neck squamous cell carcinoma (HNSCC), providing a strategy for therapeutic intervention in this setting. To evaluate the utility of the hypoxia-activated prodrug evofosfamide (TH-302) in HNSCC, we established ten early passage patient-derived xenograft (PDX) models of HNSCC that were characterised by their histopathology, hypoxia status, gene expression, and sensitivity to evofosfamide. All PDX models closely resembled the histology of the patient tumours they were derived from. Pimonidazole-positive tumour hypoxic fractions ranged from 1.7&ndash, 7.9% in line with reported HNSCC clinical values, while mRNA expression of the Toustrup hypoxia gene signature showed close correlations between PDX and matched patient tumours, together suggesting the PDX models may accurately model clinical tumour hypoxia. Evofosfamide as a single agent (50 mg/kg IP, qd &times, 5 for three weeks) demonstrated antitumour efficacy that was variable across the PDX models, ranging from complete regressions in one p16-positive PDX model to lack of significant activity in the three most resistant models. Despite all PDX models showing evidence of tumour hypoxia, and hypoxia being essential for activation of evofosfamide, the antitumour activity of evofosfamide only weakly correlated with tumour hypoxia status determined by pimonidazole immunohistochemistry. Other candidate evofosfamide sensitivity genes&mdash, MKI67, POR, and SLFN11&mdash, did not strongly influence evofosfamide sensitivity in univariate analyses, although a weak significant relationship with MKI67 was observed, while SLFN11 expression was lost in PDX tumours. Overall, these data confirm that evofosfamide has antitumour activity in clinically-relevant PDX tumour models of HNSCC and support further clinical evaluation of this drug in HNSCC patients. Further research is required to identify those factors that, alongside hypoxia, can influence sensitivity to evofosfamide and could act as predictive biomarkers to support its use in precision medicine therapy of HNSCC.

Published

2019

84. Targeting Hypoxia Using Evofosfamide and Companion Hypoxia Imaging of FMISO-PET in Advanced Biliary Tract Cancer.

Author

Jeesun Yoon, Seo Young Kang, Kyung-Hun Lee, Gi Jeong Cheon, and Do-Youn Oh

Subjects

*GALLBLADDER cancer, *POSITRON emission tomography, *HYPOXEMIA, *DRUG efficacy, BILIARY tract cancer

Abstract

Purpose Hypoxia is widely known as one of the mechanisms of chemoresistance and as an environmental condition which triggers invasion and metastasis of cancer. Evofosfamide is a hypoxia-activated prodrug of the cytotoxin bromo-isophosphoramide mustard conjugated with 2-nitroimidazole. Biliary tract cancer (BTC) is known to contain large hypoxic area. This study evaluated the efficacy and safety of evofosfamide as a second-line treatment of advanced BTC. Materials and Methods Patients received evofosfamide at a dose of 340 mg/m2 on days 1, 8, and 15 of every 28-day cycle. Primary end-point was progression-free survival (PFS) rate at 4-months (4m-PFSR). Secondary end-points included overall survival (OS), PFS, disease control rate (DCR), metabolic response by 18F-fluorodeoxyglucose positron emission tomography (PET), hypoxic parameters evaluated by 18F-fluoromisonidazole (FMISO) PET and toxicity. Results Twenty patients were treated with evofosfamide, with 16 response-evaluable patients. There was no objective response; stable disease was observed in nine patients, with a DCR of 56.25%. 4m-PFSR was 40.6%. Median PFS was 3.60 months (95% confidence interval [CI], 1.68 to 5.52). Median OS was 6.37 months (95% CI, 3.94 to 8.79). Reduction of tumor metabolic activity was observed in eight of 15 patients (53.3%). High baseline hypoxic parameters were associated with poor PFS. Change of hypoxic parameters between pretreatment and post-treatment reflected hypoxic-activated drug response. There was no treatment-related death. Conclusion Evofosfamide as second-line treatment of advanced BTC showed acceptable safety and comparable efficacy to other agents. Changes in volumetric parameters measured with FMISO PET, showing the degree of tumor hypoxia, reflected the response to evofosfamide based on the mode of action. [ABSTRACT FROM AUTHOR]

Published

2021

85. Evofosfamide and Gemcitabine Act Synergistically in Pancreatic Cancer Xenografts by Dual Action on Tumor Vasculature and Inhibition of Homologous Recombination DNA Repair

Author

Otowa, Yasunori, primary, Kishimoto, Shun, additional, Saida, Yu, additional, Yamashita, Kota, additional, Yamamoto, Kazutoshi, additional, Chandramouli, Gadisetti VR, additional, Devasahayam, Nallathamby, additional, Mitchell, James B., additional, Krishna, Murali C., additional, and Brender, Jeffery R., additional

Published

2022

86. Antagonism in effectiveness of evofosfamide and doxorubicin through intermolecular electron transfer

Author

Dan Li, Francis W. Hunter, and Robert F. Anderson

Subjects

0301 basic medicine, Free Radicals, Cell Survival, medicine.medical_treatment, Antineoplastic Agents, Electrons, Pharmacology, Biochemistry, Electron Transport, 03 medical and health sciences, Electron transfer, chemistry.chemical_compound, 0302 clinical medicine, Cell Line, Tumor, Physiology (medical), medicine, Humans, Doxorubicin, Treatment Failure, Cytotoxicity, Clinical Trials as Topic, Chemotherapy, Evofosfamide, Epithelial Cells, Prodrug, Phosphoramide Mustard, Cell Hypoxia, Oxygen, Drug Combinations, Kinetics, 030104 developmental biology, chemistry, Nitroimidazoles, 030220 oncology & carcinogenesis, Phosphoramide Mustards, Topoisomerase-II Inhibitor, Pulse Radiolysis, Oxidation-Reduction, medicine.drug

Abstract

Hypoxic cells pose a problem in anticancer chemotherapy, in which often drugs require oxygen as an electron acceptor to bring about the death of actively cycling cells. Bioreductive anticancer drugs, which are selectively activated in the hypoxic regions of tumours through enzymatic one-electron reduction, are being developed for combination with chemotherapy-, radiotherapy- and immunotherapy-containing regimens to kill treatment-resistant hypoxic cells. The most clinically-advanced bioreductive drug, evofosfamide (TH-302), which acts by releasing a DNA-crosslinking mustard, failed to extend overall survival in combination with doxorubicin, a topoisomerase II inhibitor, for advanced soft tissue sarcoma in a pivotal clinical trial. However, the reasons for the lack of additive efficacy with this combination are unknown. Here, we show that the radical anion of evofosfamide undergoes electron transfer to doxorubicin in kinetic competition to fragmentation of the radical anion, thus suppressing the release the cytotoxic mustard. This electron transfer process may account, at least in part, for the lack of overall survival improvement in the recent clinical trial. This study underlines the need to consider both redox and electron transfer chemistry when combining bioreductive prodrugs with other redox-active drugs in cancer treatment.

Published

2017

87. 18 F-FMISO PET Imaging Identifies Hypoxia and Immunosuppressive Tumor Microenvironments and Guides Targeted Evofosfamide Therapy in Tumors Refractory to PD-1 and CTLA-4 Inhibition.

Author

Reeves KM, Song PN, Angermeier A, Della Manna D, Li Y, Wang J, Yang ES, Sorace AG, and Larimer BM

Subjects

CTLA-4 Antigen, Cell Hypoxia, Humans, Hypoxia, Misonidazole analogs & derivatives, Nitroimidazoles, Phosphoramide Mustards, Positron-Emission Tomography methods, Tumor Microenvironment, Neoplasms diagnostic imaging, Neoplasms drug therapy, Programmed Cell Death 1 Receptor

Abstract

Purpose: Hypoxia is a common characteristic of many tumor microenvironments, and it has been shown to promote suppression of antitumor immunity. Despite strong biological rationale, longitudinal correlation of hypoxia and response to immunotherapy has not been investigated., Experimental Design: In this study, we probed the tumor and its surrounding microenvironment with 18 F-FMISO PET imaging to noninvasively quantify tumor hypoxia in vivo prior to and during PD-1 and CTLA-4 checkpoint blockade in preclinical models of breast and colon cancer., Results: Longitudinal imaging identified hypoxia as an early predictive biomarker of therapeutic response (prior to anatomic changes in tumor volume) with a decreasing standard uptake value (SUV) ratio in tumors that effectively respond to therapy. PET signal correlated with ex vivo markers of tumor immune response including cytokines (IFNγ, GZMB, and TNF), damage-associated molecular pattern receptors (TLR2/4), and immune cell populations (macrophages, dendritic cells, and cytotoxic T cells). Responding tumors were marked by increased inflammation that were spatially distinct from hypoxic regions, providing a mechanistic understanding of the immune signaling pathways activated. To exploit image-guided combination therapy, hypoxia signal from PET imaging was used to guide the addition of a hypoxia targeted treatment to nonresponsive tumors, which ultimately provided therapeutic synergy and rescued response as determined by longitudinal changes in tumor volume., Conclusions: The results generated from this work provide an immediately translatable paradigm for measuring and targeting hypoxia to increase response to immune checkpoint therapy and using hypoxia imaging to guide combinatory therapies., (©2021 The Authors; Published by the American Association for Cancer Research.)

Published

2022

88. Clinical relevance and therapeutic predictive ability of hypoxia biomarkers in head and neck cancer tumour models

Author

Tet Woo Lee, Dean C. Singleton, Julia K. Harms, Man Lu, Sarah P. McManaway, Amy Lai, Moana Tercel, Frederik B. Pruijn, Andrew M. J. Macann, Francis W. Hunter, William R. Wilson, and Stephen M. F. Jamieson

Subjects

evofosfamide, head and neck squamous cell carcinoma, hypoxia, hypoxia‐activated prodrugs, pimonidazole, tumour xenografts, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Tumour hypoxia promotes poor patient outcomes, with particularly strong evidence for head and neck squamous cell carcinoma (HNSCC). To effectively target hypoxia, therapies require selection biomarkers and preclinical models that can accurately model tumour hypoxia. We established 20 patient‐derived xenograft (PDX) and cell line‐derived xenograft (CDX) models of HNSCC that we characterised for their fidelity to represent clinical HNSCC in gene expression, hypoxia status and proliferation and that were evaluated for their sensitivity to hypoxia‐activated prodrugs (HAPs). PDX models showed greater fidelity in gene expression to clinical HNSCC than cell lines, as did CDX models relative to their paired cell lines. PDX models were significantly more hypoxic than CDX models, as assessed by hypoxia gene signatures and pimonidazole immunohistochemistry, and showed similar hypoxia gene expression to clinical HNSCC tumours. Hypoxia or proliferation status alone could not determine HAP sensitivity across our 20 HNSCC and two non‐HNSCC tumour models by either tumour growth inhibition or killing of hypoxia cells in an ex vivo clonogenic assay. In summary, our tumour models provide clinically relevant HNSCC models that are suitable for evaluating hypoxia‐targeting therapies; however, additional biomarkers to hypoxia are required to accurately predict drug sensitivity.

Published

2024

89. Evofosfamide potentiates the NK-mediated cell killing of hypoxic breast cancer through STING signaling

Author

Goutham HV

Abstract

Videos for Evofosfamide

Published

2022

90. Targeting Hypoxia Using Evofosfamide and Companion Hypoxia Imaging of FMISO-PET in Advanced Biliary Tract Cancer.

Author

Yoon J, Kang SY, Lee KH, Cheon GJ, and Oh DY

Subjects

Biliary Tract Neoplasms pathology, Female, Humans, Male, Middle Aged, Misonidazole pharmacology, Misonidazole therapeutic use, Nitroimidazoles pharmacology, Phosphoramide Mustards pharmacology, Prospective Studies, Biliary Tract Neoplasms drug therapy, Cell Hypoxia drug effects, Misonidazole analogs & derivatives, Nitroimidazoles therapeutic use, Phosphoramide Mustards therapeutic use, Positron-Emission Tomography methods

Abstract

Purpose: Hypoxia is widely known as one of the mechanisms of chemoresistance and as an environmental condition which triggers invasion and metastasis of cancer. Evofosfamide is a hypoxia-activated prodrug of the cytotoxin bromo-isophosphoramide mustard conjugated with 2-nitroimidazole. Biliary tract cancer (BTC) is known to contain large hypoxic area. This study evaluated the efficacy and safety of evofosfamide as a second-line treatment of advanced BTC., Materials and Methods: Patients received evofosfamide at a dose of 340 mg/m2 on days 1, 8, and 15 of every 28-day cycle. Primary end-point was progression-free survival (PFS) rate at 4-months (4m-PFSR). Secondary end-points included overall survival (OS), PFS, disease control rate (DCR), metabolic response by 18F-fluorodeoxyglucose positron emission tomography (PET), hypoxic parameters evaluated by 18F-fluoromisonidazole (FMISO) PET and toxicity., Results: Twenty patients were treated with evofosfamide, with 16 response-evaluable patients. There was no objective response; stable disease was observed in nine patients, with a DCR of 56.25%. 4m-PFSR was 40.6%. Median PFS was 3.60 months (95% confidence interval [CI], 1.68 to 5.52). Median OS was 6.37 months (95% CI, 3.94 to 8.79). Reduction of tumor metabolic activity was observed in eight of 15 patients (53.3%). High baseline hypoxic parameters were associated with poor PFS. Change of hypoxic parameters between pretreatment and post-treatment reflected hypoxic-activated drug response. There was no treatment-related death., Conclusion: Evofosfamide as second-line treatment of advanced BTC showed acceptable safety and comparable efficacy to other agents. Changes in volumetric parameters measured with FMISO PET, showing the degree of tumor hypoxia, reflected the response to evofosfamide based on the mode of action.

Published

2021

91. Preclinical Benefit of Hypoxia-Activated Intra-arterial Therapy with Evofosfamide in Liver Cancer

Author

Toby C. Cornish, Rudiger E. Schernthaner, Rafael Duran, Jean Fraņcois Geschwind, Vasily Pekurovsky, Shanmugasundaram Ganapathy-Kanniappan, Constantine Frangakis, Sahar Mirpour, Julius Chapiro, MingDe Lin, Jessica D Sun, Juvenal Reyes, Boris Gorodetski, Cory Brayton, and Charles P. Hart

Subjects

0301 basic medicine, Cancer Research, Pathology, medicine.medical_specialty, Apoptosis, Pharmacology, Biology, Article, Circulating Tumor DNA, 03 medical and health sciences, chemistry.chemical_compound, Ethiodized Oil, 0302 clinical medicine, Biomarkers, Tumor, medicine, Animals, Humans, Pimonidazole, Cell Proliferation, Evofosfamide, Tumor hypoxia, Liver Neoplasms, Hypoxia (medical), medicine.disease, Combined Modality Therapy, Disease Models, Animal, 030104 developmental biology, Oncology, chemistry, Doxorubicin, Nitroimidazoles, 030220 oncology & carcinogenesis, Toxicity, Tumor Hypoxia, Phosphoramide Mustards, Tumor necrosis factor alpha, Rabbits, medicine.symptom, Liver cancer

Abstract

Purpose: To evaluate safety and characterize anticancer efficacy of hepatic hypoxia-activated intra-arterial therapy (HAIAT) with evofosfamide in a rabbit model. Experimental Design: VX2-tumor-bearing rabbits were assigned to 4 intra-arterial therapy (IAT) groups (n = 7/group): (i) saline (control); (ii) evofosfamide (Evo); (iii) doxorubicin–lipiodol emulsion followed by embolization with 100–300 μm beads (conventional, cTACE); or (iv) cTACE and evofosfamide (cTACE + Evo). Blood samples were collected pre-IAT and 1, 2, 7, and 14 days post-IAT. A semiquantitative scoring system assessed hepatocellular damage. Tumor volumes were segmented on multidetector CT (baseline, 7/14 days post-IAT). Pathologic tumor necrosis was quantified using manual segmentation on whole-slide images. Hypoxic fraction (HF) and compartment (HC) were determined by pimonidazole staining. Tumor DNA damage, apoptosis, cell proliferation, endogenous hypoxia, and metabolism were quantified (γ-H2AX, Annexin V, caspase-3, Ki-67, HIF1α, VEGF, GAPDH, MCT4, and LDH). Results: cTACE + Evo showed a similar profile of liver enzymes elevation and pathologic scores compared with cTACE. Neither hematologic nor renal toxicity were observed. Animals treated with cTACE + Evo demonstrated smaller tumor volumes, lower tumor growth rates, and higher necrotic fractions compared with cTACE. cTACE + Evo resulted in a marked reduction in the HF and HC. Correlation was observed between decreases in HF or HC and tumor necrosis. cTACE + Evo promoted antitumor effects as evidenced by increased expression of γ-H2AX, apoptotic biomarkers, and decreased cell proliferation. Increased HIF1α/VEGF expression and tumor glycolysis supported HAIAT. Conclusions: HAIAT achieved a promising step towards the locoregional targeting of tumor hypoxia. The favorable toxicity profile and enhanced anticancer effects of evofosfamide in combination with cTACE pave the way towards clinical trials in patients with liver cancer. Clin Cancer Res; 23(2); 536–48. ©2016 AACR.

Published

2017

92. Targeting hypoxic habitats with hypoxia pro-drug evofosfamide in preclinical models of sarcoma

Subjects

Physical fitness -- Models, Cancer -- Drug therapy, Sarcoma -- Drug therapy, Health

Abstract

2020 OCT 24 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- According to news reporting based on a preprint abstract, our journalists obtained [...]

Published

2020

93. Researchers from Weill Cornell Medicine Report Details of New Studies and Findings in the Area of Adverse Drug Reactions [Subgroup analysis of older patients treated within the randomized phase 3 doxorubicin versus doxorubicin plus evofosfamide ...]

Subjects

Elderly patients -- Care and treatment -- Reports -- Analysis, Physical fitness -- Reports -- Analysis, Anthracyclines -- Complications and side effects -- Research -- Reports -- Analysis, Chemotherapy -- Reports -- Analysis, Sarcoma -- Complications and side effects -- Research -- Care and treatment -- Reports -- Analysis, Obesity, Drugs, Antineoplastic agents, Finance, Editors, Health

Abstract

2020 MAR 21 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- A new study on Drugs and Therapies - Adverse Drug Reactions is [...]

Published

2020

94. Phase I study of evofosfamide, an investigational hypoxia-activated prodrug, in patients with advanced leukemia

Author

Marina Konopleva, Juliana Benito, Hagop M. Kantarjian, Stefan Faderl, Jorge E. Cortes, Talha Badar, Mary Ann Richie, Sergej Konoplev, Michael Andreeff, Deborah A. Thomas, Elias Jabbour, Tillman E. Pearce, Stew Kroll, Karine Harutyunyan, Damian R. Handisides, and Gautam Borthakur

Subjects

0301 basic medicine, medicine.medical_specialty, Myeloid, medicine.medical_treatment, Salvage therapy, Pharmacology, Gastroenterology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, medicine, Stomatitis, Chemotherapy, Evofosfamide, business.industry, Myeloid leukemia, Hematology, medicine.disease, Leukemia, 030104 developmental biology, medicine.anatomical_structure, chemistry, 030220 oncology & carcinogenesis, Bone marrow, business

Abstract

Tumor hypoxia causes resistance to radiation and chemotherapy. Evofosfamide (TH-302) has exhibited specific hypoxia-dependent cytotoxicity against primary acute lymphoblastic leukemia (ALL) and acute myeloid leukemia (AML) samples in vitro. Based on these findings, a Phase I study of evofosfamide was designed for patients with relapsed/refractory leukemia (NCT01149915). In this open-label study, patients were treated with evofosfamide as a 30-60 min/day infusion on Days 1-5 of a 21-day cycle (Arm A, n = 38) or as a continuous infusion over 120 hr over Days 1-5 of a 21-day cycle (Arm B, n = 11). Forty-nine patients were treated including 39 (80%) with AML and 9 (18%) with ALL. Patients had received a median of five prior therapies. In Arm A, the dose-limiting toxicities (DLTs) were grade 3 esophagitis, observed at a dose of 550 mg/m(2) . The maximum tolerated dose (MTD) was a daily dose of 460 mg/m(2) . In Arm B, the DLTs were grade 3 stomatitis and hyperbilirubinemia, observed at a daily dose of 460 mg/m(2) . The continuous infusion MTD was a daily dose of 330 mg/m(2) . Hypoxia markers HIF-1α and CAIX were highly expressed in leukemic bone marrow and were significantly reduced after evofosfamide therapy. The combined overall response rate in Arms A and B was 6% (2 CR/CRi and 1 PR), with all responses seen in Arm A. Evofosfamide has shown limited activity in heavily pretreated leukemia patients. Further evaluation investigating evofosfamide in combination with cytotoxic or demethylating agents is warranted. Am. J. Hematol. 91:800-805, 2016. © 2016 Wiley Periodicals, Inc.

Published

2016

95. Combined Antitumor Therapy with Metronomic Topotecan and Hypoxia-Activated Prodrug, Evofosfamide, in Neuroblastoma and Rhabdomyosarcoma Preclinical Models

Author

Libo Zhang, Paul S. Thorner, Paula Marrano, Sylvain Baruchel, Bing Wu, and Sushil Kumar

Subjects

0301 basic medicine, Oncology, Cancer Research, medicine.medical_specialty, Mice, SCID, Activation, Metabolic, Inhibitory Concentration 50, Neuroblastoma, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Mice, Inbred NOD, In vivo, Cell Line, Tumor, Internal medicine, Antineoplastic Combined Chemotherapy Protocols, Rhabdomyosarcoma, Animals, Medicine, Prodrugs, Cell Proliferation, Evofosfamide, business.industry, Cell growth, Drug Synergism, Prodrug, medicine.disease, Xenograft Model Antitumor Assays, Cell Hypoxia, 030104 developmental biology, chemistry, Nitroimidazoles, Cell culture, 030220 oncology & carcinogenesis, Administration, Metronomic, Phosphoramide Mustards, Topotecan, business, medicine.drug

Abstract

Purpose: Tumor cells residing in tumor hypoxic zones are a major cause of drug resistance and tumor relapse. In this study, we investigated the efficacy of evofosfamide, a hypoxia-activated prodrug, and its combination with topotecan in neuroblastoma and rhabdomyosarcoma preclinical models. Experimental Design: Neuroblastoma and rhabdomyosarcoma cells were tested in vitro to assess the effect of evofosfamide on cell proliferation, both as a single agent and in combination with topotecan. In vivo antitumor activity was evaluated in different xenograft models. Animal survival was studied with the neuroblastoma metastatic tumor model. Results: All tested cell lines showed response to evofosfamide under normoxic conditions, but when exposed to hypoxia overnight, a 2- to 65-fold decrease of IC50 was observed. Adding topotecan to the evofosfamide treatment significantly increased cytotoxicity in vitro. In neuroblastoma xenograft models, single-agent evofosfamide treatment delayed tumor growth. Complete tumor regression was observed in the combined topotecan/evofosfamide treatment group after 2-week treatment. Combined treatment also improved survival in a neuroblastoma metastatic model, compared to single-agent treatments. In rhabdomyosarcoma xenograft models, combined treatment was more effective than single agents. We also showed that evofosfamide mostly targeted tumor cells within hypoxic regions while topotecan was more effective to tumor cells in normoxic regions. Combined treatment induced tumor cell apoptosis in both normoxic and hypoxic regions. Conclusions: Evofosfamide shows antitumor effects in neuroblastoma and rhabdomyosarcoma xenografts. Compared with single-agent, evofosfamide/topotecan, combined therapy improves tumor response, delays tumor relapse, and enhances animal survival in preclinical tumor models. Clin Cancer Res; 22(11); 2697–708. ©2015 AACR.

Published

2016

96. Abstract 2772: Targeting hypoxic habitats with hypoxia pro-drug evofosfamide in preclinical models of sarcoma

Author

Gary V. Martinez, Jack P. Higgins, Michal R. Tomaszewski, Bruna Victorasso Jardim Perassi, Wei Mu, Robert J. Gillies, Jan Poleszczuk, and Dominique Abrahams

Subjects

Cancer Research, Evofosfamide, business.industry, Histology, Hypoxia (medical), medicine.disease, Clinical trial, chemistry.chemical_compound, Oncology, chemistry, medicine, Cancer research, Doxorubicin, Sarcoma, medicine.symptom, Fibrosarcoma, business, Rhabdomyosarcoma, medicine.drug

Abstract

Tumor habitats are phenotypically and spatially distinct intratumoral regions. Hypoxic habitats are associated with reduced accessibility of chemotherapeutics, resulting in resistance. Hypoxia targeted prodrugs (HAPs) may overcome this resistance. However, in a phase III clinical trial, the HAP evofosfamide (TH-302) did not improve survival of sarcomas when used in combination with the standard of care doxorubicin (Dox). This may have been due to a lack of patient stratification based on hypoxic status. Thus, identification of hypoxic tumor habitats (Jardim-Perassi et al. 2019) would allow for pre-therapy patient stratification, and monitoring of habitats post-therapy. Our goal was to use multiparametric (mp) MRI and co-registered histology to classify hypoxic habitats in preclinical models of sarcoma, and to use Habitat Imaging to monitor therapy response. A patient-derived xenograft (PDX) of rhabdomyosarcoma (obtained from St. Jude's) and a syngeneic model of fibrosarcoma (RIF-1) were randomized into four groups, receiving saline (control), Dox, TH-302, or the combination (Dox + TH-302). mpMRI was acquired pre and post therapy, and parameter maps were calculated for T2, T2*, diffusion weighted imaging (DWI), and Dynamic contrast-enhanced (DCE). MRI based 3D printed tumor molds were used to guide MRI and histology co-registration. Machine learning was used to classify MRI into viable, hypoxic and non-viable tumor habitats using their co-registered histological counterparts as ground-truth. TH-302 monotherapy or the Dox + TH-302 combination reduced tumor growth and increased overall survival in the PDX model (p Citation Format: Bruna Victorasso Jardim Perassi, Wei Mu, Dominique F. Abrahams, Michal R. Tomaszewski, Jan Poleszczuk, Jack Higgins, Gary V. Martinez, Robert J. Gillies. Targeting hypoxic habitats with hypoxia pro-drug evofosfamide in preclinical models of sarcoma [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 2772.

Published

2020

97. A Phase I Dose-Escalation Study to Evaluate the Safety and Tolerability of Evofosfamide in Combination with Ipilimumab in Advanced Solid Malignancies.

Author

Hegde A, Jayaprakash P, Couillault CA, Piha-Paul S, Karp D, Rodon J, Pant S, Fu S, Dumbrava EE, Yap TA, Subbiah V, Bhosale P, Coarfa C, Higgins JP, Williams ET, Wilson TF, Lim J, Meric-Bernstam F, Sumner E, Zain H, Nguyen D, Nguyen LM, Rajapakshe K, Curran MA, and Hong DS

Subjects

Aged, Female, Humans, Ipilimumab adverse effects, Male, Maximum Tolerated Dose, Middle Aged, Nitroimidazoles adverse effects, Phosphoramide Mustards adverse effects, Safety, Treatment Outcome, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Head and Neck Neoplasms drug therapy, Ipilimumab administration & dosage, Melanoma drug therapy, Nitroimidazoles administration & dosage, Pancreatic Neoplasms drug therapy, Phosphoramide Mustards administration & dosage, Prostatic Neoplasms drug therapy, Squamous Cell Carcinoma of Head and Neck drug therapy

Abstract

Purpose: As hypoxia can mediate resistance to immunotherapy, we investigated the safety, tolerability, and efficacy of combining evofosfamide, a prodrug that alleviates hypoxia, with ipilimumab, an immune checkpoint inhibitor, in immunologically "cold" cancers, which are intrinsically insensitive to immunotherapy, as well as in "hot/warm" metastatic cancers that are, atypical of such cancers, resistant to immunotherapy., Patients and Methods: In a phase I, 3+3 dose-escalation trial (NCT03098160), evofosfamide (400-640 mg/m 2 ) and ipilimumab (3 mg/kg) were administered in four 3-week cycles. The former was administered on days 1 and 8 of cycles 1-2, while the latter was administered on day 8 of cycles 1-4. Response was assessed using immune-related RECIST and retreatment was allowed, if deemed beneficial, after completion of cycle 4 or at progression., Results: Twenty-two patients were enrolled, of whom 21 were evaluable, encompassing castration-resistant prostate cancer ( n = 11), pancreatic cancer ( n = 7), immunotherapy-resistant melanoma ( n = 2), and human papillomavirus-negative head and neck cancer ( n = 1). Drug-related hematologic toxicities, rash, fever, nausea, vomiting, and elevation of liver enzymes were observed in > 10% of patients. The most common drug-related grade 3 adverse event was alanine aminotransferase elevation (33.3%). Two patients discontinued ipilimumab and 4 required evofosfamide deescalation due to toxicity. Of 18 patients with measurable disease at baseline, 3 (16.7%) achieved partial response and 12 (66.7%) achieved stable disease. The best responses were observed at 560 mg/m 2 evofosfamide. Preexisting immune gene signatures predicted response to therapy, while hypermetabolic tumors predicted progression. Responders also showed improved peripheral T-cell proliferation and increased intratumoral T-cell infiltration into hypoxia., Conclusions: No new or unexpected safety signals were observed from combining evofosfamide and ipilimumab, and evidence of therapeutic activity was noted., (©2021 American Association for Cancer Research.)

Published

2021

98. A Novel PBPK Modeling Approach to Assess Cytochrome P450 Mediated Drug-Drug Interaction Potential of the Cytotoxic Prodrug Evofosfamide

Author

Christian Lüpfert, Martin Dyroff, Oliver von Richter, Dieter Gallemann, Samer El Bawab, Hugues Dolgos, Stefan Hecht, Andreas Johne, and Don Jung

Subjects

CYP2D6, Physiologically based pharmacokinetic modelling, CYP2B6, CYP3A, Pharmacology, 030226 pharmacology & pharmacy, Article, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Pharmacokinetics, Cytochrome P-450 Enzyme System, Humans, Pharmacology (medical), Drug Interactions, Prodrugs, Evofosfamide, CYP3A4, Chemistry, Research, Articles, Prodrug, Nitroimidazoles, 030220 oncology & carcinogenesis, Modeling and Simulation, Phosphoramide Mustards

Abstract

Evofosfamide is a cytotoxic small-molecule prodrug preferentially activated under hypoxic conditions. The cytotoxicity of evofosfamide impacted the generation of in vitro drug-drug interaction (DDI) data, especially in vitro induction results. Therefore, a novel physiologically based pharmacokinetic (PBPK) approach was used, which involved available in vitro and clinical data of evofosfamide and combined it with induction data from the prototypical cytochrome P450 (CYP)3A inducer rifampicin. The area under the concentration-time curve (AUC) ratios of midazolam were above 0.80, indicating that induction of CYP3A by evofosfamide administered weekly is unlikely to occur in humans. Moreover, static and PBPK modeling showed no clinically relevant inhibition via CYP2B6, CYP2D6, and CYP3A4. In conclusion, PBPK models were used to supplement in vitro information of a cytotoxic compound. This approach may set a precedent for future studies of cytotoxic drugs, potentially reducing the need for clinical DDI studies and providing more confidence in the clinical use of approved cytotoxic compounds for which DDI information is sparse.

Published

2018

99. 18F-fluoromisonidazole predicts evofosfamide uptake in pancreatic tumor model

Author

Naga Vara Kishore Pillarsetty, Louise M. Fanchon, John L. Humm, Milan Grkovski, and James A. Russell

Subjects

lcsh:Medical physics. Medical radiology. Nuclear medicine, 18F-Fluoromisonidazole, lcsh:R895-920, Short Communication, Evofosfamide, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, 18F-fluoromisonidazole, Pancreatic tumor, Pancreatic cancer, medicine, Pimonidazole, Radiology, Nuclear Medicine and imaging, Hypoxia, Nitroimidazole, business.industry, Prodrug, medicine.disease, Personalized medicine, 3. Good health, chemistry, 030220 oncology & carcinogenesis, Cancer research, business, Ex vivo

Abstract

Background Quantitative imaging can facilitate patient stratification in clinical trials. The hypoxia-activated prodrug evofosfamide recently failed a phase III trial in pancreatic cancer. However, the study did not attempt to select for patients with hypoxic tumors. We tested the ability of 18F-fluoromisonidazole to predict evofosfamide uptake in an orthotopic xenograft model (BxPC3). Methods Two forms of evofosfamide were used: (1) labeled on the active moiety (3H) and (2) on the hypoxia targeting nitroimidazole group (14C). Tumor uptake of evofosfamide and 18F-fluoromisonidazole was counted ex vivo. Autoradiography of 14C and 18F coupled with pimonidazole immunohistochemistry revealed the spatial distributions of prodrug, radiotracer, and hypoxia. Results There was significant individual variation in 18F-fluoromisonidazole uptake, and a significant correlation between normalized 18F-fluoromisonidazole and both 3H-labeled and 14C-labeled evofosfamide. 18F-fluoromisonidazole and 14C-evofosfamide both localized in hypoxic regions as identified by pimonidazole. Conclusion 18F-fluoromisonidazole predicts evofosfamide uptake in a preclinical pancreatic tumor model.

Published

2018

100. Comparison of hypoxia-activated prodrug evofosfamide (TH-302) and ifosfamide in preclinical non-small cell lung cancer models

Author

Yan Wang, Mark D. Matteucci, Qian Liu, Jessica D Sun, Dharmendra Ahluwalia, Don Jung, Charles P. Hart, and Damien Ferraro

Subjects

0301 basic medicine, Cancer Research, Lung Neoplasms, Combination therapy, Pharmacology, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Carcinoma, Non-Small-Cell Lung, medicine, Animals, Humans, Prodrugs, Ifosfamide, Lung cancer, Evofosfamide, Sunitinib, business.industry, Cancer, Prodrug, medicine.disease, Xenograft Model Antitumor Assays, 030104 developmental biology, Oncology, chemistry, Docetaxel, Nitroimidazoles, 030220 oncology & carcinogenesis, Molecular Medicine, Phosphoramide Mustards, business, Research Paper, medicine.drug

Abstract

Evofosfamide (TH-302) is a hypoxia-activated prodrug of the cytotoxin bromo-isophosphoramide. In hypoxic conditions Br-IPM is released and alkylates DNA. Ifosfamide is a chloro-isophosphoramide prodrug activated by hepatic Cytochrome P450 enzymes. Both compounds are used for the treatment of cancer. Ifosfamide has been approved by the FDA while evofosfamide is currently in the late stage of clinical development. The purpose of this study is to compare efficacy and safety profile of evofosfamide and ifosfamide in preclinical non-small cell lung cancer H460 xenograft models. Immunocompetent CD-1 mice and H460 tumor-bearing immunocompromised nude mice were used to investigate the safety profile. The efficacy of evofosfamide or ifosfamide, alone, and in combination with docetaxel or sunitinib was compared in ectopic and intrapleural othortopic H460 xenograft models in animals exposed to ambient air or different oxygen concentration breathing conditions. At an equal body weight loss level, evofosfamide showed greater or comparable efficacy in both ectopic and orthotopic H460 xenograft models. Evofosfamide, but not ifosfamide, exhibited controlled oxygen concentration breathing condition-dependent antitumor activity. However, at an equal body weight loss level, ifosfamide yielded severe hematologic toxicity when compared to evofosfamide, both in monotherapy and in combination with docetaxel. At an equal hematoxicity level, evofosfamide showed superior antitumor activity. These results indicate that evofosfamide shows superior or comparable efficacy and a favorable safety profile when compared to ifosfamide in preclinical human lung carcinoma models. This finding is consistent with multiple clinical trials of evofosfamide as a single agent, or in combination therapy, which demonstrated both anti-tumor activity and safety profile without severe myelosuppression.

Published

2016