Altered extracellular matrix correlates with an immunosuppressive tumor microenvironment and disease progression in younger adults with oral cavity squamous cell carcinoma.

Introduction: Oral cavity squamous cell carcinoma (OSCC) occurs most frequently in patients >60 years old with a history of tobacco and alcohol use. Epidemiological studies describe increased incidence of OSCC in younger adults (<45 years). Despite its poor prognosis, knowledge of OSCC tumor microenvironment (TME) characteristics in younger adults is scarce and could help inform possible resistance to emerging treatment options. Methods: Patients with OSCC were evaluated using TCGA-HNSC (n=121) and a stage and subsite-matched institutional cohort (n=8) to identify differential gene expression focusing on the extracellular matrix (ECM) and epithelial-mesenchymal transition (EMT) processes in younger (≤45 years) vs. older adults (≥60 years). NanoString nCounter analysis was performed using isolated total RNA from formalin-fixed paraffin-embedded (FFPE) tumor samples. Stained tumor slides from young and old OSCC patients were evaluated for CD8+ T-cell counts using immunohistochemistry. Results: Younger OSCC patients demonstrated significantly increased expression of ECM remodeling and EMT process genes, as well as TME immunosuppression. Gene set enrichment analyses demonstrated increased ECM pathways and concurrent decreased immune pathways in young relative to old patients. Transcripts per million of genetic markers involved in ECM remodeling including LAMB3, VCAN, S100A9, COL5A1, and ITGB2 were significantly increased in tumors of younger vs. older patients (adjusted p-value < 0.10). Young patient TMEs demonstrated a 2.5-fold reduction in CD8+ T-cells as compared to older patients (p < 0.05). Conclusion: Differential gene expression impacting ECM remodeling and TME immunosuppression may contribute to disease progression in younger adult OSCC and has implications on response to evolving treatment modalities, such as immune checkpoint inhibitor therapy.

Cardiovascular Surgery in Panama: Evolution and Training.

Cardiovascular surgery in Panama has depended on constant contributions and support from other developed countries. Although cardiac surgery has reached important milestones, cardiac surgery training is still evolving. Here, we provide a look into both the development and training of cardiac surgery in the Republic of Panama and the importance of international training.

El continente semántico de las representaciones: conocimiento compartido socialmente / The semantic continent of representations: socially shared knowledge

Resumen Objetivo: Identificar el continente semántico de las representaciones sociales, partiendo de la hipótesis teórica de que "el conocimiento es socialmente compartido". Método: El artículo presenta tres estudios en los que participaron un total de 1.659 sujetos, 52 % hombres y 48 % mujeres, seleccionados de manera intencional, por conveniencia, mayores de 16 años de edad, habitantes de la ciudad de Santa Marta, Colombia. Con metodología mixta y preponderancia en lo cualitativo, mediante las técnicas de Análisis Prototípico y Categorial de Representación Social, Análisis de Contenido y Lexicográfico, Asociación Libre de Palabras, apoyados con otros instrumentos, con 20 palabras o frases inductoras para extraer información. Resultados: En los diferentes estudios se produjeron 5.983 tokens (palabras totales) y 1.806 types (palabras diferentes) y el promedio de types por sujeto fue de 1,3. El estudio demuestra que el conocimiento tiene Contenido, Organización y Significado concreto e individual, aunque compartido socialmente, y la estructura semántica que se moviliza conserva unidades significantes cuantitativamente comunes y reducidas. Conclusión: Se demuestra que el continente semántico tiende a ser compacto, lo que sugiere que la cognición tiende a economizar energía y facilitar el comportamiento, yendo a interrelaciones más eficientes y estables.

Abstract Objective: This paper aims to identify semantic continet of social representations, focus on a theoretical hypothesis as follows: "socially shared knowledge". Method: This paper shows three studies. 1659 participants were sampled, 52 % men and 48 % women, intentionally selected, by convenience, over 16 years of age, inhabitants in Santa Marta, Colombia. A mixed methodology showing preponderance of qualitative results; also, techniques of Prototypical and Categorical Analysis of Social Representation, Content Analysis and Lexicographic, Free Association of Words, supported with other instruments, 20 words or phrases inducing to extract information were used. Results: According to different studies 5983 types (total words) and 1806 types (different words) and average of types per subject was 1.3. The study demonstrates that knowledge has concrete and individual although socially shared contents and the semantic structure that moved retains significant quantitatively common and reduced units. Conclusion: It has been shown in this research that the semantic content tends to be compact, suggesting that cognition tends to save energy and facilitate behavior, addressed to more efficient and stable interrelationships.

Monocarboxylate Transporter 4 (MCT4) Knockout Mice Have Attenuated 4NQO Induced Carcinogenesis; A Role for MCT4 in Driving Oral Squamous Cell Cancer.

Head and neck squamous cell carcinoma (HNSCC) is the 6th most common human cancer and affects approximately 50,000 new patients every year in the US. The major risk factors for HNSCC are tobacco and alcohol consumption as well as oncogenic HPV infections. Despite advances in therapy, the overall survival rate for all-comers is only 50%. Understanding the biology of HNSCC is crucial to identifying new biomarkers, implementing early diagnostic approaches and developing novel therapies. As in several other cancers, HNSCC expresses elevated levels of MCT4, a member of the SLC16 family of monocarboxylate transporters. MCT4 is a H+-linked lactate transporter which functions to facilitate lactate efflux from highly glycolytic cells. High MCT4 levels in HNSCC have been associated with poor prognosis, but the role of MCT4 in the development and progression of this cancer is still poorly understood. In this study, we used 4-nitroquinoline-1-oxide (4NQO) to induce oral cancer in MCT4-/- and wild type littermates, recapitulating the disease progression in humans. Histological analysis of mouse tongues after 23 weeks of 4NQO treatment showed that MCT4-/- mice developed significantly fewer and less extended invasive lesions than wild type. In mice, as in human samples, MCT4 was not expressed in normal oral mucosa but was detected in the transformed epithelium. In the 4NQO treated mice we detected MCT4 in foci of the basal layer undergoing transformation, and progressively in areas of carcinoma in situ and invasive carcinomas. Moreover, we found MCT4 positive macrophages within the tumor and in the stroma surrounding the lesions in both human samples of HNSCC and in the 4NQO treated animals. The results of our studies showed that MCT4 could be used as an early diagnostic biomarker of HNSCC. Our finding with the MCT4-/- mice suggest MCT4 is a driver of progression to oral squamous cell cancer and MCT4 inhibitors could have clinical benefits for preventing invasive HNSCC.

Metformin as a Therapeutic Target in Endometrial Cancers.

Endometrial cancer is the most common gynecologic malignancy in developed countries. Its increasing incidence is thought to be related in part to the rise of metabolic syndrome, which has been shown to be a risk factor for the development of hyperestrogenic and hyperinsulinemic states. This has consequently lead to an increase in other hormone-responsive cancers as well e.g., breast and ovarian cancer. The correlation between obesity, hyperglycemia, and endometrial cancer has highlighted the important role of metabolism in cancer establishment and persistence. Tumor-mediated reprogramming of the microenvironment and macroenvironment can range from induction of cytokines and growth factors to stimulation of surrounding stromal cells to produce energy-rich catabolites, fueling the growth, and survival of cancer cells. Such mechanisms raise the prospect of the metabolic microenvironment itself as a viable target for treatment of malignancies. Metformin is a biguanide drug that is a first-line treatment for type 2 diabetes that has beneficial effects on various markers of the metabolic syndrome. Many studies suggest that metformin shows potential as an adjuvant treatment for uterine and other cancers. Here, we review the evidence for metformin as a treatment for cancers of the endometrium. We discuss the available clinical data and the molecular mechanisms by which it may exert its effects, with a focus on how it may alter the tumor microenvironment. The pleiotropic effects of metformin on cellular energy production and usage as well as intercellular and hormone-based interactions make it a promising candidate for reprogramming of the cancer ecosystem. This, along with other treatments aimed at targeting tumor metabolic pathways, may lead to novel treatment strategies for endometrial cancer.

Fructose 2,6-Bisphosphate in Cancer Cell Metabolism.

For a long time, pioneers in the field of cancer cell metabolism, such as Otto Warburg, have focused on the idea that tumor cells maintain high glycolytic rates even with adequate oxygen supply, in what is known as aerobic glycolysis or the Warburg effect. Recent studies have reported a more complex situation, where the tumor ecosystem plays a more critical role in cancer progression. Cancer cells display extraordinary plasticity in adapting to changes in their tumor microenvironment, developing strategies to survive and proliferate. The proliferation of cancer cells needs a high rate of energy and metabolic substrates for biosynthesis of biomolecules. These requirements are met by the metabolic reprogramming of cancer cells and others present in the tumor microenvironment, which is essential for tumor survival and spread. Metabolic reprogramming involves a complex interplay between oncogenes, tumor suppressors, growth factors and local factors in the tumor microenvironment. These factors can induce overexpression and increased activity of glycolytic isoenzymes and proteins in stromal and cancer cells which are different from those expressed in normal cells. The fructose-6-phosphate/fructose-1,6-bisphosphate cycle, catalyzed by 6-phosphofructo-1-kinase/fructose 1,6-bisphosphatase (PFK1/FBPase1) isoenzymes, plays a key role in controlling glycolytic rates. PFK1/FBpase1 activities are allosterically regulated by fructose-2,6-bisphosphate, the product of the enzymatic activity of the dual kinase/phosphatase family of enzymes: 6-phosphofructo-2-kinase/fructose 2,6-bisphosphatase (PFKFB1-4) and TP53-induced glycolysis and apoptosis regulator (TIGAR), which show increased expression in a significant number of tumor types. In this review, the function of these isoenzymes in the regulation of metabolism, as well as the regulatory factors modulating their expression and activity in the tumor ecosystem are discussed. Targeting these isoenzymes, either directly or by inhibiting their activating factors, could be a promising approach for treating cancers.

MCT1 in Invasive Ductal Carcinoma: Monocarboxylate Metabolism and Aggressive Breast Cancer.

Introduction: Monocarboxylate transporter 1 (MCT1) is an importer of monocarboxylates such as lactate and pyruvate and a marker of mitochondrial metabolism. MCT1 is highly expressed in a subgroup of cancer cells to allow for catabolite uptake from the tumor microenvironment to support mitochondrial metabolism. We studied the protein expression of MCT1 in a broad group of breast invasive ductal carcinoma specimens to determine its association with breast cancer subtypes and outcomes. Methods: MCT1 expression was evaluated by immunohistochemistry on tissue micro-arrays (TMA) obtained through our tumor bank. Two hundred and fifty-seven cases were analyzed: 180 cases were estrogen receptor and/or progesterone receptor positive (ER+ and/or PR+), 62 cases were human epidermal growth factor receptor 2 positive (HER2+), and 56 cases were triple negative breast cancers (TNBC). MCT1 expression was quantified by digital pathology with Aperio software. The intensity of the staining was measured on a continuous scale (0-black to 255-bright white) using a co-localization algorithm. Statistical analysis was performed using a linear mixed model. Results: High MCT1 expression was more commonly found in TNBC compared to ER+ and/or PR+ and compared to HER-2+ (p < 0.001). Tumors with an in-situ component were less likely to stain strongly for MCT1 (p < 0.05). High nuclear grade was associated with higher MCT1 staining (p < 0.01). Higher T stage tumors were noted to have a higher expression of MCT1 (p < 0.05). High MCT1 staining in cancer cells was associated with shorter progression free survival, increased risk of recurrence, and larger size independent of TNBC status (p < 0.05). Conclusion: MCT1 expression, which is a marker of high catabolite uptake and mitochondrial metabolism, is associated with recurrence in breast invasive ductal carcinoma. MCT1 expression as quantified with digital image analysis may be useful as a prognostic biomarker and to design clinical trials using MCT1 inhibitors.

Targeting cancer stem cell propagation with palbociclib, a CDK4/6 inhibitor: Telomerase drives tumor cell heterogeneity.

In this report, we systematically examined the role of telomerase activity in lung and ovarian cancer stem cell (CSC) propagation. For this purpose, we indirectly gauged telomerase activity, by linking the hTERT-promoter to eGFP. Using lung (A549) and ovarian (SKOV3) cancer cells, transduced with the hTERT-GFP reporter, we then employed GFP-expression levels to fractionate these cell lines into GFP-high and GFP-low populations. We functionally compared the phenotype of these GFP-high and GFP-low populations. More specifically, we now show that the cancer cells with higher telomerase activity (GFP-high) are more energetically activated, with increased mitochondrial mass and function, as well as increased glycolytic activity. This was further validated and confirmed by unbiased proteomics analysis. Cells with high telomerase activity also showed an increased capacity for stem cell activity (as measured using the 3D-spheroid assay) and cell migration (as measured using a Boyden chamber approach). These enhanced biological phenotypes were effectively inhibited by classical modulators of energy metabolism, which target either i) mitochondrial metabolism (i.e., oligomycin) or ii) glycolysis (i.e., 2-deoxy-glucose), or iii) by using the FDA-approved antibiotic doxycycline, which inhibits mitochondrial biogenesis. Finally, the level of telomerase activity also determined the ability of hTERT-high cells to proliferate, as assessed by measuring DNA synthesis via EdU incorporation. Consistent with these observations, treatment with an FDA-approved CDK4/6 inhibitor (PD-0332991/palbociclib) specifically blocked the propagation of both lung and ovarian CSCs. Virtually identical results were obtained with breast CSCs, which were also highly sensitive to palbociclib at concentrations in the nanomolar range. In summary, CSCs with high telomerase activity are among the most energetically activated, migratory and proliferative cell sub-populations. These observations may provide a mechanistic explanation for tumor metabolic heterogeneity, based on telomerase activity. FDA-approved drugs, such as doxycycline and palbociclib, were both effective at curtailing CSC propagation. Thus, these FDA-approved drugs could be used to target telomerase-high proliferative CSCs, in multiple cancer types. Finally, our experiments also allowed us to distinguish two different cellular populations of hTERT-high cells, one that was proliferative (i.e., replicative immortality) and the other that was non-proliferative (i.e., quiescent). We speculate that the non-proliferative population of hTERT-high cells that we identified could be mechanistically involved in tumor dormancy.

EBV-associated Peripheral T-Cell Lymphoma of Gastrointestinal Tract Presented With Widespread Chronic Inflammation: A Case Report.

We report a case of Epstein-Barr virus (EBV)-associated T-cell lymphoma of gastrointestinal (GI) tract from a 70-year-old white woman who initially presented with a widespread GI inflammation and gastric obstruction. Initial biopsies of the GI tract showed severe chronic inflammation in the esophagus, stomach, and the small intestine. Celiac disease and inflammatory bowel disease were ruled out. The patient was treated with partial gastrectomy. Histology showed gastric wall thickening with EBV-positive, mixed lymphocytic and plasma cell infiltration in the mucosa, and thickening and fibrosis of the submucosa. She developed EBV-associated T-cell lymphoma of the GI tract one and a half years later and expired due to multiorgan failure. The T-cell lymphoma diffusely infiltrated the GI wall without forming a mass lesion. The lymphoma expressed EBV and cytotoxic molecules but lacked common features of extranodal natural killer/T-cell lymphoma nasal type, such as angioinvasion/angiodestruction, necrosis, or CD56 expression. Immunoglobulin heavy chain (IGH) gene and T-cell receptor-γ gene rearrangements and EBV-positive cells were detected at the early stage of the disease. While IGH clones were transient, T-cell clones and EBV-positive cells progressively increased over the disease course. We conclude that this case is best classified as EBV-associated peripheral T-cell lymphoma of GI tract. Age-related immune senescence may have contributed to the uncontrolled GI inflammation and subsequent transformation to T-cell lymphoma.

Cancer metabolism: a therapeutic perspective.

Awareness that the metabolic phenotype of cells within tumours is heterogeneous - and distinct from that of their normal counterparts - is growing. In general, tumour cells metabolize glucose, lactate, pyruvate, hydroxybutyrate, acetate, glutamine, and fatty acids at much higher rates than their nontumour equivalents; however, the metabolic ecology of tumours is complex because they contain multiple metabolic compartments, which are linked by the transfer of these catabolites. This metabolic variability and flexibility enables tumour cells to generate ATP as an energy source, while maintaining the reduction-oxidation (redox) balance and committing resources to biosynthesis - processes that are essential for cell survival, growth, and proliferation. Importantly, experimental evidence indicates that metabolic coupling between cell populations with different, complementary metabolic profiles can induce cancer progression. Thus, targeting the metabolic differences between tumour and normal cells holds promise as a novel anticancer strategy. In this Review, we discuss how cancer cells reprogramme their metabolism and that of other cells within the tumour microenvironment in order to survive and propagate, thus driving disease progression; in particular, we highlight potential metabolic vulnerabilities that might be targeted therapeutically.

Multi-focal control of mitochondrial gene expression by oncogenic MYC provides potential therapeutic targets in cancer.

Despite ubiquitous activation in human cancer, essential downstream effector pathways of the MYC transcription factor have been difficult to define and target. Using a structure/function-based approach, we identified the mitochondrial RNA polymerase (POLRMT) locus as a critical downstream target of MYC. The multifunctional POLRMT enzyme controls mitochondrial gene expression, a process required both for mitochondrial function and mitochondrial biogenesis. We further demonstrate that inhibition of this newly defined MYC effector pathway causes robust and selective tumor cell apoptosis, via an acute, checkpoint-like mechanism linked to aberrant electron transport chain complex assembly and mitochondrial reactive oxygen species (ROS) production. Fortuitously, MYC-dependent tumor cell death can be induced by inhibiting the mitochondrial gene expression pathway using a variety of strategies, including treatment with FDA-approved antibiotics. In vivo studies using a mouse model of Burkitt's Lymphoma provide pre-clinical evidence that these antibiotics can successfully block progression of MYC-dependent tumors.

[Characteristics of mistreatment in medical students of a public university in Peru]. / Características del maltrato hacia estudiantes de medicina de una universidad pública del Perú.

OBJECTIVES: To determine the characteristics of mistreatment among medical students at a public university in the province Ica, Peru. MATERIALS AND METHODS: This cross-sectional study was performed in 2012, and used a probability sample of medical students (freshman to sixth year) at the Universidad Nacional San Luis Gonzaga. A 23-item survey with a Likert scale was used to measure the students' perceptions of psychological, physical, academic and sexual mistreatment. Univariate and bivariate statistical analysis were performed. RESULTS: A total of 281 students were surveyed. The perception of psychological mistreatment was 96.8%; academic, 86.8%; physical, 62.6% and sexual, 20.6%. Physical abuse increased during the clinical-surgical study cicle (p = 0.001). Medical doctors and residents were the main aggressors. Male students reported of receiving assignments as a punishment, not receiving credits for their work, physical mistreatment, verbal threats, insults, or being teased because of their etnic background. Female students were more likely to have experienced sexual abuse. Report of sexual abuse frequently ocurred at the university (45.3%, p=0.002) and hospital (45.0%, p=0.046). Women frequently reported not knowing to whom or where to denounce the abuse (54.6%, p=0.042) and not reporting it because it stopped (56.9%, p=0.048). CONCLUSIONS: There is a high prevalence of abuse among students in which their characteristics as sex, level of study and aggressor allow to identify the types of abuse that they receive.

Bedaquiline, an FDA-approved antibiotic, inhibits mitochondrial function and potently blocks the proliferative expansion of stem-like cancer cells (CSCs).

Bedaquiline (a.k.a., Sirturo) is an anti-microbial agent, which is approved by the FDA for the treatment of multi-drug resistant pulmonary tuberculosis (TB). Bedaquiline is a first-in-class diaryl-quinoline compound, that mechanistically inhibits the bacterial ATP-synthase, and shows potent activity against both drug-sensitive and drug-resistant TB. Interestingly, eukaryotic mitochondria originally evolved from engulfed aerobic bacteria. Thus, we hypothesized that, in mammalian cells, bedaquiline might also target the mitochondrial ATP-synthase, leading to mitochondrial dysfunction and ATP depletion. Here, we show that bedaquiline has anti-cancer activity, directed against Cancer Stem-like Cells (CSCs). More specifically, we demonstrate that bedaquiline treatment of MCF7 breast cancer cells inhibits mitochondrial oxygen-consumption, as well as glycolysis, but induces oxidative stress. Importantly, bedaquiline significantly blocks the propagation and expansion of MCF7-derived CSCs, with an IC-50 of approx. 1-µM, as determined using the mammosphere assay. Similarly, bedaquiline also reduces both the CD44+/CD24low/- CSC and ALDH+ CSC populations, under anchorage-independent growth conditions. In striking contrast, bedaquiline significantly increases oxygen consumption in normal human fibroblasts, consistent with the fact that it is well-tolerated in patients treated for TB infections. As such, future pre-clinical studies and human clinical trials in cancer patients may be warranted. Interestingly, we also highlight that bedaquiline shares certain structural similarities with trans-piceatannol and trans-resveratrol, which are known natural flavonoid inhibitors of the mitochondrial ATP-synthase (complex V) and show anti-aging properties.

Repurposing atovaquone: targeting mitochondrial complex III and OXPHOS to eradicate cancer stem cells.

Atovaquone is an FDA-approved anti-malarial drug, which first became clinically available in the year 2000. Currently, its main usage is for the treatment of pneumocystis pneumonia (PCP) and/or toxoplasmosis in immune-compromised patients. Atovaquone is a hydroxy-1,4-naphthoquinone analogue of ubiquinone, also known as Co-enzyme Q10 (CoQ10). It is a well-tolerated drug that does not cause myelo-suppression. Mechanistically, it is thought to act as a potent and selective OXPHOS inhibitor, by targeting the CoQ10-dependence of mitochondrial complex III. Here, we show for the first time that atovaquone also has anti-cancer activity, directed against Cancer Stem-like Cells (CSCs). More specifically, we demonstrate that atovaquone treatment of MCF7 breast cancer cells inhibits oxygen-consumption and metabolically induces aerobic glycolysis (the Warburg effect), as well as oxidative stress. Remarkably, atovaquone potently inhibits the propagation of MCF7-derived CSCs, with an IC-50 of 1 µM, as measured using the mammosphere assay. Atovaquone also maintains this selectivity and potency in mixed populations of CSCs and non-CSCs. Importantly, these results indicate that glycolysis itself is not sufficient to maintain the proliferation of CSCs, which is instead strictly dependent on mitochondrial function. In addition to targeting the proliferation of CSCs, atovaquone also induces apoptosis in both CD44+/CD24low/- CSC and ALDH+ CSC populations, during exposure to anchorage-independent conditions for 12 hours. However, it has no effect on oxygen consumption in normal human fibroblasts and, in this cellular context, behaves as an anti-inflammatory, consistent with the fact that it is well-tolerated in patients treated for infections. Future studies in xenograft models and human clinical trials may be warranted, as the IC-50 of atovaquone's action on CSCs (1 µM) is >50 times less than its average serum concentration in humans.

Cancer stem cell metabolism.

Cancer is now viewed as a stem cell disease. There is still no consensus on the metabolic characteristics of cancer stem cells, with several studies indicating that they are mainly glycolytic and others pointing instead to mitochondrial metabolism as their principal source of energy. Cancer stem cells also seem to adapt their metabolism to microenvironmental changes by conveniently shifting energy production from one pathway to another, or by acquiring intermediate metabolic phenotypes. Determining the role of cancer stem cell metabolism in carcinogenesis has become a major focus in cancer research, and substantial efforts are conducted towards discovering clinical targets.

Características del maltrato hacia estudiantes de medicina de una universidad pública del Perú / Characteristics of mistreatment in medical students of a public university in Peru

Determinar las características del maltrato hacia estudiantes de Medicina de una universidad pública en la provincia de Ica, Perú. Materiales y métodos. Investigación transversal realizada el 2012 en una muestra probabilística de estudiantes de Medicina de primer a sexto año de la Universidad Nacional San Luis Gonzaga. Se elaboró una encuesta con un total de 23 ítems en una escala likert, para medir la percepción de maltrato de tipo psicológico, físico, académico y sexual; se usaron análisis estadísticos univariados y bivariados. Resultados. Se encuestaron 281 estudiantes. La percepción de maltrato psicológico fue 96,8%, académico 86,8%, físico 62,6% y sexual 20,6%; el maltrato físico se incrementó durante el ciclo de estudio clínico-quirúrgico (p=0,001). Los médicos docentes y médicos residentes fueron los principales agresores. Estudiantes hombres reportaron con mayor frecuencia haber recibido tareas como castigo, no recibir los créditos por su trabajo, maltrato físico, amenazas verbales, insultos o recibir burlas con respecto a su etnia; mientras que el maltrato sexual fue mayor en mujeres. El reporte de maltrato sexual fue más frecuente en la universidad (45,3%, p=0,002) y el hospital (45,0%, p=0,046). Las mujeres reportaron con mayor frecuencia no saber a quién o dónde acudir para denunciar el maltrato (54,6%, p=0,042) y no denunciarlo porque se detuvo el maltrato (56,9%, p=0,048). Conclusiones. Existe una alta prevalencia de maltrato, donde las características de los estudiantes según el sexo, los ciclos de estudio y el agresor permiten identificar los tipos de maltrato que reciben los estudiantes de medicina...

To determine the characteristics of mistreatment among medical students at a public university in the province Ica, Peru. Materials and methods. This cross-sectional study was performed in 2012, and used a probability sample of medical students (freshman to sixth year) at the Universidad Nacional San Luis Gonzaga. A 23-item survey with a Likert scale was used to measure the students' perceptions of psychological, physical, academic and sexual mistreatment. Univariate and bivariate statistical analysis were performed. Results. A total of 281 students were surveyed. The perception of psychological mistreatment was 96.8%; academic, 86.8%; physical, 62.6% and sexual, 20.6%. Physical abuse increased during the clinical-surgical study cicle (p = 0.001). Medical doctors and residents were the main aggressors. Male students reported of receiving assignments as a punishment, not receiving credits for their work, physical mistreatment, verbal threats, insults, or being teased because of their etnic background. Female students were more likely to have experienced sexual abuse. Report of sexual abuse frequently ocurred at the university (45.3%, p=0.002) and hospital (45.0%, p=0.046). Women frequently reported not knowing to whom or where to denounce the abuse (54.6%, p=0.042) and not reporting it because it stopped (56.9%, p=0.048). Conclusions. There is a high prevalence of abuse among students in which their characteristics as sex, level of study and aggressor allow to identify the types of abuse that they receive...

Metastasis and Oxidative Stress: Are Antioxidants a Metabolic Driver of Progression?

The role of reactive oxygen species (ROS) and antioxidants in cancer is controversial because of their context-dependent ability to promote or suppress tumorigenesis. Piskounova et al. (2015) now show that ROS limit distant metastasis: only cells with increased antioxidant capacity are able to succeed in their purpose to metastasize.

Mitochondrial mass, a new metabolic biomarker for stem-like cancer cells: Understanding WNT/FGF-driven anabolic signaling.

Here, we developed an isogenic cell model of "stemness" to facilitate protein biomarker discovery in breast cancer. For this purpose, we used knowledge gained previously from the study of the mouse mammary tumor virus (MMTV). MMTV initiates mammary tumorigenesis in mice by promoter insertion adjacent to two main integration sites, namely Int-1 (Wnt1) and Int-2 (Fgf3), which ultimately activates Wnt/ß-catenin signaling, driving the propagation of mammary cancer stem cells (CSCs). Thus, to develop a humanized model of MMTV signaling, we over-expressed WNT1 and FGF3 in MCF7 cells, an ER(+) human breast cancer cell line. We then validated that MCF7 cells over-expressing both WNT1 and FGF3 show a 3.5-fold increase in mammosphere formation, and that conditioned media from these cells is also sufficient to promote stem cell activity in untransfected parental MCF7 and T47D cells, as WNT1 and FGF3 are secreted factors. Proteomic analysis of this model system revealed the induction of i) EMT markers, ii) mitochondrial proteins, iii) glycolytic enzymes and iv) protein synthesis machinery, consistent with an anabolic CSC phenotype. MitoTracker staining validated the expected WNT1/FGF3-induced increase in mitochondrial mass and activity, which presumably reflects increased mitochondrial biogenesis. Importantly, many of the proteins that were up-regulated by WNT/FGF-signaling in MCF7 cells, were also transcriptionally over-expressed in human breast cancer cells in vivo, based on the bioinformatic analysis of public gene expression datasets of laser-captured patient samples. As such, this isogenic cell model should accelerate the discovery of new biomarkers to predict clinical outcome in breast cancer, facilitating the development of personalized medicine.Finally, we used mitochondrial mass as a surrogate marker for increased mitochondrial biogenesis in untransfected MCF7 cells. As predicted, metabolic fractionation of parental MCF7 cells, via MitoTracker staining, indicated that high mitochondrial mass is a new metabolic biomarker for the enrichment of anabolic CSCs, as functionally assessed by mammosphere-forming activity. This observation has broad implications for understanding the role of mitochondrial biogenesis in the propagation of stem-like cancer cells. Technically, this general metabolic approach could be applied to any cancer type, to identify and target the mitochondrial-rich CSC population.The implications of our work for understanding the role of mitochondrial metabolism in viral oncogenesis driven by random promoter insertions are also discussed, in the context of MMTV and ALV infections.