Skip to main content

Trinity College Dublin, The University of Dublin

Menu Search


Trinity College Dublin By using this website you consent to the use of cookies in accordance with the Trinity cookie policy. For more information on cookies see our cookie policy.

      
Profile Photo

Dr. Niamh O'Boyle

Associate Professor (Pharmacy)
23 WESTLAND ROW
      
Profile Photo

Dr. Niamh O'Boyle

Associate Professor (Pharmacy)
23 WESTLAND ROW

 NIAMH.OBOYLE@tcd.ie

 3531896 2524


Dr. Niamh O'Boyle is an Associate Professor in Pharmaceutical Chemistry in Trinity College Dublin. She received her BSc(Pharm)(1st class) and PhD degree from Trinity College Dublin, working with Prof. Mary J. Meegan. She subsequently completed postdoctoral fellowships at the University of Gothenburg (Sweden) with Prof. Ann-Therese Karlberg and the School of Biochemistry and Immunology (TCD), working with Prof. Daniela Zisterer. Niamh is fascinated by the interaction of chemicals, both drugs and toxins, with the body. This inspires her research in the development of novel drugs for hard-to-treat cancers and in discovering the underlying mechanisms of skin allergy. She runs several diverse research projects and is currently supported by the TCD Provost's PhD Project Award, Panoz Pharmaceutical Innovation PhD Scholarship, Irish Research Council, EU MSCA-RISE (CRYSTAL3), Wellcome Trust, CAMS-UK, the Royal Society of Chemistry and Enterprise Ireland. Her research work is consistently published in high-quality international, peer-reviewed journals and she has been a co-applicant on two published patents. She was awarded a Fellowship of TCD in 2023. Niamh is a member of the Pharmaceutical Society of Ireland and the Royal Society of Chemistry. She has been appointed to the Physical, Chemical & Mathematical Sciences multidisciplinary committee of the Royal Irish Academy (2022-2026). She was the early career representative on the Royal Society of Chemistry Ireland Regional Steering Group (2020 - 2023) and is a committee member of the international GP2A medicinal chemistry group. She was also involved with AthenaSwan through the School of Pharmacy and Pharmaceutical Sciences Self-Assessment Team. She is passionate about outreach and has been involved in EU Researchers Night and Higher Options, amongst others. She developed and delivered an online interactive workshop called 'Kids Science: Coronavirus' to over 1500 children aged 7-10 across Ireland and abroad in 2020-21.
  ALLERGIC CONTACT DERMATITIS   Anticancer Drug Design   ANTICANCER DRUGS   Antiestrogens   ANTI-TUBULIN ACTIVITY   BREAST CANCER   Cancer drug discovery   COLON CANCER   Design, synthesis and mechanism of action of novel anti-estrogenic compounds   Drug discovery   EPOXY   EPOXY RESINS   ESTROGEN   Estrogen Receptor   INDUCED LIPID-PEROXIDATION   LIPID OXIDATION   Multidisciplinary approach to drug discovery and development   OESTROGEN   PHOTOALLERGIC CONTACT-DERMATITIS   TAMOXIFEN
Project Title
 Biochemical Evaluation of the 'Combretazets' - Novel and Potent Drugs for Treating Multi-Drug Resistant Cancers
From
To
Summary
The aim of this project is to evaluate the biochemical effects of novel, enantiomerally pure β-lactams on breast cancer cells. Specific assays will investigate effects on breast cancer cell proliferation, cell cycle, apoptosis and tubulin polymerisation. This will enable us to identify the best drug candidate for progression to pre-clinical experiments, e.g. in vivo assessment.
Funding Agency
Wellcome Trust Institutional Strategic Support Fund
Programme
Start-Up Funding for Newly Independent Investigators
Person Months
12
Project Title
 Analysis of Skin Lipids in Contact Allergy by Mass Spectrometry
From
August 2020
To
September 2021
Summary
Funding Agency
CAMS-UK and Royal Society of Chemistry
Programme
Analytical Chemistry Trust Fund CAMS Fellowships
Person Months
6
Project Title
 Can the stress response to reactive oxygen species in tumours be exploited to give a new class of anti-cancer drugs? Dual-targeting of the stress response to reactive oxygen species and tubulin by piperlongumine and related analogues
From
2014
To
2016
Summary
Cancer is a disease that affects thousands of people and their families every year. The aim of cancer research is to understand what happens in the body to cause cancer, enabling us to prevent it or treat it. This project will investigate new ways to treat cancer, using chemicals called 'oxygen free radicals' that are found in tumors. The research will be based on a natural product known as piperlongumine and the effect that it has on the response of cancer cells to oxygen free radicals. Piperlongumine is found in the fruit plant Piper longum ('Long pepper'). It was recently discovered that piperlongumine can selectively kill cancer cells without harming normal, healthly cells. It is thought that this is because piperlongumine raises the levels of reactive oxygen free radicals in cancer cells, which causes them to die. I will investigate if piperlongumine and other related chemicals have additional biochemical effects in cancer cells that contribute to their anti-cancer effects. In particular the research will focus on a protein called tubulin that is extremely important for cell replication, both in cancer cells and healthy cells. The overall, long-term goal of this research is to design new anti-cancer drugs that will selectively kill cancer cells by manipulating oxygen free radicals and tubulin.
Funding Agency
Irish Research Council
Programme
Government of Ireland Postdoctoral Fellowship
Person Months
24
Project Title
 Development of Novel Anti-Tumour Beta-Lactams for Treatment of Aggressive Breast Cancer
From
September 2018
To
September 2022
Summary
Triple-negative breast cancer (TNBC) is the most aggressive and lethal form of breast cancer. The most successful drugs target three receptors common to most breast cancers (estrogen receptors, progesterone receptors and HER2 receptors). TNBC does not express any of these receptors and, despite many advances in cancer treatment, remains difficult to treat. This project aims to address an unmet clinical need by developing drugs to treat TNBC. With an increasing incidence of cancer and an ageing population, we need to address this problem now to improve future outcomes for the individual and for society. The development of new drugs to treat TNBC will improve quality-of-life for patients and alleviate the economic burden of cancer on society. Tubulin is a protein that is essential for tumour cell replication. Drugs targeting tubulin, e.g. paclitaxel, are used to treat a wide range of cancers and have saved countless lives. Unfortunately drug resistance and side-effects are common, hence development of new drugs is necessary. A large library of anti-tumour β-lactams that interact with tubulin and halt the growth of cancer cells, including TNBC cells, have been developed by our research group. These compounds are amongst the most potent tubulin-targeting agents ever reported. The β-lactams were initially evaluated as a racemic mixture of two isomers known as enantiomers. It is common that one enantiomer of a drug has a better therapeutic profile, although many drugs are still produced as racemates. The next critical step in this project involves chemical synthesis of the enantiomers of our β-lactams. The most biologically active compounds from our series of over 250 analogues have been chosen for synthesis as single enantiomers. Upon completion of synthesis, biological evaluation of their relative potencies in TBNC cells will allow us to determine which has superior activity. The most promising compounds will be progressed for preclinical development to establish a clinical drug candidate with the potential to save lives. The three overall aims of this research project are: 1. Development of efficient methods for chemical synthesis of enantiomerically pure β-lactams. 2. Evaluation of the anti-tumour effects of the β-lactams in breast cancer cells. 3. Development of the best β-lactams as potential clinical drug candidates for treatment of TNBC. The outcomes of the project will be twofold: firstly, advances in the design of novel anti-cancer drugs to treat TNBC and secondly, development of more efficient methods to synthesise enantiomerically pure β-lactams. The methodology developed from the latter can potentially be applied to the synthesis of number of commercially available β-lactam-containing drugs, e.g. ezetimibe.
Funding Agency
University of Dublin, Trinity College
Programme
Provost's PhD Project Awards
Person Months
48
Project Title
 Investigation of the effects of hormonal cancer therapy on levels of interferon epsilon in cancer cells of female reproductive tract and breast
From
2018
To
2018
Summary
Breast cancer is the most common cancer amongst Irish women and its incidence is predicted to rise. The most common subtype is estrogen-receptor positive (ER+) breast cancer, comprising nearly four out of every five cases (79%). Long-term (5 years) hormone treatment such as use of tamoxifen and raloxifene has revolutionised the treatment of ER+ breast cancer and improved the lives of millions of women worldwide. Tamoxifen and raloxifene are selective-estrogen receptor modulators (SERMs), modifying the effects of estrogen in female reproductive tissues. They act as antagonists of the ER in some tissues, such as the breast, and agonists in other tissues, e.g. bone. Tamoxifen is the first-line treatment and is also under investigation for the prophylaxis of breast cancer in high-risk women. Unfortunately, long-term use of tamoxifen significantly increases the risk of endometrial cancer whilst raloxifene has a protective effect. The reasons for this are still unclear and there are likely to be a number of contributing factors. Interferon-epsilon (IFNε) is recently discovered type I interferon that is constitutively expressed in the female reproductive tract (FRT), including the endometrium. IFNε expression is under hormonal control and IFNε levels fluctuate depending on the relative concentrations of estrogen and progesterone. Our preliminary data strongly indicates that IFNε also acts as a tumour suppressor in the FRT. We propose that SERMs modify expression levels of IFNε in endometrial and breast cells and tissues. This would contribute to altered immunity in the endometrium, potentially leading to increased risk of developing cancerous cells. Given the current widespread use of tamoxifen and its potential prophylactic use in the future, unravelling the mechanisms leading to tamoxifen-associated endometrial cancer is of paramount importance. Such knowledge could influence patient treatment, cancer strategies and prescribing guidelines in the future.
Funding Agency
Trinity St. James's Cancer Institute
Programme
Cancer Immunology Stimulus Awards

Page 1 of 2
Details Date
Royal Irish Academy Physical, Chemical & Mathematical Sciences multidisciplinary committee (member) 2022-2026
Royal Society of Chemistry Ireland Regional Steering Group - Early Career Representative 2020 - 2023
Group for the Promotion of Pharmaceutical chemistry in Academia: committee member 2017 - present
COST Action CA17104 Stratagem - management committee substitute (Ireland) and working group member 2019
Journal Reviewer (journals including PNAS, RSC Med.Chem., J.Med.Chem., Eur.J.Med.Chem., ACS Med.Chem.Lett.)
Language Skill Reading Skill Writing Skill Speaking
English Fluent Fluent Fluent
French Medium Basic Basic
Irish Medium Basic Medium
Swedish Fluent Fluent Fluent
Details Date From Date To
Member of the Pharmaceutical Society of Ireland 2007 Present
Fellow of Trinity College Dublin 2023 Present
Fellow of the Institute of Chemistry of Ireland 2024 Present
Member of the Royal Society of Chemistry 2017 Present
Member of the European Society for Contact Dermatitis 2019 Present
Member of the Irish Association for Cancer Research 2016 2023
Member of the European Association for Cancer Research 2016 2023
Associate Member of the Institute of Chemistry of Ireland 2022 2024
Moore AI, Moreira ASP, Guerra IMS, Goracci L, Domingues P, Melo T, Domingues MR, O'Boyle NM., A lipidomic approach towards identifying the effects of fragrance hydroperoxides on keratinocytes., Contact dermatitis, 92, (3), 2025, p176 - 186, Journal Article, PUBLISHED  DOI  URL
Bayraktar G, Carro L, Decker M, Giuntini F, Helesbeux JJ, Marchand P, Matthews SE, McCarthy FO, Mistry SN, Moreira VM, O'Boyle NM, Pace V, Rochais C, Saylam M, Sotelo E., Shaping Future Medicinal Chemists: Perspectives from European Schools of Pharmacy within the GP2A Network., Journal of medicinal chemistry, 2025, Journal Article, PUBLISHED  DOI  URL
Ana G, Malebari AM, Noorani S, Fayne D, O'Boyle NM, Zisterer DM, Pimentel EF, Endringer DC, Meegan MJ., (E)-1-(3-(3-Hydroxy-4-Methoxyphenyl)-1-(3,4,5-Trimethoxyphenyl)allyl)-1H-1,2,4-Triazole and Related Compounds: Their Synthesis and Biological Evaluation as Novel Antimitotic Agents Targeting Breast Cancer., Pharmaceuticals (Basel, Switzerland), 18, (1), 2025, p118 , Journal Article, PUBLISHED  DOI
McVicker RU, O'Boyle NM., Chirality of New Drug Approvals (2013-2022): Trends and Perspectives., Journal of Medicinal Chemistry, 67, (4), 2024, p2305-2320 , Journal Article, PUBLISHED  DOI  URL
McLoughlin EC, Twamley B, O'Boyle NM., Candida antarctica Lipase B mediated kinetic resolution: A sustainable method for chiral synthesis of antiproliferative ß-lactams., European Journal of Medicinal Chemistry, 276, 2024, p116692 , Journal Article, PUBLISHED  DOI  URL
Ndreu L., Carlsson J., Ponting D.J., Niklasson I.B., Steen E.J.L., McHugh L., O'Boyle N.M., Luthman K., Karlberg A.-T., Karlsson I., Bioactivation of cinnamic alcohol in a reconstructed human epidermis model and evaluation of sensitizing potency of the identified metabolites, Frontiers in Toxicology, 6, 2024, Journal Article, PUBLISHED  DOI  URL
James Patrick McKeown, Andrew J Byrne, Sandra A Bright, Clara E Charleton, Shubhangi Kandwal, Ivan Cmelo, Brendan Twamley, Anthony M McElligott, Darren Fayne, Niamh M O'Boyle, D.Clive Williams, Mary Jane Meegan, Synthesis and Biochemical evaluation of Ethanoanthracenes and Related Compounds: Antiproliferative and Pro-apoptotic Effects in Chronic Lymphocytic Leukaemia (CLL), Pharmaceuticals, 17, (8), 2024, p1034 , Journal Article, PUBLISHED  DOI  URL
McLoughlin E.C., Twamley B., O'Brien J.E., Hannon Barroeta P., Zisterer D.M., Meegan M.J., O'Boyle N.M., Synthesis by diastereomeric resolution, biochemical evaluation and molecular modelling of chiral 3-hydroxyl b-lactam microtubule-targeting agents for the treatment of triple negative breast and chemoresistant colorectal cancers, Bioorganic Chemistry, 141, 2023, Journal Article, PUBLISHED  DOI  URL
Wang S., Malebari A.M., Greene T.F., Kandwal S., Fayne D., Nathwani S.M., Zisterer D.M., Twamley B., O'Boyle N.M., Meegan M.J., Antiproliferative and Tubulin-Destabilising Effects of 3-(Prop-1-en-2-yl)azetidin-2-Ones and Related Compounds in MCF-7 and MDA-MB-231 Breast Cancer Cells, Pharmaceuticals, 16, (7), 2023, p1000-, Journal Article, PUBLISHED  DOI  URL
Byrne A.J., Bright S.A., McKeown J.P., Bergin A., Twamley B., McElligott A.M., Noorani S., Kandwal S., Fayne D., O'Boyle N.M., Williams D.C., Meegan M.J., Synthesis and Pro-Apoptotic Effects of Nitrovinylanthracenes and Related Compounds in Chronic Lymphocytic Leukaemia (CLL) and Burkitt's Lymphoma (BL), Molecules, 28, (24), 2023, Journal Article, PUBLISHED  DOI  URL
  

Page 1 of 6
Eavan C. McLoughlin , Niamh M. O'Boyle, A biocatalytic approach for kinetic resolution toward enantiopure anti-cancer beta-lactams using Candida antarctica Lipase B, 9th International Electronic Conference on Medicinal Chemistry, 1-30 November 2023, edited by Alfredo Berzal-Herranz , 2023, Notes: [Session: Novel and Sustainable approaches in Medicinal Chemistry], Poster, PUBLISHED
Niamh O'Boyle(ed.), 30th Annual GP2A Medicinal Chemistry Conference, Pharmaceuticals, Trinity College Dublin, Ireland, 16, (3), 24-26th August 2022, 2023, 432-, Proceedings of a Conference, PUBLISHED
Niamh M. O'Boyle, Targeting Tubulin - a Tale of the Development of the Combretazets, SCF 29th Young Research Fellows Meeting, Nantes, 4-6 July 2022, 2022, Société de Chimie Thérapeutique, Invited Talk, PRESENTED
Mary J. Meegan and Niamh M. O'Boyle, Special Issue 'Anticancer Drugs 2021', Pharmaceuticals, 15, (4), 2022, p479-, Journal Article, PUBLISHED
Niamh M. O'Boyle, FS-44: Nature-Inspired Epoxy Resins: PinoDGE, Contact Dermatitis, European Society for Contact Dermatitis 15th Congress, Amsterdam, 8-10 June 2022, 86, (S1), Wiley, 2022, pp20-, Oral Presentation, PRESENTED
Niamh M. O'Boyle, FC-48: Probing the skin with ToF-SIMS: skin lipid composition upon exposure to metal allergens, Contact Dermatitis, European Society for Contact Dermatitis 15th Congress, Amsterdam, 8-10 July 2022, 86, (S1), Wiley, 2022, pp54 - 55, Oral Presentation, PRESENTED
Alina Qaisar, Jacintha O'Sullivan, Niamh M. O'Boyle, P22: Synthesis and Physicochemical Properties of Amino Acid Prodrugs of the Radiosensitser Pyrazinib, 30th Annual GP2A Medicinal Chemistry Conference, Dublin, 24-26 August 2022, 2022, Poster, PRESENTED
Eavan C. McLoughlin, Patricia Hannon Barroeta, Daniela M. Zisterer, and Niamh M. O'Boyle, P41: A comparison of chiral diastereomeric versus kinetic enzymatic resolution for enantioseparation of microtubule depolymerising beta-lactams, 30th Annual GP2A Medicinal Chemistry Conference, Dublin, 24-26 August 2022, 2022, Poster, PRESENTED
Niamh O'Boyle, Probing the Skin with ToF-SIMS: do Metal Allergens Change Lipid Composition?, 29th Meeting of the European Research Group on Experimental Contact Dermatitis, Online, 3rd February, 2021, Invited Talk, PRESENTED
Helesbeux J.-J., Carro L., McCarthy F.O., Moreira V.M., Giuntini F., O'Boyle N.M., Matthews S.E., Bayraktar G., Bertrand S., Rochais C., Marchand P., 29th Annual GP2A Medicinal Chemistry Conference, Pharmaceuticals, 14, (12), 2021, part. 1278 , Journal Article, PUBLISHED

  


Page 1 of 2
Award Date
Best Poster Presentation, STRATAGEM WG2 Meeting and International Online Symposium on 'Synthesis and nanodelivery strategies for new therapeutic tools against Multidrug Resistant Tumours' (online) 15-Dec-2020
CAMS-UK Fellowship 2019
Trinity College Dublin Provost's PhD Project Award 2018
Outstanding Reviewer Award, European Journal of Medicinal Chemistry 2017
Irish Research Council Government of Ireland Postdoctoral Fellowship 2014 - 2016
University of Gothenburg Department of Chemistry Postdoctoral Scholarship 2010 - 2012
XVIIIth European Conference of GP2A: Best Presentation 2009
Trinity College Dublin Postgraduate Research Studentship 2009
Irish Cancer Society Oncology Scholars Travel Award 2008
Trinity College Dublin Postgraduate Research Studentship (1252) 2006
Pharmaceutical Society of Ireland Young Pharmacist's forum: Best poster presentation 2006
Trinity College Dublin Foundation Scholarship 2003
I lead a research group that is at the forefront of two fields: developing treatments for drug-resistant cancers and discovering mechanisms of skin allergy. These may seem unconnected, but both are concerned with the intricate interactions between chemicals and the human body. In the inflammation strand of my research, I am elucidating the reasons that certain chemicals cause skin allergy. This had led to a completely new research area: the characterisation of the effects of chemicals on skin lipids. The key direction of this research is improving the understanding of the molecular mechanisms of skin allergy, leading to improved diagnostics and treatments. In the cancer strand of my research, I am developing treatments for multi-drug resistant breast and colon cancers. I consistently publish international peer-reviewed articles, and I have also co-edited two books and am a co-inventor on two patents. My work has been cited over 1200 times and my h-index is 20 (source: Google Scholar, August 2023). I consistently publish in leading journals (e.g. J.Med.Chem and Chem.Res.Toxicol.). My 2020 review article in Pharmaceuticals was awarded 'Highly Cited Paper 2020' and 'Editor's Choice Article' with 180 citations to date. I have been a keynote speaker at several national and international conferences. Since my appointment to TCD, my research has been supported by the Irish Research Council, CAMS-UK, Wellcome Trust, Enterprise Ireland (three grants), Royal Society of Chemistry (three grants), H2020-MSCA-RISE, Panoz Pharmaceutical Innovation PhD scholarships (two grants), and Trinity College (Trinity Research Boost, Provost's PhD Project Award and Dean of Health Sciences Award). I have leveraged over €0.5 million in funding as PI (>€1.5 million funding when collaborative grants are included). I am a member of several COST actions including STRATAGEM and EpiLipidNet and have strategic collaborations nationally and internationally. I was also involved in teaching within PANDORA: the Pan-European Educational Platform on Multidrug Resistant Tumours and Personalised Cancer Treatment, funded by COST Innovators Grant.