BGT226 maleate | NVP-BGT226 | PI3K Inhibitor | AmBeed-信号通路专用抑制剂

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BGT226 maleate {[allProObj[0].p_purity_real_show]}

货号：A514784 同义名： NVP-BGT226;NVP-BGT226 maleate

NVP-BGT226 is a class I PI3K/mTOR inhibitor for PI3Kα/β/γ with IC50 of 4 nM/63 nM/38 nM.

BGT226 maleate 化学结构
CAS号：1245537-68-1

BGT226 maleate 3D分子结构
CAS号：1245537-68-1

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BGT226 maleate 纯度/质量文件产品仅供科研

货号：A514784 标准纯度： {[allProObj[0].p_purity_real_show]} 产品说明书

批次查询：批次纯度: COA SDS NMR HPLC CNMR LC-MS

全球学术期刊中引用的产品: • Cell, 2024, 101755. Ambeed. [ A399663 ]; • EMBO J., 2024. Ambeed. [ A295334 ]; • JMC, 2024, 67(20): 18265-18289. Ambeed. [ A538667 , A341145 , A117430 , A172297 ]; • JMC, 2024. Ambeed. [ A210558 , A1518164 ]; • Cell Death Discov., 2024, 10, 436. Ambeed. [ A384235 ]; 更多 >

PI3K 亚型比较
自噬亚型比较

产品名称	C2β ↓ ↑	p110α ↓ ↑	p110β ↓ ↑	p110γ ↓ ↑	p110δ ↓ ↑	PI3K ↓ ↑	Vps34 ↓ ↑	其他靶点	纯度
A66	+ C2β, IC50: 462 nM	++ p110α, IC50: 32 nM							99%+
Taselisib	+ C2β, IC50: 292 nM	++++ PI3Kα, Ki: 0.29 nM	+++ PI3Kβ, Ki: 9.1 nM	++++ PI3Kγ, Ki: 0.97 nM	++++ PI3Kδ, Ki: 0.12 nM		+ hVps34, IC50: 374 nM		99%+
Gedatolisib		++++ PI3Kα, IC50: 0.4 nM		+++ PI3Kγ, IC50: 5.4 nM				mTOR	98%
HS-173		++++ PI3Kα , IC50: 0.8 nM							99%+
Serabelisib		+++ PI3Kα, IC50: 21 nM							99%+
GNE-477		++++ PI3Kα, IC50: 4 nM						mTOR	98%
YM-201636		+ p110α, IC50: 3.3 μM						PIKfyve	98%
AS-252424		+ PI3Kα, IC50: 935 nM		++ PI3Kγ, IC50: 33 nM					99%
Alpelisib		+++ PI3Kα, IC50: 5 nM							99%+
AS-604850		+ PI3Kα, IC50: 4.5 μM		+ PI3Kγ, IC50: 0.25 μM					98+%
SF2523		++ PI3Kα, IC50: 34 nM		++ PI3Kγ, IC50: 158 nM				DNA-PK,mTOR	99%+
Inavolisib		++++ PI3K alpha, IC50: 0.038 nM							99%+
Bimiralisib		++++ PI3Kα, Kd: 1.5 nM	+++ PI3Kβ, Kd: 11 nM	++ PI3Kγ, Kd: 25 nM	++ PI3Kδ, Kd: 25 nM			mTOR	99%+
GSK1059615		++++ PI3Kα, IC50: 0.4 nM	++++ PI3Kβ, IC50: 0.6 nM	+++ PI3Kγ, IC50: 5 nM	++++ PI3Kδ, IC50: 2 nM			mTOR	98%
GSK2636771			✔						98%
Fimepinostat		+++ PI3Kα, IC50: 19 nM	++ PI3Kβ, IC50: 54 nM		++ PI3Kδ, IC50: 39 nM				99%+
VS-5584		++++ PI3Kα, IC50: 2.6 nM	+++ PI3Kβ, IC50: 21 nM	++++ PI3Kγ, IC50: 3.0 nM	++++ PI3Kδ, IC50: 2.7 nM			mTOR	99%
Dactolisib		++++ p110α1, IC50: 4 nM	++ p110β, IC50: 75 nM	+++ p110γ, IC50: 5 nM	+++ p110δ, IC50: 7 nM				98+%
PI-103		++++ p110α, IC50: 2 nM	++++ p110β, IC50: 3 nM	+++ p110γ, IC50: 15 nM	++++ p110δ, IC50: 3 nM			DNA-PK,mTOR	99%+
PI-3065			+ p110β, IC50: 1078 nM		+++ p110δ, IC50: 15 nM				99%+
Voxtalisib		++ PI3Kα, IC50: 39 nM	++ PI3Kβ, IC50: 113 nM	+++ PI3Kγ, IC50: 9 nM	++ PI3Kδ, IC50: 43 nM			DNA-PK,mTOR	99%+
AZD-8835		+++ PI3Kα, IC50: 6.2 nM	+ PI3Kβ, IC50: 431 nM	++ PI3Kγ, IC50: 90 nM	+++ PI3Kδ, IC50: 5.7 nM				98%
Pilaralisib analogue		++ PI3Kα, IC50: 39 nM	++ PI3Kβ, IC50: 36 nM	+++ PI3Kγ, IC50: 23 nM	++ PI3Kδ, IC50: 36 nM				99%+
ZSTK474		+++ PI3Kα, IC50: 16 nM	++ PI3Kβ, IC50: 44 nM	++ PI3Kγ, IC50: 49 nM	+++ PI3Kδ, IC50: 4.6 nM	++ PI3K, IC50: 37 nM			98%
AS-605240		++ PI3Kα, IC50: 60 nM	+ PI3Kβ, IC50: 270 nM	+++ PI3Kγ, IC50: 8 nM	+ PI3Kδ, IC50: 300 nM				98%
TGX-221			+++ p110β, IC50: 5 nM		++ p110δ, IC50: 0.1 μM				99%+
PF-04691502		++++ PI3Kα, Ki: 1.8 nM	++++ PI3Kβ, Ki: 2.1 nM	++++ PI3Kγ, Ki: 1.9 nM	++++ PI3Kδ, Ki: 1.6 nM			mTOR	98+%
GDC-0084		++++ PI3Kα, Ki app: 2 nM	++ PI3Kβ, Ki app: 46 nM	+++ PI3Kγ, Ki app: 10 nM	++++ PI3Kδ, Ki app: 3 nM			mTOR	99%+
Buparlisib		++ p110α, IC50: 52 nM	+ p110β, IC50: 166 nM	+ p110γ, IC50: 262 nM	++ p110δ, IC50: 116 nM		+ Vps34, IC50: 2.4 μM	mTOR	98%
LY294002		+ p110α, IC50: 0.5 μM	+ p110β, IC50: 0.97 μM		+ p110δ, IC50: 0.57 μM			DNA-PK	99%+
AZD 6482		+ PI3Kα, IC50: 870 nM	+++ PI3Kβ, IC50: 10 nM		++ PI3Kδ, IC50: 80 nM			DNA-PK	99%+
Pictilisib		++++ p110α, IC50: 3 nM	++ p110β, IC50: 33 nM	++ p110γ, IC50: 75 nM	++++ p110δ, IC50: 3 nM			mTOR	99%+
PKI-402		++++ PI3Kα, IC50: 2 nM	+++ PI3Kβ, IC50: 7 nM	+++ PI3Kγ, IC50: 16 nM	+++ PI3Kδ, IC50: 14 nM			mTOR	99+%
Copanlisib		++++ PI3Kα, IC50: 0.5 nM	++++ PI3Kβ, IC50: 3.7 nM	+++ PI3Kγ, IC50: 6.4 nM	++++ PI3Kδ, IC50: 0.7 nM				99%+
Omipalisib		++++ p110α, Ki: 0.019 nM	++++ p110β, Ki: 0.13 nM	++++ p110γ, Ki: 0.06 nM	++++ p110δ, Ki: 0.024 nM				99%+
Izorlisib		+++ PI3Kα, IC50: 14 nM	++ PI3Kβ, IC50: 0.12 μM	++ PI3Kγ, IC50: 36 nM	+ PI3Kδ, IC50: 0.50 μM				99%+
AZD8186		++ PI3Kα, IC50: 35 nM	++++ PI3Kβ, IC50: 4 nM		+++ PI3Kδ, IC50: 12 nM				98+%
KU-0060648		++++ PI3Kα, IC50: 4 nM	++++ PI3Kβ, IC50: 0.5 nM	+ PI3Kγ, IC50: 0.59 μM	++++ PI3Kδ, IC50: 0.1 nM			DNA-PK	99%
Apitolisib		+++ p110α, IC50: 5 nM	++ p110β, IC50: 27 nM	+++ p110γ, IC50: 14 nM	+++ p110δ, IC50: 7 nM			mTOR	98%+
CZC24832			+ PI3Kβ, IC50: 1.1 μM	++ PI3Kγ, IC50: 27 nM					98+%
BGT226 maleate		++++ PI3Kα, IC50: 4 nM	++ PI3Kβ, IC50: 63 nM	++ PI3Kγ, IC50: 38 nM				mTOR	99%+
TG 100713		++ PI3Kα, IC50: 165 nM	+ PI3Kβ, IC50: 215 nM	++ PI3Kγ, IC50: 50 nM	+++ PI3Kδ, IC50: 24 nM				98%+
PI3K-IN-1		++ PI3Kα, IC50: 39 nM	++ PI3Kβ, IC50: 113 nM	+++ PI3Kγ, IC50: 9 nM	++ PI3Kδ, IC50: 43 nM			DNA-PK,mTOR	98+%
TG100-115		+ PI3Kα, IC50: 1.3 μM	+ PI3Kβ, IC50: 1.2 μM	++ PI3Kγ, IC50: 83 nM	+ PI3Kδ, IC50: 235 nM				98%
PIK-90		+++ PI3Kα, IC50: 11 nM	+ PI3Kβ, IC50: 350 nM	+++ PI3Kγ, IC50: 18 nM	++ PI3Kδ, IC50: 58 nM				99%+
PIK-294			+ p110β, IC50: 490 nM	++ p110γ, IC50: 160 nM	+++ p110δ, IC50: 10 nM				99%+
Duvelisib			++++ PI3Kβ, Ki: 1564 pM	++ PI3Kγ, Ki: 243 pM	++++ PI3Kδ, Ki: 23 pM				99%+
GDC-0326		++++ PI3Kα, Ki: 0.2 nM	++ PI3Kβ, Ki: 26.6 nM	+++ PI3Kγ, Ki: 10.2 nM	++++ PI3Kδ, Ki: 4 nM				98%
Quercetin Dihydrate			+ PI3Kβ, IC50: 5.4 μM	+ PI3Kγ, IC50: 2.4 μM	+ PI3Kδ, IC50: 3.0 μM				95%
Quercetin			+ PI3Kβ, IC50: 5.4 μM	+ PI3Kγ, IC50: 2.4 μM	+ PI3Kδ, IC50: 3.0 μM			Sirtuin,Src,PKC	97%
Leniolisib		+ PI3Kα, IC50: 0.244 μM	+ PI3Kβ, IC50: 0.424 μM	+ PI3Kγ, IC50: 2.23 μM	+++ PI3Kδ, IC50: 0.011 μM			DNA-PK	99%+
PIK-108			✔						98%
Eganelisib				+++ PI3Kγ, IC50: 16 nM					99%+
CAY10505				✔					98%
IPI-3063					++++ p110δ, IC50: 2.5 nM				99%
Nemiralisib					++++ PI3Kδ, pKi: 9.9				99%+
PF-4989216		++++ p110α, IC50: 2 nM		++ p110γ, IC50: 65 nM	++++ p110δ, IC50: 1 nM				99%+
PIK-75 HCl		+++ p110α, IC50: 5.8 nM		++ p110γ, IC50: 76 nM	+ p110δ, IC50: 0.51 μM			DNA-PK	99%+
Tenalisib				++ PI3Kγ, IC50: 33.2 nM	++ PI3Kδ, IC50: 24.5 nM				95+%
Acalisib					+++ p110δ, IC50: 14 nM				99%+
Umbralisib					+++ PI3Kδ, IC50: 22.2 nM				99%+
AMG319				+ PI3Kγ, IC50: 850 nM	+++ PI3Kδ, IC50: 18 nM				99%
IC-87114				+ PI3Kγ, IC50: 29 μM	+ PI3Kδ, IC50: 0.5 μM				99%+
Idelalisib				++ p110γ, IC50: 89 nM	++++ p110δ, IC50: 2.5 nM				98%
PIK-293				+ p110γ, IC50: 10 μM	+ p110δ, IC50: 0.24 μM				99%+
Vps34-PIK-III					+ PI3Kδ, IC50: 1.2μM		+++ Vps34, IC50: 0.018μM		99%+
GSK2292767					✔				99+%
Seletalisib				+ PI3Kγ, IC50: 282 nM	+++ PI3Kδ, IC50: 12 nM				99%+
P110δ-IN-1					++++ P110δ, IC50: 0.6 nM				98%
PI3Kδ-IN-5					++++ PI3Kδ, IC50: 0.9 nM				98%
SRX3207		+ PI3K alpha, IC50: 244 nM		+ PI3K gamma, IC50: 9790 nM	+ PI3K delta, IC50: 388 nM			Syk	98%
Parsaclisib HCl					++++ PI3Kδ, IC50: 1 nM				98%
IHMT-PI3Kδ-372					+++ PI3Kδ, IC50: 14 nM				98%
Trigonelline						✔		Akt	99%+
Wortmannin						++++ PI3K, IC50: 3 nM		DNA-PK,MLCK	99%+
Samotolisib						✔		DNA-PK	99%+
GNE-317						✔			99%+
Oroxin B						✔		PTEN,Akt	99%+
NU 7026						+ PI3K, IC50: 13 μM		DNA-PK	98+%
Deguelin						✔		Akt	99%+
Ailanthone						✔		ATM/ATR,CDK,Akt	98%
Resibufogenin						✔		ROS	98%
KU-57788						+ PI3K, IC50: 5 μM		DNA-PK,mTOR	99%+
Cinobufagine						✔		Akt	98%
α-Linolenic acid						✔			97% GC
MTX-211						✔		EGFR	98%
PI3K/mTOR Inhibitor-2						++++ PI3K, IC50: 3.4 nM		mTOR	99%+
SPP-86						✔			99%+
(E)-Akt inhibitor-IV						✔			98%
Vps34-IN-1							++ Vps34, IC50: 25 nM		98%
SAR405							++++ Vps34, IC50: 1.2 nM		98+%
3-Methyladenine				+ PI3Kγ, IC50: 60 μM			+ Vps34, IC50: 25 μM	Autophagy	98%
Vps34-IN-4							+++ VPS34, IC50: 15 nM		98%+
Autophinib							+++ Vps34, IC50: 19 nM	Autophagy	97%
1. 鼠标悬停在“+”上可以显示相关IC50的具体数值。"+"越多，抑制作用越强。2. "✔"表示该化合物对相应的亚型有抑制作用，但抑制强度暂时没有相关数据。

产品名称	Autophagy ↓ ↑	其他靶点	纯度
SBI-0206965	+++ ULK1, IC50: 108 nM ULK2, IC50: 711 nM		97%
Hydroxychloroquine sulfate	✔		99%
Valproic acid sodium	✔	HDAC	97%
PFK-015	++ PFKFB3, IC50: 207 nM		99%+
MRT68921 hydrochloride	++++ ULK1, IC50: 2.9 nM ULK2, IC50: 1.1 nM		99%+
ROC-325	✔		99%+
Autophinib	+++ Autophagy, IC50: 40 nM		97%
Lys05	✔		99%+
1. 鼠标悬停在“+”上可以显示相关IC50的具体数值。"+"越多，抑制作用越强。2. "✔"表示该化合物对相应的亚型有抑制作用，但抑制强度暂时没有相关数据。

BGT226 maleate 生物活性

靶点

p110γ

PI3Kγ, IC50:38 nM
p110β

PI3Kβ, IC50:63 nM
p110α

PI3Kα, IC50:4 nM
mTOR

描述

The phosphoinositide 3-kinase (PI3K)/Akt/mTOR signaling pathway is one of the most frequently dysregulated signaling cascades in human malignancies, it displays oncogenic potential and it is implicated in a wide variety of different neoplasms. NVP-BGT226 (BGT226), an imidazoquinoline derivative, an ATP-competitive dual PI3K/mTORC1/C2 inhibitor: it is a potent pan-class I PI3K inhibitor (p110α, β, δ, and γ, with a preference for the α-isoform -wild type and mutated-) and is a mTORC1/2 catalytic inhibitor. The IC50s of NVP-BGT226 is 4 nM, 63 nM and 38 nM for PI3Kα, PI3Kβ and PI3Kγ^[3]. Because the pathway may not be completely inhibited after blockade of PI3K itself, due to feedback through mammalian target of rapamycin (mTOR), more effective inhibition might be expected by targeting both PI3K and mTOR inhibition. There is extensive crosstalk between the two signalling networks. mTOR can affect PI3K/Akt signalling through the S6K-IRS1 feedback loop and induce Akt phosphorylation by mTORC2. NVP-BGT226 can effectively block downstream targets and result in radiation sensitization in tumor cell lines and in endothelial cells^[4]. BGT226 could affect the viability of HCC cell lines, Mahlavu, SNU475, SNU449, HepG2 and Hep3B cells when they were incubated in the presence of increasing concentrations of the drug from 0.50 μM to 1.5 μM for either 24 or 48h. The experiments documented that already at 24h all the cell lines were very sensitive to BGT226. After 48h of treatment cell viability impairment was more evident, with an IC50 value ranging from 0.55 μM for Mahlavu to 1.35 μM for HepG2 cell^[5]. Oral administration of BGT226 at 2.5 and 5 mg/kg for 3 weeks caused 34.7% and 76.1% reduction of the tumor growth in the human FaDu xenografted mice on day 21, respectively (compared with control)^[6].

BGT226 maleate 动物研究

Dose	BALB/c mice: 4 mg/kg, 8mg/kg^[3] (p.o.), 2.5 mg/kg - 5 mg/kg^[4] (p.o.)
Administration	p.o.

BGT226 maleate 参考文献

[1]Markman B, Tabernero J, et al. Phase I safety, pharmacokinetic, and pharmacodynamic study of the oral phosphatidylinositol-3-kinase and mTOR inhibitor BGT226 in patients with advanced solid tumors. Ann Oncol. 2012 Sep;23(9):2399-408.

[2]Baumann P, Schneider L, et al. Simultaneous targeting of PI3K and mTOR with NVP-BGT226 is highly effective in multiple myeloma. Anticancer Drugs. 2012 Jan;23(1):131-8.

[3]Markman B, Tabernero J, Krop I, Shapiro GI, Siu L, Chen LC, Mita M, Melendez Cuero M, Stutvoet S, Birle D, Anak Ö, Hackl W, Baselga J. Phase I safety, pharmacokinetic, and pharmacodynamic study of the oral phosphatidylinositol-3-kinase and mTOR inhibitor BGT226 in patients with advanced solid tumors. Ann Oncol. 2012 Sep;23(9):2399-2408. doi: 10.1093/annonc/mds011. Epub 2012 Feb 22. PMID: 22357447.

[4]Fokas E, Yoshimura M, Prevo R, Higgins G, Hackl W, Maira SM, Bernhard EJ, McKenna WG, Muschel RJ. NVP-BEZ235 and NVP-BGT226, dual phosphatidylinositol 3-kinase/mammalian target of rapamycin inhibitors, enhance tumor and endothelial cell radiosensitivity. Radiat Oncol. 2012 Mar 27;7:48. doi: 10.1186/1748-717X-7-48. PMID: 22452803; PMCID: PMC3348043.

[5]Simioni C, Cani A, Martelli AM, Zauli G, Alameen AA, Ultimo S, Tabellini G, McCubrey JA, Capitani S, Neri LM. The novel dual PI3K/mTOR inhibitor NVP-BGT226 displays cytotoxic activity in both normoxic and hypoxic hepatocarcinoma cells. Oncotarget. 2015 Jul 10;6(19):17147-60. doi: 10.18632/oncotarget.3940. PMID: 26003166; PMCID: PMC4627298.

[6]Chang KY, Tsai SY, Wu CM, Yen CJ, Chuang BF, Chang JY. Novel phosphoinositide 3-kinase/mTOR dual inhibitor, NVP-BGT226, displays potent growth-inhibitory activity against human head and neck cancer cells in vitro and in vivo. Clin Cancer Res. 2011 Nov 15;17(22):7116-26. doi: 10.1158/1078-0432.CCR-11-0796. Epub 2011 Oct 5. PMID: 21976531.

BGT226 maleate 实验方案

计算器

存储液制备

1mg

5mg

10mg

1 mM

5 mM

10 mM

1.54mL

0.31mL

0.15mL

7.69mL

1.54mL

0.77mL

15.37mL

3.07mL

1.54mL

BGT226 maleate 技术信息

CAS号	1245537-68-1
分子式	C₃₂H₂₉F₃N₆O₆
分子量	650.605

别名	NVP-BGT226;NVP-BGT226 maleate
运输	蓝冰

存储条件

液体 -20°C:3-6个月-80°C:12个月

粉末 Inert atmosphere,Store in freezer, under -20°C

溶解度

DMSO: 60 mg/mL(92.22 mM)，配合低频超声，并水浴加热至45℃助溶，注意：DMSO长时间开封后，会吸水并导致溶解能力下降，请避免使用长期开封的DMSO

动物实验配方

PO 0.5% CMC-Na 62 mg/mL suspension

BGT226 maleate {[allProObj[0].p_purity_real_show]}

BGT226 maleate 纯度/质量文件产品仅供科研

全球学术期刊中引用的产品

BGT226 maleate 质控信息

BGT226 maleate 生物活性

BGT226 maleate 动物研究

BGT226 maleate 参考文献

BGT226 maleate 实验方案

BGT226 maleate 技术信息

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p110γ	PI3Kγ, IC50:38 nM
p110β	PI3Kβ, IC50:63 nM
p110α	PI3Kα, IC50:4 nM
mTOR

BGT226 maleate {[allProObj[0].p_purity_real_show]}

BGT226 maleate 纯度/质量文件 产品仅供科研

全球学术期刊中引用的产品

BGT226 maleate 质控信息

BGT226 maleate 生物活性

BGT226 maleate 动物研究

BGT226 maleate 参考文献

BGT226 maleate 实验方案

BGT226 maleate 技术信息

最近浏览的产品

大规格询价

摩尔计算器

靶点

总药量计算器

工作液计算器

细胞研究

临床研究

确认信息

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BGT226 maleate 纯度/质量文件产品仅供科研