Twenty-two new alkenyldiarylmethanes (ADAMs) were synthesized and evaluated for inhibition of HIV-1 replication. The most potent compound proved to be methyl 3',3"-dichloro-4',4"-dimethoxy-5', 5"-bis(methoxycarbonyl)-6,6-diphenyl-5-hexenoate (ADAM II), which displayed an EC50 of 13 nM for inhibition of the cytopathic effect of HIV-1RF in CEM-SS cells. ADAM II inhibited HIV-1 reverse transcriptase with an IC50 of 0.3 microM but was inactive as an inhibitor of HIV-1 attachment/fusion to cells, protease, integrase, and the nucleocapsid protein. Molecular target-based and cell-based assays revealed that ADAM II acted biologically as a nonnucleoside reverse transcriptase inhibitor (NNRTI). ADAM II inhibited replication of a wide variety of laboratory, clinical, and clade-representative isolates of HIV-1 in T cell lines and cultures of peripheral blood mononuclear cells or monocyte/macrophages. Mutations that conferred resistance to ADAM II clustered at residues 101, 103, 108, 139, 179, 181, and 188, which line the nonnucleoside binding pocket of HIV-1 reverse transcriptase. However, HIV-1 NL4-3 strain expressing a mutation at residue 100 of reverse transcriptase, and an AZT-resistant virus, displayed increased sensitivity to ADAM II. Thus, ADAM II could serve as an adjunct therapy to AZT and NNRTIs that select for L100I resistance mutations.
The potential therapeutic application of the naturally occurring, cytotoxic pseudoguaianolide sesquiterpene lactone ambrosin is limited by its aqueous insolubility. A number of water-soluble ambrosin derivatives have therefore been prepared for potential use as prodrugs. Michael addition of several secondary amines to both the alpha,beta-unsaturated ketone and alpha-methylene lactone moieties of ambrosin afforded tertiary amine diadducts that were converted to water-soluble hydrochloride salts. The salt of the bis-piperidine adduct proved to be the most potent, producing cytotoxic activity only slightly less potent than that of ambrosin itself in a variety of human cancer cell cultures. The sodium salt of the bis-sulfonic acid derivative of ambrosin was inactive, while the sodium salt of the bis-sulfinic acid analog had low activity. Biological evaluation of several ambrosin analogs with reduced and/or isomerized alpha,beta-unsaturated ketone and alpha-methylene lactone moieties demonstrated the importance of both of these functional groups for biological activity.
18 (11 novel) Schiff bases, derivatives of salicylaldehyde, 2-hydroxyacetophenone, and 6-acetyl-, 8-acetyl-, and 8-formyl-7-hydroxy-4-methylcoumarin were synthesized and characterized by their spectral studies. 6-Acetyl-7-hydroxy-4-methylcoumarin was prepared by novel method under microwave assistance. These Schiff bases were evaluated for antibacterial activities against 12 bacterial and six fungi strains in vitro. N-(3,5-Dichloro-2-hydroxybenzylidene)-4-aminobenzenesulfonic acid sodium salt proved to be the most active against Staphylococcus aureus and MRSA strains (MIC 0.0194 µmol/cm 3). The substitution pattern, two chlorine atoms in the salicylidene ring and the SO 3 Na group, is probably the most beneficial for the activity against Gram-(+) bacteria strains. All Schiff bases were evaluated for cancer efficacy against CFPAC-1 and HeLa cell cultures originating from human pancreas cancer or human cervical cancer. Schiff bases derived from salicylaldehyde are highly effective in pancreas and cervical cancer cells; however, they demonstrate also substantial toxicity towards NIH3T3 cells. Derivatives of coumarin contain three highly selective compounds: 7-hydroxy-8-[(4-methoxyphenylimino)methyl]-4-methyl-2H-chromen-2-one, N-[(7-hydroxy-4-methyl-2-oxo-2H-chromen-8-yl)methylene]-4-aminobenzenesulfonic acid sodium salt, and 7-hydroxy-8-[1-(4-hydroxyphenylimino)ethyl]-4-methyl-2H-chromen-2-one suggesting more promising potential of the second group of substances.
Chagas disease is a neglected tropical affection caused by the protozoan parasite Trypanosoma cruzi. There is no current effective treatment since the only two available drugs have a limited efficacy and produce side effects. Thus, investigation efforts have been directed to the identification of new drug leads. In this context, Ca regulating mechanisms have been postulated as targets for antiparasitic compounds, since they present paramount differences when compared to host cells. Amiodarone is an antiarrhythmic with demonstrated trypanocidal activity acting through the disruption of the parasite intracellular Ca homeostasis. We now report the effect of a benzofuran derivative based on the structure of amiodarone on T. cruzi. This derivative was able to inhibit the growth of epimastigotes in culture and of amastigotes inside infected cells, the clinically relevant phase. We also show that this compound, similarly to amiodarone, disrupts Ca homeostasis in T. cruzi epimastigotes, via two organelles involved in the intracellular Ca regulation and the bioenergetics of the parasite. We demonstrate that the benzofuran derivative was able to totally collapse the membrane potential of the unique giant mitochondrion of the parasite and simultaneously produced the alkalinization of the acidocalcisomes. Both effects are evidenced by a large increase in the intracellular Ca concentration of T. cruzi.
Various new aurintricarboxylic acid (ATA) polymer analogues have been evaluated for their antiviral activity against a wide array of DNA and RNA viruses, and their mechanism of action against human cytomegalovirus (HCMV) and human immunodeficiency virus type 1 (HIV-1). Most of the polymers exhibited marked antiviral activity against a variety of enveloped viruses, but not against non-enveloped viruses. The ATA polymers displayed the most pronounced activity against HIV-1, HCMV and human herpesvirus type 6 (HHV-6). Their action against HCMV and HIV could be ascribed to inhibition of the initial attachment of virus particles to the cells. Using radiolabelled virus, we proved that the polymers inhibit the binding of HCMV to HEL fibroblasts. By flow cytometric analysis, we demonstrated that these new polymers interfere with (i) the binding of OKT4A monoclonal antibody (mAb) to the cellular CD4 receptor, (ii) the binding of anti-gp120 mAb to HIV-1 glycoprotein (gp) 120, and (iii) the adsorption of HIV-1 virions and recombinant HIV-1gp120 (rgp120) to MT-4 cells. The presence of a salicylic acid substituent on the central bridging carbon in the parent compound ATA seems to play an important role in the anti-HIV activity of these ATA related polymer analogues.
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