El inflamasoma: mecanismos de activación / Inflammasome: activation mechanisms

La inflamación es una respuesta biológica rápida del sistema inmune en tejidos vasculares, dirigida a eliminar estímulos capaces de producir daño y a iniciar la curación y la reparación. Los complejos macromoleculares denominados inflamasomas están constituidos por un receptor NOD (NLR), un receptor de AIM2 (ausente en melanoma 2) el ALR, la proteína tipo punto asociada a apoptosis (ASC) y la procaspasa-1, los cuales pueden ser activados por variación en la concentración iónica y de ATP intracelular y extracelular, por desestabilización del fagolisosoma, por internalización de cristales insolubles y por mecanismos de oxidoreducción, lo cual permitirá la activación de la plataforma molecular y el consiguiente procesamiento de las prointerleuquinas inflamatorias a sus formas activas. En la actualidad existen dos nodos de señalización utilizados por los inflamasomas: canónica y no canónica para generar respuestas efectoras. Datos recientes vinculan al inflamasoma NLRP3, la IL-1b y a la IL-18, en el desarrollo y evolución de enfermedades tales como: ateroesclerosis, diabetes tipo II, hiperhomocisteinemia, gota, malaria e hipertensión arterial e identificaron esta cascada, como un blanco quimioterapéutico ideal para la prevención de estas patologías. En esta revisión se discutirán los mecanismos de activación y regulación del inflamasoma que estimulan, modulan y resuelven los procesos inflamatorios.

Inflammation is a rapid biologic response of the immune system in vascular tissues, directed to eliminate stimuli capable of causing damage and begin the process of repair. The macromolecular complexes known as “inflammasomes” are formed by a receptor, either NOD (NLR) or ALR, the receptor absent in melanoma 2 (AIM2). In addition, the inflammasome is formed by the speck-like protein associated to apoptosis (ASC) and procaspase-1, that may be activated by variations in the ionic and intracellular and extracellular ATP concentrations; and the loss of stabilization of the fagolisosomme by internalization of insoluble crystals and redox mechanisms. As a result, there is activation of the molecular platform and the processing of inflammatory prointerleukins to their active forms. There are two modalities of activation of the inflammasome: canonical and non-canonical, both capable of generating effector responses. Recent data associate NLRP 3, IL-1b and IL-18 in the pathogenesis of a variety of diseases, including atherosclerosis, type II diabetes, hyperhomocysteinemia, gout, malaria and hypertension. The inflammasome cascade is emerging as a new chemotherapeutic target in these diseases. In this review we shall discuss the mechanisms of activation and regulation of the inflammasome that stimulate, modulate and resolve inflammation.

Papel de los receptores tipo toll (TLRs) y receptores para dominios de oligomerización para la unión a nucleótidos (NLRs) en las infecciones virales / Role of toll-like receptors (TLRs) and nucleotide-binding oligomerization domain receptors (NLRs) in viral infections

Las células del sistema inmunitario (SI) son capaces de reconocer una gran variedad de microorganismos, a través de los receptores que se encuentran expresados y distribuidos a lo largo de su arquitectura celular. La interacción entre los patrones moleculares asociados a microorganismos o a daño (PMAM o PMAD) y los receptores reconocedores de patrones (RRP) presentes en las células del hospedero es un evento crítico que implica procesos intracelulares de señalización que finalizan en la expresión de mediadores tanto proinflamatorios como antivirales. Por consiguiente, de la integridad de estos receptores dependerá el buen funcionamiento de los distintos mecanismos de transducción de señal desde las membranas celulares al citoplasma y por ende, de la respuesta que el SI desencadene contra los patógenos entre ellos los agentes virales. De allí que, en esta revisión se discutirá el papel de los receptores tipo toll (TLRs) y receptores para dominios de oligomerización para la unión a nucleótidos (NLRs) en las infecciones virales, tomando como evidencia los estudios en humanos y ratones que a la fecha se conocen.

The immune system (IS) cells are capable of recognizing a wide variety of microorganisms, through receptors that are expressed and distributed throughout the cell architecture. The interaction between the pathogen-associated molecular patterns or damage-associated molecular patterns (PAMPs or DAMPs) and pattern recognition receptors (PRR), present in host cells, is a critical event that involves intracellular signaling processes that end up in the expression of both, proinflammatory and antiviral mediators. Accordingly, the proper functioning of the different mechanisms of signal transduction from the cell membrane to the cytoplasm will depend on the integrity of these receptors (PRR); and therefore, the IS response triggered against pathogens including viral agents. Hence, in this review we discuss the role of toll-like receptors (TLRs) and nucleotide-binding oligomerization domain receptors (NLRs) in viral infections, using as evidence the studies in humans and mice known to date.

Measurement of apelin in patients with lone AF

Atrial fibrillation is one of the most common arrhythmias and it is a risk factor for stroke, heart failure, morbidity and mortality. Apelin is a protein with multiple effects on cardiovascular system such as, endothelium-dependent vasodilation, positive inotropy, declining ventricular preload and afterload and increases cardiac contractility. Plasma level of apelin which is a good guiding for evaluation of the severity and treatment of heart failure can be a good prognostic factor in lone AF. In this case-control study, 26 patients with lone AF without any other important disease and 27, age and gender matched controls from 30 to 70 years old were evaluated. Measurement of apelin in serum was performed by ELISA method. There were 26 patients aged 30 to 70 years from both genders and 27 controls. The level of apelin in patients group under 60 years old was 1.88+1.07 ng/ml and in controls group was 1.29+ 0.50 ng/ml and for older than 60 years old, 1.007+ 0.56 ng/ml and 1.41+ 0.93 ng/ml, respectively. Data of this study showed no reduction of apelin in lone AF group under 60 years old, but there is significant reduction in patients older than 60 years old. There is no relationship between sex and apelin level

Niemann-Pick type C1 protein influences the delivery of cholesterol to the SREBP: SCAP complex

The proposed role of Niemann-Pick type C1 protein (NPC1) in the delivery of low-density lipoprotein (LDL) cholesterol to the sterol regulatory element binding protein (SREBP):SREBP cleavage activation protein (SCAP) complex in the endoplasmic reticulum has been largely based on indirect studies and remains contentious. The major aim of the present study was to assess whether NPC1 is involved in the delivery of LDL cholesterol to the SREBP:SCAP complex. A cell line stably expressing green fluorescence protein-SCAP was cultured in the presence of U18666A, which can induce a Niemann-Pick type C disease phenotype, in order to locate the SREBP:SCAP complex by fluorescence microscopy. Our major finding was that defective NPC1 caused a delay in the ability of LDL cholesterol to suppress SREBP processing. This was shown in a time-course experiment by the effect of LDL on green fluorescence protein-SCAP movement when cells were treated with pharmacological agents to induce a Niemann-Pick type C disease phenotype. We demonstrated directly by fluorescence microscopy that defective NPC1 causes a delay in LDL cholesterol delivery to the endoplasmic reticulum where SCAP senses cholesterol.

Effect of the human follicle-stimulating hormone-binding inhibitor and its N-terminal fragment on follicle-stimulating hormone-induced progesterone secretion by granulosa cells in vitro.

Intrafollicular factors play an important role in folliculogenesis. The follicle-stimulating hormone (FSH)-binding inhibitor (FSHBI), purified by our laboratory from human ovarian follicular fluid, has been shown to suppress ovulation and induce follicular atresia/apoptosis in mice as well as impair fertility in marmosets, the New World monkeys. The octapeptide, a peptide corresponding to the N-terminal region of human FSHBI (hFSHBI), has been synthesized and also shows FSHBI activity in vitro. In the present study, we have attempted to identify the mechanism of action of the peptide in granulosa cell cultures. Rat granulosa cell cultures were treated with varying concentrations of the octapeptide or partially purified hFSHBI (gel chromatography fraction hGF 2) in the presence or absence of human FSH (hFSH) and the amount of progesterone (P;4) secreted in the culture supernatants after 3 h/48 h was estimated. Both hGF2 and the octapeptide failed to alter basal levels as well as 8-bromo cAMP-induced P;4 production, while FSH-induced P 4 secretion was inhibited in a dose-dependent manner. These studies reveal that the octapeptide, a fragment of FSHBI, and the native protein have similar activity in vitro and both compounds alter FSH action at the receptor level upstream of cAMP formation.

Receptors for Treponema pallidum Attachment to the Surface and Matrix Proteins of Cultured Human Dermal Microvascular Endothelial Cells

Pathogenicity of Treponema pallidum may depend upon the binding of Treponema pallidum to matrix proteins, especially to fibronectin. Infectious organism or cell to matrix interactions are mediated by a family of adhesion molecule receptors known as integrins. Once in the host, the pathogenic Treponema pallidumdum adheres to the vascular endothelium and readily penetrates surrounding tissues. Fibronectin plays an important role in the mediation of the attachment of Treponema pallidum to host cells, including endothelial cells. We found that the binding of Treponema pallidum to human dermal microvascular endothelial cells and to a glass surface coated with fibronectin is inhibited by the presence of arginine-glycine- aspartic acid (RGD), and analysis of the surface receptor revealed an antigenic similarity to an integrin molecule, namely alpha5. This ability to adhere to host endothelium and fibronectin is quite unique to T. pallidum among the treponemes, and may be a key pathogenic factor.

The Comparison of Cytotoxic T-Lymphocyte Effects of Dendritic Cells Stimulated by the Folate Binding Protein Peptide Cultured with IL-15 and IL-2 in Solid Tumor

The current modalities for treating cancer employ not only single but multiple approaches involving surgery, radiotherapy and chemotherapy. Unfortunately, the survival outcome is not promising even with these approaches. Alternative approaches for cancer therapy are now emerging. Immunotherapy is aiming at both increasing the power, and in redirecting the specificity of the patients' immune system to attack the tumor cells. Recently, many studies using tumor associated lymphocytes (TAL) isolated from malignant ascites cultured in a media containing interleukin-2 exhibit antitumor responses. IL-2 is a lymphokine produced by T-cells. It facilitates activation, sustained growth and rescue from apoptosis. Lately, newly developed IL-15 has also exhibited antitumor activity similar to IL-2. IL-15 is a newly described cytokine produced from monocytes-marcrophages and T-cells. It has a different molecular structure but it functions like IL-2 by binding to the IL-2R beta and gamma c chain. These antitumor responses are mediated by the cytotoxic T lymphocytes (CTL) that recognize the antigen in the context of the MHC molecules using the T cell receptors. CD8+-CTL recognize the peptide epitopes that are processed from the cellular proteins in the context of the MHC class I molecules. These peptides have a restricted length of 8-11 amino acids. The folate binding protein (FBP) is overexpressed in over 90% of ovarian and 20-50% in breast cancers. The FBP is the source of the antigenic peptides that are recognized by a number of these CTL-TAL, and is antigenic to both ovarian and breast cancer in vivo. To define the antitumor response of IL-15 and its' FBP immunogenicity, a peptide defining epitope E39 and E75 were presented by the PMBC derived dendritic cells (DC) from healthy donors isolated by the CD14 method to ovarian and breast CTL-TAL. Stimulating both ovarian and breast CTL- TAL by E39 or E75 pulsed DC (DC-E39, DC-E75), in the presence of IL-15 and IL-2 can rapidly enhance or induce the E39 or E75 specific CTL activity. The antitumor activities were measured by a chromium release assay for the tumor specific lysis activity using the ovarian and breast cancer cell lines. The tumor specific lysis activity for the ovarian TALs for IL-15 vs IL-2 were 28.6+/-3.9% and 30.3+/-3.2%, respectively and in the breast TALs, they were 14.8+/-3.1% vs 13.5+/-2.9%, respectively. Using autologous tumor cells, a slightly higher tumor specific lysis activity was obtained for the ovarian TALs cultured in IL-15 compared to IL-2 (72.0+/-8.2% vs 68.5+/-3.6%). However, for the breast TALs, they were 39.5+/-4.2% vs 41.5+/-3.3%, respectively. IL-15 is a newly developed cytokine that shows promising antitumor activity similar to IL-2. However, it requires lower dosage and is less toxic. Therefore, IL-15 might be a potential anticancer immunotherapeutic agent.

Monitoreo de la respuesta inflamatoria / Monitoring inflammatory answer

The ill patients present frequently a systemic inflammatory response; showing problems in differing if there is an aggregated infection; it means sepsis. The objective of this article is to revise the literature about parameter evaluation which are used for monitoring the inflammatory response and its capacity to predict sepsis. Mainly, European studies show comparisons between different markers as leucocytes count, C reactive protein (CRP), procalcitonin (PCT), a new parameter described in 1993 and the interleukins. These studies reveal that the determination of cytokines and other acute phase proteins are laborious, and they do not differ if there is infection. In contrast, CPR an specially PCT show in different studies to have a sensibility and specificity over 80 percent, being similar for both. In relation with corporal temperature, leucocyte count and erythrocyte sedimentation rate do not show utility. Therefore, actually the best inflammatory markers are CRP and the PCT. In my opinion I consider the first one (CRP) not replace in our environment for the monitoring of the inflammatory response

Hormônios tireóideos, UCPs e termogênese / Thyroid hormones, UCPs and termogenesis

Calor é um subproduto da transformação de energia, em suas diversas formas, durante a síntese e a utilização do ATP. Nos animais homeotérmicos, o calor derivado das funções biológicas - estando o organismo em repouso e à temperatura ambiente - é utilizado para manter o organismo próximo a 37ºC. Essa termogênese obrigatória está associada à ineficiência termodinâmica intrínseca mitocondrial, derivada da presença de proteínas desacopladoras (UCPs, uncoupling proteins). Durante a exposição ao frio, o organismo é capaz de gerar mais calor através da termogênese facultativa, por processos que também envolvem UCPs. Os hormônios tireóideos influenciam diretamente a expressão da UCP-1 e, indiretamente, a expressão das UCP-2 e UCP-3. Além disso, também aceleram o turnover de várias reações ou vias metabólicas cíclicas que levam a maior gasto de ATP e produção de calor.

Expression of leptin receptor (Ob-R) in human atherosclerotic lesions: potential role in intimal neovascularization

Neovascularization of the adventitial vasa vasorum with extension into the intima of atherosclerotic lesions is frequently observed, but its pathophysiological significance is still subject to debate. Recently, leptin, the product of the Ob gene, was identified. Leptin, via activation of the endothelial receptor (Ob-R), generates a growth signal involving a tyrosine kinase-dependent intracellular pathway and promotes angiogenic processes. We hypothesized that a high concentration of leptin within vasa vasorum and plaque itself, may influence inflammatory and vascular neovascularization coupling with functional upregulation of the vascular endothelial growth factor (VEGF). Microscopic computerized tomography was utilized for the spatial distribution of vasa vasorum and intimal neovascularization from atherosclerotic human coronary arteries. Atherosclerotic coronary arteries showed a dense plexus of microvessels in the adventitia and plaque itself. Microscopic analysis from human atherosclerotic aortas revealed an increase in the intimal thickness with neovascularization. The immunoreactivity for Ob-R, VEGF and matrix metalloproteinase (MMP) increased in atherosclerotic plaque, predominantly in the endothelial lining of the intimal neovessel and macrophages/foam cells. Our observation of a prominent colocalization between Ob-R, VEGF and MMP supports this hypothesis and these factors participate in the neovascularization of atherosclerotic lesions. The present study is the first report on vascular tissue and it opens a promising perspective concerning future investigations of leptin-dependent modulation of atherogenesis and vascular neovascularization under pathophysiolgical conditions.

Leptina: una hormona del tejido adiposo / Leptin: an hormone from the adipose tissue

Se revisa la fisiología de la leptina, hormona que interviene en la regulación de la ingesta de alimentos y del balance energético. Se describe su patrón secretorio durante la vida intrauterina, la infancia y adolescencia. Se analizan las alteraciones que presenta esta hormona en algunas enfermedades como la obesidad exógena y la anorexia nervosa. Se detallan algunas perspectivas futuras para esta hormona

Role of fatty acid binding protein in the modulation of inhibitory effect of fatty acids on fatty acid synthase and ATP-citrate lyase in developing human brain.

Inhibition of the activities of fatty acid synthase and ATP-citrate lyase (ATP-CL) by fatty acids and their CoA esters has been studied. Purified fatty acid binding protein from human fetal brain reverses this inhibition. This protein also activates the enzyme when added alone. ATP-citrate lyase and fatty acid synthase activity gradually increased with the advancement of gestation showing a relationship between high demand of fatty acid synthesis in developing brain and supply of its precursors.

Importância do fator de crescimento epidérmico (EGF) e seu receptor (EGF-R) no tecido endometrial / Epidermal growth factor (EGF) and its receptor (EGF-R) importance in the endometrial tissue

Os autores fazem uma revisäo sobre a influência que o EGF e seu receptor (EGF-R) exercem no tecido endometrial, enfocando sua possível regulaçäo pelos esteróides e seus receptores e sua importância nos processos de transformaçäo secretora e de decidualizaçäo.

Pivotal role of leptin in insulin effects

The OB protein, also known as leptin, is secreted by adipose tissue, circulates in the blood, probably bound to a family of binding proteins, and acts on central neural networks regulating ingestive behavior and energy balance. The two forms of leptin receptors (long and short forms) have been identified in various peripheral tissues, a fact that makes them possible target sites for a direct action of leptin. It has been shown that the OB protein interferes with insulin secretion from pancreatic islets, reduces insulin-stimulated glucose transport in adipocytes, and increases glucose transport, glycogen synthesis and fatty acid oxidation in skeletal muscle. Under normoglycemic and normoinsulinemic conditions, leptin seems to shift the flux of metabolites from adipose tissue to skeletal muscle. This may function as a peripheral mechanism that helps control body weight and prevents obesity. Data that substantiate this hypothesis are presented in this review

Calcium- and zinc-binding proteins in intracellular transport

The complex mechanism of intracellular transport is regulated by free calcium in different manners. Calcium binding proteins regulate several aspects of the vesicle fusion mechanism mediated by NSF (N-ethylmaleimide sensitive fusion factor). At least in some regulated exocytosis, calcium-binding proteins are the trigger for fusion downstream of NSF, Still, calcium-binding proteins, such as annexins, may be part of a different fusion mechanism mediating some specific transport steps or working in parallel to the NSF-dependent fusion process. Calcium is not the only ion necessary for the function of factors involved in vesicular transport. A zinc requirement has been also proposed. One of the zinc-dependent factors is probably a protein with a cysteine-rich region that coordinates zinc and binds phorbol esters. Although protein kinase C is the more prominent family of proteins carrying this domain, the factor necessary for transport does not appear to function as a kinase.

Inhibition of two HMP shunt pathway enzymes by fatty acids and their CoA esters in developing human brain: role of fatty acid binding protein.

Inhibitory effects of fatty acids and their CoA esters on glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase activities of human fetal brain cytosol have been studied. Purified human fetal brain fatty acid binding protein reverses the inhibitory effects of palmitoyl-CoA and oleic acid on glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase activities in human fetal brain cytosol. This protein, when added alone, activates the enzymes. Levels of fatty acid binding proteins as well as the activities of these two HMP shunt pathway enzymes, which provide cofactors like NADPH for reductive biosynthesis, increase with gestation. These results indicate that a relationship exists between the high demand for fatty acids and synthesis of cofactors for lipid biosynthesis in developing brain.