64641-92-5

Upstream product

• 148-24-3 8-quinolinol 
• 84-88-8 8-quinolinol-5-sulfonic acid 

Downstream Products

• 128372-63-4 8-Hydroxy-7-[(4-nitro-phenylamino)-methyl]-quinoline-5-sulfonic acid (4-nitro-phenyl)-amide 
• 128372-62-3 8-Hydroxy-7-phenylaminomethyl-quinoline-5-sulfonic acid phenylamide 
• 1251918-02-1 8-hydroxyquinoline-5-sulfonic acid (2-phenylethyl)amide 

Relevant academic research and scientific papers

Near-infrared luminescent erbium complexes with 8-hydroxyquinoline-terminated hyperbranched polyester

Novel 8-hydroxyquinoline-terminated hyperbranched polyesters (1-HBPQ and 2-HBPQ) were synthesized and characterized by 1H-NMR and UV-Vis analyses. Then, two erbium complexes (1-HBPQ-Er3+-HQ and 2-HBPQ-Er3+-HQ) were prepare

Newly Designed Quinolinol Inhibitors Mitigate the Effects of Botulinum Neurotoxin A in Enzymatic, Cell-Based, and ex Vivo Assays

Botulinum neurotoxin A (BoNT/A) is one of the most deadly toxins and is the etiological agent of the potentially fatal condition, botulism. Herein, we investigated 8-hydroxyquinoline (quinolin-8-ol) as a potential inhibitor scaffold for preventing the deadly neurochemical effects of the toxin. Quinolinols are known chelators that can disrupt the BoNT/A metalloprotease zinc-containing active site, thus impeding its proteolysis of the endogenous protein substrate, synaptosomal-associated protein 25 (SNAP-25). By use of this information, the structure-activity relationship (SAR) of the quinolinol-5-sulfonamide scaffold was explored through preparation of a crude sulfonamide library and evaluation of the library in a BoNT/A LC enzymatic assay. Potency optimization of the sulfonamide hit compounds was undertaken as informed by docking studies, granting a lead compound with a submicromolar Ki. These quinolinol analogues demonstrated inhibitory activity in a cell-based model for SNAP-25 cleavage and an ex vivo assay for BoNT/A-mediated muscle paralysis.

Rapid tools to gain insights into the interaction dynamics of new 8-hydroxyquinolines with few fungal lines

The combination of tools such as time-kill assay with subsequent application of mathematical modeling can clarify the potential of new antimicrobial compounds, since minimal inhibitory concentration (MIC) value does not provide a very detailed characterization of antimicrobial activity. Recently, our group has reported that the 8-hydroxy-5-quinolinesulfonic acid presents relevant antifungal activity. However, its intrinsic acidity could lead to an ionization process, decreasing fungal cell permeability. To overcome this potential problem and enhance activity, the purpose of this study was to synthesize and evaluate a novel series of hybrids between the 8-hydroxyquinoline core and sulfonamide and to prove their potential using broth microdilution method, obtaining the pharmacodynamic parameters of the most active derivatives combining time-kill studies and mathematical modeling and evaluating their toxicity. Compound 5a was the most potent, being active against all the fungal species tested, with low toxicity in normal cells. 5a and 5b have presented important antibacterial activity against Staphylococcus aureus strain. The EC50 values obtained by combination of time-kill studies with mathematical model were similar to those of MIC, which confirms the potential of compounds. In addition, these derivatives are non-irritant molecules with the absence of topical toxicity. Finally, 5a and 5b are promising candidates for treatment of dermatomycosis and candidiasis.

Design and synthesis of 8-hydroxyquinoline-based radioprotective agents

In radiation therapy, adverse side effects are often induced due to the excessive cell death that occurs in radiosensitive normal cells. The radiation-induced cell death of normal cells is caused, at least in part, by apoptosis, which undergoes via activation of p53 and increase in the p53 protein, a zinc-containing transcriptional factor, in response to cellular damage. Therefore, radioprotective drugs that can protect normal cells from radiation and thus suppress adverse side effects would be highly desirable. We report herein on the radioprotective activity of 8-hydroxyquinoline (8HQ) derivatives that were initially designed so as to interact with the Zn 2+ in p53. Indeed, the 5,7-bis(methylaminosulfonyl)-8HQ and 8-methoxyquinoline derivatives considerably protected MOLT-4 cells against γ-ray radiation (10 Gy), accompanied by a low cytotoxicity. However, mechanistic studies revealed that the interaction of these drugs with p53 is weak and the mechanism for inhibiting apoptosis appears to be different from that of previously reported radioprotectors such as bispicen, which inhibits apoptosis via the denaturation of p53 as well as by blocking both transcription-dependent and -independent apoptotic pathways.

COMT INHIBITING METHODS AND COMPOSITIONS

The present inventions include a method of inhibiting COMT enzyme in a subject as well as compounds of formula I, or a pharmaceutically acceptable salt thereof, that are useful in the treatment of various disorders mediated by COMT, including Parkinson's disease and/or schizophrenia.

Structural basis for inhibition of the fat mass and obesity associated protein (FTO)

The fat mass and obesity associated protein (FTO) is a potential target for anti-obesity medicines. FTO is a 2-oxoglutarate (2OG)-dependent N-methyl nucleic acid demethylase that acts on substrates including 3-methylthymidine, 3-methyluracil, and 6-methyladenine. To identify FTO inhibitors, we screened a set of 2OG analogues and related compounds using differential scanning fluorometry-and liquid chromatography-based assays. The results revealed sets of both cyclic and acyclic 2OG analogues that are FTO inhibitors. Identified inhibitors include small molecules that have been used in clinical studies for the inhibition of other 2OG oxygenases. Crystallographic analyses reveal inhibition by 2OG cosubstrate or primary substrate competitors as well as compounds that bind across both cosubstrate and primary substrate binding sites. The results will aid the development of more potent and selective FTO inhibitors.

Investigating the activity spectrum for Ring-Substituted 8-Hydroxyquinolines

In this study, a series of fourteen ring-substituted 8-hydroxyquinoline derivatives were prepared. The synthesis procedures are presented. The compounds were analyzed using RP-HPLC to determine lipophilicity. They were tested for their activity related to inhibition of photosynthetic electron transport (PET) in spinach (Spinacia oleracea L.) chloroplasts. Primary in vitro screening of the synthesized compounds was also performed against four mycobacterial strains and against eight fungal strains. Several compounds showed biological activity comparable with or higher than the standards isoniazid or fluconazole. For all the compounds, the relationships between the lipophilicity and the chemical structure of the studied compounds are discussed.