Pro-Apoptotic and Anti-Invasive Properties Underscore the Tumor-Suppressing Impact of Myoglobin on a Subset of Human Breast Cancer Cells

The expression of myoglobin (MB), well known as the oxygen storage and transport protein of myocytes, is a novel hallmark of the luminal subtype in breast cancer patients and correlates with better prognosis. The mechanisms by which MB impacts mammary tumorigenesis are hitherto unclear. We aimed to unravel this role by using CRISPR/Cas9 technology to generate MB-deficient clones of MCF7 and SKBR3 breast cancer cell lines and subsequently characterize them by transcriptomics plus molecular and functional analyses. As main findings, loss of MB at normoxia upregulated the expression of cell cyclins and increased cell survival, while it prevented apoptosis in MCF7 cells. Additionally, MB-deficient cells were less sensitive to doxorubicin but not ionizing radiation. Under hypoxia, the loss of MB enhanced the partial epithelial to mesenchymal transition, thus, augmenting the migratory and invasive behavior of cells. Notably, in human invasive mammary ductal carcinoma tissues, MB and apoptotic marker levels were positively correlated. In addition, MB protein expression in invasive ductal carcinomas was associated with a positive prognostic value, independent of the known tumor suppressor p53. In conclusion, we provide multiple lines of evidence that endogenous MB in cancer cells by itself exerts novel tumor-suppressive roles through which it can reduce cancer malignancy

Mass Spectrometric Proteomics

As suggested by the title of this Special Issue, liquid chromatography-mass spectrometry plays a pivotal role in the field of proteomics. Indeed, the research and review articles  published in the Issue clearly evidence how the data produced by this sophisticated methodology may promote impressive advancements in this area. From among the topics discussed in the Issue, a few point to the development of  new procedures for the  optimization of the experimental conditions that should be applied  for the identification of proteins present in complex mixtures.  Other applications  described in these articles show  the huge potential of  these strategies in the protein profiling of organs and  range from  to the study of post-translational tissue modifications to the investigation of the molecular mechanisms behind human disorders and the identification of potential biomarkers of these diseases

Insertional Mutagenesis to Identify Novel Determinants of Pathogenicity in Magnaporthe oryzae

Rice blast disease is caused by the filamentous fungus Magnaporthe oryzae and is the most destructive disease of cultivated rice. It was the first plant pathogenic fungus to have its genome sequence published which opened up the opportunities to discern the principal genetic components that confer pathogenicity on the fungus. The availability of the genome sequence has also presented fresh challenges in terms of converting sequence data into meaningful biological information. Functional genomics studies involve the generation of genome-wide mutant collections and comprehensive screens with potential to identify novel pathogenicity determinants. In this study I utilized Agrobacterium tumefaciens mediated random insertional mutagenesis to study the infection mechanism of M. oryzae. A collection 10,200 M. oryzae T-DNA insertion mutants were generated as part of this study and pathogenicity was assayed by high-throughput disease screening. From the primary qualitative screening I obtained 200 mutants that were reduced or lacking in pathogenicity. Quantitative re-screening allowed selection of 71 T-DNA mutants, including 9 non-pathogenic and 63 reduced virulence mutants exhibiting at least a 50% reduction in disease symptoms. Finally, we selected 8 non-pathogenic mutants for detailed phenotypic and gene functional analysis. A novel approach was used to retrieve T-DNA tagged genes from mutants of interest. Next generation DNA sequencing (NGS) was used to retrieve T-DNA flanking sequences in a high-throughput manner. The efficiency of NGS to facilitate the high-throughput large scale insertional mutagenesis was therefore demonstrated. Out of 8 selected mutants, I identified three novel genes that putatively encode a transcription factor, a PH domain containing signalling protein and a MAP kinase. I also provided evidence that, MGG_05343 is a functional C6 zinc finger transcription factor involved in conidiogenesis. The PH domain containing protein MGG_12956 is involved in vegetative growth, condiogenesis and virulence. The novel kinase MGG_15325 is a S. cerevisiae IME2 homolog that belongs to the Ime2 class of non-classical MAP kinase subfamily. Intriguingly, M. oryzae IME2 seems to have an essential role in growth in planta because the mutant was able to penetrate and colonize plant tissue but failed to cause necrotic rice blast lesions. Identification of these novel genes will allow us greater insight into the processes required for condiogenesis, vegetative and invasive growth and a more integrated understanding of the post-penetration phases of plant tissue colonization. Interestingly, I identified two mutants tagged with T-DNA insertion in the autophagy genes ATG2 and ATG3, reaffirming the importance of infection-associated autophagy in plant infection by M. oryzae and we characterized the ATG3 gene. In addition, I generated a resource of 63 unidentified T-DNA mutants which can potentially lead to identification of more novel determinants of pathogenicity in rice blast disease.The Halpin PhD Studentship Programm

The developing brain and pediatric brain cancer:in the context of genomic integrity, replication stress and DNA damage

During the early development of the embryo, brain development also begins. Because this must occur in a relatively short period of time, the cells experience a lot of stress due to the high speed of cell division. This can lead to mistakes in the DNA, which can lead to mutations. This can eventually develop into (brain) cancer. In this thesis, brain development and two different childhood brain cancers, medulloblastoma and high-grade glioma, are discussed. Medulloblastoma is a cancer that originates in the small brain, the cerebellum. High-grade gliomas can arise in different locations in the biggest part of the brain, the cerebrum. This depends on which mutation it contains. It is thought that these mutations and location in the brain are due to the point in the developmental phase that the brain was in when errors in the DNA developed, with certain phases perhaps more resistant to these errors than others. In addition, this thesis looks at the relationship of healthy cells during brain development and cancer formation by investigating the response to cell division stress and DNA damage of healthy cells. Here, too, cells from different developmental phases of the brain are examined and compared, and the difference in response between cells with and without a certain mutation in these mechanisms is examined. With the research in this thesis we try to gain moreknowledge about why these cancers behave in a certain way and develop

A Systematic Review and Meta-Analysis of the Incidence of Injury in Professional Female Soccer

The epidemiology of injury in male professional football is well documented and has been used as a basis to monitor injury trends and implement injury prevention strategies. There are no systematic reviews that have investigated injury incidence in women’s professional football. Therefore, the extent of injury burden in women’s professional football remains unknown. PURPOSE: The primary aim of this study was to calculate an overall incidence rate of injury in senior female professional soccer. The secondary aims were to provide an incidence rate for training and match play. METHODS: PubMed, Discover, EBSCO, Embase and ScienceDirect electronic databases were searched from inception to September 2018. Two reviewers independently assessed study quality using the Strengthening the Reporting of Observational Studies in Epidemiology statement using a 22-item STROBE checklist. Seven prospective studies (n=1137 professional players) were combined in a pooled analysis of injury incidence using a mixed effects model. Heterogeneity was evaluated using the Cochrane Q statistic and I2. RESULTS: The epidemiological incidence proportion over one season was 0.62 (95% CI 0.59 - 0.64). Mean total incidence of injury was 3.15 (95% CI 1.54 - 4.75) injuries per 1000 hours. The mean incidence of injury during match play was 10.72 (95% CI 9.11 - 12.33) and during training was 2.21 (95% CI 0.96 - 3.45). Data analysis found a significant level of heterogeneity (total Incidence, X2 = 16.57 P < 0.05; I2 = 63.8%) and during subsequent sub group analyses in those studies reviewed (match incidence, X2 = 76.4 (d.f. = 7), P <0.05; I2 = 90.8%, training incidence, X2 = 16.97 (d.f. = 7), P < 0.05; I2 = 58.8%). Appraisal of the study methodologies revealed inconsistency in the use of injury terminology, data collection procedures and calculation of exposure by researchers. Such inconsistencies likely contribute to the large variance in the incidence and prevalence of injury reported. CONCLUSIONS: The estimated risk of sustaining at least one injury over one football season is 62%. Continued reporting of heterogeneous results in population samples limits meaningful comparison of studies. Standardising the criteria used to attribute injury and activity coupled with more accurate methods of calculating exposure will overcome such limitations