ACE as a Mechanosensor to Shear Stress Influences the Control of Its Own Regulation via Phosphorylation of Cytoplasmic Ser1270

Objectives: We tested whether angiotensin converting enzyme (ACE) and phosphorylation of Ser(1270) are involved in shear-stress (SS)-induced downregulation of the enzyme. Methods and Results: Western blotting analysis showed that SS (18 h, 15 dyn/cm(2)) decreases ACE expression and phosphorylation as well as p-JNK inhibition in human primary endothelial cells (EC). CHO cells expressing wild-type ACE (wt-ACE) also displayed SS-induced decrease in ACE and p-JNK. Moreover, SS decreased ACE promoter activity in wt-ACE, but had no effect in wild type CHO or CHO expressing ACE without either the extra-or the intracellular domains, and decreased less in CHO expressing a mutated ACE at Ser(1270) compared to wt-ACE (13 vs. 40%, respectively). The JNK inhibitor (SP600125, 18 h), in absence of SS, also decreased ACE promoter activity in wt-ACE. Finally, SS-induced inhibition of ACE expression and phosphorylation in EC was counteracted by simultaneous exposure to an ACE inhibitor. Conclusions: ACE displays a key role on its own downregulation in response to SS. This response requires both the extra- and the intracellular domains and ACE Ser(1270), consistent with the idea that the extracellular domain behaves as a mechanosensor while the cytoplasmic domain elicits the downstream intracellular signaling by phosphorylation on Ser(1270).Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP)[01/00009-0]Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP)[03/14115-2]Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP)[06/52053-7]Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq)[480120/2007-2

A quantitative chemiluminescent method for studying replicative and stress-induced premature senescence in cell cultures

beta-Galactosidase (beta-Gal) activity is a widely accepted biomarker to detect senescence both in situ and in vitro. A cytochemical assay based on production of a blue-dyed precipitate that results from the cleavage of the chromogenic substrate X-Gal is commonly used. Blue and nonblue cells are counted under the microscope and a semiquantitative percentage of senescent cells can be obtained. Here, we present a quantitative, fast, and easy to use chemiluminescent assay to detect senescence. The Galacton chemiluminescent method used to detect the prokaryotic beta-Gal reporter enzyme in transfection studies was adapted to assay mammalian beta-Gal. The assay showed linear production of luminescence in a time- and cell-number-dependent manner. The chemiluminescent assay showed significant correlation with the cytochemical assay in detecting replicative senescence (Pearson r = 0.8486, p < 0.005). Moreover, the chemiluminescent method (Galacton) also detected stress-induced senescence in cells treated with H2O2 similar to the cytochemical assay (X-Gal) (Galacton: control 25.207.3 +/- 6548.6. H2O, 52,487.4 +/- 16,284.9, p < 0.05; X-Gal: control 41.31 +/- 7.0%, H2O2 92.97 +/- 2.8%, p < 0.01). Thus, our method is well suited to the detection of replicative and stress-induced senescence in cell culture. (C) 2007 Elsevier Inc. All rights reserved

Interaction of a non-peptide agonist with angiotensin II AT(1) receptor mutants

To identify residues of the rat AT(1A) angiotensin II receptor involved with signal transduction and binding of the non-peptide agonist L-162,313 (5,7-dimethyl-2-ethyl-3-[[4-[2(n-butyloxycarbonylsulfonamido)-5-isobutyl-3-thienyl]phenyl]methyl]imidazol[4,5,6]-pyridine) we have performed ligand binding and inositol phosphate turnover assays in COS-7 cells transiently transfected with the wild-type and mutant forms of the receptor. Mutant receptors bore modifications in the extracellular region: T88H, Y92H, G196I, G196W, and D278E. Compound L-162,313 displaced [I-125]-Sar(1),Leu(8)-AngII from the mutants G196I and G196W with IC50 values similar to that of the wild-type. the affinity was, however, slightly affected by the D278E mutation and more significantly by the T88H and Y92H mutations. in inositol phosphate turnover assays, the ability of L-162,313 to trigger the activation cascade was compared with that of angiotensin II. These assays showed that the G196W mutant reached a relative maximum activation exceeding that of the wild-type receptor; the efficacy was slightly reduced in the G196I mutant and further reduced in the T88H, Y92H, and D278E mutants. Our data suggest that residues of the extracellular domain of the AT(1) receptor are involved in the binding of the non-peptide ligand, or in a general receptor activation phenomenon that involves conformational modifications for a preferential binding of agonists or antagonists.Universidade Federal de São Paulo, Escola Paulista Med, Dept Biophys, BR-04023062 São Paulo, BrazilUniv Copenhagen, Panum Inst, Mol Pharmacol Lab, DK-2200 Copenhagen, DenmarkUniversidade Federal de São Paulo, Escola Paulista Med, Dept Biophys, BR-04023062 São Paulo, BrazilWeb of Scienc

Three-dimensional imaging of mitochondrial cristae complexity using cryo-soft X-ray tomography.

Mitochondria are dynamic organelles that change morphology to adapt to cellular energetic demands under both physiological and stress conditions. Cardiomyopathies and neuronal disorders are associated with structure-related dysfunction in mitochondria, but three-dimensional characterizations of the organelles are still lacking. In this study, we combined high-resolution imaging and 3D electron density information provided by cryo-soft X-ray tomography to characterize mitochondria cristae morphology isolated from murine. Using the linear attenuation coefficient, the mitochondria were identified (0.247 ± 0.04&nbsp;µm-1) presenting average dimensions of 0.90 ± 0.20&nbsp;µm in length and 0.63 ± 0.12&nbsp;µm in width. The internal mitochondria structure was successfully identified by reaching up the limit of spatial resolution of 35&nbsp;nm. The internal mitochondrial membranes invagination (cristae) complexity was calculated by the mitochondrial complexity index (MCI) providing quantitative and morphological information of mitochondria larger than 0.90&nbsp;mm in length. The segmentation to visualize the cristae invaginations into the mitochondrial matrix was possible in mitochondria with MCI ≥ 7. Altogether, we demonstrated that the MCI is a valuable quantitative morphological parameter to evaluate cristae modelling and can be applied to compare healthy and disease state associated to mitochondria morphology

Ação inibitória da Interleucina - 1ß sobre a proliferação de células musculares lisas cultivadas a partir de veias safenas humanas

INTRODUÇÃO: A veia safena é um enxerto coronário eficiente. Porém, sua patência pode ser limitada por desenvolvimento de aterosclerose. Estudos experimentais "ex vivo", por nós realizados anteriormente, demonstraram apoptose (ensaio de TUNEL) em veias safenas humanas cultivadas sob pressão arterial por 24 horas. Nessas veias safenas, a expressão gênica da Interleucina-1ß avaliada por RT-PCR em tempo real, também mostrou-se elevada. Não há ainda consenso sobre a ação moduladora das citocinas sobre proliferação/apoptose das células musculares lisas das veias safenas. OBJETIVO: Avaliar a influência da Interleucina -1ß na proliferação inicial de cultura de células primárias de músculo liso de veia safena humana. MÉTODO: Foram cultivadas células primárias de músculo liso de seis diferentes veias safenas humanas (em triplicata). O meio de cultura foi o DMEM, suplementado com 10% de soro fetal bovino. O grupo controle não recebeu Interleucina - 1ß. Nos demais grupos, as células cultivadas receberam, respectivamente, 0,1; 1; 10 e 100 ng/mL de Interleucina - 1ß. A proliferação celular foi avaliada através da quantificação de timidina triciada [³H], incorporada às células recém-proliferadas. RESULTADOS: O tratamento com Interleucina - 1ß diminuiu a proliferação celular, a saber: Grupo controle (sem Interleucina - 1ß): definiu-se esse grupo como apresentando 100&plusmn;4,5% de proliferação celular. Nos demais grupos, a quantidade de Interleucina - 1ß administrada e a proliferação celular aferida foram, respectivamente, 0,1 ng/mL:112&plusmn;0,7%; 1 ng/mL:83,8&plusmn;4,7%; 10 ng/mL:69,1&plusmn;3,8%; 100 ng/mL:67,3&plusmn;10,9%; (p<0,01). CONCLUSÕES: Estes resultados indicam que a administração de quantidade crescente de Interleucina - 1ß inibe a proliferação de células primárias de músculo liso, cultivadas a partir de veias safenas humanas. Isso sugere que o processo de apoptose, observado já em fase precoce (um dia) de exposição do enxerto venoso a regime pressórico arterial, pode estar relacionado à ação dessa citocina

Alterações estruturais e moleculares (cDNA) precoces em veias safenas humanas cultivadas sob regime pressórico arterial

OBJETIVO: A veia safena (VS) empregada na revascularização do miocárdio (RM) fica submetida a estresse tênsil elevado e contínuo. Sua resposta adaptativa à nova condição hemodinâmica pode predispor à oclusão do enxerto. Este trabalho visou verificar as alterações estruturais precoces e moleculares (cDNA) entre VS humanas submetidas a baixo regime pressórico versus condições hemodinâmicas sistêmicas. MÉTODO: Quarenta segmentos de VS foram cultivados "ex-vivo" sob condição hemodinâmica venosa (CHV) (sem pressão, fluxo:5 ml/min) e sob condição hemodinâmica arterial (CHA) (pressão: 80mmHg, fluxo:50mL/min). Foram analisadas: viabilidade celular (coloração MTT), densidade celular (coloração hoechst 33258) e apoptose (ensaio TUNEL), antes e um, dois e quatro dias após o procedimento. Determinamos alvos moleculares alterados precocemente nas veias cultivadas sob condição arterial, através da análise "cDNA microarray" de segmentos das VS. A busca desses alvos foi realizada através de pool homogeneizado do RNA desses segmentos venosos, interagindo por homologia em lâmina contendo 16000 genes humanos pré-determinados (Agilent Technologies slide). Os genes com expressão alterada foram certificados por PCR em tempo real, em veias de 16 diferentes indivíduos. RESULTADOS: Houve diminuição gradual da densidade celular e da viabilidade tecidual nas VS cultivadas mediante CHA, enquanto nenhuma alteração ocorreu quando a veia foi cultivada até quatro dias na CHV. No grupo sob CHA houve sinais de processo apoptótico celular (TUNEL-positivo) já a partir do 1º dia de cultivo, o que não ocorreu no outro grupo. A densidade celular das veias sob regime arterial, decorridas 24h de cultivo, era similar à das amostras frescas das mesmas, mas inúmeras células já apresentavam indícios de processo apoptótico. Os alvos moleculares mais alterados(de acordo com o PCR em tempo real) e selecionados para pesquisa foram o Oncogene 3 e a Interleucina 1ß. A expressão do Oncogene 3 estava elevada em 11 (68,7%) das veias cultivadas sob regime arterial, enquanto observou-se aumento da expressão da Interleucina 1ß em nove (56,2%) desses segmentos venosos (p<0,05). CONCLUSÃO: O modelo de estudo "ex vivo" permitiu mimetizar os eventos iniciais sofridos "in vivo" pela VS utilizada na RM. No grupo CHA houve perda de viabilidade precoce das células (apoptose) e elevação significativa nas expressões gênicas do Oncogene 3 e da Interleucina 1ß. O seguimento em longo prazo desses pacientes poderá esclarecer o real papel dessas alterações precoces na perviabilidade desses enxertos venosos

06 Dallan EN.p65

Abstract Objective: The saphenous vein (SV) used in coronary artery bypass grafting is submitted to elevated and continuous shear stress. Occlusion of the grafts can occur in response to the new hemodynamic conditions. The aim of this study is to compare the precocious structural and molecular (cDNA) changes in saphenous veins grafts submitted to low pressure hemodynamic conditions versus systemic hemodynamic conditions. Method: Forty sections of SV were cultivated &quot;ex-vivo&quot; under venous hemodynamic conditions (VHC) (without pressure, flow: 5 mL/min) and under arterial hemodynamic conditions (AHC) (pressure: 80 mmHg, flow: 50 mL/min). The following variables were analyzed: cellular viability (MTT assay) cellular density (Hoechst 33258 staining) and apoptosis (TUNEL assay), before the procedure and one, two and four days after the procedure. &quot;cDNA microarray&quot; analysis of the SV sections was used to determine the precociously changed molecular targets in the veins cultivated under arterial conditions. The identification of these targets was achieved using a RNA homogenized pool of these vein sections, interacting on slides with 16,000 pre-determined human genes (Agilent Technologies slide). The genes with changed expressions were verified by real time PCR in the veins of 16 patients. Results: There was a gradual reduction in the cellular density and in the tissue viability in the saphenous veins cultivated under AHC, whereas no alterations were observed in the saphenous veins cultivated under VHC of up to four days. In the AHC group there were signs of a cellular apoptotic process (positive -TUNEL) from the first day after cultivation. In the VHC group these alterations were not observed. Although the cellular density was the same in the veins submitted to arterial conditions, after 24 hours of cultivation, many cells already showed signs of the apoptotic process. The Oncogene 3 and the Interleukin 1ß were the most common sites with alterations identified in this research. The Oncogene 3 expression was elevated in 11 (68.7%) of the veins cultivated under AHC, and the Interleukin 1ß expression was elevated in 9 (56.2%) of these vein sections (p&lt;0.05). Conclusion: The &quot;ex vivo&quot; study model was able to mimic events that occur &quot;in vivo&quot; by SVs utilized in the coronary artery bypass grafting. In the AHC group precocious loss of cellular viability (apoptosis) and significant elevation in the Oncogene 3 and Interleukin 1ß gene expressions were observed. The long-term follow up of these patients is important to determine the real effect of these immediate changes in the patency of the vein grafts. Descriptors: Myocardial revascularization. Saphenous Vein. Gene Expression. Alterações estruturais e moleculares (cDNA) precoces em veias safenas humanas cultivadas sob regime pressórico arterial Precocious structural and molecular (cDNA) changes in the human saphenous veins cultivated under arterial hemodynamic condition

Dual agonistic and antagonistic property of nonpeptide angiotensin AT(1) ligands: Susceptibility to receptor mutations

Two nonpeptide ligands that differ chemically by only a single methyl group but have agonistic (L-162,782) and antagonistic (L-162,389) properties in vivo were characterized on the cloned angiotensin AT(1) receptor. Both compounds bound with high affinity (K-l = 8 and 28 nM, respectively) to the AT(1) receptor expressed transiently in COS-7 cells as determined in radioligand competition assays. L-162,782 acted as a powerful partial agonist, stimulating phosphatidylinositol turnover with a bell-shaped dose-response curve to 64% of the maximal level reached in response to angiotensin II. Surprisingly, L-162,389 also stimulated phosphatidylinositol turnover, albeit only to a small percentage of the angiotensin response. The prototype nonpeptide AT(1) agonist L-162,313 gave a response of similar to 50%. The apparent EC(50) values for all three compounds in stimulating phosphatidylinositol turnover were similar, similar to 30 nM, corresponding to their binding affinity. Each of the three compounds also acted as angiotensin antagonists, yet in this capacity the compounds differed markedly, with IC50 values ranging from 1.05 x 10(-7) M for L-162,389 to 6.5 x 10(-6) for L-162,782. A series of point mutations in the transmembrane segments (TMs) of the AT(1) receptor had only minor effect on the binding affinity of the nonpeptide compounds, with the exception of A104V at the top of TM III, which selectively impaired the binding of L-162,782 and L-162,389. Substitutions in the middle of TM III, VI, or VII, which did not affect the binding affinity of the compounds, impaired or eliminated the agonistic efficacy of the nonpeptides but with only minor or no effect on the angiotensin potency or efficacy. Thus, in the N295D rat AT(1) construct, L-162,782, L-162,313, and L-162,389 all antagonized the angiotensin-induced phosphatidylinositol turnover with surprisingly similar IC50 values (90-180 nM), and they all bound with unaltered, high affinity (22-36 nM). However, L-162,313 and L-162,782 could stimulate phosphatidylinositol turnover to only 20% of that of angiotensin. It is concluded that minor chemical modifications of either the compound or the receptor can dramatically alter the agonistic efficacy of biphenyl imidazole compounds on the AT(1) receptor without affecting their affinity, as determined in binding assays, and that a number of substitutions in the middle of the TM segments affect the efficacy of nonpeptide agonists as opposed to angiotensin.UNIV COPENHAGEN, RIGSHOSP, DEPT CLIN PHARMACOL, MOL PHARMACOL LAB, DK-2100 COPENHAGEN, DENMARKMERCK RES LABS, DEPT EXPLORATORY CHEM, RAHWAY, NJ 07065 USAUNIV FED SAO PAULO, ESCOLA PAULISTA MED, DEPT BIOPHYS, BR-04023062 SAO PAULO, BRAZILUNIV COPENHAGEN, INST MOL BIOL, DEPT PROT CHEM, DK-1353 COPENHAGEN, DENMARKUNIV FED SAO PAULO, ESCOLA PAULISTA MED, DEPT BIOPHYS, BR-04023062 SAO PAULO, BRAZILWeb of Scienc