Rigosertib (ON-01910)

Catalog No.S1362

Rigosertib (ON-01910) Chemical Structure

Molecular Weight(MW): 473.47

Rigosertib (ON-01910) is a non-ATP-competitive inhibitor of PLK1 with IC50 of 9 nM in a cell-free assay. It shows 30-fold greater selectivity against Plk2 and no activity to Plk3. Phase 3.

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Cited by 8 Publications

4 Customer Reviews

  • Along with cell death, immunoblotting shows ON 01910.Na induces hyperphosphorylation of RanGAP1, increased expression of RanGAP1.SUMO1 but decreased expression of free unmodified RanGAP1. No viable SU-DHL-5 cells were available for immunoblotting at 0.5 uM of ON 01910.Na.

    PLoS One 2013 8(11), e79863. Rigosertib (ON-01910) purchased from Selleck.

    Rigosertib (ON-01910) purchased from Selleck.

  • Dr. Antonino Maria Sparta, PhD University of Bologna. Rigosertib (ON-01910) purchased from Selleck.

    (A) Rigosertib induced increased apoptosis in CD34+ cells from MDS patients. Especially those from high-grade MDS (Left), in a dose-dependent manner (Right); (B) rigosertib also induced increased apoptosis in MDS and leukemia cell lines, including MDS-L, SKM1, U937, K562, Kasumi-1 and KG1a (Left), in a dose-dependent manner (Right); (C) rigosertib could not induce apoptosis in CD34+ cells from normal controls; (D) the LD50 values were lower in patients with high-grade MDS than in those with low-grade MDS (left). Patients with a normal and abnormal karyotype did not differ;

    Sci Rep, 2014, 4:7310. Rigosertib (ON-01910) purchased from Selleck.

Purity & Quality Control

Choose Selective PLK Inhibitors

Biological Activity

Description Rigosertib (ON-01910) is a non-ATP-competitive inhibitor of PLK1 with IC50 of 9 nM in a cell-free assay. It shows 30-fold greater selectivity against Plk2 and no activity to Plk3. Phase 3.
Targets
PLK1 [1]
(Cell-free assay)		 PDGFR [1]
(Cell-free assay)		 Bcr-Abl [1]
(Cell-free assay)		 Flt1 [1]
(Cell-free assay)		 Src [1]
(Cell-free assay)
9 nM 18 nM 32 nM 42 nM 155 nM
In vitro

Rigosertib is non-ATP-competitive inhibitor to PLK1 with IC50 of 9 nM. Rigosertib also exhibits inhibition against PLK2, PDGFR, Flt1, BCR-ABL, Fyn, Src, and CDK1, with IC50 of 18-260 nM. Rigosertib shows cell killing activity against 94 different tumor cell lines with IC50 of 50-250 nM, including BT27, MCF-7, DU145, PC3, U87, A549, H187, RF1, HCT15, SW480, and KB cells. While in normal cells, such as HFL, PrEC, HMEC, and HUVEC, Rigosertib has little or no effect unless its concentration is greater than 5-10 μM. In HeLa cells, Rigosertib (100-250 nM) induces spindle abnormalities and apoptosis. [1] Rigosertib also inhibits several multidrug resistant tumor cell lines, including MES-SA, MES-SA/DX5a, CEM, and CEM/C2a, with IC50 of 50-100 nM. In DU145 cells, Rigosertib (0.25-5 μM) blocks cell cycle progression in G2/M phase, results in an accumulation of cells containing subG1 content of DNA, and activates apoptotic pathways. In A549 cells, Rigosertib (50 nM-0.5 μM) induces loss of viability and caspase 3/7 activation. [2] In a recent study, Rigosertib induces apoptosis in chronic lymphocytic leukemia (CLL) cells without toxicity against T-cells or normal B-cells. Rigosertib also abrogates the pro-survival effect of follicular dendritic cells on CLL cells and reduces SDF-1-induced migration of leukemic cells. [3]

Cell Data
Cell Lines Assay Type Concentration Incubation Time Formulation Activity Description PMID
human K562 cells NUfSZmpxS3m2b4TvfIlkyqCjc4PhfS=> MXi5OkBp M{LpTmN6fG:2b4jpZ4l1gSCjZ3HpcpN1KGi3bXHuJGs2PjJiY3XscJMh[W[2ZYKgPVYhcHK|IHL5JJRzgXCjbjDicJVmKGW6Y3z1d4lwdiCjc4PhfUwhUUN3ME23MlUhdk1? NFPHPFQzOThzMkSyNS=>
human T47D cells NILFNFhEgXSxdH;4bYPDqGG|c3H5 NGPscYs4OiCq M3L4bGN6fG:2b4jpZ4l1gSCjZ3HpcpN1KGi3bXHuJHQ1P0RiY3XscJMh[W[2ZYKgO|IhcHK|IHL5JG1VXCCjc4PhfUwhT0l3ME2xNEBvVQ>? MnfyNlE1PjN7NES=
human HeLa cells M2rLZnBzd2yrZnXyZZRqd25iYYPzZZk> M2[xe|czKGh? NUPCRmo3SW62aYDyc4xq\mW{YYTpeoUh[WO2aY\peJkh[WejaX7zeEBpfW2jbjDI[WxiKGOnbHzzJIF{e2W|c3XkJIF{KGOnbHyg[5Jwf3SqIHnubIljcXSrb36gZYZ1\XJiN{KgbJJ{KGK7IF3UWEBie3OjeTygS2k2OD1zMjDuUS=> M3KwTFI1PDdzOEez
human MDA468 cells MnTPR5l1d3SxeHnjxsBie3OjeR?= NEnkXWM4OiCq M1G4XWN6fG:2b4jpZ4l1gSCjZ3HpcpN1KGi3bXHuJG1FSTR4ODDj[YxteyCjZoTldkA4OiCqcoOgZpkhVVSWIHHzd4F6NCCJSUWwQVIxKG6P M2K3[|IyPDZ|OUS0
human LNCAP cells NUjJbFNuWHKxbHnm[ZJifGmxbjDhd5NigQ>? MX:3NkBp MljwRY51cXC{b3zp[oVz[XSrdnWgZYN1cX[rdImgZYdicW6|dDDBVkBxd3OrdHn2[UBpfW2jbjDMUmNCWCClZXzsd{Bie3Onc4Pl[EBieyClZXzsJIdzd3e2aDDpcohq[mm2aX;uJIFnfGW{IEeyJIhzeyCkeTDNWHQh[XO|YYmsJGdKPTB;MkWgcm0> NVrsfXltOjR2N{G4O|M>
human PANC1 cells MYrQdo9tcW[ncnH0bY9vKGG|c3H5 MkDlO|IhcA>? M2XGc2FvfGmycn;sbYZmemG2aY\lJIFkfGm4aYT5JIFo[Wmwc4SgbJVu[W5iUFHOR|Eh[2WubIOgZZN{\XO|ZXSgZZMh[2WubDDndo94fGhiaX7obYJqfGmxbjDh[pRmeiB5MjDodpMh[nliTWTUJIF{e2G7LDDHTVUxRTN7IH7N M32zd|I1PDdzOEez
human MCF7 cells M4K1bnBzd2yrZnXyZZRqd25iYYPzZZk> MYW3NkBp MlT3RY51cXC{b3zp[oVz[XSrdnWgZYN1cX[rdImgZYdicW6|dDDFVkBxd3OrdHn2[UBpfW2jbjDNR2Y4KGOnbHzzJIF{e2W|c3XkJIF{KGOnbHyg[5Jwf3SqIHnubIljcXSrb36gZYZ1\XJiN{KgbJJ{KGK7IF3UWEBie3OjeTygS2k2OD13MDDuUS=> M4PFUFI1PDdzOEez
human HCT116 cells M4XZbmN6fG:2b4jpZ:Kh[XO|YYm= NHzuVpM4OiCq NUTjS|IxS3m2b4TvfIlkcXS7IHHnZYlve3RiaIXtZY4hUEOWMUG2JINmdGy|IHHmeIVzKDd{IHjyd{BjgSCPVGSgZZN{[XluIFfJOVA:PTBibl2= NV\TUWhJOjF2NkO5OFQ>
human MCF7 cells NYTFT4pQS3m2b4TvfIlkyqCjc4PhfS=> Ml;OO|IhcA>? M1ztcGN6fG:2b4jpZ4l1gSCjZ3HpcpN1KGi3bXHuJG1ETjdiY3XscJMh[W[2ZYKgO|IhcHK|IHL5JG1VXCCjc4PhfUwhT0l3ME21NEBvVQ>? NGfLe|kzOTR4M{m0OC=>
human MDA-MB-231 cells MlHHVJJwdGmoZYLheIlwdiCjc4PhfS=> NHztW2U4OiCq MoGxRY51cXC{b3zp[oVz[XSrdnWgZYN1cX[rdImgZYdicW6|dDDFVkBv\WejdHn2[UBpfW2jbjDNSGEuVUJvMkOxJINmdGy|IHHzd4V{e2WmIHHzJINmdGxiZ4Lve5RpKGmwaHnibZRqd25iYX\0[ZIhPzJiaILzJIJ6KE2WVDDhd5NigQ>? MoOxNlQ1PzF6N{O=
human A2780 cells Mk\XVJJwdGmoZYLheIlwdiCjc4PhfS=> M4P5Z|czKGh? NYnaRmZKSW62aYDyc4xq\mW{YYTpeoUh[WO2aY\peJkh[WejaX7zeEBpfW2jbjDBNlc5OCClZXzsd{Bie3Onc4Pl[EBieyClZXzsJIdzd3e2aDDpcohq[mm2aX;uJIFnfGW{IEeyJIhzeyCkeTDNWHQh[XO|YYmsJGdKPTB;NkKgcm0> MUGyOFQ4OTh5Mx?=
human HCT116 cells M4rZOXBzd2yrZnXyZZRqd25iYYPzZZk> NWWwV2RRPzJiaB?= Ml\CRY51cXC{b3zp[oVz[XSrdnWgZYN1cX[rdImgZYdicW6|dDDoeY1idiCKQ2SxNVYh[2WubIOgZZN{\XO|ZXSgZZMh[2WubDDndo94fGhiaX7obYJqfGmxbjDh[pRmeiB5MjDodpMh[nliTWTUJIF{e2G7LDDHTVUxRTdyIH7N MmHZNlQ1PzF6N{O=
human DU145 cells MVrQdo9tcW[ncnH0bY9vKGG|c3H5 NXPCfGJ[PzJiaB?= MnvmRY51cXC{b3zp[oVz[XSrdnWgZYN1cX[rdImgZYdicW6|dDDBVkBv\WejdHn2[UBpfW2jbjDEWVE1PSClZXzsd{Bie3Onc4Pl[EBieyClZXzsJIdzd3e2aDDpcohq[mm2aX;uJIFnfGW{IEeyJIhzeyCkeTDNWHQh[XO|YYmsJGdKPTB;N{Wgcm0> MlXnNlQ1PzF6N{O=
human DU145 cells Ml;DR5l1d3SxeHnjxsBie3OjeR?= NFz1OVc6PiCq MXTDfZRwfG:6aXPpeJkh[WejaX7zeEBpfW2jbjDEWVE1PSClZXzsd{Bi\nSncjC5OkBpenNiYomgeJJ6eGGwIHLseYUh\XilbIXzbY9vKGG|c3H5MEBKSzVyPUe1JI5O NILpUXozOThzMkSyNS=>
human MDA468 cells MlLRR5l1d3SxeHnjxsBie3OjeR?= M37sSVQ5KGh? MkW5R5l1d3SxeHnjbZR6KGGpYXnud5QhcHWvYX6gUWRCPDZ6IHPlcIx{KGGodHXyJFQ5KGi{czDifUBOXFRiYYPzZZktKEeLNUC9NE4{ODJizszN MoO2NlE1PjN7NES=
human MRC5 cells NWr0PFJHS3m2b4TvfIlkyqCjc4PhfS=> NGfMXFE4OiCq NFW0eYdEgXSxdH;4bYNqfHliYXfhbY5{fCCqdX3hckBOWkN3IHPlcIx{KGGodHXyJFczKGi{czDifUBOXFRiYYPzZZktKEeLNUC9NE44OSEQvF2= Mnj1NlE1PjN7NES=
human A2780 cells Mo\zSpVv[3Srb36gZZN{[Xl? MoXzNE4zPSEQvF2= NXzEe2t4OjRiaB?= MoPPVoVlfWO2aX;uJIlvKE2lbEGgcIV3\WxiaX6gbJVu[W5iQUK3PFAh[2WubIOgZZQhOC5{NTD1UUBi\nSncjCyOEBpenNiYomgW4V{fGW{bjDicI91KGGwYXz5d4l{ NF;qcVQzPDR5MUi3Ny=>

... Click to View More Cell Line Experimental Data
In vivo In mouse xenograft models of Bel-7402, MCF-7, and MIA-PaCa cells, Rigosertib (250 mg/kg) markedly inhibits tumor growth. [1] Rigosertib (200 mg/kg) shows inhibition on tumor growth in a mouse xengraft model of BT20 cells. [2]

Protocol

Kinase Assay:[1]
+ Expand

In vitro enzyme assays for PLK1:

Recombinant PLK1 (10 ng) is incubated with different concentrations of Rigosertib in a 15 µL reaction mixture (50 mM HEPES, 10 mM MgCl2, 1 mM EDTA, 2 mM Dithiothreitol, 0.01% NP-40 [pH 7.5]) for 30 min at room temperature. Kinase reactions are performed for 20 min at 30 °C in a volume of 20 µL (15 µL enzyme + inhibitor, 2 µL 1 mM ATP), 2 µL of γ32P-ATP (40 μCi), and 1 µL of recombinant Cdc25C (100 ng) or casein (1 μg) substrates. Reactions are terminated by boiling for 2 min in 20 µL of 2× Laemmli buffer. Phosphorylated substrates are separated by 18% SDS-PAGE. The gels are dried and exposed to X-ray film for 3-10 min.
Cell Research:[2]
+ Expand
  • Cell lines: A number of tumor cell lines, including BT20, MCF-7, DU145, PC3, U87, A549, H187, RF1, HCT15, HeLa, and Raji cells
  • Concentrations: 1 nM - 10 μM, dissolved in DMSO as stock solution.
  • Incubation Time: 96 hours
  • Method: Cells are grown in either DMEM or RPMI supplemented with 10% fetal bovine serum and 1 unit/mL penicillin-streptomycin solution. Tumor cells are plated into six-well dishes at a density of 1 × 105cells/mL/well, and Rigosertib is added 24 hours later at various concentrations. Cell counts are determined from duplicate wells after 96-hour of treatment. The total number of viable cells is determined by trypan blue exclusio
    (Only for Reference)
Animal Research:[1]
+ Expand
  • Animal Models: Mouse (female athymic, NCR-nu/nu) xenograft models of Bel-7402, MCF-7, and MIA-PaCa cells
  • Formulation: Dissolved in PBS
  • Dosages: 250 mg/kg
  • Administration: Intraperitonially
    (Only for Reference)

Solubility (25°C)

In vitro DMSO 95 mg/mL (200.64 mM)
Water 95 mg/mL (200.64 mM)
Ethanol Insoluble
In vivo Add solvents to the product individually and in order(Data is from Selleck tests instead of citations):
water
For best results, use promptly after mixing. 		95mg/mL

* Please note that Selleck tests the solubility of all compounds in-house, and the actual solubility may differ slightly from published values. This is normal and is due to slight batch-to-batch variations.

Chemical Information

Molecular Weight 473.47
Formula

C21H24NNaO8S
CAS No. 1225497-78-8
Storage powder
in solvent
Synonyms N/A

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Clinical Trial Information

NCT Number Recruitment Conditions Sponsor/Collaborators Start Date Phases
NCT03786237 Not yet recruiting Epidermolysis Bullosa Dystrophica|Squamous Cell Carcinoma Prof. Johann Bauer|Salzburger Landeskliniken January 2019 Phase 1|Phase 2
NCT03786237 Not yet recruiting Epidermolysis Bullosa Dystrophica|Squamous Cell Carcinoma Prof. Johann Bauer|Salzburger Landeskliniken January 2019 Phase 1|Phase 2
NCT02730884 Recruiting Leukemia|Myelofibrosis|Anemia|Splenomegaly M.D. Anderson Cancer Center|Onconova Therapeutics Inc. August 16 2017 Phase 2
NCT02730884 Recruiting Leukemia|Myelofibrosis|Anemia|Splenomegaly M.D. Anderson Cancer Center|Onconova Therapeutics Inc. August 16 2017 Phase 2
NCT02562443 Recruiting Myelodysplastic Syndrome|MDS|Refractory Anemia With Excess Blasts|RAEB Onconova Therapeutics Inc. October 2015 Phase 3
NCT02562443 Recruiting Myelodysplastic Syndrome|MDS|Refractory Anemia With Excess Blasts|RAEB Onconova Therapeutics Inc. October 2015 Phase 3

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Cell Lines Assay Type Concentration Incubation Time Formulation Activity Description PMID