Your search keyword '"Casal, Mariana"' showing total 3 results

1. Antiparasitic Activity of Sulfur- and Fluorine-Containing Bisphosphonates against Trypanosomatids and Apicomplexan Parasites.

Author

Galaka T, Ferrer Casal M, Storey M, Li C, Chao MN, Szajnman SH, Docampo R, Moreno SN, and Rodriguez JB

Subjects

Animals, Antiprotozoal Agents pharmacology, Chlorocebus aethiops, Diphosphonates pharmacology, Enzyme Assays, Enzyme Inhibitors pharmacology, Gene Expression, Geranyltranstransferase genetics, Geranyltranstransferase metabolism, Halogenation, Humans, Parasitic Sensitivity Tests, Protozoan Proteins genetics, Protozoan Proteins metabolism, Structure-Activity Relationship, Toxoplasma enzymology, Toxoplasma genetics, Toxoplasma growth & development, Trypanosoma cruzi enzymology, Trypanosoma cruzi genetics, Trypanosoma cruzi growth & development, Vero Cells, Antiprotozoal Agents chemical synthesis, Diphosphonates chemical synthesis, Enzyme Inhibitors chemical synthesis, Geranyltranstransferase antagonists & inhibitors, Protozoan Proteins antagonists & inhibitors, Toxoplasma drug effects, Trypanosoma cruzi drug effects

Abstract

Based on crystallographic data of the complexes 2-alkyl(amino)ethyl-1,1-bisphosphonates- Trypanosoma cruzi farnesyl diphosphate synthase, some linear 1,1-bisphosphonic acids and other closely related derivatives were designed, synthesized and biologically evaluated against T. cruzi , the responsible agent of Chagas disease and against Toxoplasma gondii , the etiologic agent of toxoplasmosis and also towards the target enzymes farnesyl pyrophosphate synthase of T. cruzi ( Tc FPPS) and T gondii ( Tg FPPS), respectively. The isoprenoid-containing 1,1-bisphosphonates exhibited modest antiparasitic activity, whereas the linear α-fluoro-2-alkyl(amino)ethyl-1,1-bisphosphonates were unexpectedly devoid of antiparasitic activity. In spite of not presenting efficient antiparasitic activity, these data turned out to be very important to establish a structural activity relationship.

Published

2017

2. New insights into molecular recognition of 1,1-bisphosphonic acids by farnesyl diphosphate synthase.

Author

Ferrer-Casal M, Li C, Galizzi M, Stortz CA, Szajnman SH, Docampo R, Moreno SN, and Rodriguez JB

Subjects

Drug Design, Structure-Activity Relationship, Toxoplasma metabolism, Trypanosoma cruzi metabolism, Antiparasitic Agents pharmacology, Diphosphonates pharmacology, Geranyltranstransferase chemistry, Toxoplasma enzymology, Trypanosoma cruzi enzymology

Abstract

As part of our project pointed at the search of new antiparasitic agents against American trypanosomiasis (Chagas disease) and toxoplasmosis a series of 2-alkylaminoethyl-1-hydroxy-1,1-bisphosphonic acids has been designed, synthesized and biologically evaluated against the etiologic agents of these parasitic diseases, Trypanosoma cruzi and Toxoplasma gondii, respectively, and also towards their target enzymes, T. cruzi and T. gondii farnesyl pyrophosphate synthase (FPPS), respectively. Surprisingly, while most pharmacologically active bisphosphonates have a hydroxyl group at the C-1 position, the additional presence of an amino group at C-3 resulted in decreased activity towards either T. cruzi cells or TcFPPS. Density functional theory calculations justify this unexpected behavior. Although these compounds were devoid of activity against T. cruzi cells and TcFPPS, they were efficient growth inhibitors of tachyzoites of T. gondii. This activity was associated with a potent inhibition of the enzymatic activity of TgFPPS. Compound 28 arises as a main example of this family of compounds exhibiting an ED₅₀ value of 4.7 μM against tachyzoites of T. gondii and an IC₅₀ of 0.051 μM against TgFPPS., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2014

3. Design, synthesis and biological evaluation of sulfur-containing 1,1-bisphosphonic acids as antiparasitic agents.

Author

Recher M, Barboza AP, Li ZH, Galizzi M, Ferrer-Casal M, Szajnman SH, Docampo R, Moreno SN, and Rodriguez JB

Subjects

Antiprotozoal Agents chemistry, Diphosphonates chemical synthesis, Dose-Response Relationship, Drug, Molecular Structure, Parasitic Sensitivity Tests, Structure-Activity Relationship, Antiprotozoal Agents chemical synthesis, Antiprotozoal Agents pharmacology, Diphosphonates chemistry, Diphosphonates pharmacology, Drug Design, Sulfur chemistry, Toxoplasma drug effects, Trypanosoma cruzi drug effects

Abstract

As part of our efforts aimed at searching for new antiparasitic agents, 2-alkylmercaptoethyl-1,1-bisphosphonate derivatives were synthesized and evaluated against Trypanosoma cruzi, the etiologic agent of Chagas disease, and Toxoplasma gondii, the responsible agent for toxoplasmosis. Many of these sulfur-containing bisphosphonates were potent inhibitors against the intracellular form of T. cruzi, the clinically more relevant replicative form of this parasite, and tachyzoites of T. gondii targeting T. cruzi or T. gondii farnesyl diphosphate synthases (FPPSs), which constitute valid targets for the chemotherapy of these parasitic diseases. Interestingly, long chain length sulfur-containing bisphosphonates emerged as relevant antiparasitic agents. Taking compounds 37, 38, and 39 as representative members of this class of drugs, they exhibited ED(50) values of 15.8 μM, 12.8 μM, and 22.4 μM, respectively, against amastigotes of T. cruzi. These cellular activities matched the inhibition of the enzymatic activity of the target enzyme (TcFPPS) having IC(50) values of 6.4 μM, 1.7 μM, and 0.097 μM, respectively. In addition, these compounds were potent anti-Toxoplasma agents. They had ED(50) values of 2.6 μM, 1.2 μM, and 1.8 μM, respectively, against T. gondii tachyzoites, while they exhibited a very potent inhibitory action against the target enzyme (TgFPPS) showing IC(50) values of 0.024 μM, 0.025 μM, and 0.021 μM, respectively. Bisphosphonates bearing a sulfoxide unit at C-3 were also potent anti-Toxoplasma agents, particularly those bearing long aliphatic chains such as 43-45, which were also potent antiproliferative drugs against tachyzoites of T. gondii. These compounds inhibited the enzymatic activity of the target enzyme (TgFPPS) at the very low nanomolar range. These bisphosphonic acids have very good prospective not only as lead drugs but also as potential chemotherapeutic agents., (Copyright © 2012 Elsevier Masson SAS. All rights reserved.)

Published

2013