Fluorofenidone | AKF-PD | PI3K/Akt Inhibitor | AmBeed-信号通路专用抑制剂

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Fluorofenidone {[allProObj[0].p_purity_real_show]}

货号：A1207399 同义名： AKF-PD

Fluorofenidone通过 PI3K/Akt 信号通路抑制 NADPH 氧化酶和 ECM 沉积，从而减轻肾间质纤维化进展，具有抗纤维化潜力，作为肾脏疾病治疗的新型药物。

Fluorofenidone 化学结构
CAS号：848353-85-5

Fluorofenidone 3D分子结构
CAS号：848353-85-5

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Fluorofenidone 纯度/质量文件产品仅供科研

货号：A1207399 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: • JMC, 2024. Ambeed. [ A919389 , A918471 , A995972 ]; • Anal. Chem., 2024, 96(50): 19947-19954. Ambeed. [ A261947 , A1165388 ]; • ACS Biomater. Sci. Eng., 2024. Ambeed. [ A220462 ]; • ACS Biomater. Sci. Eng., 2024. Ambeed. [ A165235 , A110205 ]; • Pharmaceutics, 2024, 16(12): 1546. Ambeed. [ A272538 , A187261 , A691302 , A506702 ]; 更多 >

PI3K 亚型比较
Akt 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	99%
HS-173		++++ PI3Kα , IC50: 0.8 nM							99%+
Serabelisib		+++ PI3Kα, IC50: 21 nM							99%+
GNE-477		++++ PI3Kα, IC50: 4 nM						mTOR	99%
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					99%
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			✔						99%
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				99%
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				99%
KU-0060648		++++ PI3Kα, IC50: 4 nM	++++ PI3Kβ, IC50: 0.5 nM	+ PI3Kγ, IC50: 0.59 μM	++++ PI3Kδ, IC50: 0.1 nM			DNA-PK	98%
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			PKC,Sirtuin,Src	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			✔						99%
Eganelisib				+++ PI3Kγ, IC50: 16 nM					99%+
CAY10505				✔					99%
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				98%
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				99%
PI3Kδ-IN-5					++++ PI3Kδ, IC50: 0.9 nM				99%
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						✔		Akt,PTEN	99%+
NU 7026						+ PI3K, IC50: 13 μM		DNA-PK	98+%
Deguelin						✔		Akt	99%+
Ailanthone						✔		ATM/ATR,Akt,CDK	98%
Resibufogenin						✔		ROS	98%
KU-57788						+ PI3K, IC50: 5 μM		DNA-PK,mTOR	99%+
Cinobufagine						✔		Akt	99%
α-Linolenic acid						✔			99%
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	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。

产品名称	Akt ↓ ↑	Akt1 ↓ ↑	Akt2 ↓ ↑	Akt3 ↓ ↑	其他靶点	纯度
Honokiol	✔				MEK	98%
PF-04691502	++++ P-Akt (S473), IC50: 3.8 nM P-Akt (T308), IC50: 7.5 nM					98+%
PHT-427	+ Akt, Ki: 2.7 μM					99%+
Deguelin	✔				PI3K	99%+
TIC10 isomer	✔				ERK	98+%
Perifosine	+ Akt, IC50: 4.7 μM					98%
Miltefosine	✔				PKC,PI3K	98%
Triciribine	+ Akt, IC50: 130 nM					99%+
Uprosertib		+ Akt1, IC50: 180 nM	+ Akt2, IC50: 328 nM	++ Akt3, IC50: 38 nM		99%+
Afuresertib		++++ Akt1, Ki: 0.08 nM	++++ Akt2, Ki: 2 nM	++++ Akt3, Ki: 2.6 nM		99%+
Miransertib		++++ Akt1, IC50: 5 nM	++++ Akt2, IC50: 4.5 nM	++ Akt3, IC50: 16 nM		98+%
GSK-690693		++++ Akt1, IC50: 2 nM	+++ Akt2, IC50: 13 nM	+++ Akt3, IC50: 9 nM		99%+
AT7867		++ Akt1, IC50: 32 nM	++ Akt2, IC50: 17 nM	++ Akt3, IC50: 47 nM	PKA	99%+
AKT inhibitor VIII		++ Akt1, IC50: 58 nM	+ Akt2, IC50: 210 nM	+ Akt3, IC50: 2119 nM		98+%
MK-2206 2HCl		+++ Akt1, IC50: 8 nM	+++ Akt2, IC50: 12 nM	+ Akt3, IC50: 65 nM		99%+
Ipatasertib		++++ Akt1, IC50: 5 nM	++ Akt2, IC50: 18 nM	+++ Akt3, IC50: 8 nM		99%+
AT13148		++ Akt1, IC50: 38 nM	+ Akt2, IC50: 402 nM	++ Akt3, IC50: 50 nM	PKA	98+%
Capivasertib		++++ Akt1, IC50: 3 nM	+++ Akt2, IC50: 8 nM	+++ Akt3, IC50: 8 nM		99%+
A-674563 HCl		+++ Akt1, Ki: 11 nM			PKA	99%
CCT128930			+++ Akt2, IC50: 6 nM		PKA	98+%
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。

Fluorofenidone 生物活性

描述

Oxidative stress plays an important role in the progression of renal interstitial fibrosis. The nicotinamide adeninedinucleotide phosphate (NADPH) oxidase (Nox) family is considered one of the major sources of reactive oxygen species (ROS)^[1]. Fluorofenidone is an effective and novel antifibrotic agent with an IC₅₀ value of 4.18 mM^[2]. Fluorofenidone treatment significantly attenuated tubulo-interstitial injury, ECM deposition and oxidative stress in fibrotic rat kidneys. In addition, Fluorofenidone inhibited the expression of ROS, Collagen I (1a), Nox2, p-Akt in Ang II-stimulated NRK-52E cells. Fluorofenidone attenuates the progression of renal interstitial fibrosis partly by suppressing NADPH oxidase and ECM deposition via the PI3K/Akt signalling pathway, suggesting Fluorofenidone is a potential and novel therapeutic agent against renal fibrosis^[1].

Fluorofenidone 参考文献

[1]Qin J, Xie YY, Huang L, Yuan QJ, Mei WJ, Yuan XN, Hu GY, Cheng GJ, Tao LJ, Peng ZZ. Fluorofenidone inhibits nicotinamide adeninedinucleotide phosphate oxidase via PI3K/Akt pathway in the pathogenesis of renal interstitial fibrosis. Nephrology (Carlton). 2013 Oct;18(10):690-9. doi: 10.1111/nep.12128. PMID: 23841831.

[2]Lou Q, Meng X, Lao Z, Xuan L, Bai J, Hou Q, Hu G, Luo R, Tao L, Li Z. Design, synthesis and antifibrotic activities of carbohydrate-modified 1-(substituted aryl)-5-trifluoromethyl-2(1H) pyridones. Molecules. 2012 Jan 17;17(1):884-96. doi: 10.3390/molecules17010884. PMID: 22252504; PMCID: PMC6269014.

Fluorofenidone 实验方案

计算器

存储液制备

1mg

5mg

10mg

1 mM

5 mM

10 mM

4.92mL

0.98mL

0.49mL

24.60mL

4.92mL

2.46mL

49.21mL

9.84mL

4.92mL

Fluorofenidone 技术信息

CAS号	848353-85-5
分子式	C₁₂H₁₀FNO
分子量	203.212

别名	AKF-PD
运输	蓝冰

存储条件

In solvent -20°C:3-6个月-80°C:12个月

Pure form Keep in dark place,Inert atmosphere,Room temperature

溶解方案

细胞实验：

DMSO: 135 mg/mL(664.33 mM)，配合低频超声助溶，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：请根据您的动物给药指南选择适当的溶解方案。
以下溶解方案都请先按照体外实验的方式配制澄清的储备液，再依次添加助溶剂：
——为保证实验结果的可靠性，澄清的储备液可以根据储存条件，适当保存；体内实验的工作液，建议现用现配，当天使用；以下溶剂前显示的百分比是指该溶剂在终溶液中的体积占比；如在配制过程中出现沉淀、析出现象，可以通过加热和/或超声的方式助溶

方案一

方案二

动物实验配方

Fluorofenidone {[allProObj[0].p_purity_real_show]}

Fluorofenidone 纯度/质量文件产品仅供科研

全球学术期刊中引用的产品

Fluorofenidone 质控信息

Fluorofenidone 生物活性

Fluorofenidone 参考文献

Fluorofenidone 实验方案

Fluorofenidone 技术信息

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Fluorofenidone {[allProObj[0].p_purity_real_show]}

Fluorofenidone 纯度/质量文件 产品仅供科研

全球学术期刊中引用的产品

Fluorofenidone 质控信息

Fluorofenidone 生物活性

Fluorofenidone 参考文献

Fluorofenidone 实验方案

Fluorofenidone 技术信息

最近浏览的产品

大规格询价

摩尔计算器

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总药量计算器

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Fluorofenidone 纯度/质量文件产品仅供科研