Body clocks tend to garner quite a bit of attention from the media. Folks are obsessed with sleep, either they cant get enough or they are getting too much, and all of us can relate to the symptoms of jet lag and morning versus evening types. Therefore it’s a great topic to discuss with wider audiences. I really enjoy chatting with people about the implications of our internal timing system and that research now shows that living in synchrony with your body clock can improve overall health. For the SFI Science week I was asked to provide an interview to the Daily Star called “The Science of Sleep Explained”. I was also asked to go on the “Alive and Kicking” show on Newstalk Radio with Ciara Kelly, you can listen to the interview: What type of sleeper are you? Are you an owl or a lark?
The Monday 12th December MCT Seminar Series will feature presentations from Amy Cole and Edmund Gilbert, of the Human Genetic Variation Research Group at RCSI. Led by Prof. Gianpiero Cavalleri, this research group studies large genetic datasets to investigate population structure, natural selection and the genetic basis of human disease.
Amy Cole’s research focuses on identifying adaptive genetic variants in high altitude populations. There are more than 140 million people living at high altitude who are exposed to two primary environmental extremes; hypobaric hypoxia and cold. At altitudes >2500 m individuals have between 11-14% effective oxygen availability, instead of the 21% available at sea level. Previous studies have identified genetic signals of selection across the genome, which have facilitated an adaptive phenotype for survival in this hypoxic environment. Studying these indigenous high altitude populations will enable us to shed light on genes and molecular mechanisms involved in the response to hypoxia. This insight can help shed light on a number of illnesses associated with hypoxic states in low altitude populations, such as pneumonia, chronic obstructive pulmonary disease, asthma and cancer.
Today Amy presented research on a whole genome sequencing project on native high altitude Quechua individuals, recruited from the city of Cerro de Pasco, Peru, during a field trip in 2015. Amy recently completed a three-month lab placement at MD Anderson Cancer Center with Professor Chad Huff’s research group. Here Amy performed a number of computational analyses to identify regions of the genome that are under selection in this cohort.
Edmund Gilbert’s research involves investigating the genetic structure and diversity found within the Irish. As an island population on the west of Europe, the Irish population is, from the genetic perspective, relatively homogenous compared to populations of the European mainland. As a results of this elevated homogeneity, the Irish population is well suited to studies of genetic disease. Such studies have recently shifted focus towards rare variants, which are more geographically stratified than more common variants. Therefore understanding the population structure within Ireland is key for the optimal design of genetic disease causing rare variant identification within the Irish.
Today Edmund will be presenting research investigating the extent of fine-scale population structure found within Ireland. He has been using SNP-array genotype data from the genetic ancestry DNA cohort called the “Irish DNA Atlas”. The Atlas is a cohort of individuals with Irish ancestry from three generations ago who have all eight of their great-grandparents born within 50 km. Edmund will be presenting analysis based on the suite of software known as fineStructure; investigating both fine-scale structure as well as the genetic ancestry of this structure.
Following completion of my Pharmacology degree in UCD, I began a PhD in breast cancer research under the supervision of Dr. Darran O’Connor, a career I have always been very determined to follow. My research is focused on endocrine-driven breast cancer and understanding the molecular mechanisms that drive this subtype of cancer. Currently, half of breast cancer patients that receive anti-endocrine therapies will relapse, so there is an urgent need for the identification of novel therapeutic targets. Our research is focused on the deubiquitinating enzyme USP11, which we believe plays a key role in driving endocrine-driven breast cancer. When we silence USP11 in vitro, we see a reduction in estrogen receptor activity and cell viability. During the final year of my PhD, I hope to elucidate the mechanism by which USP11 plays this role, and determine the prognostic relevance of USP11 in breast cancer. This could potentially lead to a better understanding of endocrine-driven breast cancer and with further validation, USP11 may represent a novel therapeutic target.
As a pharmacologist, I was thrilled to win best oral presentation at the Irish Association of Pharmacologists Annual Meeting! The standard of talks throughout the day were excellent, with a wide range of topics explored. I was also a finalist for the Irish Cancer Society’s Researcher of the Year Award, which took place 1st December at Trinity College Dublin. The purpose of the evening was to communicate our research to a lay audience, which proved more difficult than expected! Although I didn’t take home the award it was a very enjoyable evening, and the experience was invaluable. As scientists it is important for us to share and communicate our research with the general public and this was a skill I gained from the night!
Neuroblastoma is a childhood cancer caused by the abnormal growth and development of neural crest cells (1). The disease commonly affects children age 5 years or younger. Approximately 50% of children have cancer cells that have migrated to distant sites in the body and formed tumour masses at the time of diagnosis. The main challenge in treating neuroblastoma is to combat tumour metastasis and development of resistance to multiple chemotherapeutic drugs. Despite major advances in available therapies, children with drug resistant and/or recurrent neuroblastoma have a dismal outlook with 5 year survival rates of less than 20%.
Research of Prof. Stallings lab is focused on elucidating the molecular events that contribute to the development and progression of neuroblastoma (2). A major area of research involves the identification and functional analysis of microRNAs that contribute to chemotherapy resistance in neuroblastoma, along with the development of microRNA-mediated therapeutics.
The main research projects were presented at the Departmental meeting on December, 5th.
The first talk by Olga Piskareva has explored how current concepts of development of drug resistant, tumour microenvironment and cell-to-cell communication can be applied to reconstruct relapsed or drug resistant neuroblastoma microenvironment using 3D tumour models.
The second talk was presented by Ciara Fallon. Ciara is our StAR PhD student. She has selected the project ‘Exosome mediated drug resistance in high-risk neuroblastoma’ as her first choice. At the moment she is doing her lab placement in Cancer Genetics group as a part of the RCSI StAR PhD Programme. Built upon results of the former BioAt PhD Student Ross Conlon (3), Ciara’s project is focused on the validation of exosomal miR-548d-5p as a regulator of cell viability and proliferation in cisplatin sensitive and resistant neuroblastoma cell lines.
Finally, the last, but not least was a talk by John Nolan. His talk entitled “MiRNA-124-3p Reduces Cell Viability in Cisplatin Resistant Neuroblastoma Cell Models” was focused on the results submitted to the Royal College of Surgeons for the Degree of Doctor of Philosophy. His studies cover the development of cross resistance to other drugs, investigation of common altered proteins and signaling pathways in cisplatin resistant neuroblastoma cell lines and validation of miRNA that can target these proteins and stop cell proliferation. Part of the results was published last year in Cancer Letters (4).
The work carried out in Prof. Stallings lab is supported through the research grant to Prof. Ray Stallings and PhD fellowship to John Nolan by National Children’s Research Centre, Crumlin Hospital.
Davidoff, A. M. Neuroblastoma. 2012 Semin. Pediatr. Surg.21, 2–14.
MCT is delighted to report that Aya Al-Hasani, one of our undergraduate Medical Students, has come second place in the Biochemistry Section of National Universities of Ireland, Dr HH Stewart Award. The top three students from RCSI are invited to take part in the exams, for each category. Students are sent the essay title a week in advance, are not allowed to confer with staff, and sit the essay under exam conditions.
Aya reflects on her award:
During my first few years at RCSI, my hardest subject was biochemistry. Those complicated signalling pathways seemed absolutely useless to learn at that time. I then started to realise that biochemistry is essentially the platform for understanding all diseases and treatments. Suddenly, biochemistry became my favourite subject! I was so inspired by Prof. Cavalleri, MCT, who was organised and passionate in his teaching. I chose my favourite topic “obesity” after being invited to sit the HH Stewart exam. I was delighted to know that I won the second prize. It meant a lot for me to compete and win an Irish national competition. I just wished my parents were able to see me in the ceremony.
It gives me great pleasure to welcome you to MCT’s blog page. Our department is based within the Royal College of Surgeon’s in Ireland (RCSI) situated on Dublin’s beautiful St Stephen’s Green. This was one of the initial attractions for my move to Dublin from Queen’s University Belfast in Aug 2016, in addition to the vibrant and innovative environment that RCSI provides, through its achievements in education and research.
Our research focuses on understanding the molecular basis of disease in order to develop and apply our findings to the identification of biomarkers and new drug targets. Our aim is to improve the diagnosis, treatment and, ultimately, prevention of disease; enabling MCT to be at the forefront of personalized medicine. With newly renovated state-of-the-art facilities, strong links with Beaumont Hospital, our clinician-scientist teams are leading therapeutic and biomarker discovery in the areas of autoimmune and inflammatory disease, cancer, cardiovascular disease, infection, platelet biology and neurological and psychiatric disease. This is facilitated by strong collaboration with industry allowing us to translate our findings appropriately, revolutionizing healthcare through discoveries and innovations that improve people’s lives.
I hope that you enjoy reading our blog page which seeks to capture the dynamic nature of the teaching and research environment within MCT and pays testimony to the significant accomplishments of our all of our staff and students. I hope that we can inspire you ………