KX1-004

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KX1-004

本产品不向个人销售，仅用作科学研究，不用于任何人体实验及非科研性质的动物实验。

CAS NO:	518058-84-9
规格:	≥98%

包装与价格：

包装	价格(元)
5mg	电议
10mg	电议
25mg	电议
50mg	电议
100mg	电议
250mg	电议
500mg	电议

产品介绍

KX1-004 is a novel and potent small molecule inhibitor of Src-protein tyrosine kinase that can be used to reduce cisplatin ototoxicity while preserving its antitumor effect. KX1-004 has also been used to protect the cochlea from hazardous noise. Animals treated with KX1-004 had from 10 to 20 dB less temporary threshold shift at day 1 and an average 10 dB less permanent threshold shift by day 21 when compared to control saline treated animals. There were no significant side effects (i.e.: appetite loss, weight loss, lethargy, etc.) related to the drug treatments. KX1-004 produced at least as much protection as L-NAC, but at a significantly lower concentration.

理化性质和储存条件

Molecular Weight (MW)	284.10
Formula	C16H13FN2O2
CAS No.	518058-84-9
Storage	-20℃ for 3 years in powder form
Storage	-80℃ for 2 years in solvent
Solubility (In vitro)	DMSO: ≥ 40 mg/mL
	Water: <1 mg/mL
	Ethanol: N/A
SMILES Code	O=C(C(N1)=CC2=C1C=CC(F)=C2)NCC3=CC=CC(O)=C3
Synonyms	KX1004; KX 1004; KX1-004.

实验参考方法

In Vitro	In vitro activity: KX1-004 is a novel and potent small molecule inhibitor of Src-protein tyrosine kinase that can be used to reduce cisplatin ototoxicity while preserving its antitumor effect. KX1-004 has also been used to protect the cochlea from hazardous noise. Animals treated with KX1-004 had from 10 to 20 dB less temporary threshold shift at day 1 and an average 10 dB less permanent threshold shift by day 21 when compared to control saline treated animals. There were no significant side effects (i.e.: appetite loss, weight loss, lethargy, etc.) related to the drug treatments. KX1-004 produced at least as much protection as L-NAC, but at a significantly lower concentration. Kinase Assay: KX1-004 is a potent small molecule inhibitor of Src-PTK as a potential protective drug for NIHL.
In Vivo	Src-PTK inhibitor KX1-004, KX1-005 and KX1-174 as potential protective drugs for NIHL. Chinchillas were used as subjects. A 30 microl drop of one of the Src inhibitors was placed on the round window membrane of the anesthetized chinchilla; the vehicle (DMSO and buffered saline) alone was placed on the other ear. After the drug application, the middle ear was sutured and the subjects were exposed to noise. Hearing was measured before and several times after the noise exposure and treatment using evoked responses. At 20 days post-exposure, the animals were anesthetized their cochleae extracted and cochleograms were constructed. All three Src inhibitors provided protection from a 4 h, 4 kHz octave band noise at 106 dB. The most effective drug, KX1-004 was further evaluated by repeating the exposure with different doses, as well as, substituting an impulse noise exposure. LNAC was delivered intraperitoneally at a dose of 325 mg/kg while KX1-004 was administered subcutaneously at a dose of 50 mg/kg. The noise exposure consisted of a 4 kHz octave band of noise at 100 dB SPL for 6 hours/day for 4 days. The drugs were administered once each day, 30 minutes prior to the onset of the noise exposure. The animals' hearing was estimated using the evoked response records from surgically-implanted chronic electrodes in the inferior colliculi. Animals treated with LNAC and KX1-004 had from 10 to 20 dB less temporary threshold shift at day 1 and an average 10 dB less permanent threshold shift by day 21 when compared to control saline treated animals.
Animal model	N/A
Formulation & Dosage	Administered subcutaneously at a dose of 50 mg/kg
References	Noise Health. 2005 Oct-Dec;7(29):24-30; Hear Res. 2005 Oct;208(1-2):14-25.