Activity of the Hypoxia-Activated Prodrug, TH-302, in Preclinical Human Acute Myeloid Leukemia Models

Portwood, Scott; Lal, Deepika; Hsu, Yung-Chun; Vargas, Rodrigo; Johnson, Megan K.; Wetzler, Meir; Hart, Charles P.; Wang, Eunice S.

doi:10.1158/1078-0432.ccr-13-0674

Cited by 59 publications

(51 citation statements)

References 40 publications

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“…Antitumor activity of the hypoxiaactivated pro-drug (TH-302) was demonstrated in combination with bortezomib which improved survival of mice with myeloma (14). TH-302 also delayed onset and progression of acute myeloid leukemia (AML) xenograft model (23). Moreover, blocking HIF1a signaling, which is constitutively expressed in mouse lymphoma and human AML stem cells, preferentially eliminated cancer stem cells abrogating colony-forming unit activity and tumor initiation (24).…”

Section: Discussionmentioning

confidence: 99%

Hypoxia Promotes Dissemination and Colonization in New Bone Marrow Niches in Waldenström Macroglobulinemia

Muz

Puente

Azab

et al. 2015

Molecular Cancer Research

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Waldenstr€ om macroglobulinemia, a rare and indolent type of non-Hodgkin lymphoma, is characterized by widespread lymphoplasmacytic B cells in the bone marrow. Previous studies have shown that hypoxic conditions play a key role in the dissemination of other hematologic malignancies. In this study, the effect of hypoxia was tested on the progression and spread of Waldenstr€ om macroglobulinemia. Interestingly, tumor progression correlated with hypoxia levels in Waldenstr€ om macroglobulinemia cells and other cells in the bone marrow and correlated with the number of circulating tumor cells in vivo. Mechanistic studies demonstrated that hypoxia decreased cell progression and cell cycle, did not induce apoptosis, and reduced the adhesion between Waldenstr€ om macroglobulinemia cells and bone marrow stroma, through downregulation of E-cadherin expression, thus explaining increased egress of Waldenstr€ om macroglobulinemia cells to the circulation. Moreover, hypoxia increased the extravasation and homing of Waldenstr€ om macroglobulinemia cells to new bone marrow niches in vivo, by increased CXCR4/ SDF-1-mediated chemotaxis and maintaining the VLA4-mediated adhesion. Re-oxygenation of hypoxic Waldenstr€ om macroglobulinemia cells enhanced the rate of proliferation and cell cycle progression and restored intercellular adhesion between Waldenstr€ om macroglobulinemia cells and bone marrow stroma. This study suggests that targeting hypoxic response is a novel strategy to prevent dissemination of Waldenstr€ om macroglobulinemia.Implications: This study provides a better understanding of the biology of dissemination of Waldenstr€ om macroglobulinemia and opens new windows for investigation of new therapeutic targets in Waldenstr€ om macroglobulinemia based on tumor hypoxia mechanisms.

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Section: Discussionmentioning

confidence: 99%

Hypoxia Promotes Dissemination and Colonization in New Bone Marrow Niches in Waldenström Macroglobulinemia

Muz

Puente

Azab

et al. 2015

Molecular Cancer Research

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“…Since gluataminase inhibitors also cause mitochondrial apoptosis through an increase in glutamine level, an additional strategy to hinder mitochondrial oxidative phosphorylation might take advantage of the synergy between these drugs and ABT compounds [117]. Another intriguing possibility is to exploit hypoxia-activated prodrugs [81,118]. It has been demonstrated that after exposure to hypoxia and TH-302, a hypoxia-activated prodrug which under hypoxic conditions releases the DNA alkylating agent bromoisophohoramide mustard, chemoresistant AML cells became sensitive to cytarabine and undergo apoptosis; thus this represents the rational for phase I clinical trials in refractory AML [118].…”

Section: Potential Targetsmentioning

confidence: 99%

“…Another intriguing possibility is to exploit hypoxia-activated prodrugs [81,118]. It has been demonstrated that after exposure to hypoxia and TH-302, a hypoxia-activated prodrug which under hypoxic conditions releases the DNA alkylating agent bromoisophohoramide mustard, chemoresistant AML cells became sensitive to cytarabine and undergo apoptosis; thus this represents the rational for phase I clinical trials in refractory AML [118]. Leukemic cell-induced changes in stromal cell activities and the intrinsic alterations adopted by the BM microenvironment to promote AML development and progression might be additional treatment targets to hinder leukemic niches.…”

Section: Potential Targetsmentioning

confidence: 99%

Therapeutically targeting SELF‐reinforcing leukemic niches in acute myeloid leukemia: A worthy endeavor?

et al. 2016

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A tight relationship between the acute myeloid leukemia (AML) population and the bone marrow (BM) microenvironment has been convincingly established. The AML clone contains leukemic stem cells (LSCs) that compete with normal hematopoietic stem cells (HSCs) for niche occupancy and remodel the niche; whereas, the BM microenvironment might promote AML development and progression not only through hypoxia and homing/adhesion molecules, but also through genetic defects. Although it is still unknown whether the niche influences treatment results or contains any potential target for treatment, this dynamic AML-niche interaction might be a promising therapeutic objective to significantly improve the AML cure rate.

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“…TH-302 also effectively inhibited onset, progression of AML, and extended the overall survival, both in systemic AML xenograft models and mice with advanced AML disease. In vitro, TH-302 decreased HIF1a protein expression and reduced ROS production, which resulted in decreased proliferation, increased cellcycle arrest, and induced double-stranded DNA breaks (80). TH-302 is currently evaluated in phase I/II study in patients with relapsed/refractory multiple myeloma combination with dexamethasone, with or without bortezomib (NCT01522872).…”

Section: Targeting Hypoxic Cells With Prodrugsmentioning

confidence: 99%

The Role of Hypoxia and Exploitation of the Hypoxic Environment in Hematologic Malignancies

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Puente

Azab

et al. 2014

Molecular Cancer Research

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Tumor hypoxia is a well-described phenomenon during the progression of solid tumors affecting cell signaling pathways and cell metabolism; however, its role in hematologic malignancies has not been given the same attention in the literature. Therefore, this review focuses on the comparative differences between solid and hematologic malignancies with emphasis on the role of hypoxia during tumorigenesis and progression. In addition, contribution of the bone marrow and angiogenic environment are also discussed. Insight is provided into the role of hypoxia in metastatic spread, stemness, and drug resistance in hematologic conditions. Finally, emerging therapeutic strategies such as small-molecule prodrugs and hypoxia-inducible factor (HIF) targeting approaches are outlined to combat hypoxic cells and/or adaptive mechanisms in the treatment of hematologic malignancies. Mol Cancer Res; 12(10); 1347-54. Ó2014 AACR. IntroductionHypoxia is a level of oxygen tension below the physiologic level; physiologic range varies due to diversified blood vessel network in different organs (1). Hypoxic conditions develop during cancer progression due to rapidly proliferating tumor cells that reduce O 2 diffusion as well as impaired perfusion of the abnormal blood vessels in the tumor. The oxygen level in hypoxic tumor tissues is found to be less than 1.3% O 2 , far below the physiologic oxygenation level (5%-10% O 2 ; ref. 2).Cellular adaptation to hypoxia is mediated through protein stabilization of hypoxia-inducible factor (HIF) subunits (HIF1a, HIF2a and HIF3a) that are regulated by prolyl hydroxylase domain (PHD) and factor-inhibiting HIF1 (FIH-1) enzymes. In oxygenated cells, HIFa subunits are hydroxylated by PHD and FIH-1, polyubiquitinated, and degraded by the proteasome; in hypoxia, the PHD enzymes lose their activity and the HIF degradation is halted. The stabilized, non-hydroxylated HIFa translocate to the nucleus, where they dimerize with constitutively expressed HIFb subunit, and bind to DNA to initiate gene transcription of the adaptive pathways (3, 4). Cellular adaptations to hypoxia can also occur by HIFindependent mechanisms including mammalian target of rapamycin (mTOR) kinase, unfolded protein response (UPR) in response to endoplasmic reticulum (ER) stress

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Activity of the Hypoxia-Activated Prodrug, TH-302, in Preclinical Human Acute Myeloid Leukemia Models

Cited by 59 publications

References 40 publications

Hypoxia Promotes Dissemination and Colonization in New Bone Marrow Niches in Waldenström Macroglobulinemia

Hypoxia Promotes Dissemination and Colonization in New Bone Marrow Niches in Waldenström Macroglobulinemia

Therapeutically targeting SELF‐reinforcing leukemic niches in acute myeloid leukemia: A worthy endeavor?

The Role of Hypoxia and Exploitation of the Hypoxic Environment in Hematologic Malignancies

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