Alvespimycin (17-DMAG) HCl

For research use only.

Catalog No.S1142 Synonyms: NSC 707545,BMS 826476 HCl,KOS 1022

36 publications

Alvespimycin (17-DMAG) HCl Chemical Structure

Molecular Weight(MW): 653.21

Alvespimycin (17-DMAG) HCl is a potent HSP90 inhibitor with IC50 of 62 nM in a cell-free assay. Phase 2.

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Selleck's Alvespimycin (17-DMAG) HCl has been cited by 36 publications

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Biological Activity

Description Alvespimycin (17-DMAG) HCl is a potent HSP90 inhibitor with IC50 of 62 nM in a cell-free assay. Phase 2.
Features A synthetic derivative Geldanamycin, with lower hepatotoxicity than parent antibiotic & higher potency and bioavailability than the similar derivative 17-AAG.
Targets
HSP90 [1]
(Cell-free assay)
62 nM
In vitro

17-DMAG displays ~2 times potency against human Hsp90 than 17-AAG, with IC50 of 62 nM versus 119 nM. In SKBR3 and SKOV3 cells which over-express Hsp90 client protein Her2, 17-DMAG causes down-regulation of Her2 with EC50 of 8 nM and 46 nM, respectively, as well as induction of Hsp70 with EC50 of 4 nM and 14 nM, respectively, leading to significant cytotoxicity with GI50 of 29 nM and 32 nM, respectively, consistent with Hsp90 inhibition. [1] 17-DMAG in combination with vorinostat synergistically induces apoptosis of the cultured MCL cells as well as primary MCL cells, more potently than either agent alone, by markedly attenuating the levels of cyclin D1 and CDK4, as well as of c-Myc, c-RAF and Akt. [3] In contrast to 17-AAG which is only active for IKKβ in chronic lymphocytic leukemia (CLL) cells, 17-DMAG treatment effectively leads to depletion of the Hsp90 client protein, resulting in diminished NF-κB p50/p65 DNA binding, decreased NF-κB target gene transcription, and caspase-dependent apoptosis. By targeting the NF-κB family, 17-DMAG selectively mediates dose- and time-dependent cytotoxicity against CLL cells, but not normal T cells or NK cells important for immune surveillance. [5]

Cell Data
Cell Lines Assay Type Concentration Incubation Time Formulation Activity Description PMID
human A2058 cells NUT4UmprS3m2b4TvfIlkyqCjc4PhfS=> NVXzSY84S3m2b4TvfIlkcXS7IHHnZYlve3RiaIXtZY4hSTJyNUigZ4VtdHNiYomgUXRVKGG|c3H5MEBKSzVyPUKuNUBvVQ>? NYfabZZbOTh7Mkm0PFY>
human AGS cells MlXFSpVv[3Srb36gZZN{[Xl? NI\TTmFKdmirYnn0bY9vKG:oIHj5dI95cWFvaX7keYNm\CCKSV[xJIFkfGm4YYTpc44hcW5iaIXtZY4hSUeVIHPlcIx{KGK7IILldI9zfGW{IHflcoUh[XO|YYmsJGlEPTB;Mz62JI5O M2\KUFE5OzV7NkOx
SKBR3 cells NWH0S285TnWwY4Tpc44h[XO|YYm= MYHVdJJm\3WuYYTpc44hd2ZiSIPwO|AhcW5iU1vCVlMh[2WubIOsJGVEPTB;NDDuUS=> MofBNVY5PTRyNk[=
human MDA-MB-231 cells NHuxTGlHfW6ldHnvckBie3OjeR?= NH\iNm5KdmirYnn0bY9vKG:oIFjzdFkxKGmwIHj1cYFvKE2GQT3NRk0zOzFiY3XscJMh[XO|ZYPz[YQh[XNiaHXyNkBl\We{YXTheIlwdixiSVO1NF01NjVibl2= NHvpXFcyQDl{OUS4Oi=>
human MDA-MB-231 cells NX:zR3p4S3m2b4TvfIlkyqCjc4PhfS=> NV\4SlFLS3m2b4TvfIlkcXS7IHHnZYlve3RiaIXtZY4hVUSDLV3CMVI{OSClZXzsd{BjgSCPVGSgZZN{[XluIFnDOVA:PS56IH7N MmPuNVg6Ojl2OE[=
human A2058 cells NUHtRolVTnWwY4Tpc44h[XO|YYm= NHn4NWtKdmirYnn0bY9vKG:oIFjzdFkxKGmwIHj1cYFvKEF{MEW4JINmdGy|LDDFR|UxRTdwOTDuUS=> MYKxPFkzQTR6Nh?=
SKOV3 cells NVvqSZV2TnWwY4Tpc44h[XO|YYm= MoPwWZBz\We3bHH0bY9vKG:oIFjzdFcxKGmwIGPLU3Y{KGOnbHzzMEBGSzVyPUG0JI5O NF\YdFcyPjh3NEC2Oi=>
SKBr3 cells M1HSVGN6fG:2b4jpZ:Kh[XO|YYm= NIXkRlNEgXSxdH;4bYNqfHliYXfhbY5{fCCVS1LyN{Bk\WyuczygTWM2OD1{NDDuUS=> M16xelE3OTZ3M{W0
human AGS cells M1uxeGZ2dmO2aX;uJIF{e2G7 MnnaNVYhcA>? MXjJcohq[mm2aX;uJI9nKEiLRkGgZYN1cX[jdHnvckBqdiCqdX3hckBCT1NiY3XscJMh[XO|ZYPz[YQh[XNiaX7obYJqfGmxbjDv[kBpgXCxeHnhMYlv\HWlZXSgcJVkcW[ncnHz[UBmgHC{ZYPzbY9vKGGodHXyJFE3KGi{czDifUBz\XCxcoTldkBie3OjeTygTWM2OD1|NjDuUS=> NHHlS2syPzV6M{m1NC=>
human HCT116 cells NX7qOFBSS3m2b4TvfIlkyqCjc4PhfS=> NEnvSHFEgXSxdH;4bYNqfHliYXfhbY5{fCCqdX3hckBJS1RzMU[gZ4VtdHNiYomgRYxidWG{IHLseYUh[XO|YYmsJGlEPTB;NUCgcm0> MUGyNFY3OjV|NB?=
human Hep3B cells NUS2Z3hKTnWwY4Tpc44h[XO|YYm= NGX1cW8yOiCq MonzTY5pcWKrdHnvckBw\iCqeYDvfIliNWmwZIXj[YQhUEmIMXHsdIhiKHC{b4TlbY4h[WOldX31cIF1cW:wIHnuJIh2dWGwIFjldFNDKGOnbHzzJJRz\WG2ZXSg[o9zKDNyIH3pcpMhdWWjc4Xy[YQh[W[2ZYKgNVIhcHK|IHL5JHdme3Sncn6gZoxwfCCjbnHsfZNqeyxiSVO1NF02PyCwTR?= MWOyNFQ3QTh6Nx?=
human A549 cells MlrjR5l1d3SxeHnjxsBie3OjeR?= NU\3bm9bPzJiaB?= Mon1R5l1d3SxeHnjbZR6KGGpYXnud5QhcHWvYX6gRVU1QSClZXzsd{Bi\nSncjC3NkBpenNiYomgZ4VtdHSrdHXyMYdtdyCjc4PhfUwhUUN3ME22PEBvVQ>? NXjhNlZCOTl2MEW1Nlg>
human MCF7 cells MX;DfZRwfG:6aXRCpIF{e2G7 M2\wT|czKGh? MYjDfZRwfG:6aXPpeJkh[WejaX7zeEBpfW2jbjDNR2Y4KGOnbHzzJIFnfGW{IEeyJIhzeyxiSVO1NF04OSCwTR?= NIT1UYcyQTJ|MUi2OC=>
human NCI-H1299 cells NWHSPGN5TnWwY4Tpc44h[XO|YYm= MXXJcohq[mm2aX;uJI9nKGi3bXHuJGhUWDlyIHnuJIh2dWGwIF7DTU1JOTJ7OTDj[YxteyCjc4Pld5Nm\CCjczDBb5Qh\GWpcnHkZZRqd25iYX\0[ZIhOjRiaILzJIJ6KGy3bXnu[Zgh[XO|YYmsJGlEPTB;MD6xJO69VQ>? MWSyNVQ{QDV2MR?=
human HeLa cells MYPGeY5kfGmxbjDhd5NigQ>? Mnr5TY5pcWKrdHnvckBw\iCWTl[tZYxxcGFvaX7keYNm\CCQRj3rZZBx[UJiYXP0bZZifGmxbjDpckBpfW2jbjDI[WxiKGOnbHzzMEBKSzVyPUCuNVUh|ryP MonuNVg{PTl4M{G=
human A231 cells NE\lVXVRem:uaX\ldoF1cW:wIHHzd4F6 MVO0PEBp NG\NcldCdnSrcILvcIln\XKjdHn2[UBi[3Srdnn0fUBi\2GrboP0JIh2dWGwIFGyN|Eh[2WubIOgZYZ1\XJiNEigbJJ{KGK7IF3UWEBie3OjeTygTWM2OD1yLkG3JO69VQ>? M2izeVI1PzZ|Mk[x
human CCRF-CEM cells NGX2eI9EgXSxdH;4bYPDqGG|c3H5 NVmzVpUyPzJiaB?= MmrsR5l1d3SxeHnjbZR6KGGpYXnud5QhcHWvYX6gR2NTTi2FRV2gZ4VtdHNiYX\0[ZIhPzJiaILzJIJ6KGOnbHz0bZRmei17NjDhdZVmd3W|IH;u[UB{d2y3dHnvckBie3OjeTygTWM2OD1yLkW0JO69VQ>? Mnz6NVk1ODV3Mki=
human NCI-H596 cells NYTKfYF3S3m2b4TvfIlkyqCjc4PhfS=> MkSwO|IhcA>? MVPDfZRwfG:6aXPpeJkh[WejaX7zeEBPWTBzLXTl[olkcWWwdDDoeY1idiCQQ1mtTFU6PiClZXzsd{Bi\nSncjC3NkBpenNuIFnDOVA:OS5zIN88US=> MUWxPVI{OTh4NB?=
human HCT116 cells MXnQdo9tcW[ncnH0bY9vKGG|c3H5 NIPC[Ys1QCCq Mn7KRY51cXC{b3zp[oVz[XSrdnWgZYN1cX[rdImgZYdicW6|dDDoeY1idiCKQ2SxNVYh[2WubIOgZYZ1\XJiNEigbJJ{KGK7IF3UWEBie3OjeTygTWM2OD1zLkKxJO69VQ>? M4DEPVI1PzZ|Mk[x
human MDA468 cells MoSwR5l1d3SxeHnjxsBie3OjeR?= M3PHbVczKGh? M17EVGN6fG:2b4jpZ4l1gSCjZ3HpcpN1KE6TMEGt[IVncWOrZX70JIh2dWGwIF3ERVQ3QCClZXzsd{Bi\nSncjC3NkBpenNuIFnDOVA:OS54IN88US=> NWrwVnprOTl{M{G4OlQ>
human AGS cells NF\5NI9EgXSxdH;4bYPDqGG|c3H5 M4DWTmN6fG:2b4jpZ4l1gSCjZ3HpcpN1KGi3bXHuJGFIWyClZXzsd{BjgSCPVGSgZZN{[XluIFnDOVA:OTZizszN NVrRbZY6OTh|NUm2N|E>
human LN229-Lux cells MlLDSpVv[3Srb36gZZN{[Xl? M3XObFIvPS1zMDFOwG0> NEDWSFAyKGh? NW\oRYI5UW6qaXLpeIlwdiCxZjDseYNq\mW{YYPlJIFkfGm4aYT5JIlvKGi3bXHuJGxPOjJ7LVz1fEBk\WyuczDheEAzNjVidH:gNVAhfU1iaX7jeYJifGWmIH\vdkAyKGi{IIXu[IVzKG6xcn3vfIliKG[xbHzve4VlKGK7IEK0JIhzeyC3bnTldkBpgXCxeHnhJIJ6KHKncH;yeIVzKGenbnWgZZN{[Xl? MYCyNlc1PjJ5NB?=
human NCI-H1299 cells MnLNSpVv[3Srb36gZZN{[Xl? NVTHVI9GOTJiaB?= Ml3yVoVlfWO2aX;uJIlvKG:6eXflckBkd26|dX3weIlwdiC{YYTlJIlvKGi3bXHuJG5EUS2KMUK5PUBk\WyuczDpcoN2[mG2ZXSg[o9zKDF{IHjydy=> MmjGNlU{QDN7MUW=
human NCI-H526 cells NUn0eYF5TnWwY4Tpc44h[XO|YYm= NXzKRoE3OSEQvF2= NVj2T4x7OjRiaB?= Ml\rRolv\GmwZzDh[oZqdmm2eTD0c{BJW1B7MDDpckBpfW2jbjDOR2kuUDV{NjDj[YxteyCjdDCxJJVOKGGodHXyJFI1KGi{czDifUBndHWxcnXzZ4Vv[2VicH;sZZJqgmG2aX;uJIF{e2G7 NIfVPVIyPzZyM{W0NC=>

... Click to View More Cell Line Experimental Data

Assay
Methods Test Index PMID
Western blot
HSP90 / HSP70 ; 

PubMed: 28915605     


Western blot analysis showing dose-dependent elevation of Hsp70 and HSP90 levels in AGS cells by 17-DMAG.

p-Akt / Survivin / MMP2 ; 

PubMed: 28915605     


Western blot analysis showing the dose-dependent reduction of the expression of HSP90 client proteins, such as p-Akt, survivin, and MMP2 by 17-DMAG.

PARP / Cleaved caspase-3 / Cleaved caspase-8 / Cleaved caspase-9 / PUMA ; 

PubMed: 28915605     


(C-D) 17-DMAG effects on the expression of apoptotic proteins (PARP, c-caspase 3, c-caspase-8, c-caspase-9, and PUMA) in AGS cells. Western blot analyses indicate that 17-DMAG significantly increased the expression of apoptotic proteins in AGS cells in a dose- (C) and time- (D) dependent manner (P < 0.05).

p-ALK / ALK / p-Akt / Akt / p-ERK / ERK ; 

PubMed: 26219569     


Modulation of ALK signaling in parental and 17-DMAG-resistant cells. Cells were treated with the indicated concentrations of 17-DMAG or AUY922 for 6 h. The molecules of ALK-related signaling activity were detected by western blot analysis.

α-Tax / α-IKKα / α-IKKβ/ α-NEMO / α-TBK1 / α-p65 / α-p50 ; 

PubMed: 24109220     


C8166, MT-2, and MT-4 cells were treated with 17-DMAG as indicated, and cell lysates were subjected to immunoblotting with the indicated antibodies.

28915605 26219569 24109220
Growth inhibition assay
Cell proliferation ; 

PubMed: 28915605     


Proliferation assay of AGS cells treated with graded concentrations of 17-DMAG for 24 h or 48 h. 17-DMAG resulted in significant dose- and time-dependent reduction of AGS cell proliferation (P < 0.05)

28915605
In vivo 17-DMAG treatment at 5 mg/kg or 25 mg/kg thrice per week significantly reduces tumor growth of TMK-1 xenografts, by significantly reducing vessel area and numbers of proliferating tumor cells in sections. [2] Consistent the inhibition of FAK signaling in vivo, 17-DMAG treatment at 25 mg/kg three times a week significantly suppresses tumor growth, and metastasis of ME180 and SiHa xenografts in mice. [4] Administration of 17-DMAG at 10 mg/kg for 16 days significantly decreases the white blood cell count and prolongs the survival in a TCL1-SCID transplant mouse model. [5]

Protocol

Kinase Assay:[1]
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Fluorescence polarization (FP)-based competition binding assay:

This assay utilizes a boron difluoride dipyrromethene (BODIPY) labeled geldanamycin analogue (BODIPY-AG) as a probe and measured fluorescence polarization upon binding of the probe to a protein. Native human Hsp90 protein (α + β isoforms) is isolated from HeLa cells. BODIPY-AG solution is freshly prepared in FP assay buffer (20 mM HEPES-KOH, pH 7.3, 1.0 mM EDTA, 100 mM KCl, 5.0 mM MgCl2, 0.01% NP-40, 0.1 mg/mL fresh bovine γ-globulin (BGG), 1.0 mM fresh DTT, and protease inhibitor from stock solution in DMSO. Competition curves are obtained by mixing 10 μL each of a solution containing BODIPY-AG and Hsp90, and a serial dilution of 17-DMAG freshly prepared in FP assay buffer from stock solution in DMSO. Final concentrations are 10 nM BODIPY-AG, 40 or 60 nM Hsp90, varying concentration of 17-DMAG (0.10 nM-10 μM), and ≤0.25% DMSO in a 384-well microplate. After 3 hours incubation at 30 °C, fluorescence anisotropy (γEx = 485 nm, γEm = 535 nm) is measured on an EnVision 2100 multilabel plate reader. IC50 value of 17-DMAG is obtained from the competition curves.
Cell Research:[5]
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  • Cell lines: Chronic lymphocytic leukemia (CLL)
  • Concentrations: Dissolved in DMSO, final concentrations ~1 μM
  • Incubation Time: 24, or 48 hours
  • Method: Cells are exposed to various concentrations of 17-DMAG for 24, or 48 hours. For the assessment of cytotoxicity, MTT reagent is then added, and plates are incubated for an additional 24 hours before spectrophotometric measurement. Apoptosis is determined by staining with annexin V-fluorescein isothiocyanate and propidium iodide (PI).
    (Only for Reference)
Animal Research:[5]
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  • Animal Models: SCID mice engrafted with TCL1 leukemia cells
  • Dosages: 10 mg/kg
  • Administration: Intraperitoneal injection 5 times per week
    (Only for Reference)

Solubility (25°C)

In vitro DMSO 131 mg/mL (200.54 mM)
Water Insoluble
Ethanol Insoluble
In vivo Add solvents to the product individually and in order(Data is from Selleck tests instead of citations):
1% DMSO+30% polyethylene glycol+1% Tween 80
For best results, use promptly after mixing.
30 mg/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 653.21
Formula

C32H48N4O8•HCl

CAS No. 467214-21-7
Storage powder
in solvent
Synonyms NSC 707545,BMS 826476 HCl,KOS 1022
Smiles Cl.COC1CC(C)CC2=C(NCCN(C)C)C(=O)C=C(NC(=O)C(=C\C=C/C(OC)C(OC(N)=O)/C(=C/C(C)C1O)C)\C)C2=O

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Cell Lines Assay Type Concentration Incubation Time Formulation Activity Description PMID