ABSTRACT
The coupling of a ligand with a molecular receptor induces a signal that travels through the receptor, reaching the internal domain and triggering a response cascade. In previous work on T-cell receptors and their coupling with foreign antigens, we observed the presence of planar molecular patterns able to generate electromagnetic fields within the proteins. These planes showed a coherent (synchronized) behavior, replicating immediately in the intracellular domain that which occurred in the extracellular domain as the ligand was coupled. In the present study, we examined this molecular transduction - the capacity of the coupling signal to penetrate deep inside the receptor molecule and induce a response. We verified the presence of synchronized behavior in diverse receptor ligand systems. To appreciate this diversity, we present four biochemically different systems - TCR-peptide, calcium pump-ADP, haemoglobin-oxygen, and gp120-CD4 viral coupling. The confirmation of synchronized molecular transduction in each of these systems suggests that the proposed mechanism would occur in all biochemical receptor-ligand systems.
A ligação de um ligante com um receptor molecular induz um sinal que viaja através do receptor, chegando ao domínio interno e disparando uma cascata de resposta. Em trabalhos anteriores em receptores de células T e sua ligação com antígenos estranhos, observamos a presença de padrões moleculares planares capazes de gerar campos eletromagnéticos dentro das proteínas. Esses planos mostraram um comportamento coerente (sincronizado), replicando, instantaneamente, no domínio intracelular o que ocorreu no domínio extracelular, enquanto o ligante era acoplado. No presente estudo, examinamos essa transdução a capacidade de um sinal de acoplamento de penetrar profundamente a molécula receptora e induzir uma resposta. Verificamos a presença de um comportamento coerente em sistemas diversos de receptor-ligante. Para apreciar essa diversidade, apresentamos quatro sistemas bioquímicos diferentes: TCR-peptídeo, ADP-bomba de cálcio, hemoglobina-oxigênio e gp120-CD4 acoplamento viral. A confirmação de transdução molecular sincronizada em cada um desses sistemas sugere que o mecanismo proposto ocorreria em todos os sistemas bioquímicos receptor-ligante.
Subject(s)
Peptides , Receptors, Cell Surface/analysis , Signal TransductionABSTRACT
Abstract The coupling of a ligand with a molecular receptor induces a signal that travels through the receptor, reaching the internal domain and triggering a response cascade. In previous work on T-cell receptors and their coupling with foreign antigens, we observed the presence of planar molecular patterns able to generate electromagnetic fields within the proteins. These planes showed a coherent (synchronized) behavior, replicating immediately in the intracellular domain that which occurred in the extracellular domain as the ligand was coupled. In the present study, we examined this molecular transduction - the capacity of the coupling signal to penetrate deep inside the receptor molecule and induce a response. We verified the presence of synchronized behavior in diverse receptor-ligand systems. To appreciate this diversity, we present four biochemically different systems - TCR-peptide, calcium pump-ADP, haemoglobin-oxygen, and gp120-CD4 viral coupling. The confirmation of synchronized molecular transduction in each of these systems suggests that the proposed mechanism would occur in all biochemical receptor-ligand systems.
Resumo A ligação de um ligante com um receptor molecular induz um sinal que viaja através do receptor, chegando ao domínio interno e disparando uma cascata de resposta. Em trabalhos anteriores em receptores de células T e sua ligação com antígenos estranhos, observamos a presença de padrões moleculares planares capazes de gerar campos eletromagnéticos dentro das proteínas. Esses planos mostraram um comportamento coerente (sincronizado), replicando, instantaneamente, no domínio intracelular o que ocorreu no domínio extracelular, enquanto o ligante era acoplado. No presente estudo, examinamos essa transdução a capacidade de um sinal de acoplamento de penetrar profundamente a molécula receptora e induzir uma resposta. Verificamos a presença de um comportamento coerente em sistemas diversos de receptor-ligante. Para apreciar essa diversidade, apresentamos quatro sistemas bioquímicos diferentes: TCR-peptídeo, ADP-bomba de cálcio, hemoglobina-oxigênio e gp120-CD4 acoplamento viral. A confirmação de transdução molecular sincronizada em cada um desses sistemas sugere que o mecanismo proposto ocorreria em todos os sistemas bioquímicos receptor-ligante.
ABSTRACT
The coupling of a ligand with a molecular receptor induces a signal that travels through the receptor, reaching the internal domain and triggering a response cascade. In previous work on T-cell receptors and their coupling with foreign antigens, we observed the presence of planar molecular patterns able to generate electromagnetic fields within the proteins. These planes showed a coherent (synchronized) behavior, replicating immediately in the intracellular domain that which occurred in the extracellular domain as the ligand was coupled. In the present study, we examined this molecular transduction - the capacity of the coupling signal to penetrate deep inside the receptor molecule and induce a response. We verified the presence of synchronized behavior in diverse receptorligand systems. To appreciate this diversity, we present four biochemically different systems - TCR-peptide, calcium pump-ADP, haemoglobin-oxygen, and gp120-CD4 viral coupling. The confirmation of synchronized molecular transduction in each of these systems suggests that the proposed mechanism would occur in all biochemical receptor-ligand systems.
A ligação de um ligante com um receptor molecular induz um sinal que viaja através do receptor, chegando ao domínio interno e disparando uma cascata de resposta. Em trabalhos anteriores em receptores de células T e sua ligação com antígenos estranhos, observamos a presença de padrões moleculares planares capazes de gerar campos eletromagnéticos dentro das proteínas. Esses planos mostraram um comportamento coerente (sincronizado), replicando, instantaneamente, no domínio intracelular o que ocorreu no domínio extracelular, enquanto o ligante era acoplado. No presente estudo, examinamos essa transdução a capacidade de um sinal de acoplamento de penetrar profundamente a molécula receptora e induzir uma resposta. Verificamos a presença de um comportamento coerente em sistemas diversos de receptor-ligante. Para apreciar essa diversidade, apresentamos quatro sistemas bioquímicos diferentes: TCR-peptídeo, ADP-bomba de cálcio, hemoglobina-oxigênio e gp120-CD4 acoplamento viral. A confirmação de transdução molecular sincronizada em cada um desses sistemas sugere que o mecanismo proposto ocorreria em todos os sistemas bioquímicos receptor-ligante.
Subject(s)
Signal Transduction , Electromagnetic Fields , Receptors, Antigen, T-Cell/genetics , LigandsABSTRACT
Acute spinal cord injury(ASCI),commonly seen in spinal surgery,is usually caused by mechanical injury to the spine. ASCI can lead to secondary lung injury and even acute respiratory distress syndrome(ARDS),seriously endangering the life safety of patients. Damage-associated molecular pattern(DAMP)is a sort of endogenous substances released after injury,including intracellular proteins,extracellular matrix,secretory factors and nucleic acid-related products. DAMP released after ASCI activates downstream signaling pathways and participates in lung injuries. DAMP-related studies have revealed molecular mechanism of lung injury after ASCI,and explored the possible therapeutic targets of lung injury. In this study,the authors review the mechanism of action of DAMP in lung injury after ASCI and the role of different kinds of DAMP in lung injury,so as to provide new ideas for clinical treatment of lung injury after ASCI.
ABSTRACT
Inflammation mediated by the damage-associated molecular patterns (DAMPs) moleculesdominates the pathological process of ischemic stroke in the middle and late stages. In this process, the activation of immune cells and subsequent production of various inflammatory cytokines, chemokines and other cytotoxic mediators are the key factors that trigger inflammation injuries after ischemia. Meanwhile, this mechanism also induces the formation of immune cells with anti-inflammatory activities and tissue repair properties, boosting the regeneration of damaged never system. DAMPs-TLR-NF-κB inflammatory activation chain as the main axis of new anti-stroke drug approaches has become a direction to explore the novel treatments of stroke, which also provides a rational basis for anti-inflammatory therapy in clinical practice for stroke patients. In this paper, we highlighted the current status on the mechanism study with focus on the activation chain of macrophage and microglia involved in DAMPs-TLR-NF-κB in inflammation after stroke and discussed the future development in searching the potential new treatments and therapeutic agents which could be applied in clinics.
ABSTRACT
Helicobacter pylori (H. pylori) is the causative agent of chronic gastritis and peptic ulcer diseases and is an important risk factor for the development functional dyspepsia, peptic ulceration, gastric adenocarcinoma and mucosa-associated lymphoid tissue lymphoma. H. pylori has very high rates of infection in human populations, and it is estimated that over 50% of the world population is infected. Recently, certain extra-gastric manifestations, linked to H. pylori infection, have been widely investigated. Noteworthy, a growing body of evidences supports an association between H. pylori infection with lung cancer. The present review intend to highlight not only the most recent evidences supporting this association, but also some missed points, which must be considered to validate this emerging association.
Subject(s)
Humans , Helicobacter Infections , Helicobacter pylori , Physiology , Lung Neoplasms , MicrobiologyABSTRACT
Damage-associated molecular patterns (DAMPs) are endogenous danger molecules that are released from damaged or dying cells and activate the innate immune system by interacting with pattern recognition receptors (PRRs). Although DAMPs contribute to the host's defense, they promote pathological inflammatory responses. Recent studies have suggested that various DAMPs, such as high-mobility group box 1 (HMGB1), S100 proteins, and heat shock proteins (HSPs), are increased and considered to have a pathogenic role in inflammatory diseases. Here, we review current research on the role of DAMPs in inflammatory diseases, including rheumatoid arthritis, systemic lupus erythematosus, osteoarthritis, atherosclerosis, Alzheimer's disease, Parkinson's disease, and cancer. We also discuss the possibility of DAMPs as biomarkers and therapeutic targets for these diseases.
Subject(s)
Alzheimer Disease , Arthritis, Rheumatoid , Atherosclerosis , Biomarkers , Heat-Shock Proteins , Immune System , Inflammation , Lupus Erythematosus, Systemic , Osteoarthritis , Parkinson Disease , Receptors, Pattern Recognition , S100 ProteinsABSTRACT
Chronic obstructive pulmonary disease (COPD) is a prevalent chronic inflammatory disease of the lung in the worldwide. With the deeper development of the study, people gradually realized that COPD also with the characteristics of autoimmune diseases. However, the initiation mechanism of acquired immunity in COPD is still unclear. Chronic neutrophilic inflammation of the airways is a distinct feature of COPD. The latest research shows that neutrophils can form a reticular substance composed of DNA in the infected state-NETs, which can not only give full play to the anti infection effect, but also cause tissue damage. In some autoimmune diseases, it can even initiate the acquired immune responses. This paper will briefly review the recent advances of NETs in the pathogenesis of COPD and its potential role as an anti-inflammatory target for COPD, so as to provide new ideas for the anti-inflammatory treatment of COPD in the future.
ABSTRACT
Mesenchymal stem cells (MSCs) can participate in the repair of various tissue and organ damage, but inflammation often exists in local repair area,and autophagy is induced. As a kind of self-regulating mechanism of cells, autophagy can not only regulate the physiological process of MSCs under inflamma-tory environment, but also work on anti-inflammatory environ-ment. This research focuses on the relations between inflamma-tory environment and MSCs autophagy's interaction and feed-back regulation, providing a train of thought for research of MSCs in inflammatory environment.
ABSTRACT
@# Objective: To investigate the effect of DAMP (damaged associated molecular pattern) on the inhibition of RAS-mutant A549 lung adenocarcinoma cells by CIK cells and its mechanism. Methods: Human peripheral blood mononuclear cells were isolated in vitro and CIK cells were cultured. A549 cells were treated with cisplatin (DDP) and doxorubicin (ADM) alone or in combination, and the morphology of A549 cells was observed under a microscope. The supernatant of A549 cells was co-cultured with CIK cells. Flow cytometry was used to detect the CIK cell immunophenotype after co-culture. MTT assay was used to detect the inhibition of A549 lung cancer cell proliferation induced by A549 cell supernatant. The concentration of chemotherapeutic drugs kills A549 cell supernatant CRT, ATP, HMGB1 content. Results: Low-level chemotherapeutic drugs showed more immunogenic death characteristics after killingA549 cells. The ratio of CD8+ and CD56+ in CIK cells was significantly higher than that in control CIK cells (P<0.05). The inhibition rate of CIK cells induced byA549 cells after injury onA549 lung adenocarcinoma cells was significantly higher than that of the same dose chemotherapy group [DDP group (31.34±1.51)% vs (5.97±1.74)%, ADM group (45.46±1.78)% vs (6.22±1.34)%, DDP+ ADM group (45.78±1.14)% vs (11.94±3.11)%, all P<0.05], and low-mass chemotherapeutic agents killed C549 induced by A549 cell supernatant on A549 The inhibition rate of the cells was higherthan that of the supernatant induced by the higher concentration of chemotherapeutic drugs (all P<0.05). The level of CRT,ATP, and HMGB1 in immunogenicity-related molecules in the supernatant ofA549 cells was significantly increased by low-concentration chemotherapy drugs (all P<0.05). In the low-concentration group, the supernatant-induced inhibition of the proliferation of A549 lung adenocarcinoma cells increased with the increase of CRT, ATP, and HMGB1 levels. Conclusion: The combination of lower concentration of DDP and ADM alone or in combination could more easily induce the immunogenic death of A549 cells and release higher levels of DAMP molecules, which could promote the inhibitory effect of CIK on lung cancerA549 cells.
ABSTRACT
Asthma and autoimmune diseases both result from a dysregulated immune system, and have been conventionally considered to have mutually exclusive pathogenesis. Autoimmunity is believed to be an exaggerated Th1 response, while asthma with a Th2 underpinning is congruent with the well-accepted Th1/Th2 paradigm. The hypothesis of autoimmune involvement in asthma has received much recent interest, particularly in the adult late-onset non-atopic patients (the “intrinsic asthma”). Over the past decades, circulating autoantibodies against diverse self-targets (beta-2-adrenergic receptors, epithelial antigens, nuclear antigens, etc.) have been reported and subsequently dismissed to be epiphenomena resulting from a chronic inflammatory condition, primarily due to lack of evidence of causality/pathomechanism. Recent evidence of ‘granulomas’ in the lung biopsies of severe asthmatics, detection of pathogenic sputum autoantibodies against autologous eosinophil proteins (e.g., eosinophil peroxidase) and inadequate response to monoclonal antibody therapies (e.g., subcutaneous mepolizumab) in patients with evidence of airway autoantibodies suggest that the role of autoimmune mechanisms be revisited. In this review, we have gathered available reports of autoimmune responses in the lungs, reviewed the evidence in the context of immunogenic tissue-response and danger-associated molecular patterns, and constructed the possibility of an autoimmune-associated pathomechanism that may contribute to the severity of asthma.
Subject(s)
Adult , Humans , Antigens, Nuclear , Asthma , Autoantibodies , Autoimmune Diseases , Autoimmunity , Biopsy , Eosinophils , Immune System , Immunoglobulin G , Lung , Neutrophils , SputumABSTRACT
Objective There is still no specific immuno-therapy to acute respiratory distress syndrome induced by severe trau-ma.The article aimed to investigate the effect of MCC 950 on lung in-jury induced by mitochondrial damage-associated molecular patterns ( MTDs) and preliminarily evaluate its molecular mechanism . Methods 40 SD rats were randomly devided into control group , MTDs group, MCC950 group, MTDs+MCC950 group.The rats were were taken MCC950 (20mg/kg) by peritoneal injection pretreatment for 1 hour, followed by tail vein injection of MTDs (5%liver vol-ume) and were killed 12 hours later.ELISA were applied to detect tumor necrosis factor (TNF-α), interleukin-1β( IL-1β) and IL-18 in broncho-alveolar lavage fluid ( BALF) , and BCA method to assess the content of total protein .Lung tissues were weighed to calculate lung wet weight/body weight( LWW/BW) ratio, and stained by HE staining to observe the pathological changes through light micro -scope.Smith lung injury score was used to assess histological lung injury .Western blot was employed to evaluate the protein expression of Pro-Caspase-1 and Caspase-1. Results ①Compared with control group , TNF-α, IL-1βand IL-18 in BALF of MTDs group were significantly increased( all P<0.05), but not in MCC950 group(P>0.05), TNF-αin BALF of MTDs +MCC950 group were signifi-cantly increased( all P<0.05), IL-1βand IL-18 were not(all P>0.05).Compared with MTDs group, IL-1βand IL-18 in BALF of MTDs +MCC950 group were in serious decline (all P<0.05).Compared with control group, the LWW/BW ratio [(4.19±0.36)mg/g vs (6.32±0.54)mg/g, P<0.05] and the content of total protein [(0.12±0.03)g/L vs (0.79±0.07)g/L, P<0.05] were dramatically increased.Compared with MTDs group, the LWW/BW ratio [(4.35±0.29)mg/g, (4.47±0.0.46)mg/g, P<0.05] and the content of total protein [(0.12±0.06)g/L, (0.15±0.06)g/L, P<0.05] were in serious decline.Smith lung injury score revealed that compared with control group the score of MTDs group was elevated (1.00±0.00 vs 8.33±0.58, P<0.05), and the score of MTDs+MCC950 group was significantly decreased than MTDs group ( 8.33±0.58 vs 3.67±0.58, P<0.05) .Compared with control group , the protein expres-sion of Pro-caspase-1 and caspase-1 were markedly improved (all P<0.05).However, the expression of caspase-1 was significantly milder than that in MTDs group ( P<0.05), the protein expression of Pro-caspase-1 was comparable ( P>0.05). Conclusion MCC950 exerts protective effect against lung injury induced by MTDs probably via the inhibition of NLRP 3 inflammasome activation .
ABSTRACT
Neutrophils are the major antimicrobial cells of the innate immune system, which are recruited rapidly to the sites of infection and provide the primary defense against pathogens. Recent evidence suggests that neutrophils undergo a distinct cell death mechanism called NETosis, which not only contributes to the host defense, but also leads to severe pathological immune responses in cases of dysregulation. Here, we review the general features of NETosis as well as the generation of autoantigens and damage-associated molecular patterns by NETosis in autoimmune diseases. This review discusses the pathogenic role of NETosis in rheumatoid arthritis and systemic lupus erythematosus, where neutrophils may play a key role in the pathogenesis of these diseases, and suggest the possibility of neutrophil extracellular traps as biomarkers and therapeutic targets for the treatment of autoimmune diseases.
Subject(s)
Arthritis, Rheumatoid , Autoantigens , Autoimmune Diseases , Biomarkers , Cell Death , Immune System , Lupus Erythematosus, Systemic , NeutrophilsABSTRACT
Systemically sustained thrombin generation in vivo is the hallmark of disseminated intravascular coagulation (DIC). Typically, this is in response to a progressing disease state that is associated with significant cellular injury. The etiology could be infectious or noninfectious, with the main pathophysiological mechanisms involving cross-activation among coagulation, innate immunity, and inflammatory responses. This leads to consumption of both pro- and anticoagulant factors as well as endothelial dysfunction and disrupted homeostasis at the blood vessel wall interface. In addition to the release of tissue plasminogen activator (tPA) and soluble thrombomodulin (sTM) following cellular activation and damage, respectively, there is the release of damage-associated molecular patterns (DAMPs) such as extracellular histones and cell-free DNA. Extracellular histones are increasingly recognized as significantly pathogenic in critical illnesses through direct cell toxicity, the promotion of thrombin generation, and the induction of neutrophil extracellular trap (NET) formation. Clinically, high circulating levels of histones and histone–DNA complexes are associated with multiorgan failure, DIC, and adverse patient outcomes. Their measurements as well as that of other DAMPs and molecular markers of thrombin generation are not yet applicable in the routine diagnostic laboratory. To provide a practical diagnostic tool for acute DIC, a composite scoring system using rapidly available coagulation tests is recommended by the International Society on Thrombosis and Haemostasis. Its usefulness and limitations are discussed alongside the advances and unanswered questions in DIC pathogenesis.
Subject(s)
Humans , Blood Platelets/cytology , Disseminated Intravascular Coagulation/diagnosis , Fibrin Fibrinogen Degradation Products/analysis , Immunity, Innate , Laboratories, Hospital , Partial Thromboplastin Time , Prothrombin Time , ThrombelastographyABSTRACT
Objective To investigate the roles of toll like receptor7 (TLR7) and toll like receptor 9 (TLR9) in the pathogenesis of acute pancreatitis.Methods AR42J cells were treated by lipopolysaccharide at different dosages (0,1,10,100 mg/L),and cell model of acute pancreatitis in vitro was established.AR42J cells without lipopolysaccharide treatment were as control.Cells and culture supernatant were collected after 24 hours cultivation.TLR7,TLR9 mRNA and protein expressions were detected by RT-PCR and Western Blot,and levels of TNF-α,IL-10 in culture supernatant were measured by ELISA.Results The TLR 7 mRNA expression levels in control group,1,10,100 mg/L lipopolysaccharide group were 0.12 ± 0.09,0.28 ± 0.06,0.49 ± 0.04,0.78 ± 0.04,and the TLR9 mRNA expression levels were 0.06 ± 0.02,0.32 ± 0.03,0.56 ± 0.14,0.84 ± 0.12; the TLR7 protein expression levels were 0.04 ± 0.01,0.26 ± 0.05,0.49 ±0.04,0.77 ±0.16,and the TLR9 protein expression levels were 0.10 ±0.14,0.62 ±0.23,1.21 ± 0.26,1.75 ± 0.13 ; the TNF-α levels in culture supernatant were (8.01 ± 5.32),(25.64 ± 8.71),(49.06 ± 10.23),(75.83 ± 6.65) ng/L,and the IL-10 levels were (155.54 ± 25.47),(105.16 ± 10.49),(69.36 ± 8.19),(14.07 ± 9.06)ng/L.The expression levels of TLR7 and TLR9's mRNA,protein in cell,as well as the levels of TNF-α in culture supernatant increased with the lipopolysaccharide concentration,while the levels of IL-10 in culture supernatant decreased with the lipopolysaccharide concentration,and the difference among these groups was statistically significant (P < 0.01).Conclusions The expressions of TLR7 and TLR9 in AR42J cells treated by using lipolysaccharide are obviously up-regulated,and it suggests that TLR7 and TLR9 may be vital in the pathogenesis of acute pancreatitis.
ABSTRACT
Plants are invaded by an array of pathogens of which only a few succeed in causing disease. The attack by others is countered by a sophisticated immune system possessed by the plants. The plant immune system is broadly divided into two, viz. microbial-associated molecular-patterns-triggered immunity (MTI) and effector-triggered immunity (ETI). MTI confers basal resistance, while ETI confers durable resistance, often resulting in hypersensitive response. Plants also possess systemic acquired resistance (SAR), which provides long-term defense against a broad-spectrum of pathogens. Salicylic-acid-mediated systemic acquired immunity provokes the defense response throughout the plant system during pathogen infection at a particular site. Trans-generational immune priming allows the plant to heritably shield their progeny towards pathogens previously encountered. Plants circumvent the viral infection through RNA interference phenomena by utilizing small RNAs. This review summarizes the molecular mechanisms of plant immune system, and the latest breakthroughs reported in plant defense. We discuss the plant–pathogen interactions and integrated defense responses in the context of presenting an integral understanding in plant molecular immunity.
ABSTRACT
We recently reported a Philyra pisum lectin (PPL) that exerts mitogenic effects on human lymphocytes, and its molecular characterization. The present study provides a more detailed characterization of PPL based on the results from a monosaccharide analysis indicating that PPL is a glycoprotein, and circular dichroism spectra revealing its estimated alpha-helix, beta-sheet, beta-turn, and random coil contents to be 14.0%, 39.6%, 15.8%, and 30.6%, respectively. These contents are quite similar to those of deglycosylated PPL, indicating that glycans do not affect its intact structure. The binding properties to different pathogen-associated molecular patterns were investigated with hemagglutination inhibition assays using lipoteichoic acid from Gram-positive bacteria, lipopolysaccharide from Gram-negative bacteria, and both mannan and beta-1,3-glucan from fungi. PPL binds to lipoteichoic acids and mannan, but not to lipopolysaccharides or beta-1,3-glucan. PPL exerted no significant antiproliferative effects against human breast or bladder cancer cells. These results indicate that PPL is a glycoprotein with a lipoteichoic acid or mannan-binding specificity and which contains low and high proportions of alpha-helix and beta-structures, respectively. These properties are inherent to the innate immune system of P. pisum and indicate that PPL could be involved in signal transmission into Gram-positive bacteria or fungi.
Subject(s)
Humans , beta-Glucans , Breast , Circular Dichroism , Fungi , Glycoproteins , Gram-Negative Bacteria , Gram-Positive Bacteria , Hemagglutination , Immune System , Lipopolysaccharides , Lymphocytes , Mannans , Polysaccharides , Sensitivity and Specificity , Teichoic Acids , Urinary Bladder NeoplasmsABSTRACT
Se realizó una búsqueda bibliográfica utilizando la base de datos Pubmed con énfasis en los artículos publicados en la última década. Como descriptores se utilizaron los siguientes: glucans, glucans recognition, glucans biological activitiy, glucans pharmaceuticals. Con la información disponible se realizó un análisis de los principales aspectos relacionados con el tema, que se exponen en el presente trabajo. Las b-(1®3)-glucanas son polímeros de glucosa que se encuentran mayoritariamente en la pared celular de hongos, levaduras y plantas. Se consideran patrones moleculares asociados a patógenos y son reconocidas por varios receptores, siendo la dectina-1 el principal receptor de reconocimiento de estas estructuras. Sus propiedades inmunomoduladoras han sido informadas por varios autores. Se ha demostrado que potencian y sinergizan la acción de ligandos de Toll like receptors sobre la liberación de citoquinas proinflamatorias, aunque también han mostrado un perfil antiinflamatorio, cuestión que depende en gran medida de sus características estructurales. Las b-(1®3)-glucanas son contaminantes importantes provenientes de los filtros de acetato de celulosa que se utilizan en la clarificación de parenterales hemoderivados, por tanto, es necesario estudiar las consecuencias de la presencia de estas moléculas inmunomoduladoras en inyectables. En esta revisión se resumen aspectos relacionados con el reconocimiento y actividad biológica de las b-(1®3)-glucanas y se profundiza en estudios relacionados con su presencia en hemoderivados como principal contaminante. Finalmente se destaca la utilidad de la Prueba de Activación de Monocitos en la detección de las b-(1®3)-glucanas en parenterales.
A literature review was made in Pubmed database, making emphasis on papers published in the last decade. The subject headings for this search were glucans, glucans recognition, glucans biological activitiy, glucans pharmaceuticals. On the basis of the available information, the main aspects related to this topic were analyzed and shown in this paper. b-(1®3)-glucans are glucose-derived polymers found mainly in the cellular wall of fungi, yeasts and plants. They are considered pathogens-associated molecular patterns that are ecognized by several receptors, being dectin-1 the key recognition receptor of these structures. Some authors have underlined their Immunomodulating properties. It has been demonstrated that they synergize and potentate the actions of Toll-like receptor ligands on the release of proinflammatory cytokines, though b-(1®3)-glucans have shown an antinflamatory profile which greatly depends on their structural characteristics. b-(1®3)-glucans are important pollutants stemming from cellulose depth filters used in clarification process of parenteral blood derivatives. For this reason, it is necessary to study the consequences of their presence in parenterals. This review summarized the main aspects related with the recognition and biological activities of b-(1®3)-glucans as well as it delved into studies on their presence in blood derivatives as main pollutant. Finally, the paper underlined the role of Monnocyte Activation Test to detect b-(1®3)-glucans in parenterals.