Synthesis and evaluation of esters obtained from phenols and phenoxyacetic acid with significant phytotoxic and cytogenotoxic activities.

There is a growing demand for herbicides that are more effective than conventional ones yet less harmful to ecosystems. In light of this, this study aimed to synthesize esters from phenols and phenoxyacetic acid, using compounds with known phytotoxic potential as starting materials. Phenoxyacetic acid was first synthesized and then utilized in the synthesis of seven esters through Steglich esterification, employing N,N'-dicyclohexylcarboimide and N,N-dimethylpyridin-4-amine in the presence of phenols (thymol, vanillin, eugenol, carvacrol, guaiacol, p-cresol, and ß-naphthol), yielding esters 1-7. All synthesized compounds were characterized using mass spectrometry, 1H, and 13C NMR. These compounds were tested for phytotoxicity to evaluate their effects on the germination and root development of Sorghum bicolor and Lactuca sativa seeds, and for the induction of alterations in the mitotic cycle of meristematic cells of L. sativa roots. Esters 1, 3, 4, and 5 exhibited the most significant phytotoxic activity in both L. sativa and S. bicolor. Alterations in the mitotic index and frequency of chromosomal alterations in L. sativa roots revealed the cytotoxic, genotoxic effects, and the aneugenic mode of action of the tested molecules. These findings suggest that these compounds could serve as inspiration for the synthesis of new semi-synthetic herbicides.

Natural Products as a Major Source of Candidates for Potential Senolytic Compounds obtained by in silico Screening.

BACKGROUND: Preclinical studies suggest that senolytic compounds such as quercetin (a natural product) and dasatinib (a synthetic product) decrease senescent cells, reduce inflammation, and alleviate human frailty. This evidence has opened a new field of research for studying the effect of these compounds on age-related dysfunction and diseases. OBJECTIVE: The present study performed in silico and we identified new potential senolytic candidates from an extensive database that contains natural products (NPs) and semi-synthetic products (SMSs). METHODS: Computer programs Chemminer and rcdk packages, which compared the fingerprints of numerous molecules (40,383) with reference senolytics, and the creation of a pharmacological network built with signaling pathways and targets involved in senescence processes were used to identify compounds with a potential activity. RESULTS: Six drug-like candidates (3,4'-dihydroxypropiophenone, baicalein, α, ß-dehydrocurvularin, lovastatin, luteolin, and phloretin) were identified. CONCLUSION: To our knowledge, this is the first time that these six natural molecules have been proposed to have senolytic activity. To validate the methodology employed in the identification of new drug-like senolytics, experimental evidence is needed with models that evaluate senolytic activity.