183368-35-6

Basic information

• Product Name: 2-(CHLOROMETHYL)-5-(2,4-DICHLOROPHENYL)-1,3,4-OXADIAZOLE
• Synonyms: 2-(CHLOROMETHYL)-5-(2,4-DICHLOROPHENYL)-1,3,4-OXADIAZOLE
• CAS NO: 183368-35-6
• Molecular Formula: C9H5Cl3N2O
• Molecular Weight: 263.51
• Mol File: 183368-35-6.mol

Chemical Properties

• Melting Point: 85-87°
• Boiling Point: 376.1±52.0 °C(Predicted)
• Appearance: /
• Density: 1.500±0.06 g/cm3(Predicted)
• PKA: -6.42±0.49(Predicted)
• CAS DataBase Reference: 2-(CHLOROMETHYL)-5-(2,4-DICHLOROPHENYL)-1,3,4-OXADIAZOLE(CAS DataBase Reference)
• NIST Chemistry Reference: 2-(CHLOROMETHYL)-5-(2,4-DICHLOROPHENYL)-1,3,4-OXADIAZOLE(183368-35-6)
• EPA Substance Registry System: 2-(CHLOROMETHYL)-5-(2,4-DICHLOROPHENYL)-1,3,4-OXADIAZOLE(183368-35-6)

Safety Data

• HazardClass: IRRITANT
• Hazardous Substances Data: 183368-35-6(Hazardous Substances Data)

Usage

Uses

Used in Pharmaceutical Industry:
2-(CHLOROMETHYL)-5-(2,4-DICHLOROPHENYL)-1,3,4-OXADIAZOLE is used as a key building block for the synthesis of various bioactive compounds due to its unique chemical structure and potential for further chemical modification. This allows for the development of new and potent drug molecules with improved therapeutic properties.
Used in Agrochemical Industry:
2-(CHLOROMETHYL)-5-(2,4-DICHLOROPHENYL)-1,3,4-OXADIAZOLE is used as a fungicide and insecticide, leveraging its potential biological activity to protect crops from pests and diseases. Its versatile chemical structure also makes it a valuable component in the development of new and effective agrochemicals.
Used in Medicinal Chemistry Research:
2-(CHLOROMETHYL)-5-(2,4-DICHLOROPHENYL)-1,3,4-OXADIAZOLE is used as an important target for further study and development in the field of medicinal chemistry. Its potential for biological activity and chemical modification offers opportunities for the discovery of novel therapeutic agents with improved efficacy and safety profiles.
Used in Agricultural Science Research:
2-(CHLOROMETHYL)-5-(2,4-DICHLOROPHENYL)-1,3,4-OXADIAZOLE is used as a valuable component in agricultural science research, where its potential as a fungicide and insecticide is explored. Its versatile chemical structure and potential for further chemical modification contribute to the development of innovative and effective agrochemicals for crop protection.

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Relevant articles and documents

Synthesis, anticancer evaluation and structure-activity analysis of novel (E)-5-(2-arylvinyl)-1,3,4-oxadiazol-2-yl)benzenesulfonamides

To learn more about the structure–activity relationships of (E)-3-(5-styryl-1,3,4-oxadiazol-2-yl)benzenesulfonamide derivatives, which in our previous research displayed promising in vitro anticancer activity, we have synthesized a group of novel (E)-5-[(5-(2-arylvinyl)-1,3,4-oxadiazol-2-yl)]-4-chloro-2-R1-benzenesulfonamides 7-36 as well as (E)-4-[5-styryl1,3,4-oxadiazol-2-yl]benzenesulfonamides 47-50 and (E)-2-(2,4-dichlorophenyl)-5-(2-arylvinyl)-1,3,4-oxadiazols 51-55. All target derivatives were evaluated for their anticancer activity on HeLa, HCT-116, and MCF-7 human tumor cell lines. The obtained results were analyzed in order to explain the influence of a structure of the 2-aryl-vinyl substituent and benzenesulfonamide scaffold on the anti-tumor activity. Compound 31, bearing 5-nitrothiophene moiety, exhibited the most potent anticancer activity against the HCT-116, MCF-7, and HeLa cell lines, with IC50 values of 0.5, 4, and 4.5 μM, respectively. Analysis of structure-activity relationship showed significant differences in activity depending on the substituent in position 3 of the benzenesulfonamide ring and indicated as the optimal meta position of the sulfonamide moiety relative to the oxadizole ring. In the next stage, chemometric analysis was performed basing on a set of computed molecular descriptors. Hierarchical cluster analysis was used to examine the internal structure of the obtained data and the quantitative structure–activity relationship (QSAR) analysis with multiple linear regression (MLR) method allowed for finding statistically significant models for predicting activity towards all three cancer cell lines.

Design, synthesis, and evaluation of N-benzylpyrrolidine and 1,3,4-oxadiazole as multitargeted hybrids for the treatment of Alzheimer's disease

Novel N-Benzylpyrrolidine hybrids were designed, synthesized, and tested against multiple in-vitro and in-vivo parameters. Among all the synthesized molecules, 8f and 12f showed extensive inhibition against beta-secretase-1 (hBACE-1), human acetylcholinesterase (hAChE) & human butyrylcholinesterase (hBuChE). These molecules are also endowed with significant AChE-peripheral anionic site (PAS) binding capability, blood-brain barrier permeability, potential disassembly of Aβ aggregates along with neuroprotection ability on SHSY-5Y cell lines. Results of the Y-Maze and Morris water maze test concluded that compounds 8f and 12f ameliorated cognitive dysfunction induced by scopolamine and Aβ. The ex-vivo activity was executed on rat's brain homogenate indicating a reduction in AChE level and oxidative stress. The pharmacokinetic investigation ascertained considerable oral absorption profile of the lead 12f. The results of the in silico docking studies and molecular dynamics simulations demonstrated stable interactions of compounds 8f and 12f with the target residues of hAChE, hBuChE and hBACE-1.

Synthesis, biological evaluation of benzothiazole derivatives bearing a 1,3,4-oxadiazole moiety as potential anti-oxidant and anti-inflammatory agents

Twenty benzothiazole derivatives bearing a 1,3,4-oxadiazole moiety were synthesized and evaluated for their anti-oxidant and anti-inflammatory activities. Among these compounds, 8h and 8l were appeared to have high radical scavenging efficacies as 0.05 ± 0.02 and 0.07 ± 0.03 mmol/L of IC50 values in ABTS+[rad] bioassay, respectively. In anti-inflammatory tests, compound 8h displayed good activity with 57.35% inhibition after intraperitoneal administration, which was more potent than the reference drug (indomethacin). Molecular modeling studies were performed to investigate the binding mode of the representative compound 8h into COX-2 enzyme. In vitro enzyme study implied that compound 8h exerted its anti-inflammatory activity through COX-2 inhibition.

Design and synthesis of new norfloxacin-1,3,4-oxadiazole hybrids as antibacterial agents against methicillin-resistant Staphylococcus aureus (MRSA)

Toward the search of new antibacterial agents to control methicillin-resistant Staphylococcus aureus (MRSA), a class of new norfloxacin-1,3,4-oxadiazole hybrids were designed and synthesized. Antibacterial activities against drug-sensitive bacteria S. aureus and clinical drug resistant isolates of MRSA were evaluated. Compound 5k exhibited excellent antibacterial activities against S. aureus (MIC: 2 μg/mL) and MRSA1–3 (MIC: 0.25–1 μg/mL). The time-kill kinetics demonstrated that compound 5k had an advantage over commonly used antibiotics vancomycin in killing S. aureus and MRSA. Moreover, compound 5k could inhibit the bacteria and destroy their membranes in a short time, and showed very low cytotoxicity to NRK-52E cells. Some interesting structure-activity relationships (SARs) were also discussed. These results indicated that these norfloxacin-1,3,4-oxadiazole hybrids could be further developed into new antibacterial agents against MRSA.

Novel Molecular Hybrids of N-Benzylpiperidine and 1,3,4-Oxadiazole as Multitargeted Therapeutics to Treat Alzheimer's Disease

Multitargeted hybrids of N-benzylpiperidine and substituted 5-phenyl-1,3,4-oxadiazoles were designed, synthesized, and evaluated against Alzheimer's disease (AD). Tested compounds exhibited moderate to excellent inhibition against human acetylcholinesterase (hAChE), butyrylcholinesterase (hBChE), and beta-secretase-1 (hBACE-1). The potential leads 6g and 10f exhibited balanced inhibitory profiles against all the targets, with a substantial displacement of propidium iodide from the peripheral anionic site of hAChE. Hybrids 6g and 10f also elicited favorable permeation across the blood-brain barrier and were devoid of neurotoxic liability toward SH-SY5Y neuroblastoma cells. Both leads remarkably disassembled Aβ aggregation in thioflavin T-based self- and AChE-induced experiments. Compounds 6g and 10f ameliorated scopolamine-induced cognitive dysfunctions in the Y-maze test. The ex vivo studies of rat brain homogenates established the reduced AChE levels and antioxidant activity of both compounds. Compound 6g also elicited noteworthy improvement in Aβ-induced cognitive dysfunctions in the Morris water maze test with downregulation in the expression of Aβ and BACE-1 proteins corroborated by Western blot and immunohistochemical analysis. The pharmacokinetic study showed excellent oral absorption characteristics of compound 6g. The in silico molecular docking and dynamics simulation studies of lead compounds affirmed their consensual binding interactions with PAS-AChE and aspartate dyad of BACE-1.

AZOLE DERIVATIVES AS WTN PATHWAY INHIBITORS

The present invention relates to new compounds of formula I, to processes for their preparation, to pharmaceutical formulations containing such compounds and to their use in therapy. Such compounds find particular use in the treatment and/or prevention of conditions or diseases which are affected by over-activation of signaling in the Wnt pathway. For example, these may be used in preventing and/or retarding proliferation of tumor cells, for example carcinomas such as colon carcinomas.

Syntheses, antifeedant activity, and QSAR analysis of new Oxa(thia)diazolyl 3(2H)-pyridazinones

Twenty-eight new oxa(thia)diazolyl 3(2H)-pyridazinone derivatives were synthesized. Some compounds showed good chronic growth activities against the armyworm, Pseudaletia separata (Walker). Their EC50 values were determined in vivo. Nineteen 2-