Palladium-mediated synthesis and biological evaluation of C-10b substituted Dihydropyrrolo[1,2-b]isoquinolines as antileishmanial agents
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2021-04-16Autor
Barbolla Cuadrado, Iratxe
Hernández-Suarez, Leidi
Quevedo-Tumailli, Viviana
Nocedo Mena, Deyani
Arrasate Gil, Sonia
Dea-Ayuela, María Auxiliadora
González Díaz, Humberto
Sotomayor Anduiza, María Nuria
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European Journal of Medicinal Chemistry 220 : (2021) / Art. ID.113458
Resumen
The development of new molecules for the treatment of leishmaniasis is, a neglected parasitic disease, is
urgent as current anti-leishmanial therapeutics are hampered by drug toxicity and resistance. The pyrrolo[
1,2-b]isoquinoline core was selected as starting point, and palladium-catalyzed Heck-initiated
cascade reactions were developed for the synthesis of a series of C-10 substituted derivatives. Their
in vitro leishmanicidal activity against visceral (L. donovani) and cutaneous (L. amazonensis) leishmaniasis
was evaluated. The best activity was found, in general, for the 10-arylmethyl substituted pyrroloisoquinolines.
In particular, 2ad (IC50 ¼ 3.30 mM, SI > 77.01) and 2bb (IC50 ¼ 3.93 mM, SI > 58.77) were
approximately 10-fold more potent and selective than the drug of reference (miltefosine), against
L. amazonensis on in vitro promastigote assays, while 2ae was the more active compound in the in vitro
amastigote assays (IC50 ¼ 33.59 mM, SI > 8.93). Notably, almost all compounds showed low cytotoxicity,
CC50 > 100 mg/mL in J774 cells, highest tested dose. In addition, we have developed the first Perturbation
Theory Machine Learning (PTML) algorithm able to predict simultaneously multiple biological activity
parameters (IC50, Ki, etc.) vs. any Leishmania species and target protein, with high values of specificity
(>98%) and sensitivity (>90%) in both training and validation series. Therefore, this model may be useful
to reduce time and assay costs (material and human resources) in the drug discovery process