Pharmacokinetics of maslinic and oleanolic acids from olive oil - Effects on endothelial function in healthy adults. A randomized, controlled, dose-response study.

To date, pharmacokinetics of maslinic (MA) and oleanolic (OA) acids, at normal dietary intakes in humans, have not been evaluated, and data concerning their bioactive effects are scarce. We assessed MA and OA pharmacokinetics after ingestion of olive oils (OOs) with high and low triterpenic acid contents, and specifically the effect of triterpenes on endothelial function. We performed a double-blind, dose-response, randomized, cross-over nutritional intervention in healthy adults, and observed that MA and OA increased in biological fluids in a dose-dependent manner. MA bioavailability was greater than that of OA, and consumption of pentacyclic triterpenes was associated with improved endothelial function. To the best of our knowledge, this is the first time MA pharmacokinetics, and effects on endothelial function in vivo, have been reported in humans.

Alterations in IQGAP1 expression and localization in colorectal carcinoma and liver metastases following oxaliplatin-based chemotherapy.

IQGAP1 is a scaffolding protein that serves a key role in cell dynamics by integrating internal and external stimuli to distinct signal outputs. Previous studies have identified several genes that are significantly up- or downregulated in the peripheral white cells (PWCs) of patients with colorectal adenocarcinoma (CRC), who underwent oxaliplatin-based chemotherapy (CT). In addition, screening studies have reported that IQ-motif containing GTPase activating protein 1 (IQGAP1) transcriptional expression levels varied from 'off' to 'on' following oxaliplatin CT. In order to determine if variations previously described in PWCs are able to be observed at the protein level in tumors and in metastases following CT, the present study performed an immunohistochemical analysis of IQGAP1 in CRC and primary metastases. IQGAP1 expression was observed in the nuclear envelope and in lateral cell membranes and cytoplasm in normal colon tissue. However, in tumor tissue, cells exhibited a diffuse pattern, with variable expression levels of staining in the nuclear membrane and cytoplasm, with the highest expression intensity observed at the invasive front. In healthy and metastasized liver tissue and in the metastases themselves, expression levels varied from cell to cell from no expression to a high level. In the majority of cells, IQGAP1 co-localized with microtubules at the cytoplasmic face of the nuclear envelope. Strong positive expression was observed in areas of the lesion where cells were detaching from the lesion into the lumen. Despite the homogeneous IQGAP1 staining pattern observed in healthy colon tissue sections, CRC demonstrated heterogeneity in staining, which was more marked in metastasized liver tissue resected following CT. However, the most notable findings were the observed effects on the cellular and subcellular distribution and its implications for cancer biology. These results suggest that IQGAP1 may be a putative biomarker, a candidate for clinical diagnostics and a potential novel target for anti-cancer therapeutics.

Altered Profile of Circulating Endothelial-Derived Microparticles in Ventilator-Induced Lung Injury.

OBJECTIVES: Pulmonary endothelial cell injury is central to the pathophysiology of acute lung injury. Mechanical ventilation can cause endothelial disruption and injury, even in the absence of preexisting inflammation. Platelet-endothelial cell adhesion molecule-1 is a transmembrane protein connecting adjacent endothelial cells. We hypothesized that injurious mechanical ventilation will increase circulating lung endothelial-derived microparticles, defined as microparticles positive for platelet-endothelial cell adhesion molecule-1, which could serve as potential biomarkers and mediators of ventilator-induced lung injury. DESIGN: Prospective randomized, controlled, animal investigation. SETTING: A hospital preclinical animal laboratory. SUBJECTS: Forty-eight Sprague-Dawley rats. INTERVENTIONS: Animals were randomly allocated to one of the three following ventilatory protocols for 4 hours: spontaneous breathing (control group), mechanical ventilation with low tidal volume (6 mL/kg), and mechanical ventilation with high tidal volume (20 mL/kg). In both mechanical ventilation groups, positive end-expiratory pressure of 2 cm H2O was applied. MEASUREMENTS AND MAIN RESULTS: We analyzed histologic lung damage, gas exchange, wet-to-dry lung weight ratio, serum cytokines levels, circulating endothelial-derived microparticles, platelet-endothelial cell adhesion molecule-1 lung protein content, and immunohistochemistry. When compared with low-tidal volume mechanical ventilation, high-tidal volume ventilation increased lung edema score and caused gas-exchange deterioration. These changes were associated with a marked increased of circulating endothelial-derived microparticles and a reduction of platelet-endothelial cell adhesion molecule-1 protein levels in the high-tidal volume lungs (p < 0.0001). CONCLUSIONS: There is an endothelial-derived microparticle profile associated with disease-specific features of ventilator-induced lung injury. This profile could serve both as a biomarker of acute lung injury and, potentially, as a mediator of systemic propagation of pulmonary inflammatory response.

Analysis of the Expression of Tachykinins and Tachykinin Receptors in the Rat Uterus During Early Pregnancy.

The peptides of the tachykinin family participate in the regulation of reproductive function acting at both central and peripheral levels. Our previous data showed that treatment of rats with a tachykinin NK3R antagonist caused a reduction of litter size. In the present study, we analyzed the expression of tachykinins and tachykinin receptors in the rat uterus during early pregnancy. Uterine samples were obtained from early pregnant rats (Days 1-9 of pregnancy) and from nonpregnant rats during the proestrus stage of the ovarian cycle, and real-time quantitative RT-PCR, immunohistochemistry, and Western blot studies were used to investigate the pattern of expression of tachykinins and tachykinin receptors. We found that all tachykinins and tachykinin receptors were locally synthesized in the uterus of early pregnant rats. The expression of substance P, neurokinin B, and the tachykinin receptors NK1R and NK3R mRNAs and proteins underwent major changes during the days around implantation and they were widely distributed in implantation sites, being particularly abundant in decidual cells. These findings support the involvement of the tachykinin system in the series of uterine events that occur around embryo implantation in the rat.

Lung Transcriptomics during Protective Ventilatory Support in Sepsis-Induced Acute Lung Injury.

Acute lung injury (ALI) is a severe inflammatory process of the lung. The only proven life-saving support is mechanical ventilation (MV) using low tidal volumes (LVT) plus moderate to high levels of positive end-expiratory pressure (PEEP). However, it is currently unknown how they exert the protective effects. To identify the molecular mechanisms modulated by protective MV, this study reports transcriptomic analyses based on microarray and microRNA sequencing in lung tissues from a clinically relevant animal model of sepsis-induced ALI. Sepsis was induced by cecal ligation and puncture (CLP) in male Sprague-Dawley rats. At 24 hours post-CLP, septic animals were randomized to three ventilatory strategies: spontaneous breathing, LVT (6 ml/kg) plus 10 cmH2O PEEP and high tidal volume (HVT, 20 ml/kg) plus 2 cmH2O PEEP. Healthy, non-septic, non-ventilated animals served as controls. After 4 hours of ventilation, lung samples were obtained for histological examination and gene expression analysis using microarray and microRNA sequencing. Validations were assessed using parallel analyses on existing publicly available genome-wide association study findings and transcriptomic human data. The catalogue of deregulated processes differed among experimental groups. The 'response to microorganisms' was the most prominent biological process in septic, non-ventilated and in HVT animals. Unexpectedly, the 'neuron projection morphogenesis' process was one of the most significantly deregulated in LVT. Further support for the key role of the latter process was obtained by microRNA studies, as four species targeting many of its genes (Mir-27a, Mir-103, Mir-17-5p and Mir-130a) were found deregulated. Additional analyses revealed 'VEGF signaling' as a central underlying response mechanism to all the septic groups (spontaneously breathing or mechanically ventilated). Based on this data, we conclude that a co-deregulation of 'VEGF signaling' along with 'neuron projection morphogenesis', which have been never anticipated in ALI pathogenesis, promotes lung-protective effects of LVT with high levels of PEEP.

Tryptase is involved in the development of early ventilator-induced pulmonary fibrosis in sepsis-induced lung injury.

INTRODUCTION: Most patients with sepsis and acute lung injury require mechanical ventilation to improve oxygenation and facilitate organ repair. Mast cells are important in response to infection and resolution of tissue injury. Since tryptase secreted from mast cells has been associated with tissue fibrosis, we hypothesized that tryptase would be involved in the early development of ventilator-induced pulmonary fibrosis in a clinically relevant model of sepsis-induced lung injury. METHODS: Prospective, randomized, controlled animal study using Sprague-Dawley rats. Sepsis was induced by cecal ligation and perforation. Animals were randomized to spontaneous breathing or two ventilatory strategies for 4 h: protective ventilation with tidal volume (VT) = 6 ml/kg plus 10 cmH2O positive end-expiratory pressure (PEEP) or injurious ventilation with VT = 20 ml/kg plus 2 cmH2O PEEP. Healthy, non-ventilated animals served as non-septic controls. We studied the following end points: histology, serum cytokine levels, hydroxyproline content, tryptase and proteinase-activated receptor-2 (PAR-2) protein level in lung homogenates, and tryptase and PAR-2 immunohistochemical localization in the lungs. RESULTS: All septic animals developed acute lung injury. Animals ventilated with high VT had a significant increase of pulmonary fibrosis, hydroxyproline content, tryptase and PAR-2 protein levels compared to septic controls (P <0.0001). However, protective ventilation attenuated sepsis-induced lung injury and decreased lung tryptase and PAR-2 protein levels. Immunohistochemical staining confirmed the presence of tryptase and PAR-2 in the lungs. CONCLUSIONS: Mechanical ventilation modified tryptase and PAR-2 in injured lungs. Increased levels of these proteins were associated with development of sepsis and ventilator-induced pulmonary fibrosis early in the course of sepsis-induced lung injury.

Early activation of pro-fibrotic WNT5A in sepsis-induced acute lung injury.

INTRODUCTION: The mechanisms of lung repair and fibrosis in the acute respiratory distress syndrome (ARDS) are poorly known. Since the role of WNT/ß-catenin signaling appears to be central to lung healing and fibrosis, we hypothesized that this pathway is activated very early in the lungs after sepsis. METHODS: We tested our hypothesis using a three-step experimental design: (1) in vitro lung cell injury model with human bronchial epithelial BEAS-2B and lung fibroblasts (MRC-5) cells exposed to endotoxin for 18 hours; (2) an animal model of sepsis-induced ARDS induced by cecal ligation and perforation, and (3) lung biopsies from patients who died within the first 24 hours of septic ARDS. We examined changes in protein levels of target genes involved in the Wnt pathway, including WNT5A, non-phospho (Ser33/37/Thr41) ß-catenin, matrix metalloproteinase-7 (MMP7), cyclin D1, and vascular endothelial growth factor (VEGF) by Western blotting and immunohistochemistry. Finally, we validated the main gene targets of this pathway in experimental animals and human lungs. RESULTS: Protein levels of WNT5A, non-phospho (Ser33/37/Thr41) ß-catenin, total ß-catenin, MMP7, cyclin D1, and VEGF increased after endotoxin stimulation in BEAS-2B and MRC-5 cells. Lungs from septic animals and from septic humans demonstrated acute lung inflammation, collagen deposition, and marked increase of WNT5A and MMP7 protein levels. CONCLUSIONS: Our findings suggest that the WNT/ß-catenin signaling pathway is activated very early in sepsis-induced ARDS and could play an important role in lung repair and fibrosis. Modulation of this pathway might represent a potential target for treatment for septic and ARDS patients.

Soluble platelet-endothelial cell adhesion molecule-1, a biomarker of ventilator-induced lung injury.

INTRODUCTION: Endothelial cell injury is an important component of acute lung injury. Platelet-endothelial cell adhesion molecule-1 (PECAM1) is a transmembrane protein that connects endothelial cells to one another and can be detected as a soluble, truncated protein (sPECAM1) in serum. We hypothesized that injurious mechanical ventilation (MV) leads to shedding of PECAM1 from lung endothelial cells resulting in increasing sPECAM1 levels in the systemic circulation. METHODS: We studied 36 Sprague-Dawley rats in two prospective, randomized, controlled studies (healthy and septic) using established animal models of ventilator-induced lung injury. Animals (n = 6 in each group) were randomized to spontaneous breathing or two MV strategies: low tidal volume (VT) (6 ml/kg) and high-VT (20 ml/kg) on 2 cmH2O of positive end-expiratory pressure (PEEP). In low-VT septic animals, 10 cmH2O of PEEP was applied. We performed pulmonary histological and physiological evaluation and measured lung PECAM1 protein content and serum sPECAM1 levels after four hours ventilation period. RESULTS: High-VT MV caused severe lung injury in healthy and septic animals, and decreased lung PECAM1 protein content (P < 0.001). Animals on high-VT had a four- to six-fold increase of mean sPECAM1 serum levels than the unventilated counterpart (35.4 ± 10.4 versus 5.6 ± 1.7 ng/ml in healthy rats; 156.8 ± 47.6 versus 35.6 ± 12.6 ng/ml in septic rats) (P < 0.0001). Low-VT MV prevented these changes. Levels of sPECAM1 in healthy animals on high-VT MV paralleled the sPECAM1 levels of non-ventilated septic animals. CONCLUSIONS: Our findings suggest that circulating sPECAM1 may represent a promising biomarker for the detection and monitoring of ventilator-induced lung injury.

Differentially regulated expression of neurokinin B (NKB)/NK3 receptor system in uterine leiomyomata.

STUDY QUESTION: Are the vasoactive peptide neurokinin B (NKB) and its preferred NK3 receptor (NK3R) differentially expressed in leiomyomas compared with normal myometrium? SUMMARY ANSWER: In leiomyomas, NKB is up-regulated and delocalized, while its preferred NK3R is also differentially regulated. WHAT IS KNOWN ALREADY: The expression of NKB/NK3R in the central nervous system is essential for proper function of the human reproductive axis. Additionally, this system is also widely expressed throughout the female genital tract. Leiomyomas impair fertility and are a major source of abnormal uterine bleeding. The aberrant synthesis of local factors can contribute to the pathological symptoms observed in women with leiomyomata. NKB could be one of these factors, since a vasoactive role of this peptide at a peripheral level has been observed in different systems and species, including humans. NK3R is strongly regulated by estrogens and its activation leads to nuclear translocation affecting chromatin structure and gene expression. STUDY DESIGN, SIZE, DURATION: Samples were obtained between 2006 and 2012 from 28 women of reproductive age at different stages of the menstrual cycle by hysterectomy. Leiomyomas and matched macroscopically normal myometrium from each woman were analysed in vitro. PARTICIPANTS/MATERIALS, SETTING, METHODS: RT-PCR, quantitative real time, immunohistochemistry and in situ hybridization were used to investigate the pattern of expression of NKB/NK3R in tissue samples. MAIN RESULTS AND THE ROLE OF CHANCE: Expression of the gene encoding NKB (TAC3) was up-regulated 20-fold in leiomyomas, compared with matched myometrium (P = 0.0008). In tumour tissue, not only connective cells, but also myometrial, endothelial and vascular smooth muscle cells express TAC3 mRNA. Immunoreactivity to NKB was preferentially located in the smooth muscle cell nuclei from normal myometrium in the secretory phase, unlike matched leiomyoma, which showed a predominant cytoplasmic expression pattern. In the normal myometrium, TACR3 mRNA showed variable expression throughout the menstrual phases, with samples showing strong, reduced or no amplification. In leiomyoma, TACR3 was significantly up-regulated compared with matched myometrium (P = 0.0349). LIMITATIONS, REASONS FOR CAUTION: This study is descriptive and although we observed clear differential regulation of the NKB/NK3R system at mRNA and immunohistochemical staining levels in leiomyoma, future functional studies are needed to determine the precise role of NKB in the myometrium in normal and pathological conditions. In addition, further analysis (e.g. in cell culture models) will be required to determine the role of NKB in the nucleus of normal smooth muscle cells, whether nuclear translocation is mediated by NK3R and the consequences of the cytoplasmic expression of NKB in tumour cells. WIDER IMPLICATIONS OF THE FINDINGS: The NKB/NK3R system dysregulation observed in leiomyoma may contribute to the pathological symptoms observed in women with leiomyomata.

Reducing case fatality from acute myocardial infarction in Cienfuegos, Cuba, 1994-2009.

Between 1994 and 2009, the Dr Gustavo Aldereguía University Hospital of Cienfuegos, Cuba implemented a series of interventions that reduced acute myocardial infarction case fatality rate from 47% to 15%. These interventions were part of an institutional plan for myocardial infarction included in the hospital's overall quality assurance strategy. Outcomes resulted primarily from organizational changes (from upgrading of the hospital emergency department and provincial emergency system to creation of a comprehensive coronary care unit and a chest pain center); optimizing use of effective drugs (streptokinase, aspirin, ACE inhibitors and beta blockers); adherence to clinical practice guidelines; and continual and participatory evaluation and adjustment.

Mechanical stress induces lung fibrosis by epithelial-mesenchymal transition.

OBJECTIVES: Many mechanically ventilated patients with acute respiratory distress syndrome develop pulmonary fibrosis. Stresses induced by mechanical ventilation may explain the development of fibrosis by a number of mechanisms (e.g., damage the alveolar epithelium, biotrauma). The objective of this study was t test the hypothesis that mechanical ventilation plays an important role in the pathogenesis of lung fibrosis. METHODS: C57BL/6 mice were randomized into four groups: healthy controls; hydrochloric acid aspiration alone; vehicle control solution followed 24 hrs later by mechanical ventilation (peak inspiratory pressure 22 cm H(2)O and positive end-expiratory pressure 2 cm H(2)O for 2 hrs); and acid aspiration followed 24 hrs later by mechanical ventilation. The animals were monitored for up to 15 days after acid aspiration. To explore the direct effects of mechanical stress on lung fibrotic formation, human lung epithelial cells (BEAS-2B) were exposed to mechanical stretch for up to 48 hrs. MEASUREMENT AND MAIN RESULTS: Impaired lung mechanics after mechanical ventilation was associated with increased lung hydroxyproline content, and increased expression of transforming growth factor-ß, ß-catenin, and mesenchymal markers (α-smooth muscle actin and vimentin) at both the gene and protein levels. Expression of epithelial markers including cytokeratin-8, E-cadherin, and prosurfactant protein B decreased. Lung histology demonstrated fibrosis formation and potential epithelia-mesenchymal transition. In vitro direct mechanical stretch of BEAS-2B cells resulted in similar fibrotic and epithelia-mesenchymal transition formation. CONCLUSIONS: Mechanical stress induces lung fibrosis, and epithelia-mesenchymal transition may play an important role in mediating the ventilator-induced lung fibrosis.

Activation of the Wnt/ß-catenin signaling pathway by mechanical ventilation is associated with ventilator-induced pulmonary fibrosis in healthy lungs.

BACKGROUND: Mechanical ventilation (MV) with high tidal volumes (V(T)) can cause or aggravate lung damage, so-called ventilator induced lung injury (VILI). The relationship between specific mechanical events in the lung and the cellular responses that result in VILI remains incomplete. Since activation of Wnt/ß-catenin signaling has been suggested to be central to mechanisms of lung healing and fibrosis, we hypothesized that the Wnt/ß-catenin signaling plays a role during VILI. METHODOLOGY/PRINCIPAL FINDINGS: Prospective, randomized, controlled animal study using adult, healthy, male Sprague-Dawley rats. Animals (n = 6/group) were randomized to spontaneous breathing or two strategies of MV for 4 hours: low tidal volume (V(T)) (6 mL/kg) or high V(T) (20 mL/kg). Histological evaluation of lung tissue, measurements of WNT5A, total ß-catenin, non-phospho (Ser33/37/Thr41) ß-catenin, matrix metalloproteinase-7 (MMP-7), cyclin D1, vascular endothelial growth factor (VEGF), and axis inhibition protein 2 (AXIN2) protein levels by Western blot, and WNT5A, non-phospho (Ser33/37/Thr41) ß-catenin, MMP-7, and AXIN2 immunohistochemical localization in the lungs were analyzed. High-V(T) MV caused lung inflammation and perivascular edema with cellular infiltrates and collagen deposition. Protein levels of WNT5A, non-phospho (Ser33/37/Thr41) ß-catenin, MMP-7, cyclin D1, VEGF, and AXIN2 in the lungs were increased in all ventilated animals although high-V(T) MV was associated with significantly higher levels of WNT5A, non-phospho (Ser33/37/Thr41) ß-catenin, MMP-7, cyclin D1, VEGF, and AXIN2 levels. CONCLUSIONS/SIGNIFICANCE: Our findings demonstrate that the Wnt/ß-catenin signaling pathway is modulated very early by MV in lungs without preexistent lung disease, suggesting that activation of this pathway could play an important role in both VILI and lung repair. Modulation of this pathway might represent a therapeutic option for prevention and/or management of VILI.

WNT/ß-catenin signaling is modulated by mechanical ventilation in an experimental model of acute lung injury.

PURPOSE: The mechanisms involved in lung injury progression during acute lung injury (ALI) are still poorly understood. Because WNT/ß-catenin signaling has been shown to be involved in epithelial cell injury and hyperplasia during inflammation and sepsis, we hypothesized that it would be modulated by mechanical ventilation (MV) in an experimental model of sepsis-induced ALI. METHODS: This study was a prospective, randomized, controlled animal study performed using adult male Sprague-Dawley rats. Sepsis was induced by cecal ligation and perforation. At 18 h, surviving animals were randomized to spontaneous breathing or two strategies of MV for 4 h: low tidal volume (V (T)) (6 ml/kg) plus 10 cmH2O of positive end-expiratory pressure (PEEP) versus high (20 ml/kg) tidal volume (V (T)) with zero PEEP. Histological evaluation, measurements of WNT5A, total ß-catenin, and matrix metalloproteinase-7 (MMP7) protein levels by Western blot, and their immunohistochemical localization in the lungs were analyzed. RESULTS: Sepsis and high-V (T) MV caused lung inflammation and perivascular edema with cellular infiltrates and collagen deposition. Protein levels of WNT5A, ß-catenin, and MMP7 in the lungs were increased in animals with sepsis-induced ALI. High-V (T) MV was associated with higher levels of WNT5A, ß-catenin, and MMP7 protein levels (p < 0.001), compared to healthy control animals. By contrast, low-V (T) MV markedly reduced WNT5A, ß-catenin, and MMP7 protein levels (p < 0.001). CONCLUSIONS: Our findings demonstrate that the WNT/ß-catenin signaling pathway is modulated early during sepsis and ventilator-induced lung injury, suggesting that activation of this pathway could play an important role in both lung injury progression and repair.

Comparative analysis of the ERα/ERß ratio and neurotensin and its high-affinity receptor in myometrium, uterine leiomyoma, atypical leiomyoma, and leiomyosarcoma.

Deregulated steroids are involved in different hormone-dependent tumors, including benign and malignant uterine neoplasms. Leiomyomas (LM) are estrogen and progesterone-dependent benign tumors, whereas "bizarre or atypical LMs" (AL) are considered a subgroup of LM and clinically benign, although their malignant potential is suspect. Uterine leiomyosarcomas (LMS) are malignant smooth muscle tumors, and ovarian steroids may control their growth. Estrogen effects are mediated by 2 receptors, estrogen receptors (ER) α and ß, and the ratio of both receptors seems to be a critical parameter in the estrogen-mediated carcinogenic process. Estradiol induces the expression of neurotensin (NTS), and the coupling of this peptide with its high-affinity receptor, NTS1, has been involved in the regulation of tumoral cell growth. Given the importance of these markers in tumor development, we aim to determine the status of ERα and ERß in the myometrium and LM, AL, and LMS, concomitantly with the expression of NTS/NTS receptor 1 in these tumors. For that purpose, we use immunohistochemistry for all markers analyzed and in-situ hybridization to detect NTS mRNA. These data suggest that LMS are estrogen-dependent tumors, which may use NTS as an autocrine growth factor. In addition, the phenotype of AL with regard to ERα and ERß status and NTS expression is closer to LMS than LM; thus, a potential malignization of this tumor is feasible.

Neurotensin and neurotensin receptor 1 expression in human myometrium and uterine leiomyomas.

Leiomyomas or fibroids are the most frequently diagnosed tumors of the female genital tract, and their growth seems to be steroid-hormone dependent by a yet undetermined cellular and molecular mechanism. Sexual hormones induce the secretion of growth factor peptides and the expression of their receptors, stimulating cell proliferation. One of these factors is neurotensin, and increasing evidence suggests that it can promote growth of different cancer cells. Since there are no data on neurotensin expression in normal and tumoral uterine tissue, we have analyzed the expression of NTS and NTSR1 receptor using immunohistochemistry for protein detection, in situ hybridization to detect cells expressing NTS mRNA, and RT-PCR to detect NTSR1 transcript as well as any of the alternative splice variants recently described for this receptor. We found that NTS and NTSR1 are expressed in connective cells of normal myometrium. In leiomyomas, immunoreactivity for NTS and NTSR1 receptor is colocalized in the smooth muscle cells that are also transcribing NTS. Women receiving high doses of steroids for in vitro fertilization showed tumor growth and increased immunoreactivity for neurotensin and NTSR1 receptor. Interestingly, alternative splice variants of NTSR1 receptor were detected only in tumoral tissue. These findings suggest a role of steroid hormones inducing neurotensin expression in leiomyoma smooth muscle cells. In these cells, NTS could act autocrinally through NTSR1 receptor, promoting their proliferation.

Manejo de una perforación inveterada de esófago torácico con parche pediculado de diafragma: informe de caso y revisión de literatura / Management of delayed thoracic esophageal perforation with pedicled diaphragmatic patch: Case presentation and review

Introducción. La perforación de la porción intra-torácica del esófago es una condición potencialmente mortal y un desafío clínico. Caso. Presentamos el caso de un paciente masculino de 41 años de edad con neumotórax total izquierdo y antecedente de siete días antes haber sido sometido a instrumentación endoscópica del esófago para remoción de cuerpo extraño (trozo de carne), sufriendo perforación desapercibida del órgano. Se confirmó una fístula esófago-pleural por perforación desapercibida a 33 cms. de la arcada dental. Fue intervenido,realizándole empiemectomía, lavado y parche pediculado de diafragma por vía postero-lateral izquierda y gastrostomía. Una esofagoscopia realizada en el 20° día post-operatorio mostró cicatrización adecuada sin fuga ni estrechez. Conclusión. Se destaca el éxito del procedimiento a pesar de la evolución prolongada de la perforación en este caso...(AU)

Manejo de una perforación inveterada de esófago torácico con parche pediculado de diafragma: informe de caso y revisión de literatura / Management of delayed thoracic esophageal perforation with pedicled diaphragmatic patch: case presentation and review

Introducción. La perforación de la porción intra-torácica del esófago es una condición potencialmente mortal y un desafío clínico. Caso. Presentamos el caso de un paciente masculino de 41 años de edad con neumotórax total izquierdo y antecedente de siete días antes haber sido sometido a instrumentación endoscópica del esófago para remoción de cuerpo extraño (trozo de carne), sufriendo perforación desapercibida del órgano. Se confirmó una fístula esófago-pleural por perforación desapercibida a 33 cms. de la arcada dental. Fue intervenido,realizándole empiemectomía, lavado y parche pediculado de diafragma por vía postero-lateral izquierda y gastrostomía. Una esofagoscopia realizada en el 20° día post-operatorio mostró cicatrización adecuada sin fuga ni estrechez. Conclusión. Se destaca el éxito del procedimiento a pesar de la evolución prolongada de la perforación en este caso...

Mechanical ventilation modulates Toll-like receptor signaling pathway in a sepsis-induced lung injury model.

BACKGROUND: Experimental and clinical studies on sepsis have demonstrated activation of the innate immune response following the initial host-bacterial interaction. In addition, mechanical ventilation (MV) can induce a pulmonary inflammatory response. How these two responses interact when present simultaneously remains to be elucidated. We hypothesized that MV modulates innate host response during sepsis by influencing Toll-like receptor (TLR) signaling. DESIGN: Prospective, randomized, controlled animal study. SUBJECTS: Male, septic Sprague-Dawley rats. INTERVENTIONS: Sepsis was induced by cecal ligation and perforation. At 18 h, surviving animals had the cecum removed and were randomized to spontaneous breathing or two strategies of MV for 4 h: high (20 ml/kg) tidal volume (V (T)) with no positive end-expiratory pressure (PEEP) versus low V (T) (6 ml/kg) plus 10 cmH(2)O PEEP. MEASUREMENTS AND MAIN RESULTS: Histological evaluation, TLR-2, TLR-4, inhibitory kappaB alpha (IkappaBalpha), interleukin-1 receptor-associated kinase-3 (IRAK-3) gene expression, protein levels and immunohistochemical lung localization, inflammatory cytokines gene expression, and protein serum concentrations were analyzed. MV with low V (T) plus PEEP attenuated sepsis-associated TLR-4 activation, and produced a significant decrease of IRAK-3 gene expression and protein levels, a significant increase of IkappaBalpha, and a decrease in lung gene expression and serum levels of cytokines. High-V (T) MV caused a significant increase of TLR-4 and IRAK-3 protein levels, lung and systemic cytokines, and mortality, and a significant decrease of IkappaBalpha. CONCLUSIONS: Our findings suggest a novel mechanism that could partially explain how MV modulates the innate immune response in the lung by interfering with cellular signaling pathways that are activated in response to pathogens.

Mechanical ventilation modulates TLR4 and IRAK-3 in a non-infectious, ventilator-induced lung injury model.

BACKGROUND: Previous experimental studies have shown that injurious mechanical ventilation has a direct effect on pulmonary and systemic immune responses. How these responses are propagated or attenuated is a matter of speculation. The goal of this study was to determine the contribution of mechanical ventilation in the regulation of Toll-like receptor (TLR) signaling and interleukin-1 receptor associated kinase-3 (IRAK-3) during experimental ventilator-induced lung injury. METHODS: Prospective, randomized, controlled animal study using male, healthy adults Sprague-Dawley rats weighing 300-350 g. Animals were anesthetized and randomized to spontaneous breathing and to two different mechanical ventilation strategies for 4 hours: high tidal volume (VT) (20 ml/kg) and low VT (6 ml/kg). Histological evaluation, TLR2, TLR4, IRAK3 gene expression, IRAK-3 protein levels, inhibitory kappa B alpha (IkappaBalpha), tumor necrosis factor-alpha (TNF-alpha) and interleukin-6 (IL6) gene expression in the lungs and TNF-alpha and IL-6 protein serum concentrations were analyzed. RESULTS: High VT mechanical ventilation for 4 hours was associated with a significant increase of TLR4 but not TLR2, a significant decrease of IRAK3 lung gene expression and protein levels, a significant decrease of IkappaBalpha, and a higher lung expression and serum concentrations of pro-inflammatory cytokines. CONCLUSIONS: The current study supports an interaction between TLR4 and IRAK-3 signaling pathway for the over-expression and release of pro-inflammatory cytokines during ventilator-induced lung injury. Our study also suggests that injurious mechanical ventilation may elicit an immune response that is similar to that observed during infections.