Amanda Danuello scite author profile

Molecular hybridization is a new concept in drug design and development based on the combination of pharmacophoric moieties of different bioactive substances to produce a new hybrid compound with improved affinity and efficacy, when compared to the parent drugs. Additionally, this strategy can result in compounds presenting modified selectivity profile, different and/or dual modes of action and reduced undesired side effects. So, in this paper, we described several examples of different strategies for drug design, discovery and pharmacomodulation focused on new innovative hybrid compounds presenting analgesic, anti-inflammatory, platelet anti-aggregating, anti-infectious, anticancer, cardio- and neuroactive properties.

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Tropical biodiversity: has it been a potential source of secondary metabolites useful for medicinal chemistry?

Valli¹,

Pivatto²,

Danuello³

et al. 2012

Quím. Nova

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Recebido em 22/5/12; aceito em 19/7/12; publicado na web em 26/10/12The use of natural products has definitely been the most successful strategy in the discovery of novel medicines. Secondary metabolites from terrestrial and marine organisms have found considerable use in the treatment of numerous diseases and have been considered lead molecules both in their natural form and as templates for medicinal chemistry. This paper seeks to show the great value of secondary metabolites and emphasize the rich chemical diversity of Brazilian biodiversity. This natural chemical library remains understudied, but can be a useful source of new secondary metabolites with potential application as templates for drug discovery.

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CNS-selective noncompetitive cholinesterase inhibitors derived from the natural piperidine alkaloid (−)-spectaline

Castro

Costa

Pimentel

et al. 2008

European Journal of Pharmacology

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Pyridine Alkaloids from Senna multijuga As Acetylcholinesterase Inhibitors

et al. 2012

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As part of an ongoing research project on Senna and Cassia species, five new pyridine alkaloids, namely, 12'-hydroxy-7'-multijuguinol (1), 12'-hydroxy-8'-multijuguinol (2), methyl multijuguinate (3), 7'-multijuguinol (4), and 8'-multijuguinol (5), were isolated from the leaves of Senna multijuga (syn. Cassiamultijuga). Their structures were elucidated on the basis of spectroscopic data analysis. Mass spectrometry was used for confirmation of the positions of the hydroxy groups in the side-chains of 1, 2, 4, and 5. All compounds exhibited weak in vitro acetylcholinesterase inhibitory activity as compared with the standard compound physostigmine.

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Amanda Danuello

Molecular Hybridization: A Useful Tool in the Design of New Drug Prototypes

Tropical biodiversity: has it been a potential source of secondary metabolites useful for medicinal chemistry?

CNS-selective noncompetitive cholinesterase inhibitors derived from the natural piperidine alkaloid (−)-spectaline

Pyridine Alkaloids from Senna multijuga As Acetylcholinesterase Inhibitors

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