Leonardo S. Santos

The Morita-Baylis-Hillman reaction: insights into asymmetry and reaction mechanisms by electrospray ionization mass spectrometry.

This short review presents new insights on the mechanism and online monitoring using electrospray ionization tandem mass spectrometry (ESI–MS/MS) of Morita–Baylis–Hillman (MBH) reactions. MBH reactions are versatile carbon-carbon organocatalyzed bond forming reactions, making them environmentally friendly due to general organocatalysts employed. The organocatalyst behavior, which controls the transition state and thus the enantioselectivities in the obtained products, is very important in the performance of asymmetric MBH transformations. Some recent techniques and advances in asymmetric transformations are reviwed, as well as online reaction monitoring and analysis of the reaction intermediates. The mechanism accepted nowadays is also review through the insights gained from the use of ESI–MS/MS techniques.

Study of interaction energies between the PAMAM dendrimer and nonsteroidal anti-inflammatory drug using a distributed computational strategy and experimental analysis by ESI-MS/MS

The structure of a dendrimer exhibits a large number of internal and superficial cavities, which can be exploited, to capture and deliver small organic molecules, enabling their use in drug delivery. Structure-based modeling and quantum mechanical studies can be used to accurately understand the interactions between functionalized dendrimers and molecules of pharmaceutical and industrial interest. In this study, we implemented a Metropolis Monte Carlo algorithm to calculate the interaction energy of dendrimer-drug complexes, which can be used for in silico prediction of dendrimer-drug affinity. Initially, a large-scale sampling of different dendrimer-drug conformations was generated using Euler angles. Then, each conformation was distributed on different nodes of a GRID computational system, where its interaction energy was calculated by semiempirical quantum mechanical methods. These energy calculations were performed for four different nonsteroidal anti-inflammatory drugs, each showing different affinities for the PAMAM-G4 dendrimer. The affinities were also characterized experimentally by using Cooks kinetic method to calculate PAMAM-drug dissociation constants. The quantitative structure-activity relationship between the interaction energies and dissociation constants showed statistical correlations with r(2) > 0.9.

What do we know about reaction mechanism? the electrospray ionization mass spectrometry approach

O fascinio do homem por reacoes quimicas remonta aos tempos antigos. Com a introducao de tecnicas espectroscopicas, a arte de explorar as reacoes se tornou uma ciencia intrigante. Portanto, nao e surpreendente que uma das fronteiras mais prosperas e gratificantes na Quimica moderna e o estudo de mecanismo de reacoes em processos quimicos e biologicos. Como a imaginacao do homem nao termina nas fronteiras definidas pela natureza, e com o poder crescente da catalise, o quimico orgânico sintetico esta pronto para contribuir de uma maneira importante no invento e desenvolvimento de novas tecnologias que permitam a geracao de novos catalisadores e metodologias. Neste account uma nova ferramenta para acelerar o desenvolvimento na descoberta de novas reacoes e revisada atraves do monitoramento por espectrometria de massa com ionizacao eletrospray (ESI-MS). Man’s fascination with chemical reactions goes back to ancient times. With the introduction of spectroscopic techniques, the art of exploiting reactions became an intriguing science. It is, therefore, not surprising that one of the most flourishing and rewarding frontiers in modern Chemistry is the study of reaction mechanisms in chemical and biological processes. As man’s imagination does not stop at the frontiers defined by nature, and with the ever increasing power of catalysis, the synthetic organic chemist is poised to make important contributions by inventing and developing new enabling technologies for the generation of new catalysts and methodologies. In this account is offered a new tool for accelerating the development through electrospray ionizationmass spectrometric (ESI-MS) monitoring in new reaction discovering.

Supramolecular complexes of quantum dots and a polyamidoamine (PAMAM)-folate derivative for molecular imaging of cancer cells

AbstractPolyamidoamine (PAMAM) dendrimers and water-soluble 3-mercaptopropionic acid (MPA)-capped CdSe quantum dots (QDs) were combined to produce a new gel containing supramolecular complexes of QDs/PAMAM dendrimers. The formation of the QDs/PAMAM supramolecular complexes was confirmed by high resolution electron microscopy and Fourier transform infrared (FTIR) analyses. Molecular dynamics simulations corroborated the structure of the new QDs/PAMAM-based supramolecular compound. Finally, on the basis of the prominent fluorescent properties of the supramolecular complexes, PAMAM dendrimer was functionalized with folic acid to produce a new QDs/PAMAM-folate derivative that showed an efficient and selective performance as a marker for gastric cancer cells.n FigureThe new QDs/PAMAM-folate derivative (left)xa0is a selective marker for imaging of cancer cells as illustrated by the fluorescence image of human stomach adenocarcinoma (AGS) cells with internalized marker (right)

On‐line monitoring of Brookhart polymerization by electrospray ionization mass spectrometry

For the first time, an electrospray ionization (ESI) mass spectrometer coupled on-line with a microreactor permitted the fast screening of polymerization growth of alkenes in the liquid phase mediated by palladium Brookhart catalyst and allowed the direct mass spectrometric identification of alkyl chains still bonded to Pd. The method also allowed us to intercept the catalytically active cationic intermediates of the Brookhart polymerization of alkenes, and to prove on-line their catalytic activity through ion/molecule reactions. The technique is fast and sensitive, requires no sample preparation and manipulation, and is therefore suitable for the fast screening of catalyst/polymer growth by MS identification, with potential applications in areas such as new catalyst development, polymer chemistry, and product quality monitoring in manufacturing.

Antiproliferative activity of arborescidine alkaloids and derivatives.

Current issues in cancer research involve searching for novel anticancer compounds that can be used to regulate the cell cycle and lead to more effective treatments of tumors. In this study, it was hypothesized that possessing a cyclic alkaloid similar to harmine, arborescidines can disrupt the proliferative state of cancer cells and block the activity of topoisomerases. The antiproliferative activity of arborescidines A-C and their derivatives was evaluated in vitro against four human tumor cell lines: gastric adenocarcinoma, lung cancer, bladder carcinoma and leukemia. Assuming the mechanism of action by topoisomerase II binding model, the compounds possessing the greatest activity had nonpolar side-chain into hydrophobic binding region on the DNA/topo II complex.

PAMAM dendrimer derivatives as a potential drug for antithrombotic therapy.

Platelets are anucleated blood cells that play an important role both in the pathogenesis of atherosclerosis and subsequent thrombosis. Dendrimers have attracted great interest in biomedical applications. However, their interactions with cell compounds and compartments are nonselective, thus causing cytotoxicity and hemotoxicity. We derivatized PAMAM G4 and G5 dendrimers to evaluate their interactions with serum metabolites, their effects on the viability of red blood cells, and their antithrombotic properties. PAMAM G4 and G5 derivatives showed better hemocompatibility than the PAMAM G4 and G5 dendrimers without any derivatization (NH₂). PAMAM G4-Arginine-Tos and G4-Lysine-Cbz act as potent inhibitors of platelet aggregation induced by ADP. PAMAM G4-Arginine-Tos also showed inhibition of platelet aggregation induced by collagen, TRAP-6 and arachidonic acid. Moreover, G4-Arginine-Tos present inhibition of platelet secretion and thrombus formation under flow conditions. Based on our study, the PAMAM G4-Arginine-Tos derivative is hemocompatible and produces desirable antiplatelet and antithrombotic effects. Thus, this compound has potential applications as an antithrombotic drug or a drug delivery vehicle.

TBAI/TBHP-catalyzed [3 + 2]cycloaddition/oxidation/aromatization cascade and online ESI-MS mechanistic studies: synthesis of pyrrolo[2,1-a]isoquinolines and indolizino[8,7-b]indoles

A facile [3 + 2]cycloaddition/oxidation/aromatization cascade reaction for the synthesis of pyrrolo[2,1-a]isoquinolines and indolizino[8,7-b]indoles has been developed. This tandem approach was accomplished by employing tert-butyl hydroperoxide (TBHP) as the environmentally benign stoichiometric oxidant, with the catalysis of non-toxic tetrabutylammonium iodide (TBAI) and isopropanol as the green solvent. Gratifyingly, this protocol is highly versatile, as the construction of polycyclics could be tailored by readily available dipolarophiles. Only a catalytic amount of TBAI was required, as the hypervalent electrophilic iodine species (IOH) can be recovered in situ by oxidation with TBHP. Furthermore, for the first time, the mechanistic aspects and the putative intermediates associated with this cascade have been intercepted and characterized by online monitoring of the reaction by using ESI-MS/MS.

Effect of tomato industrial processing on phenolic profile and antiplatelet activity.

Background: Regular consumption of fruits and vegetables (e.g., tomatoes) has been shown to be beneficial in terms of reducing the incidence of cardiovascular diseases. The industrial processing of tomatoes into tomato-based products includes several thermal treatments. Very little is known on the effect of tomato industrial processing on antiaggregatory activity and phenolic profile. Methods: It was assessed the effect of tomato and by-products extracts on platelet aggregation induced by ADP, collagen, TRAP-6 and arachidonic acid. These in vitro antithrombotic properties were further supported in an in vivo model of thrombosis. A set of antiplatelet compounds has been selected for HPLC analysis in the different extracts. Results: Some natural compounds such as chlorogenic, caffeic, ferulic and p-coumaric acids were identified by HPLC in tomatoes and its products may inhibit platelet activation. Red tomatoes, tomato products (sauce, ketchup and juice) and by-products extracts inhibited platelet aggregation induced adenosine 5-diphosphate, collagen, thrombin receptor activator peptide-6 and arachidonic acid, but to a different extent. Also, pomace extract presents antithrombotic activity. Conclusions: Processed tomatoes may have a higher content of health-benefiting compounds than fresh ones. Pomace even presents the best antiplatelet activity. Finally, tomato products may be used as a functional ingredient adding antiplatelet activities to processed foods.

New Gastroprotective Ferruginol Derivatives with Selective Cytotoxicity against Gastric Cancer Cells

The diterpene ferruginol has shown a strong protective effect in animal gastric ulcer models. In the present work, we report the gastroprotective effect and cytotoxicity of 16 new semisynthetic ester derivatives of ferruginol. The gastroprotective effect of these compounds was assessed with the HCl/EtOH-induced gastric lesions model in mice and the cytotoxicity was measured using MRC-5 fibroblasts, gastric adenocarcinoma (AGS) and liver hepatoma Hep G2 cells. The compounds were tested for a gastroprotective effect at a single oral dose of 20 mg/kg. The best gastroprotective effect was elicited by ferruginyl nicotinate ( 13), reducing the lesion index by 71 %, while the derivatives ferruginyl chloroacetate ( 2), ferruginyl palmitate ( 6), ferruginyl oleate ( 7), ferruginyl 3,5-dinitrobenzoate ( 11), ferruginyl 3-methylbenzofuran-2-carbonyl ester ( 12), ferruginyl indoleacetate ( 14), ferruginyl indolebutyrate ( 15) and ferruginyl pthalate ( 16) reduced the lesions by 49 - 66 %. The most promising compounds were 11, 13 and 14, presenting a gastroprotective effect higher or similar to that of ferruginol but with a high selectivity towards the tumor AGS cells. Among the three products, the most selective towards AGS cells was 14, followed by 13, and 11 (IC (50) values of 12, 22 and 29 microM, respectively). The isobutyrate 4, inactive as a gastroprotective agent, showed selective cytotoxicity against AGS and Hep G2 cells (IC (50) values of 60 and 39.2 microM, respectively). The cytotoxicity of the above cited compounds towards fibroblasts was >1000 microM. Considering the aliphatic esters of ferruginol, the best gastroprotective activity was found in the C (16) and C (18) derivatives but tended to decrease with increasing aliphatic chain unsaturation. For short-chain esters, the gastroprotective effect could be observed when the chain contained a chlorine atom. For aromatic esters, the presence of nitro groups or a nitrogen atom in the aromatic ring enhanced the gastroprotective activity. The compounds with the best gastroprotective effect and the highest selectivity against tumor cells bear an amino group (indoleacetate and nicotinate) or nitro group (3,5-dinitrobenzoate).