1. Academic Validation
  2. Synthesis, evaluation of biological activity and SAR of new thioalkyl derivatives of pyridine

Synthesis, evaluation of biological activity and SAR of new thioalkyl derivatives of pyridine

  • Bioorg Chem. 2024 Jul:148:107435. doi: 10.1016/j.bioorg.2024.107435.
Shushanik Sh Dashyan 1 Eugene V Babaev 2 Armen G Ayvazyan 3 Suren S Mamyan 3 Ervand G Paronikyan 3 Tigranuhi A Nikoghosyan 3 Lernik S Hunanyan 3 Ruzanna G Paronikyan 3
Affiliations

Affiliations

  • 1 Scientific Technological Center of Organic and Pharmaceutical Chemistry of National Academy of Sciences of Republic of Armenia, Ave. Azatutyan 26, Yerevan 0014, Armenia; Eurasia International University of Republic of Armenia, Pharmacy faculty, Ave. Azatutyan 24/2, Yerevan 0014, Armenia. Electronic address: shdashyan@gmail.com.
  • 2 Faculty of Chemistry, Moscow State University, 1, GSP-1, 1-3 Leninskiye Gory, 119991 Moscow, Russia.
  • 3 Scientific Technological Center of Organic and Pharmaceutical Chemistry of National Academy of Sciences of Republic of Armenia, Ave. Azatutyan 26, Yerevan 0014, Armenia.
Abstract

Background: Pyridine and its derivatives play a vital role in medicinal chemistry, serving as key scaffolds for drugs. The ability to bind to biological targets makes pyridine compounds significant, sparking interest in creating new pyridine-based drugs. Thus, the purpose of the research is to synthesize new thioalkyl derivatives of pyridine, predict their biological spectrum, study their psychotropic properties, and based on these findings, perform structure-activity relationships to assess pharmacophore functional groups.

Methods: Classical organic methods were employed for synthesizing new thioalkyl derivatives of pyridine, with a multifaceted pharmacological profiles. Various software packages and methods were employed to evaluate the biological spectrum of the newly synthesized compounds. For the evaluation of neurotropic activity of new synthesized compounds, some biological methods were used according to Indicators characterizing anticonvulsant, sedative and antianxiety activity as well as side effects.

Results: Effective synthetic methods for 6-amino-4-phenyl-2-thio-2H-thiopyran-5-carboxylic acid ethyl ester, 2-amino substituted thiopyridine derivatives and 6-cycloamino-2-thioalkyl-4-phenylnicotinate derivatives were obtained in high yield. Predicted biological spectra and pharmacokinetic data indicated high gastrointestinal absorption and low blood-brain barrier passage for most compounds and demonstrated potential various biological effects, particularly psychotropic properties. Studied compounds demonstrated high anticonvulsant activity through antagonism with pentylenetetrazole. They exhibited low toxicity without inducing muscle relaxation in the studied doses. In psychotropic studies, the compounds displayed activating, sedative, and anxiolytic effects. Notably, the 6-amino-2-thioalkyl-4-phenylnicotinate derivatives demonstrated significant anxiolytic activity (about four times more compared to diazepam). They also exhibited pronounced sedative effects. Ethyl 2-({2-[(diphenylmethyl)amino]-2-oxoethyl}thio)-4-phenyl-6-pyrrolidin-1-ylnicotinate exhibited anxiolytic activity even two times greater than diazepam. Moreover, all studied compounds showed statistically significant antidepressant effects. Noteworthy ethyl 2-({2-oxo-2-[(tetrahydrofuran-2-ylmethyl)amino]ethyl}thio)-4-phenyl-6-pyrrolidin-1-ylnicotinate showcasing its unique psychotropic effect.

Conclusions: The selected compounds demonstrate anticonvulsant properties, activating behavior, and anxiolytic effects, while simultaneously exhibiting antidepressant effects and these compounds as promising candidates for further exploration in the development of therapeutics with a broad spectrum of neuropsychiatric applications.

Keywords

Neurotrophic activity; Pyridine; SAR; Thioalkyl derivatives; Thiopyranthione; X-ray structure, In silico.

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