Banca de DEFESA: LARISSA HENRIQUES EVANGELISTA CASTRO

Uma banca de DEFESA de DOUTORADO foi cadastrada pelo programa.
STUDENT : LARISSA HENRIQUES EVANGELISTA CASTRO
DATE: 16/12/2021
TIME: 13:00
LOCAL: https://conferenciaweb.rnp.br/webconf/carlos-mauricio-rabello-de-santanna
TITLE:

Development of piperine-derived triazoles inhibitors of Trypanosoma cruzi CYP51: Optimization of a model to predict theoretical activity, synthesis and in vitro activity

KEY WORDS:

Chagas disease, triazoles, sterol 14a-demethylase, semiempirical method, molecular docking.

PAGES: 175
BIG AREA: Ciências Exatas e da Terra
AREA: Química
SUBÁREA: Química Orgânica
SUMMARY:

Chagas disease (CD) is a neglected tropical disease caused by the parasite Trypanosoma cruzi and presents millions of cases in several countries. Currently there are no vaccines for CD prevention and there are only two drugs for its treatment, but in Brazil, only benzonidazole is used and is ineffective on disease’s chronic phase. Thus, research for new drugs becomes essential. The enzyme sterol 14α-desmethylase (CYP51) belongs to the ergosterol biosynthesis pathway, which are fundamental for the integrity of the T. cruzi’s cell membrane. Its inhibition causes the parasite’s death and it can be promoted by the coordination of heterocyclic compounds with the iron atom of the enzyme’s heme group. On a previous work, a theoretical model of activity prediction for new inhibitors of CYP51 (T. cruzi), based on experimental and theoretical parameters calculated by molecular modeling, which was used for design new triazole piperine derivatives. On this current work, the original theoretical model was optimized using the semi-empirical PM7 method instead of PM6 and a selectivity study was done by molecular docking of heterocyclic compounds in T. cruzi’s CYP51 and H. sapiens’s CYP51. The most promising compounds, planned by the original model, were synthesized, evaluated in vitro against T. cruzi and they were tested for CYP51 inhibition. The new model presented a multiple correlation coefficient (r² = 0.86) slightly higher than the original (r² = 0.83). The docking study indicates a likely selectivity of the compounds for the parasite’s enzyme. The compounds showed activities against trypomastigote forms with IC₅₀ between 6.13 µM (B2) and 27.59 µM (B11), in agreement with the general predictions made by the model, and low cytotoxicity in primate cells (between IC₅₀ = 15.75 and >50 µM). Preliminary enzyme inhibition assays indicated that the compounds designed with the model are in fact capable of inhibiting the parasite's CYP51.  

BANKING MEMBERS:
Presidente - 1220404 - CARLOS MAURICIO RABELLO DE SANT ANNA
Interna - 387189 - AUREA ECHEVARRIA AZNAR NEVES LIMA
Interno - 1735975 - CEDRIC STEPHAN GRAEBIN
Externo à Instituição - DANIEL ALENCAR RODRIGUES
Externo à Instituição - GUSTAVO HENRIQUE GOULART TROSSINI - USP