Outline Synthetic method Uses Ringworm Pharmacodynamics
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Luliconazole

Outline Synthetic method Uses Ringworm Pharmacodynamics
Product Name
Luliconazole
CAS No.
187164-19-8
Chemical Name
Luliconazole
Synonyms
(R,E)-2-(4-(2,4-DICHLOROPHENYL)-1,3-DITHIOLAN-2-YLIDENE)-2-(1H-IMIDAZOL-1-YL)ACETONITRILE;C13478;PR2699;NND 502;Lulicon;PR 2699;PR-2699;Luliconazole;Luriconazole;Lulioconazole
CBNumber
CB01120404
Molecular Formula
C14H9Cl2N3S2
Formula Weight
354.27
MOL File
187164-19-8.mol
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Luliconazole Property

Melting point:
152 °C
Boiling point:
499.1±55.0 °C(Predicted)
Density 
1.52±0.1 g/cm3(Predicted)
storage temp. 
Sealed in dry,Store in freezer, under -20°C
solubility 
Chloroform (Slightly), Ethyl Acetate (Slightly)
form 
Solid
pka
3.76±0.10(Predicted)
color 
White to Off-White
Stability:
Light Sensitive
CAS DataBase Reference
187164-19-8
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Safety

HS Code 
2933.29.2000
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Hazard and Precautionary Statements (GHS)

Symbol(GHS)
Signal word
Warning
Hazard statements

H302Harmful if swallowed

H315Causes skin irritation

H319Causes serious eye irritation

Precautionary statements

P264Wash hands thoroughly after handling.

P264Wash skin thouroughly after handling.

P270Do not eat, drink or smoke when using this product.

P280Wear protective gloves/protective clothing/eye protection/face protection.

P301+P312IF SWALLOWED: call a POISON CENTER or doctor/physician IF you feel unwell.

P302+P352IF ON SKIN: wash with plenty of soap and water.

P305+P351+P338IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses, if present and easy to do. Continuerinsing.

P321Specific treatment (see … on this label).

P330Rinse mouth.

P332+P313IF SKIN irritation occurs: Get medical advice/attention.

P362Take off contaminated clothing and wash before reuse.

P501Dispose of contents/container to..…

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N-Bromosuccinimide Price

TCI Chemical
Product number
L0306
Product name
Luliconazole
Purity
>98.0%(HPLC)(N)
Packaging
250mg
Price
$59
Updated
2024/03/01
TCI Chemical
Product number
L0306
Product name
Luliconazole
Purity
>98.0%(HPLC)(N)
Packaging
1g
Price
$158
Updated
2024/03/01
Cayman Chemical
Product number
23120
Product name
Luliconazole
Purity
≥98%
Packaging
250mg
Price
$86
Updated
2024/03/01
Cayman Chemical
Product number
23120
Product name
Luliconazole
Purity
≥98%
Packaging
500mg
Price
$152
Updated
2024/03/01
Cayman Chemical
Product number
23120
Product name
Luliconazole
Purity
≥98%
Packaging
1g
Price
$287
Updated
2024/03/01
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Luliconazole Chemical Properties,Usage,Production

Outline

Luliconazole is a novel topical antifungal imidazole, and is a kind of analogue of lanoconazole. It can interfere with the fungal cell wall synthesis and fungal growth by decreasing levels of ergosterol via inhibiting lanosterol demethylase activity. Besides being used for the treatment of athlete's foot, jock itch and ringworm, it has also been developed for onychomycosis (nail fungus) treatment and has now also entered the clinical stage phase III. This product was originally developed by the Japanese pesticide Corporation (NihonNohyaku Co., Ltd.). In November 2013, the FDA has approved a 1% luliconazole cream for entering into market for topical treatment of interdigital athlete's foot, jock itch and ringworm with the trade name being Luzu and first entered into market in North America. As early as April 2005, luliconazole had been approved to enter into market in Japan under the trade name Lulicon. In January 2010 and June 2012, it was approved for marketing in India and China, respectively.
In 1997, Pesticide Co., Ltd. of Japan has initially get access to the worldwide patent of luliconazole as antifungal agents (WO 1997002821 A2) and have protected in their preparation and application; thereafter, it had also applied for a European patent (EP0839035 A2), Chinese patent (CN 1194582 A) and U.S. Patent (US5900488A). In addition, WO 2007102241, US 8058303, and other patents have also been applied for protection on the drug's pharmaceutical compositions and dosage forms.

Synthetic method

The first method is using BH3/THF and a kind of chiral catalyst for stereoselectively reducing the starting material 1 to give the intermediate 2 which yields the corresponding mesylate intermediate (3), substance 3 and intermediate 5 is cyclized into luliconazole in the presence of potassium hydroxide and DMSO; second method is based on using chiral compound 6 as starting materials, 6 undergoes mesylate esterification to yield active intermediate 7,7 undergoes condensation reaction with intermediate 5 to get luliconazole. The synthesis of Intermediate 5 is through putting 2-(1-imidazolyl)-acetonitrile and CS2 into condensation under basic conditions.

Figure 1 is a synthesis route of luliconazole

Uses

It can be used for the following fungal infections:
Ringworm: athlete's foot, ringworm, jock itch;
Candida infections: disease fingers erosion, intertrigo; vitiligo.

Ringworm

Currently, ringworm treatment drugs include two major categories: first, propylene amine drugs, such as terbinafine, Butenafine and naftifine. They exert their bactericidal effects through inhibiting squalene cyclase, causing the lack of ergosterol and accumulation of squalene. The second category of imidazole (imidazoles) drugs: such as miconazole, econazole, clotrimazole, ketoconazole and bifonazole. They are a class of synthetic antifungal agent that can selectively inhibit the lanosterol 14α-demethylation activity of fungal cell, preventing the ergosterol synthesis of cell membrane, changing the cell membrane permeability, and resulting in the loss of important intracellular fungal material and causing fungal death. Imidazole antifungal agents are currently the most commonly used drugs in clinical treatment of ringworm with extensive clinical applications.

Pharmacodynamics

In vitro and in vivo studies have shown that luliconazole has broad-spectrum antifungal activity, with its minimum inhibitory concentration (MIC) being 0.12 to 2 mg/mL to Trichophyton (Trichophyton rubrum, Trichophyton mentagrophytes and tonsurans). Its anti-fungal effect is stronger than terbinafine, ketoconazole, miconazole, bifonazole and other commonly used drugs. Trichophyton rubrum is most sensitive to luliconazole. The MIC of Luliconazole to Candida albicans is 0.031~0.130μg/mL with the inhibitory effect being higher than that of terbinafine, Liranaftate, Butenafine, amorolfine and bifonazole, but less than that of ketoconazole, clotrimazole, neticonazole and miconazole. The MIC of Luliconazole on the important pathogens of seborrheic dermatitis, limiting Malassezia is very low, being 0.004~0.016 μg/mL with its inhibitory effect being not less but even stronger than ketoconazole.
In addition, luliconazole also have antifungal activity on filamentous fungi and yeast-like fungi with its strength being comparable as lanoconazole but higher than bifonazole and terbinafine, but being almost ineffective on Zygomycetes.
The above information is edited by the chemicalbook of Dai Xiongfeng.

Description

Luliconazole is a member of the imidazole class of antifungal agents, with specific utility as a dermatological antimycotic drug. It was launched in Japan as a topical agent for the treatment of athlete’s foot. Luliconazole is an optically active drug with (R)-configuration at its chiral center. It is structurally related to lanoconazole, which has been marketed as a racemic mixture since 1994. As with other azole antifungal drugs, the mechanism of action of luliconazole is the inhibition of sterol 14-a-demethylase, and subsequently, inhibition of ergosterol biosynthesis. The in vivo activity of luliconazole against dermatophytes has been evaluated in the guinea pig model of tinea pedis. In this study, a 1% topical solution of luliconazole, administered once daily for seven days, achieved complete mycologic cure. Additionally, there were no occurrences of relapse for up to 16 weeks after the treatment. No data is currently available on the clinical efficacy of luliconazole. The chemical synthesis of luliconazole involves the condensation of 1-(cyanomethyl)imidazole with carbon disulfide to produce a dithioate intermediate, and subsequent alkylation with either the mesylate derivative of (S′)-1-(2,4-dichlorophenyl)-2-bromoethanol or the bis-mesylate derivative of (S′)-1-(2,4-dichlorophenyl)ethane-1,2-diol. .

Originator

Nihon Nohyaku (Japan)

Uses

Luliconazole is an azole antifungal drug. It was approved by the FDA (USA) in November 2013 and is marketed under the brand name Luzu. Luliconazole is also approved in Japan.

Definition

ChEBI: Luliconazole is a dichlorobenzene.

brand name

Lulicon

Synthesis

Synthesis of luliconazole started with diol 77, prepared according to literature procedure in 98%ee which was activated by converting to dimesylate 78 in 99% yield and coupled to dipotassium enolate 80, prepared in situ by reacting cyano methylimidazole 79 with carbon disulfide, to give luliconazole (XI), 99% ee in 48% yield.

Mode of action

The mechanism of action of luliconazole is as a Cytochrome P450 2C19 Inhibitor.

Luliconazole Preparation Products And Raw materials

Raw materials

Preparation Products

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Luliconazole Suppliers

LGM Pharma
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View Lastest Price from Luliconazole manufacturers

Baoji Guokang Bio-Technology Co., Ltd.
Product
Luliconazole 187164-19-8
Price
US $2320.00/KG
Min. Order
1KG
Purity
98%
Supply Ability
1-500kg
Release date
2021-06-22
Hebei Yanxi Chemical Co., Ltd.
Product
Luliconazole 187164-19-8
Price
US $40.00/kg
Min. Order
1kg
Purity
0.99
Supply Ability
10 tons
Release date
2023-09-19
Anhui Yiao New Material Technology Co., Ltd
Product
Luliconazole 187164-19-8
Price
US $0.00/kg
Min. Order
1kg
Purity
99%
Supply Ability
100 tons
Release date
2023-10-30

187164-19-8, LuliconazoleRelated Search:


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