Stroma-targeting strategies in pancreatic cancer: a double-edged sword

Pancreatic ductal adenocarcinoma (PDAC) is a type of cancer with limited treatment options and terrible long-term survival, and it is expected to become the second leading cause of cancer-related death by 2030. One reason why this cancer is so aggressive and resistant is the formation of dense stroma that surrounds the neoplastic epithelium, which promotes tumor progression, invasion, metastasis, and resistance. The three major components of PDAC stroma are extracellular matrix (ECM), cancer-associated fibroblasts (CAFs), and vasculature. The dense ECM acts as a natural physical barrier, impeding drug penetration to PDAC tumor cells. Consequently, the method that combines stroma-targeting with anticancer therapy may be a viable alternative for increasing drug penetration. Additionally, blood vessels are key entities of the tumor stroma, serving as a pathway for nutrition as well as the only way for chemical medicines and immune cells to act. Finally, PDAC CAFs and tumor cells have crosstalk effects in the tumor microenvironment, where they are responsible for enhanced matrix deposition. In this review, we aim to provide an overview of our current comprehension of the three key components of PDAC stroma and the new promising therapeutic targets for PDAC. (AU)

Dexmedetomidine represses TGF-beta1-induced extracellular matrix production and proliferation of airway smooth muscle cells by inhibiting MAPK signaling pathway

Background Airway remodeling is implicated in the pathogenesis of asthma, and abnormal proliferation of airway smooth muscle cells (ASMCs) contribute to airway remodeling. Inflammatory mediator, transforming growth factor-β1 (TGF-β1), stimulates the proliferation of ASMCs, and is associated with airway remodeling in asthma. Dexmedetomidine (DEX) has been widely used in the adjuvant therapy of acute asthma.Objective The potential effects of DEX on extracellular matrix (ECM) production and proliferation of ASMCs were investigated in this study.Material and Methods Human ASMCs were incubated with TGF-β1 for 48 hours, and then treated with different concentrations of DEX for another 24 hours. Cell proliferation was detected by MTT and BrdU (5’-bromo-2’-deoxyuridine) staining. Flow cytometry was used to assess cell apoptosis, and western blot was applied to identify the underlying mechanism.Results TGF-β1 induced increase in cell viability and bromodeoxyuridine (BrdU) positive cells in ASMCs while repressed cell apoptosis. Second, TGF-β1-induced ASMCs were then treated with different concentrations of DEX. Cell viability of TGF-β1-induced ASMCs was decreased by incubation of DEX. The number of BrdU positive cells in TGF-β1-induced ASMCs was reduced by incubation of DEX. Moreover, incubation of DEX promoted cell apoptosis of TGF-β1-induced ASMCs. Third, incubation of DEX attenuated TGF-β1-induced increase in fibronectin, collagen I, MMP9, and versican in ASMCs. Lastly, the up-regulation of phosphorylated extracellular receptor kinase (p-ERK), phosphorylated Jun N-terminal Kinase (p-JNK), and p-p38 in TGF-β1-induced ASMCs was reversed by incubation of DEX.Conclusion DEX suppressed TGF-β1-induced ECM production and proliferation of ASMCs through inactivation of p38 mitogen-activated protein kinase (MAPK) pathway, providing a potential strategy for prevention of asthma (AU)

Knockdown of GPRC5B alleviates the high glucose-induced inflammation and extracellular matrix deposition of podocyte through inhibiting NF-kB pathway

Background Diabetes is a serious disease that could greatly increase the risk of cardiovascular complications, whereas the underlying pathology of DN is still unknown. GPRC5B is a member of the RAIG subfamily of type 3 (family C) GPCR, and its role in DN is still unclear.Objective To unveil the role of GPRC5B in diabetic nephropathy (DN) progression and investigate the potential signaling pathway.Materials and methods Podocytes were stimulated with high glucose and expression of GPRC5B was analyzed by qPCR and western blot. Then the level of GPRC5B was depleted by siRNA transfection and inflammatory cytokine level was monitored by ELISA assay. The ECM depostion and the activation of NF-κB pathway were detected by Immunoblot.Results We investigated the possible role of GPRC5B in the pathology of diabetic nephropathy. We found GPRC5B was highly expressed in high glocuse (HG) induced podocytes. The depletion of GPRC5B inhibited HG induced cell inflammation. In addition, the ablation of GPRC5B suppressed the HG induced ECM deposition. We further found GPRC5B could alleviate the inflammation and extracellular matrix deposition of HG-induced podocytes through NF-κB pathway (AU)

In-depth characterization of a new patient-derived xenograft model for metaplastic breast carcinoma to identify viable biologic targets and patterns of matrix evolution within rare tumor types

Metaplastic breast carcinoma (MBC) is a rare breast cancer subtype with rapid growth, high rates of metastasis, recurrence and drug resistance, and diverse molecular and histological heterogeneity. Patient-derived xenografts (PDXs) provide a translational tool and physiologically relevant system to evaluate tumor biology of rare subtypes. Here, we provide an in-depth comprehensive characterization of a new PDX model for MBC, TU-BcX-4IC. TU-BcX-4IC is a clinically aggressive tumor exhibiting rapid growth in vivo, spontaneous metastases, and elevated levels of cell-free DNA and circulating tumor cell DNA. Relative chemosensitivity of primary cells derived from TU-BcX-4IC was performed using the National Cancer Institute (NCI) oncology drug set, crystal violet staining, and cytotoxic live/dead immunofluorescence stains in adherent and organoid culture conditions. We employed novel spheroid/organoid incubation methods (Pu·MA system) to demonstrate that TU-BcX-4IC is resistant to paclitaxel. An innovative physiologically relevant system using human adipose tissue was used to evaluate presence of cancer stem cell-like populations ex vivo. Tissue decellularization, cryogenic-scanning electron microscopy imaging and rheometry revealed consistent matrix architecture and stiffness were consistent despite serial transplantation. Matrix-associated gene pathways were essentially unchanged with serial passages, as determined by qPCR and RNA sequencing, suggesting utility of decellularized PDXs for in vitro screens. We determined type V collagen to be present throughout all serial passage of TU-BcX-4IC tumor, suggesting it is required for tumor maintenance and is a potential viable target for MBC. In this study we introduce an innovative and translational model system to study cell–matrix interactions in rare cancer types using higher passage PDX tissue.

Complex roles of discoidin domain receptor tyrosine kinases in cancer

Discoidin domain receptors, DDR1 and DDR2 are members of the receptor tyrosine kinase (RTK) family that serves as a non-integrin collagen receptor and were initially identified as critical regulators of embryonic development and cellular homeostasis. In recent years, numerous studies have focused on the role of these receptors in disease development, in particular, cancer where they have been reported to augment ECM remodeling, invasion, drug resistance to facilitate tumor progression and metastasis. Interestingly, accumulating evidence also suggests that DDRs promote apoptosis and suppress tumor progression in various human cancers due to which their functions in cancer remain ill-defined and presents a case of an interesting therapeutic target. The present review has discussed the role of DDRs in tumorigenesis and the metastasis (AU)

The musculotendinous transition of the extracellular matrix

Histoarchitectural arrangement of muscle is prolonged with tendons, establishing a relationship through myotendinous junctions. However, the characteristics of the transition between myoconnective structures and tendon are not well known and it remains unclear whether the histoarchitectural organization of the extracellular matrix (ECM) of both organs continues to maintain the same structuring. (AU)

Markers of Stroma in Lung Cancer: Influence of COPD / Marcadores estromales en el cáncer de pulmón: la influencia de la enfermedad pulmonar obstructiva crónica

BACKGROUND: Stroma, mainly composed by fibroblasts, extracellular matrix (ECM) and vessels, may play a role in tumorigenesis and cancer progression. Chronic Obstructive Pulmonary Disease (COPD) is an independent risk factor for LC. We hypothesized that markers of fibroblasts, ECM and endothelial cells may differ in tumors of LC patients with/without COPD. METHODS: Markers of cultured cancer-associated fibroblasts and normal fibroblasts [CAFs and NFs, respectively, vimentin and alpha-smooth muscle actin (SMA) markers, immunofluorescence in cultured lung fibroblasts], ECM, and endothelial cells (type I collagen and CD31 markers, respectively, immunohistochemistry) were identified in lung tumor and non-tumor specimens (thoracotomy for lung tumor resection) from 15 LC-COPD patients and 15 LC-only patients. RESULTS: Numbers of CAFs significantly increased, while those of NFs significantly decreased in tumor samples compared to non-tumor specimens of both LC and LC-COPD patients. Endothelial cells (CD31) significantly decreased in tumor samples compared to non-tumor specimens only in LC patients. No significant differences were seen in levels of type I collagen in any samples or study groups. CONCLUSIONS: Vascular endothelial marker CD31 expression was reduced in tumors of non-COPD patients, while type I collagen levels did not differ between groups. A rise in CAFs levels was detected in lung tumors of patients irrespective of airway obstruction. Low levels of CD31 may have implications in the overall survival of LC patients, especially in those without underlying airway obstruction. Identification of CD31 role as a prognostic and therapeutic biomarker in lung tumors of patients with underlying respiratory diseases warrants attention

ANTECEDENTES: El estroma, compuesto principalmente por fibroblastos, matriz extracelular (MEC) y vasos, puede desempeñar un papel en la génesis tumoral y la progresión del cáncer. La enfermedad pulmonar obstructiva crónica (EPOC) es un factor de riesgo independiente para el carcinoma de pulmón (CP). Nuestra hipótesis fue que los marcadores de fibroblastos, MEC y células endoteliales pueden variar en los tumores de los pacientes con CP con o sin EPOC. MÉTODOS: Se identificaron los marcadores de fibroblastos asociados al cáncer y los fibroblastos normales cultivados (FAC y FN, respectivamente; marcadores: vimentina y α-actina del músculo liso [SMA por sus siglas en inglés]; inmunofluorescencia en fibroblastos de pulmón cultivados) y marcadores de la MEC y las células endoteliales (marcadores: colágeno tipo I y CD31, respectivamente; inmunohistoquímica) en muestras de pulmón tumoral y no tumoral (toracotomía para resección de tumores pulmonares) de 15 pacientes con EPOC-CP y 15 pacientes con solo CP. RESULTADOS: El número de FAC aumentó de forma significativa, mientras que el de FN disminuyó significativamente en las muestras tumorales en comparación con las muestras no tumorales de pacientes con CP y EPOC-CP. Las células endoteliales (CD31) disminuyeron también de forma significativa en las muestras tumorales en comparación con las muestras no tumorales solo en los pacientes con CP. No se observaron diferencias significativas en los niveles de colágeno tipo I en ninguna muestra o grupo de estudio. CONCLUSIONES: La expresión del marcador vascular endotelial CD31 se redujo en los tumores de los pacientes sin EPOC, mientras que los niveles de colágeno tipo I no difirieron entre los grupos. Se detectó un aumento en los niveles de FAC en los tumores de pulmón de los pacientes, con independencia de la presencia de obstrucción de las vías respiratorias. Los niveles bajos de CD31 pueden tener implicaciones en la supervivencia general de los pacientes con CP, en especial, en aquellos sin obstrucción subyacente de las vías respiratorias. Convendría estudiar e identificar el papel del CD31 como biomarcador terapéutico y de pronóstico en los tumores de pulmón de pacientes con enfermedades respiratorias subyacentes

Ceftobiprole: pharmacokinetics and PK/PD profile

Ceftobiprole shows many similar pharmacokinetic properties to other cephalosporins, except for not being orally bioactive, and that it is administered by IV infusion as the prodrug ceftobiprole medocaril, which is subsequently hydrolyzed in the blood into the active molecule. Distribution focus in extracellular fluid and active antibiotic concentration has been proven in different corporal tissues using dosing regimen of 500 mg intravenous infusion over 2 h every 8 h. Ceftobiprole is eliminated exclusively into the urine, thus the reason why dose adjustment is required for patients with moderate or severe renal impairment, or increased creatinine clearance. However, there is no need for dose adjustments related with other comorbidities and patients' conditions such as age, body weight. Although considering distribution features, molecular weight and dose fraction, increase dosing regimen might be necessary in patients using renal replacement therapy. The half-life of ceftobiprole is more than 3 h, allowing to easily reach optimal PK/PD parameters with the infusion time of 2 h, using the usual dosing regimen

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Una visión integral del cáncer (I). Microambiente tumoral: estudio, clasificación y reprogramación / An integral view of cancer (I). The study, classification and reprogramming of the tumoral microclimate

El grupo de enfermedades al que nos referimos como «cáncer» comparte una estructura biológica conformada por un ecosistema complejo, donde se han alterado las relaciones intercelulares, los campos de información, el desarrollo y la función tisular. Más allá de las alteraciones genéticas de la célula tumoral, la demostración de un ecosistema alterado, con sus interconexiones a nivel sistémico, abre una nueva perspectiva de la biología y del comportamiento del cáncer. Diversas facetas del tumor, su morfología, clasificación, agresividad clínica, pronóstico y respuesta al tratamiento aparecen ahora bajo una visión integral que ofrece un nuevo horizonte de estudio, investigación y manejo clínico. La Teoría de la Mutación Somática en cáncer, vigente desde hace más de 100 años, se ve hoy completada por el estudio del microambiente tumoral, la matriz extracelular, las células estromales, la respuesta inmune, la inervación, la nutrición, la mitocondria, el metabolismo, el fluido intersticial, las propiedades mecánicas y electromagnéticas del tejido, y muchas otras áreas de conocimiento emergente, que abren la puerta a un ejercicio de reprogramación del fenotipo tumoral a través de la modificación de las claves ofrecidas por este nuevo paradigma. Su reconocimiento permite pasar de considerar el proceso oncológico como un problema celular a una alteración supracelular basada en la desorganización de los tejidos, inmersos en las relaciones del sistema complejo que conforma un ser vivo

The group of diseases that we call cancer share a biological structure formed by a complex ecosystem, with altered intercellular communication, information fields, development and tissue function. Beyond the genetic alterations of the tumor cell, the demonstration of an altered ecosystem, with interconnections at systemic levels, opens up a new perspective on cancer biology and behavior. Different tumor facets, such as morphology, classification, clinical aggressiveness, prognosis and response to treatment now appear under a comprehensive vision that offers a new horizon of study, research and clinical management. The Somatic Mutation Theory in cancer, in force for more than one hundred years, is now completed by the study of the tumor microenvironment, the extracellular matrix, the stromal cells, the immune response, the innervation, the nutrition, the mitochondria, the metabolism, the interstitial fluid, the mechanical and electromagnetic properties of the tissue and many other areas of emerging knowledge; thus opening the door to a reprogramming exercise of the tumor phenotype through the modification of the keys offered by this new paradigm. Its recognition makes it possible to go from considering the oncological process as a cellular problem to a supracellular alteration based on the disorganization of tissues, immersed in the relationships of the complex system of the living being

Nanotecnología aplicada a conservar la matriz extracelular como herramienta teranóstica en el infarto agudo de miocardio / Nanotechnology applied to preserve extracelular matrix as teranostic tool in acute myocardial infarction

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La sobreexpresión vascular de la lisil oxidasa altera la estructura de la matriz extracelular e induce estrés oxidativo / Vascular lysyl oxidase over-expression alters extracellular matrix structure and induces oxidative stress

Introducción: La lisil oxidasa (LOX) contribuye al ensamblaje de las fibras de colágeno y elastina de la matriz extracelular (MEC). Hemos determinado las consecuencias de la sobreexpresión vascular de LOX sobre la estructura de la MEC y su contribución al estrés oxidativo. Métodos: Los estudios se desarrollaron en ratones que sobreexpresan la LOX (Tg) específicamente en células musculares lisas vasculares (CMLV). Se realizaron análisis por PCR a tiempo real, tinción de rojo sirio, producción de H2O2 y actividad NADPH oxidasa. Se caracterizaron las fenestras de la lámina elástica interna mediante microscopia confocal. Resultados: Las CMLV de ratones transgénicos presentaron niveles de actividad LOX superiores a los de animales control. En consonancia, las células transgénicas depositaron más fibras de elastina organizada y sus sobrenadantes indujeron un mayor ensamblaje de colágeno en ensayos in vitro. El nivel de colágeno maduro fue superior en la pared vascular de ratones Tg, que presentaban una menor área de las fenestras y un aumento de la expresión de la fibulina-5. La producción vascular de H2O2 y la actividad NADPH oxidasa fueron superiores en los ratones transgénicos. La incubación de CMLV con catalasa atenuó el incremento en la deposición de fibras de elastina madura inducido por la transgénesis de LOX. Conclusiones: La sobreexpresión de la LOX en CMLV se asocia a una alteración de la estructura vascular del colágeno y la elastina. La LOX podría constituir una nueva fuente de estrés oxidativo que participaría en la alteración estructural de la MEC y podría contribuir al remodelado vascular (AU)

Introduction: Lysyl oxidase (LOX) participates in the assembly of collagen and elastin fibres. The impact of vascular LOX over-expression on extracellular matrix (ECM) structure and its contribution to oxidative stress has been analysed. Methods: Studies were conducted on mice over-expressing LOX (Tg), specifically in smooth muscle cells (VSMC). Gene expression was assessed by real-time PCR analysis. Sirius Red staining, H2O2 production and NADPH oxidase activity were analysed in different vascular beds. The size and number of fenestra of the internal elastic lamina were determined by confocal microscopy. Results: LOX activity was up-regulated in VSMC of transgenic mice compared with cells from control animals. At the same time, transgenic cells deposited more organised elastin fibres and their supernatants induced a stronger collagen assembly in in vitro assays. Vascular collagen cross-linking was also higher in Tg mice, which showed a decrease in the size of fenestrae and an enhanced expression of Fibulin-5. Interestingly, higher H2O2 production and NADPH oxidase activity was detected in the vascular wall from transgenic mice. The H2O2 scavenger catalase attenuated the stronger deposition of mature elastin fibres induced by LOX transgenesis. Conclusions: LOX over-expression in VSMC was associated with a change in the structure of collagen and elastin fibres. LOX could constitute a novel source of oxidative stress that might participate in elastin changes and contribute to vascular remodeling (AU)

Nuevos mecanismos de fibrosis vascular: papel de la lisil oxidasa / New mechanisms of vascular fibrosis: Role of lysyl oxidase

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La inflamación inhibe la expresión vascular de la fibulina-5: implicación del factor de transcripción SOX9 / Inflammation inhibits vascular fibulin-5 expression: Involvement of transcription factor SOX9

Introducción: La fibulina-5 (FBLN5) es una proteína elastogénica implicada en el remodelado de la matriz extracelular (MEX), un proceso fundamental en el aneurisma de aorta abdominal (AAA). Sin embargo, no se ha determinado la posible contribución de la FBLN5 al AAA. Métodos: Se realizaron análisis por PCR a tiempo real, Western blot, transducción lentiviral, transfección transitoria e inmunoprecipitación de cromatina (ChIP) en aorta abdominal de pacientes con AAA o donantes y en células musculares lisas de aorta humana (CMLV). Resultados: La expresión vascular de la FBLN5 disminuye en la aorta abdominal de pacientes con AAA frente a donantes sanos. El nivel de ARNm y proteína de la FBLN5 y su secreción al espacio extracelular se redujeron en CMLV expuestas a estímulos inflamatorios. Este efecto se produce a través de un mecanismo transcripcional en el que está implicada una región proximal del promotor de la FBLN5 que contiene un elemento de respuesta a SOX. De hecho, la expresión de SOX9 se inhibe en CMLV tratadas con LPS y TNFα y disminuye en el AAA, en el que correlaciona con la de la FBLN5. Además, la sobreexpresión de SOX9 contrarrestó la disminución de la expresión y actividad transcripcional de la FBLN5 inducida por el TNFα. Finalmente, observamos que SOX9 interacciona con el promotor de la FBLN5 y que esta unión se reduce en respuesta a TNFα. Conclusiones: La inhibición de la FBLN5 en el AAA humano podría contribuir al remodelado destructivo de la matriz extracelular inducido por el componente inflamatorio de la patología

Introduction: Fibulin-5 (FBLN5) is an elastogenic protein critically involved in extracellular matrix (ECM) remodelling, a key process in abdominal aortic aneurysm (AAA). However, the possible contribution of FBLN5 to AAA development has not been addressed. Methods: Expression levels were determined by real-time PCR and Western blot in human abdominal aorta from patients with AAA or healthy donors, as well as in human aortic vascular smooth muscle cells (VSMC). Lentiviral transduction, transient transfections, and chromatin immunoprecipitation (ChIP) assays were also performed. Results: The expression of FBLN5 in human AAA was significantly lower than in healthy donors. FBLN5 mRNA and protein levels and their secretion to the extracellular environment were down-regulated in VSMC exposed to inflammatory stimuli. Interestingly, FBLN5 transcriptional activity was inhibited by TNFα and lipopolysaccharide (LPS), and depends on a SOX response element. In fact, SOX9 expression was reduced in VMSC induced by inflammatory mediators and in human AAA, and correlated with that of FBLN5. Furthermore, SOX9 over-expression limited the reduction of FBLN5 expression induced by cytokines in VSMC. Finally, it was observed that SOX9 interacts with FBLN5 promoter, and that this binding was reduced upon TNFα exposure. Conclusions: FBLN5 downregulation in human AAA could contribute to extracellular matrix remodelling induced by the inflammatory component of the disease

The emerging role of Snail1 in the tumor stroma

The transcription factor Snail1 leads to the epithelial-mesenchymal transition by repressing the adherent and tight junctions in epithelial cells. This process is related to an increase of cell migratory and mesenchymal properties during both embryonic development and tumor progression. Although Snail1 expression is very limited in adult animals, emerging evidence has placed Snail at the forefront of medical science. As a transcriptional repressor, Snail1 confers cancer stem cell-like traits on tumor cells and promotes drug resistance, tumor recurrence and metastasis. In this review, we summarize recent reports that suggest the pro-tumorigenic roles of Snail1 expression in tumor stroma. The crosstalk between tumor and stromal cells mediated by Snail1 regulates paracrine communication, pro-tumorigenic abilities of cancer cells, extracellular matrix characteristics and mesenchymal differentiation in cancer stem cells and cancer-associated fibroblasts. Therefore, understanding the regulation and functional roles of Snail1 in the tumor microenvironment will provide us with new therapies for treating metastatic disease (AU)

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Corrección de defectos cardiacos congénitos con la matriz extracelular CorMatrix en pacientes pediátricos. ¿Es realmente seguro? / Correction of congenital cardiac defects with CorMatrix extracellular matrix in pediatric patients: is it really safe?

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Local fluid transfer regulation in heart extracellular matrix

The interstitial myocardial matrix is a complex and dynamic structure that adapts to local fluctuations in pressure and actively contributes to the heart's fluid exchange and hydration. However, classical physiologic models tend to treat it as a passive conduit for water and solute, perhaps because local interstitial regulatory mechanisms are not easily accessible to experiment in vivo. Here, we examined the interstitial contribution to the fluid-driving pressure ex vivo. Interstitial hydration potentials were determined from influx/efflux rates measured in explants from healthy and ischemia-reperfusion-injured pigs during colloid osmotic pressure titrations. Adaptive responses were further explored by isolating myocardial fibroblasts and measuring their contractile responses to water activity changes in vitro. Results show hydration potentials between 5 and 60 mmHg in healthy myocardia and shifts in excess of 200 mmHg in edematous myocardia after ischemia-reperfusion injury. Further, rates of fluid transfer were temperature-dependent, and in collagen gel contraction assays, myocardial fibroblasts tended to preserve the micro-environment's hydration volume by slowing fluid efflux rates at pressures above 40 mmHg. Our studies quantify components of the fluid-driving forces in the heart interstitium that the classical Starling's equation does not explicitly consider. Measured hydration potentials in healthy myocardia and shifts with edema are larger than predicted from the known values of hydrostatic and colloid osmotic interstitial fluid pressures. Together with fibroblast responses in vitro, they are consistent with regulatory mechanisms that add local biological controls to classic fluid-balance models (AU)

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Unicellular but not asocial. Life in community of a bacterium

All living organisms have acquired the outstanding ability to overcome the limitations imposed by changeable environments through the gain of genetic traits over years of evolution and the tendency of individuals to associate in communities. The complementation of a singular weakness, the deployment of reinforcement for the good of the community, the better use of resources, or effective defense against external aggression are advantages gained by this communal behavior. Communication has been the cohesive element prompting the global responses that promote efficiency in two features of any community: specialization in differentiated labor and the spatio-temporal organization of the environment. These principles illustrate that what we call human ecology also applies to the cellular world and is exemplified in eukaryotic organisms, where sophisticated cell-to-cell communication networks coordinate cell differentiation and the specialization of multiple tissues consisting of numerous cells embedded in a multifunctional extracellular matrix. This sophisticated molecular machinery appears, however, to be invented by the ‘simple’ but still fascinating bacteria. What I will try to expand in the following sections are notions of how ‘single prokaryotic cells’ organize a multicellular community (AU)

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Comparación de dos técnicas en el manejo quirúrgico de la recesión radicular utilizando matriz dérmica acelular. Reporte de un caso / Comparison of two surgical handling techniques for gingival recession using an acellular dermal matrix. A case report

Se han descrito, en cirugía plástica periodontal, diferentes procedimientos y materiales quirúrgicos con el propósito del tratamiento de recesión gingival (RG), el incremento del espesor y ancho de encía adherida. Uno de los materiales empleados es la matriz dérmica acelular (MDA), aloinjerto de base biológica que de forma similar al tejido conectivo se incorpora a los tejidos periodontales, manteniendo la integridad estructural y la revascularización. Las técnicas para MDA puede ser un colgajo desplazado coronal (CDC) con incisiones verticales o la técnica quirúrgica en sobre o túnel modificado mediante el levantamiento desde el interior de las papilas permitiendo mayor movilización coronal del tejido y un desplazamiento coronal del colgajo. El objetivo del reporte de caso fue comparar las dos técnicas anteriores con un seguimiento de seis meses. El caso clínico demostró concordancia con la evidencia de los estudios científicos que afirma éxito para tratar cobertura de recesiones con ganancia de tejido queratinizado, aumento de espesor de encía adherida, mejorías clínicas y resultados estéticos independiente de la técnica quirúrgica empleada en el uso de MDA (AU)

Different surgical procedures and materials have been described with the purpose of carrying out gingival recession treatments (GR), the increase of thickness and width of adhered gum. One of the materials used is the acellular dermal matrix (ADM) biological base allograft which, like a connective tissue, is added to the periodontal tissues, keeping the structural integrity and re vascularization. The ADM techniques can be either a coronal displaced flap (CDF) with vertical incisions or a surgical technique in a kind of pocket or tunnel modified by means of a lifting from inside the papillae allowing a higher tissue coronal movement and a flap coronal displacement. The case report objective was to compare both techniques with a post six-month follow up. The clinical case showed concordance with the evidence of scientific studies which confirms the success for treating recession cover with a gain of keratinized tissue, increase of added gum thickness, better clinical improvements and aesthetic results regardless the surgery technique used when using ADM (AU)

Functional amyloids in bacteria

The term amyloidosis is used to refer to a family of pathologies altering the homeostasis of human organs. Despite having a name that alludes to starch content, the amyloid accumulations are made up of proteins that polymerize as long and rigid fibers. Amyloid proteins vary widely with respect to their amino acid sequences but they share similarities in their quaternary structure; the amyloid fibers are enriched in β-sheets arranged perpendicular to the axis of the fiber. This structural feature provides great robustness, remarkable stability, and insolubility. In addition, amyloid proteins specifically stain with certain dyes such as Congo red and thioflavin-T. The aggregation into amyloid fibers, however, it is not restricted to pathogenic processes, rather it seems to be widely distributed among proteins and polypeptides. Amyloid fibers are present in insects, fungi and bacteria, and they are important in maintaining the homeostasis of the organism. Such findings have motivated the use of the term «functional amyloid» to differentiate these amyloid proteins from their toxic siblings. This review focuses on systems that have evolved in bacteria that control the expression and assembly of amyloid proteins on cell surfaces, such that the robustness of amyloid proteins are used towards a beneficial end (AU)

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Dynamic expression profiles of MMPs/TIMPs and collagen deposition in mechanically unloaded rat heart: implications for left ventricular assist device support-induced cardiac alterations

Left ventricular assist devices (LVADs) ameliorate heart failure by reducing preload and afterload. However, extracellular matrix (ECM) deposition after application of LVADs is not clearly defined. The purpose of the present study was to investigate ECM remodeling after mechanical unloading in a rat heart transplant model. Sixty male Lewis rats were subjected to abdominal heterotopic heart transplantation, and the transplanted hearts were pressure- and volume-unloaded. The age- and weight- matched male Lewis rats who had undergone open thoracic surgeries were used as the control. Left ventricle ECM accumulation and the expression/activity of matrix metalloproteinases (MMPs) and tissue inhibitor of matrix metalloproteinases (TIMPs) were measured on the third, seventh, and fourteenth days after transplantation/sham surgery. Compared with the control group, myocardial ECM deposition significantly increased on the seventh and fourteenth days after heart transplantation (P < 0.05) and peaked on the 14th day. The gelatinase activity as well as mRNA expression of MMP-2 and MMP-9 significantly increased after transplantation (P < 0.05). Both mRNA and protein levels of TIMP-1 and TIMP-2 significantly increased compared with those of the control group. Mechanical unloading may lead to adverse remodeling of the ECM of the left ventricle. The underlying mechanism may due to the imbalance of the MMP/TIMP system, especially the remarkable upregulation of TIMPs in the pressure and volume unloaded heart (AU)