A prototype nonpeptidyl, hydrazone class, thrombopoietin receptor agonist, SB-559457, is toxic to primary human myeloid leukemia cells

Kalota, Anna; Gewirtz, Alan M.

doi:10.1182/blood-2009-06-227751

Cited by 17 publications

(17 citation statements)

References 25 publications

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“…9,10 One study using a close chemical derivative of EP found a toxic effect on myeloid leukemia cells, suggesting that the entire substance class, including EP itself, may possess antileukemic activity. 11 Studies using cell lines further suggested that the growth-inhibitory effect of EP is not related to expression levels of TPO-R. 12 However, this hypothesis has not yet been formally tested, and the mechanism through which EP exerts its potential antileukemic effect is not known. The concentrations at which EP inhibits leukemia cell proliferation in vitro are clinically achievable with few side effects and have led to desirable increases in circulating platelet counts in healthy volunteers.…”

Section: Introductionmentioning

confidence: 99%

Eltrombopag inhibits the proliferation of leukemia cells via reduction of intracellular iron and induction of differentiation

Roth

Will

Simkin

et al. 2012

Blood

146

123

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Eltrombopag (EP) is a small-molecule, nonpeptide thrombopoietin receptor (TPO-R) agonist that has been approved recently for the treatment of thrombocytopenia in patients with chronic immune thrombocytopenic purpura. Prior studies have shown that EP stimulates megakaryopoiesis in BM cells from patients with acute myeloid leukemia and myelodysplastic syndrome, and the results also suggested that it may inhibit leukemia cell growth. In the present study, we studied the effects of EP on leukemia cell proliferation and the mechanism of its antiproliferative effects. We found that EP leads to a decreased cell division rate, a block in G 1 phase of cell cycle, and increased differentiation in human and murine leukemia cells. Because EP is species specific in that it can only bind TPO-R in human and primate cells, these findings further suggested that the antileukemic effect is independent of TPO-R. We found that treatment with EP leads to a reduction in free intracellular iron in leukemic cells in a dose-dependent manner. Experimental increase of intracellular iron abrogated the antiproliferative and differentiation-inducing effects of EP, demonstrating that its antileukemic effects are mediated through modulation of intracellular iron content. Finally, determination of EP's antileukemic activity in vivo demonstrated its ability to prolong survival in 2 mouse models of leukemia. (Blood. 2012;120(2):386-394) IntroductionSurvival in acute myeloid leukemia (AML) and high-risk myelodysplastic syndrome (MDS) has remained poor despite recent efforts to treat patients with novel therapeutic regimens. [1][2][3][4] In addition, complications secondary to thrombocytopenia and bleeding occur frequently in AML and MDS, leading to significant morbidity and mortality. 5,6 Given that the median age of patients with AML is close to 70 years, novel antileukemia agents with limited BM toxicity are needed to improve outcomes.Eltrombopag (EP) is an oral, nonpeptide, small-molecule thrombopoietin receptor (TPO-R) agonist that has proven efficacy in treating chronic immune thrombocytopenic purpura (ITP) and hepatitis C-related thrombocytopenia. 7,8 Despite concerns that some leukemia blast cells express TPO-R, we and others have reported previously that EP does not stimulate leukemia or MDS cell growth, but may rather lead to a modest inhibition while continuing to stimulate normal megakaryopoiesis in BM samples of patients with AML or MDS. 9,10 One study using a close chemical derivative of EP found a toxic effect on myeloid leukemia cells, suggesting that the entire substance class, including EP itself, may possess antileukemic activity. 11 Studies using cell lines further suggested that the growth-inhibitory effect of EP is not related to expression levels of However, this hypothesis has not yet been formally tested, and the mechanism through which EP exerts its potential antileukemic effect is not known. The concentrations at which EP inhibits leukemia cell proliferation in vitro are clinically achievable with few side effects and hav...

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Section: Introductionmentioning

confidence: 99%

Eltrombopag inhibits the proliferation of leukemia cells via reduction of intracellular iron and induction of differentiation

Roth

Will

Simkin

et al. 2012

Blood

146

123

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“…The design of the initial library was facilitated by the structureactivity relationship (SAR) information available from small molecule (Qureshi et al, 1999;Goldberg et al, 2002) and allosteric peptide (Naranda et al, 1999(Naranda et al, , 2002 agonists of the EPO receptor, and allosteric small molecule agonists of the structurally related TPOR (Erickson-Miller et al, 2005;Desjardins et al, 2006;Dziewanowska et al, 2007;Kim et al, 2007;Kalota and Gewirtz, 2010;Abe et al, 2011) as well as structural data on the receptors (Livnah et al, 1996(Livnah et al, , 1999Carr et al, 2001). An initial hit was identified based on receptor interaction and EPO-like functional activity, and subsequent compound designs for developing an SAR for in vitro neuroprotection focused on 1,2,4-triazolo[1,5-a]pyrimidines.…”

Section: Resultsmentioning

confidence: 99%

“…All the small molecule TPOR agonists reported to date activate the receptor by binding to allosteric sites outside of the native ligand-binding site and proximal to residues near the plasma membrane (Desjardins et al, 2006;Dziewanowska et al, 2007;Kim et al, 2007;Erickson-Miller et al, 2009;Kalota and Gewirtz, 2010;Abe et al, 2011), suggesting that allosteric compounds may have more promise as therapeutic agents targeting the EPO receptor when compared with compounds binding at the orthosteric sites. The allosteric TPOR agonists described to date are also smaller than the previously described orthosteric EPOR agonists, supporting the potential to design compounds that cross the BBB.…”

Section: Discussionmentioning

confidence: 99%

“…Agonists of several cytokine receptors, including the receptors for granulocyte colony-stimulating factor (G-CSF) (Tian et al, 1998) and thrombopoietin (TPO) (Erickson-Miller et al, 2005;Desjardins et al, 2006;Dziewanowska et al, 2007;Kim et al, 2007;Kalota and Gewirtz, 2010;Abe et al, 2011) have been described, and the TPO receptor (TPOR) agonist eltrombopag is approved by the U.S. Food and Drug Administration for the treatment of thrombocytopenia (Kuter, 2013). The feasibility of discovering small molecule agonists of receptors for EPO was also supported by the small allosteric peptide agonists that activated the EPOR/EPOR homodimer and triggered EPO-like biologic activity (Naranda et al, 1999;Naranda et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

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Discovery and Characterization of Nonpeptidyl Agonists of the Tissue-Protective Erythropoietin Receptor

et al. 2015

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Erythropoietin (EPO) and its receptor are expressed in a wide variety of tissues, including the central nervous system. Local expression of both EPO and its receptor is upregulated upon injury or stress and plays a role in tissue homeostasis and cytoprotection. High-dose systemic administration or local injection of recombinant human EPO has demonstrated encouraging results in several models of tissue protection and organ injury, while poor tissue availability of the protein limits its efficacy. Here, we describe the discovery and characterization of the nonpeptidyl compound STS-E412 (2-[2-(4-chlorophenoxy) ethoxy]-5,7-dimethyl-[1,2,4]triazolo[1,5-a]pyrimidine), which selectively activates the tissue-protective EPO receptor, comprising an EPO receptor subunit (EPOR) and the common b-chain (CD131). STS-E412 triggered EPO receptor phosphorylation in human neuronal cells. STS-E412 also increased phosphorylation of EPOR, CD131, and the EPO-associated signaling molecules JAK2 and AKT in HEK293 transfectants expressing EPOR and CD131. At low nanomolar concentrations, STS-E412 provided EPO-like cytoprotective effects in primary neuronal cells and renal proximal tubular epithelial cells. The receptor selectivity of STS-E412 was confirmed by a lack of phosphorylation of the EPOR/EPOR homodimer, lack of activity in off-target selectivity screening, and lack of functional effects in erythroleukemia cell line TF-1 and CD341 progenitor cells. Permeability through artificial membranes and Caco-2 cell monolayers in vitro and penetrance across the blood-brain barrier in vivo suggest potential for central nervous system availability of the compound. To our knowledge, STS-E412 is the first nonpeptidyl, selective activator of the tissue-protective EPOR/CD131 receptor. Further evaluation of the potential of STS-E412 in central nervous system diseases and organ protection is warranted.

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“…In addition, TOP-RAs are expressed on nerve cells, with in vitro studies demonstrating that TPO inhibits NGF neuronal differentiation and ERK signaling [102]. On the other hand, TPO appears to have cardioprotective components [103] and anti-leukemic effects [104]. Meanwhile, several other peptides, nonpeptides and minibodies (small antibodies) have been designed to stimulate the production of platelets (Table 2).…”

Section: Reviewmentioning

confidence: 97%

Current treatment options for primary immune thrombocytopenia

Salama

2011

Expert Review of Hematology

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Traditional treatment of primary (idiopathic) immune thrombocytopenia (ITP) predominantly consists of immune suppression and/or modulation. In addition, many treated patients develop severe adverse effects, and approximately a third of patients do not respond. Two of the newly developed thrombopoietin-receptor agonists, romiplostim and eltrombopag, are now available for the treatment of ITP. Both drugs have been shown to increase the production of platelets in a dose-dependent manner, and to compensate, at least partly, for thrombocytopenia in the majority of ITP patients. The reported adverse effects are predominantly mild, although serious and long-term side effects cannot be excluded. Nevertheless, these drugs are increasingly used in the treatment of patients with thrombocytopenias. Thrombopoietin-receptor agonists do not appear to stop either the production of autoantibodies or the accelerated platelet destruction observed in ITP. Thus, the need for a specific therapy is essential, and the ultimate solution is to clarify and halt the mechanism(s) that lead to the development of ITP.

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A prototype nonpeptidyl, hydrazone class, thrombopoietin receptor agonist, SB-559457, is toxic to primary human myeloid leukemia cells

Cited by 17 publications

References 25 publications

Eltrombopag inhibits the proliferation of leukemia cells via reduction of intracellular iron and induction of differentiation

Eltrombopag inhibits the proliferation of leukemia cells via reduction of intracellular iron and induction of differentiation

Discovery and Characterization of Nonpeptidyl Agonists of the Tissue-Protective Erythropoietin Receptor

Current treatment options for primary immune thrombocytopenia

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