A novel amplicon at 8p22–23 results in overexpression of cathepsin B in esophageal adenocarcinoma

Cathepsin B (CTSB) is overexpressed in tumors of the lung, prostate, colon, breast, and stomach. However, evidence of primary genomic alterations in the CTSB gene during tumor initiation or progression has been lacking. We have found a novel amplicon at 8p22–23 that results in CTSB overexpression in esophageal adenocarcinoma. Amplified genomic NotI–HinfI fragments were identified by two-dimensional DNA electrophoresis. Two amplified fragments (D4 and D5) were cloned and yielded unique sequences. Using bacterial artificial chromosome clones containing either D4 or D5, fluorescent in situ hybridization defined a single region of amplification involving chromosome bands 8p22–23. We investigated the candidate cancer-related gene CTSB, and potential coamplified genes from this region including farnesyl-diphosphate farnesyltransferase (FDFT1), arylamine N-acetyltransferase (NAT-1), lipoprotein lipase (LPL), and an uncharacterized expressed sequence tag (D8S503). Southern blot analysis of 66 esophageal adenocarcinomas demonstrated only CTSB and FDFT1 were consistently amplified in eight (12.1%) of the tumors. Neither NAT-1 nor LPL were amplified. Northern blot analysis showed overexpression of CTSB and FDFT1 mRNA in all six of the amplified esophageal adenocarcinomas analyzed. CTSB mRNA overexpression also was present in two of six nonamplified tumors analyzed. However, FDFT1 mRNA overexpression without amplification was not observed. Western blot analysis confirmed CTSB protein overexpression in tumor specimens with CTSB mRNA overexpression compared with either normal controls or tumors without mRNA overexpression. Abundant extracellular expression of CTSB protein was found in 29 of 40 (72.5%) of esophageal adenocarcinoma specimens by using immunohistochemical analysis. The finding of an amplicon at 8p22–23 resulting in CTSB gene amplification and overexpression supports an important role for CTSB in esophageal adenocarcinoma and possibly in other tumors.

Desorption/ionization on silicon (DIOS): A diverse mass spectrometry platform for protein characterization

Since the advent of matrix-assisted laser desorption/ionization and electrospray ionization, mass spectrometry has played an increasingly important role in protein functional characterization, identification, and structural analysis. Expanding this role, desorption/ionization on silicon (DIOS) is a new approach that allows for the analysis of proteins and related small molecules. Despite the absence of matrix, DIOS-MS yields little or no fragmentation and is relatively tolerant of moderate amounts of contaminants commonly found in biological samples. Here, functional assays were performed on an esterase, a glycosidase, a lipase, as well as exo- and endoproteases by using enzyme-specific substrates. Enzyme activity also was monitored in the presence of inhibitors, successfully demonstrating the ability of DIOS to be used as an inhibitor screen. Because DIOS is a matrix-free desorption technique, it also can be used as a platform for multiple analyses to be performed on the same protein. This unique advantage was demonstrated with acetylcholine esterase for qualitative and quantitative characterization and also by its subsequent identification directly from the DIOS platform.

Electrostatic steering and ionic tethering in enzyme–ligand binding: Insights from simulations

To bind at an enzyme’s active site, a ligand must diffuse or be transported to the enzyme’s surface, and, if the binding site is buried, the ligand must diffuse through the protein to reach it. Although the driving force for ligand binding is often ascribed to the hydrophobic effect, electrostatic interactions also influence the binding process of both charged and nonpolar ligands. First, electrostatic steering of charged substrates into enzyme active sites is discussed. This is of particular relevance for diffusion-influenced enzymes. By comparing the results of Brownian dynamics simulations and electrostatic potential similarity analysis for triose-phosphate isomerases, superoxide dismutases, and β-lactamases from different species, we identify the conserved features responsible for the electrostatic substrate-steering fields. The conserved potentials are localized at the active sites and are the primary determinants of the bimolecular association rates. Then we focus on a more subtle effect, which we will refer to as “ionic tethering.” We explore, by means of molecular and Brownian dynamics simulations and electrostatic continuum calculations, how salt links can act as tethers between structural elements of an enzyme that undergo conformational change upon substrate binding, and thereby regulate or modulate substrate binding. This is illustrated for the lipase and cytochrome P450 enzymes. Ionic tethering can provide a control mechanism for substrate binding that is sensitive to the electrostatic properties of the enzyme’s surroundings even when the substrate is nonpolar.

Purification, molecular cloning, and expression of the mammalian sigma1-binding site.

Sigma-ligands comprise several chemically unrelated drugs such as haloperidol, pentazocine, and ditolylguanidine, which bind to a family of low molecular mass proteins in the endoplasmic reticulum. These so-called sigma-receptors are believed to mediate various pharmacological effects of sigma-ligands by as yet unknown mechanisms. Based on their opposite enantioselectivity for benzomorphans and different molecular masses, two subtypes are differentiated. We purified the sigma1-binding site as a single 30-kDa protein from guinea pig liver employing the benzomorphan(+)[3H]pentazocine and the arylazide (-)[3H]azidopamil as specific probes. The purified (+)[3H]pentazocine-binding protein retained its high affinity for haloperidol, pentazocine, and ditolylguanidine. Partial amino acid sequence obtained after trypsinolysis revealed no homology to known proteins. Radiation inactivation of the pentazocine-labeled sigma1-binding site yielded a molecular mass of 24 +/- 2 kDa. The corresponding cDNA was cloned using degenerate oligonucleotides and cDNA library screening. Its open reading frame encoded a 25.3-kDa protein with at least one putative transmembrane segment. The protein expressed in yeast cells transformed with the cDNA showed the pharmacological characteristics of the brain and liver sigma1-binding site. The deduced amino acid sequence was structurally unrelated to known mammalian proteins but it shared homology with fungal proteins involved in sterol synthesis. Northern blots showed high densities of the sigma1-binding site mRNA in sterol-producing tissues. This is also in agreement with the known ability of sigma1-binding sites to interact with steroids, such as progesterone.

The cell wall components peptidoglycan and lipoteichoic acid from Staphylococcus aureus act in synergy to cause shock and multiple organ failure.

Although the incidence of Gram-positive sepsis has risen strongly, it is unclear how Gram-positive organisms (without endotoxin) initiate septic shock. We investigated whether two cell wall components from Staphylococcus aureus, peptidoglycan (PepG) and lipoteichoic acid (LTA), can induce the inflammatory response and multiple organ dysfunction syndrome (MODS) associated with septic shock caused by Gram-positive organisms. In cultured macrophages, LTA (10 micrograms/ml), but not PepG (100 micrograms/ml), induces the release of nitric oxide measured as nitrite. PepG, however, caused a 4-fold increase in the production of nitrite elicited by LTA. Furthermore, PepG antibodies inhibited the release of nitrite elicited by killed S. aureus. Administration of both PepG (10 mg/kg; i.v.) and LTA (3 mg/kg; i.v.) in anesthetized rats resulted in the release of tumor necrosis factor alpha and interferon gamma and MODS, as indicated by a decrease in arterial oxygen pressure (lung) and an increase in plasma concentrations of bilirubin and alanine aminotransferase (liver), creatinine and urea (kidney), lipase (pancreas), and creatine kinase (heart or skeletal muscle). There was also the expression of inducible nitric oxide synthase in these organs, circulatory failure, and 50% mortality. These effects were not observed after administration of PepG or LTA alone. Even a high dose of LTA (10 mg/kg) causes only circulatory failure but no MODS. Thus, our results demonstrate that the two bacterial wall components, PepG and LTA, work together to cause systemic inflammation and multiple systems failure associated with Gram-positive organisms.

Initial hepatic removal of chylomicron remnants is unaffected but endocytosis is delayed in mice lacking the low density lipoprotein receptor.

Two endocytic receptors, the low density lipoprotein (LDL) receptor (LDLR) and the LDLR-related protein (LRP), are thought to act in concert in the hepatic uptake of partially metabolized dietary lipoproteins, the chylomicron remnants. We have evaluated the role of these two receptors in the hepatic metabolism of chylomicron remnants in normal mice and in LDLR-deficient [LDLR (-/-)] mice. The rate of chylomicron remnant removal by the liver was normal up to 30 min after intravenous injection of chylomicrons into LDLR (-/-) mice and was unaffected by receptor-associated protein (RAP), a potent inhibitor of ligand binding to LRP. In contrast, endocytosis of the remnants by the hepatocytes, measured by their accumulation in the endosomal fraction and by the rate of hydrolysis of component cholesteryl esters, was dramatically reduced in the absence of the LDLR. Coadministration of RAP prevented the continuing hepatic removal of chylomicron remnants in LDL (-/-) mice after 30 min, consistent with blockade of the slow endocytosis by a RAP-sensitive process. Taken together with previous studies, our results are consistent with a model in which the initial hepatic removal of chylomicron remnants is primarily mediated by mechanisms that do not include LDLR or LRP, possibly involving glycosaminoglycan-bound hepatic lipase and apolipoprotein E. After the remnants bind to these alternative sites on the hepatocyte surface, endocytosis is predominantly mediated by the LDLR and also by a slower and less efficient backup process that is RAP sensitive and therefore most likely involves LRP.

Pancreatic digestive enzyme secretion in the rabbit: rapid cyclic variations in enzyme composition.

The role and mechanism of nonparallel pancreatic secretion of digestive enzymes, in which enzyme proportions change in rapidly regulated fashion, remain controversial. Secretion was collected from male 2.2-kg New Zealand rabbits in 5-min intervals for 3 h under basal conditions or constant stimulation with cholecystokinin (CCK; 0.1 microgram per kg per h i.v.) or methacholine chloride (MCh; 40 micrograms per kg per h i.v.). Both CCK and MCh produced an 8-fold stimulation of protein output. Enzymes were separated by SDS/PAGE and quantitated by densitometry of Coomassie blue-stained gels. Under both basal conditions and constant MCh infusion, rapid neurosecretory-like 12-min cyclic changes occurred in the proportions of amylase, lipase I, chymotrypsinogen, and trypsinogen. During constant infusion their percentages changed as much as 10-fold, and their ratios cycled by as much as 30-fold. The mean percentage for the entire infusion period for lipase I declined > 25% with CCK or MCh, for amylase it rose approximately 30%, and for chymotrypsinogen and trypsinogen it doubled (for all, P < 0.05). CCK and MCh elicited subtly but significantly different mean enzyme percentages and enzyme ratios (P < 0.05) for amylase, chymotrypsinogen, and trypsinogen; these differences were also confirmed by regression and correlation analyses. The changes in enzyme percentages and ratios were explicitly consistent with secretagogue-caused shifts in the intrapancreatic enzyme secretory sources. Nonparallel secretion of digestive enzymes occurs routinely, even during constant stimulation, and is due to cyclic neurosecretory-like secretion from heterogeneous intrapancreatic sources.

Application of Molecular Modelling studies to the search of novel approaches for neuroprotection and stem cells applications

Il lavoro di ricerca presentato in questa tesi di dottorato riguarda l'applicazione di studi di modellistica molecolare per l'individuazione di nuovi approcci farmacologici nel campo della neuroprotezione e del controllo della proliferazione di cellule staminali. Durante il mio dottorato di ricerca, mi sono concentrata sullo studio del sistema degli endocannabinoidi come target per lo sviluppo di nuovi trattamenti neuroprotettivi. In particolare, la mia ricerca ha avuto come obiettivo la modulazione dei livelli di 2-arachidonilglicerolo e arachidonil-etanolamide tramite l'inibizione degli enzimi MGL (monoglyceride lipase) e FAAH (fatty acid amide hydrolase). Il mio progetto di ricerca comprende anche studi di modellistica molecolare per l'individuazione di piccole molecole in grado di inibire il complesso proteina-proteina YAP-TEAD. Tale complesso, coinvolto nei sistemi di regolazione della proliferazione cellulare, rappresenta un target di cruciale importanza nel controllo della proliferazione e differenziazione di cellule staminali e, al tempo stesso, nel controllo dell'espansione tumorale

Avaliação da qualidade microbiológica, contagem de Pseudomonas spp, e sua importância durante a obtenção e armazenamento de leite cru refrigerado no período de seca e chuva

Na propriedade rural, onde o leite cru refrigerado fica armazenado até a captação pelo caminhão tanque em coleta a granel, o mesmo é mantido a temperatura de refrigeração entre 1 a 4ºC por longos períodos (até 96 horas), os microrganismos psicrotróficos encontram condições favoráveis para sua multiplicação, produzindo enzimas proteolíticas e lipolíticas termotolerantes, podendo provocar alterações indesejáveis no leite e nos seus derivados. Quando estes microrganismos estão presentes em elevadas populações, pode ser indicativo de baixa qualidade do leite e insatisfatória condições sanitárias para o processamento. Devido a necessidade da melhora da qualidade dos produtos lácteos, objetivou-se a execução desta pesquisa realizando levantamentos sobre o cumprimento dos padrões microbiológicos exigidos pela atual legislação brasileira IN 62 (BRASIL, 2011), pesquisas sobre os microrganismos psicrotróficos, Pseudomonas spp. e produção de enzimas proteolítica e lipolítica por Pseudomonas spp. As coletas foram realizadas em 10 propriedades do Estado de São Paulo na Regional Agrícola do Escritório de Desenvolvimento Rural - EDR Limeira - SP, sendo, 5 propriedades com ordenha manual e 5 propriedades com ordenha mecânica, nos períodos de chuva e seca e em vários pontos durante a obtenção do leite cru refrigerado e também do leite com intervalo de 24 horas até a captação deste leite pelo caminhão. As médias das populações dos microrganismos mesófilos na ordenha manual, foi diferente estatisticamente significativo no leite recém ordenhado (1,52×106 UFC.mL-1) para o leite com 24 horas de armazenamento (2,67×107 UFC.mL-1) no período chuvoso, e na ordenha mecânica, o encontrado foi uma diferença estatisticamente significativa no leite recém ordenhado (3,87×106 UFC.mL-1) para o leite com 24 horas de armazenamento (9,82×108 UFC.mL-1) também no período chuvoso. Nas populações dos microrganismos psicrotróficos, suas médias diferiram estatisticamente na ordenha manual no período da chuva no leite recém ordenhado (1,48×104 UFC.mL-1) para o leite com 48 horas de armazenamento (1,49×105 UFC.mL-1) e na ordenha mecânica, o leite recém ordenhado (8,74×103 UFC.mL-1), com 24 horas de armazenamento (4,33×104 UFC.mL-1) não diferiram entre si e foram diferentes estatisticamente do leite com 48 horas de armazenamento (3,46×105 UFC.mL-1) apresentaram valor elevado, principalmente quando o leite cru refrigerado permanece por longos períodos de armazenamento na propriedade rural, que pode ser um sério fator de comprometimento pela produção de lipases ou proteases principalmente pelas Pseudomonas spp. onde em todos os pontos amostrados foram isolados este microrganismo produzindo enzimas (lipase e/ou protease). A maior porcentagem de atividade lipolítica foi verificada no período seco, já a maior porcentagem de atividade proteolítica foi verificada no período chuvoso. Contudo, deve-se intensificar as medidas de autocontrole para minimizar os efeitos dos microrganismos mesófilos e psicrotróficos sobre a qualidade do leite cru refrigerado e, consequentemente, de seus derivados.

Estudos visando à síntese de sesquiterpenos bacanos

Nesta tese, efetuamos estudos visando à síntese de sesquiterpenos bacanos, cuja etapa chave consistiu na construção do sistema cis-hidrindânico, através de reação de contração de anel de cis-octalinas e 2-octalonas mediada por trinitrato de tálio (TTN). Apenas as cis-octalinas como, por exemplo, o cis-4a-metil-l,2,3,4,4a,5,8,8a-octahidronaftaleno e o cis-4a, 7-dimetil-l,2,3,4,4a,5,8,8a-octa-hidronaftaleno, foram passíveis de reação de contração de anel em rendimentos satisfatórios; já a cis-5,10-dimetil-l(9)-octal-2-ona levou ao produto de contração em baixo rendimento. Tentamos utilizar a reação de cis-4a-metil-l,2,3,4,4a,5,8,8a-octa-hidronaftaleno com TTN na síntese da nor-baquenolida-A, porém não conseguimos completar a síntese desta, pois não foi possível efetuar a última etapa sintética, nas várias abordagens testadas. Grandes esforços também foram empregados na preparação diastereosseletiva da cis-5,10-dimetil-l(9)-octal-2-ona através de três abordagens diferentes que foram investigadas, sendo duas delas com êxito. Contudo, o baixo rendimento (38%) da etapa de contração de anel da cis-5,10-dimetil-l(9)-octal-2-ona não permitiu a continuação da rota sintética proposta para a baquenolida-A. Também realizamos a resolução cinética de três diferentes cis-octalóis que foram preparados através da reação de Diels-Alder seguida de redução diastereosseletiva - com a lipase Novozym 435, e os produtos resolvidos foram obtidos em excelentes rendimentos isolados (≥ 40% para cada enantiômero) e excelentes excessos enantioméricos (≥ 98%).

Biotransformações na obtenção de hidróxi-selenetos e hidróxi-teluretos quirais

Neste trabalho foi estudado o comportamento de hidróxi-calcogenetos (Se e Te) frente a biotransformações, empregando enzimas isoladas em meio orgânico ou aquoso e empregando microorganismos (fungos). Estudos comparativos sobre a influência de diversas variáveis, como solvente, temperatura, imobilização enzimática e estrutura do hidróxi-calcogeneto, foram realizados. Inicialmente os compostos foram sintetizados utilizando métodos descritos na literatura, em seguida foi estudada a resolução de hidróxiselenetos em meio orgânico empregando lipases isoladas (Esquema 1), (ver arquivo), incluindo um estudo de imobilização da PSL em diversos suportes, além do estudo da influência da variação do solvente, da temperatura, da lipase, etc. Na resolução em meio aquoso empregando enzimas isoladas, primeiramente os hidróxi-selenetos foram acetilados quimicamente e depois realizado uma triagem (com dez enzimas de diferentes fontes) empregando indicador de pH colori métrico. Posteriormente os acetatos dos hidróxi-selenetos (Esquema 2) (ver arquivo) foram submetidos à resolução enzimática em meio aquoso empregando as enzimas que foram selecionadas na triagem enzimática. As biotransformações utilizando fungos foram realizadas empregando células inteiras de algumas linhagens de Aspergillus terreus. Na seqüência foi realizada a resolução de hidróxi-teluretos em meio orgânico utilizando lipases isoladas (Esquema 3)(ver arquivo). Nessas resoluções também foi estudada a influência da variação do solvente, da lipase, do tempo, etc. De forma a demonstrar a importância dos compostos resolvidos, um hidróxi-seleneto quiral e dois hidróxi-teluretos quirais foram usados para preparar compostos pertencentes a classes de unidades estruturais de vasta ocorrência em produtos naturais: um álcool alílico e duas lactonas (Esquema 4)(ver arquivo).

Chiral gold(I) vs chiral silver complexes as catalysts for the enantioselective synthesis of the second generation GSK-hepatitis C virus inhibitor

The synthesis of a GSK 2nd generation inhibitor of the hepatitis C virus, by enantioselective 1,3-dipolar cycloaddition between a leucine derived iminoester and tert-butyl acrylate, was studied. The comparison between silver(I) and gold(I) catalysts in this reaction was established by working with chiral phosphoramidites or with chiral BINAP. The best reaction conditions were used for the total synthesis of the hepatitis C virus inhibitor by a four step procedure affording this product in 99% ee and in 63% overall yield. The origin of the enantioselectivity of the chiral gold(I) catalyst was justified according to DFT calculations, the stabilizing coulombic interaction between the nitrogen atom of the thiazole moiety and one of the gold atoms being crucial.

Curtin-Hammett versus non-Curtin-Hammett frameworks is optimizing the enantioselective binolam/titanium(IV)-catalyzed cyanobenzoylation of aldehydes: Part 2

Extensive experimental and computational studies have been carried out on the enantioselective titanium(IV)-catalyzed cyanobenzoylation of aldehydes using 1:n Binolam:Ti(OiPr)4 mixtures as precatalysts, with the purpose of identifying the key mechanistic aspects governing enantioselectivity. HCN and isopropyl benzoate were detected in the reacting mixtures. This, as well as the reaction’s response to the presence of an exogenous base, and the failure to react in the presence of Binol:Ti(OiPr)4 mixtures, led us to propose not a direct cyanobenzoylation but an indirect process involving enantioselective hydrocyanation followed by O-benzoylation. Computational work provided positive evidence for the intervention of both indirect and direct cyanobenzoylation routes, the former being faster. However, the standard Curtin–Hammett-based optimization search ended with unsatisfactory results. Experimental and computational DFT studies (B3LYP/6-31G*) led us to conclude that: (1) the overall cyanobenzoylation of aldehydes catalyzed by 1:n Binolam:Ti(OiPr)4 mixtures involves an enantioselective hydrocyanation followed by an stereochemically inert O-benzoylation; (2) the initial complexes prevailing in a 1:1 Binolam:Ti(OiPr)4 mixture are the solvated mononuclear monomer 5·2(iPrOH) and solvated dinuclear dimer 9·2(iPrOH), whereas 9·2(iPrOH) is the major component in a 1:2 or higher 1:n mixture; (3) since the slowest step is that of benzoylation of ligated iPrOH which yields the actual catalysts 5–9, the catalytic system fits into a non-Curtin–Hammett framework, the final products deriving from a kinetic quench of the competing routes; and (4) accordingly, catalysis by 1:1 Binolam:Ti(OiPr)4 mixtures should involve cyanobenzoylations promoted by mononuclear 5, contaminated with those promoted by some dinuclear open dimer 9, whereas cyanobenzoylations catalyzed by a 1:2 and higher 1:n mixtures should be the result of catalysis promoted by the large amounts of dinuclear open dimer 9.

Binap-gold (I) versus Binap-silver trifluoroacetate complexes as catalysts in 1,3-dipolar cycloadditions of axomethine ylides

The 1,3-dipolar cycloaddition between azomethine ylides and alkenes is efficiently catalysed by [{(Sa)-Binap-Au(tfa)}2] (Binap=2,2′-bis(diphenylphosphino)-1,1′-binaphthyl; tfa=trifluoroacetyl). Maleimides, 1,2-bis(phenylsulfonyl)ethylene, chalcone and nitrostyrene were suitable dipolarophiles even when using sterically hindered 1,3-dipole precursors. The results obtained in these transformations improve the analogous ones obtained in the same reactions catalysed by [Binap–Ag(tfa)]. In addition, computational studies have also been carried out to demonstrate both the high enantioselectivity exhibited by the chiral gold(I) complex, and the non-linear effect observed in this transformation.

Enantioselective alkylation of β-keto esters promoted by dimeric Cinchona-derived ammonium salts as recoverable organocatalysts

Dimeric anthracenyldimethyl-derived Cinchona ammonium salts are used as chiral organocatalysts in 5 mol% for the phase-transfer enantioselective alkylation reaction of 2-alkoxycarbonyl-1-indanones with activated bromides. The corresponding adducts bearing a new all-carbon quaternary center are obtained usually in high yield and with moderate and opposite enantioselectivity (up to 55%) when using ammonium salts derived from quinidine and its pseudoenantiomer quinine as organocatalysts. These catalysts can be almost quantitatively recovered by precipitation in ether and reused.