Synthesis and Biological Evaluation of New Quinoline and Anthranilic Acid Derivatives as Potential Quorum Sensing Inhibitors

Perković, Ivana; Poljak, Tanja; Savijoki, Kirsi; Varmanen, Pekka; Maravić-Vlahoviček, Gordana; Beus, Maja; Kučević, Anja; Džajić, Ivan; Rajić, Zrinka

doi:10.3390/molecules28155866

Cited by 3 publications

(2 citation statements)

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“…The development of pharmaceutical substances is aided using anthranilic acid derivatives as a precursor in the synthesis of nonsteroidal anti-inflammatory drugs (NSAIDs). They also serve as an essential precursor to produce Pseudomonas quinolone signal (PQS), and its halogenated derivatives have been found to be inhibitors of PQS biosynthesis. , In addition, 4-nitroanthranilic acid exhibits mutagenic characteristics, connecting it to the mutagenicity seen in plant extracts. This substance demonstrates how diversified it is by acting as a key building block for pharmaceuticals, a key component in bacterial signaling pathways, and a potential target for mutagenesis studies …”

Section: Introductionmentioning

confidence: 99%

Twinning Organosuperelasticity in a 4-Nitroanthranilic Acid Solvate Crystal

Teja,

Ranjan,

Takamizawa

2024

Crystal Growth & Design

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Mechanical deformation in solvated organic crystals and the intermolecular interactions associated with its deformation behavior are intriguing and demand exploration to understand its significance since the deformation has an effect in altering the physical properties of the compound. Herein, we report the finding of superelastic deformation in a solvated organic crystal for the first time. The dioxane solvate of 4-nitroanthranilic acid exhibited superelasticity on application of shear stress. The superelasticity was confirmed quantitatively by the hysteresis loop of the stress–strain curve. Crystallographic studies revealed that mechanical twinning was responsible for the deformation. Interestingly, the strong hydrogen bonding N–H···O and O–H···O interactions in the crystal lattice contributed to the maintenance of the solvated crystal structure during the mechanical stress, while the weak N–H···O interaction was attributed to the flexibility in the structure. These findings unveiled new possibilities to play with intermolecular interactions for designing next-generation flexible organic crystals.

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Section: Introductionmentioning

confidence: 99%

Twinning Organosuperelasticity in a 4-Nitroanthranilic Acid Solvate Crystal

Teja,

Ranjan,

Takamizawa

2024

Crystal Growth & Design

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“…The attachment of Anthranilic acid DACHZs (AA DACHZs, Figure 2, G, H) bear an additional functional amine group which contributes to their chemistry, biology and technology. Derivatives such as G may give rise to 1,3,4-oxadiazoles [7][8][9][10], 1,2,3-benzotriazine-4-ones [11], 3-amido-1,2dihydro substituted quinazolinones [12][13][14][15][16][17], 3-amido substituted quinazolinones [10,18], quinazolinone containing fused polycyclic compounds [19,20] or N-N axially chiral 3,3 ′bisquinazolinones [21]. Furthermore, their well-positioned electron-donating atoms allow metal complexation which, depending on the metal and the conditions applied, range from the formation of simple metal complexes [22][23][24] to the important metal-organic macrocycles (MOMs) [25,26] with Mn, Ga and In [27][28][29].…”

Section: Introductionmentioning

confidence: 99%

Synthesis of 2-Amino-N′-aroyl(het)arylhydrazides, DNA Photocleavage, Molecular Docking and Cytotoxicity Studies against Melanoma CarB Cell Lines

Mitrakas,

Stathopoulou,

Mikra

et al. 2024

Molecules

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Diacylhydrazine bridged anthranilic acids with aryl and heteroaryl domains have been synthesized as the open flexible scaffold of arylamide quinazolinones in order to investigate flexibility versus rigidity towards DNA photocleavage and sensitivity. Most of the compounds have been synthesized via the in situ formation of their anthraniloyl chloride and subsequent reaction with the desired hydrazide and were obtained as precipitates, in moderate yields. All compounds showed high UV-A light absorption and are eligible for DNA photocleavage studies under this “harmless” irradiation. Despite their reduced UV-B light absorption, a first screening indicated the necessity of a halogen at the p-position in relation to the amine group and the lack of an electron-withdrawing group on the aryl group. These characteristics, in general, remained under UV-A light, rendering these compounds as a novel class of UV-A-triggered DNA photocleavers. The best photocleaver, the compound 9, was active at concentrations as low as 2 μΜ. The 5-Nitro-anthranilic derivatives were inactive, giving the opposite results to their related rigid quinazolinones. Molecular docking studies with DNA showed possible interaction sites, whereas cytotoxicity experiments indicated the iodo derivative 17 as a potent cytotoxic agent and the compound 9 as a slight phototoxic compound.

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