Denis Paul Harkin

Cortactin underpins CD44-promoted invasion and adhesion of breast cancer cells to bone marrow endothelial cells

Using a validated tetracycline (tet)-regulated MCF7-founder (MCF7F) expression system to modulate expression of CD44 standard form (CD44s), we report the functional importance of CD44s and that of a novel transcriptional target of hyaluronan (HA)/CD44s signaling, EMS1/cortactin, in underpinning breast cancer metastasis. In functional experiments, tet-regulated induction of CD44s potentiated the migration and invasion of MCF7F cells through HA-supplemented Matrigel. EMS1/cortactin was identified by expression profiling as a novel transcriptional target of HA/CD44 signaling, an association validated by quantitative PCR and immunoblotting experiments in a range of breast cancer cell lines. The mechanistic basis underpinning CD44-promoted transcription of EMS1/cortactin was shown to be dependent upon a NFκB mechanism, since pharmacological inhibition of IκKinase-2 or suppression of p65 Rel A expression attenuated CD44-induced increases in cortactin mRNA transcript levels. Overexpression of a c-myc tagged murine cortactin construct in the weakly invasive, CD44-deficient MCF7F and T47D cells potentiated their invasion. Furthermore, the functional importance of cortactin to CD44s-promoted metastasis was demonstrated by selective suppression of cortactin in CD44-expressing MCF7F-B5 and MDA-MB-231 breast cancer cells using RNAi, which was shown to result in attenuated CD44-promoted invasion and CD44-promoted adhesion to bone marrow endothelial cells (BMECs).

Role played by BRCA1 in transcriptional regulation in response to therapy

BRCA1 (breast-cancer susceptibility gene 1) is a tumour suppressor, implicated in the hereditary predisposition to breast and ovarian cancer. BRCA1 has been implicated in a number of cellular processes including DNA repair and recombination, cell cycle checkpoint control, chromatin remodelling and ubiquitination. In addition, substantial data now exist to suggest a role for BRCA1 in transcriptional regulation; BRCA1 has been shown to interact with the Pol II holoenzyme complex and to interact with multiple transcription factors, such as p53 and c-Myc. We have previously identified a range of BRCA1 transcriptional targets and have linked these to specific cellular pathways, including cell cycle checkpoint activation and apoptosis. Current research is focused on the transcriptional mechanisms that underpin the association of BRCA1 deficiency with increased sensitivity to DNA damage-based chemotherapy and resistance to spindle poisons.

BRCA1 Suppresses Osteopontin-mediated Breast Cancer

BRCA1 is a well described breast cancer susceptibility gene thought to be involved primarily in DNA repair. However, mutation within the BRCA1 transcriptional domain is also implicated in neoplastic transformation of mammary epithelium, but responsible mechanisms are unclear. Here we show in a rat mammary model system that wild type (WT) BRCA1 specifically represses the expression of osteopontin (OPN), a multifunctional estrogen-responsive gene implicated in oncogenic transformation, particularly that of the breast. WT.BRCA1 selectively binds OPN-activating transcription factors estrogen receptor α, AP-1, and PEA3, inhibits OPN promoter transactivation, and suppresses OPN mRNA and protein both from an endogenous gene and a relevant model inducible gene. WT.BRCA1 also inhibits OPN-mediated neoplastic transformation characterized by morphology change, anchorage-independent growth, adhesion to fibronectin, and invasion through Matrigel. A mutant BRCA1 allele (Mut.BRCA1) associated with familial breast cancer lacks OPN suppressor effects, binds to WT.BRCA1, and impedes WT.BRCA1 suppression of OPN. Stable transfection of rat breast tumor cell lines with Mut.BRCA1 dramatically up-regulates OPN protein and induces anchorage independent growth. In human primary breast cancer, BRCA1 mutation is significantly associated with OPN overexpression. Taken together, these data suggest that BRCA1 mutation may confer increased tissue-specific cancer risk, in part by disruption of BRCA1 suppression of OPN gene transcription.

Antisense Bcl-2 oligonucleotide uptake in human transitional cell carcinoma.

Objectives: Antisense oligonucleotides (AO) downregulate Bcl–2 protein expression in various tumours if good target cell uptake is achieved. In this study, uptake of FITC labelled AO (FITC–AO) directed at Bcl–2 was examined in: (1) the RT4 bladder tumour cell line; (2) normal pig urothelium, and (3) human superficial bladder tumours. Methods: In the RT4 cell line, uptake of FITC–AO, FITC–scrambled and FITC–sense oligonucleotides were quantified by flow cytometry at 4–hour intervals over 24 h. Uptake of FITC–AO was assessed in normal pig urothelium by flow cytometry after FITC–AO was infused for 1 h. Uptake of FITC AO was assessed in samples from 14 human superificial bladder tumours which were maintained in an ex vivo model. In samples from 6 tumours, uptake at 4 h was assessed using fluorescence microscopy. In samples from 8 separate tumours uptake every 4 h within the first 24–hour incubation period was assessed by flow cytometry. Results: In the RT4 cell line the FITC–AO, FITC–scrambled and FITC–sense oligonucleotide uptake was similar. Disaggregated cells from the normal urothelium of the 3 pigs exhibited 33, 46 and 51% of cells staining positively for FITC–AO as determined by flow cytometry. All 6 tumour samples had detectable intracellular FITC–AO by fluorescence microscopy at 4 h. In the 8 tumours examined over the 24–hour incubation period, there was a range of percentages of positively staining cells. However, most tumours had a monotonic increase in intracellular fluorescence intensity that plateaued 16 h post–infusion. Conclusion: Antisense Bcl–2 oligonucleotides were readily taken up by superficial bladder cancer cells but the heterogeneous uptake in tumour samples needs to be considered when assessing the bioavailability of these drugs.

Uncovering BRCA1-regulated signalling pathways by microarray-based expression profiling

The introduction of microarray technology to the scientific and medical communities has dramatically changed the way in which we now address basic biomedical questions. Expression profiling using microarrays facilitates an experimental approach where alterations in the transcript level of entire transcriptomes can be simultaneously assayed in response to defined stimuli. We have used microarray analysis to identify downstream transcriptional targets of the BRCA1 (Breast Cancer 1) tumour-suppressor gene as a means of defining its function. BRCA1 has been implicated in the predisposition to early onset breast and ovarian cancer and while its exact function remains to be defined, roles in DNA repair, cell-cycle control and transcriptional regulation have been implied. In the current study we have generated cell lines with tetracycline-regulated, inducible expression of BRCA1 as a tool to identify genes, which might represent important effectors of BRCA1 function. Oligonucleotide array-based expression profiling identified a number of genes that were upregulated at various times following inducible expression of BRCA1 including the DNA damage-responsive gene GADD45 (Growth Arrest after DNA Damage). Identified targets were confirmed by Northern blot analysis and their functional significance as BRCA1 targets examined.

Validation of a Metastatic Assay using biopsies to improve risk stratification in patients with prostate cancer treated with radical radiation therapy

Abstract Background Radiotherapy is an effective treatment of intermediate/high-risk locally advanced prostate cancer, however,u2009>30% of patients relapse within 5 years. Clinicopathological parameters currently fail to identify patients prone to systemic relapse and those whom treatment intensification may be beneficial. The purpose of this study was to independently validate the performance of a 70-gene Metastatic Assay in a cohort of diagnostic biopsies from patients treated with radical radiotherapy and androgen deprivation therapy. Patients and methods A bridging cohort of prostate cancer diagnostic biopsy specimens was profiled to enable optimization of the Metastatic Assay threshold before further independent clinical validation in a cohort of diagnostic biopsies from patients treated with radical radiotherapy and androgen deprivation therapy. Multivariable Cox proportional hazard regression analysis was used to assess assay performance in predicting biochemical failure-free survival (BFFS) and metastasis-free survival (MFS). Results Gene expression analysis was carried out in 248 patients from the independent validation cohort and the Metastatic Assay applied. Ten-year MFS was 72% for Metastatic Assay positive patients and 94% for Metastatic Assay negative patients [HRu2009=u20093.21 (1.35–7.67); Pu2009=u20090.003]. On multivariable analysis the Metastatic Assay remained predictive for development of distant metastases [HRu2009=u20092.71 (1.11–6.63); Pu2009=u20090.030]. The assay retained independent prognostic performance for MFS when assessed with the Cancer of the Prostate Assessment Score (CAPRA) [HRu2009=u20093.23 (1.22–8.59); Pu2009=u20090.019] whilst CAPRA itself was not significant [HRu2009=u20091.88, (0.52–6.77); Pu2009=u20090.332]. A high concordance [100% (61.5–100)] for the assay result was noted between two separate foci taken from 11 tumours, whilst Gleason score had low concordance. Conclusions The Metastatic Assay demonstrated significant prognostic performance in patients treated with radical radiotherapy both alone and independent of standard clinical and pathological variables. The Metastatic Assay could have clinical utility when deciding upon treatment intensification in high-risk patients. Genomic and clinical data are available as a public resource.

Osteopontin can act as an effector for a germline mutation of BRCA1 in malignant transformation of breast cancer-related cells

Breast cancer‐associated 1 (BRCA1) plays an important role in breast cancer initiation and progression through its functions in the cell cycle and DNA repair processes; however, its role in metastatic development in human breast cancer is still poorly understood. We have previously shown that osteopontin (OPN) expression was suppressed by wild‐type BRCA1 (Wt.BRCA1) and that a natural mutant allele of BRCA1 (Mut.BRCA1) diminished the effect of Wt.BRCA1 on OPN in vitro. In this study, we show that while Wt.BRCA1 suppresses OPN‐induced metastasis in a rat syngeneic system, Mut.BRCA1 enhances the development of metastasis through OPN, suggesting that OPN and BRCA1 work closely to regulate metastatic development in the rat. To test whether these findings are relevant to human breast cancer, we have investigated the relationship between BRCA1, OPN, and metastatic properties in human breast cancer‐related cells. Using western blot analysis, we show that Wt.BRCA1 suppresses, while Mut.BRCA1 enhances, OPN protein expression; and in parallel that Wt.BRCA1 suppresses, while Mut.BRCA1 enhances, OPN‐mediated in vitro properties associated with the metastatic state in both MCF‐7 and MDA MB435s cells. Overall, these results suggest that Mut.BRCA1 can elicit some of the changes involved in metastatic progression in human breast cancer via the overexpression of OPN. (Cancer Sci 2010)

Delivering a Research-Enabled Multistakeholder Partnership for Enhanced Patient Care at a Population Level: The Northern Ireland Comprehensive Cancer Program

The last 20 years have seen significant advances in cancer care in Northern Ireland, leading to measureable improvements in patient outcomes. Crucial to this transformation has been an ethos that recognizes the primacy role of research in effecting heath care change. The authors model of a cross‐sectoral partnership that unites patients, scientists, health care professionals, hospital trusts, bioindustry, and government agencies can be truly transformative, empowering tripartite clinical‐academic‐industry efforts that have already yielded significant benefit and will continue to inform strategy and its implementation going forward.

Abstract 283: Identification of a high-risk subgroup in primary prostate cancers presenting with targetable immune biology

Background Recent studies have demonstrated limited success of immune checkpoint therapies in unselected prostate cancer. We therefore assessed an immune based DNA Damage Repair Deficiency (DDRD) assay, that we have previously reported represents activation of the cGAS STING pathway in the TCGA dataset of primary prostate cancers, to investigate the presence of targetable immune biology in prostate cancer. In addition we applied a second assay (the prostate cancer metastatic signature-PCM) that predicts risk of metastatic recurrence for early prostate cancer to assess if immune therapy could have a role in treating high risk disease. Methods 498 samples in the TCGA dataset with RNA sequencing data were scored with the PCM and DDRD assays. Integrative analysis was performed on 488 of those samples with matched RNA sequencing, promoter site methylation, somatic mutation and somatic copy number variation. Gene expression of n=6 immune checkpoint targets was investigated with the subgroups identified using T-tests. The prevalence of immune infiltration in each subgroup was tested by applying a cut off to the leukocyte fraction. The viability of reproducing those subgroups with RNA sequencing alone was tested in the TCGA dataset and an independent validation dataset of 321 resected primary prostate cancers. Cox proportional hazards regression analysis was performed for biochemical recurrence and metastatic events in both datasets. Results Integrative analysis of the TCGA dataset identified four patient subgroups characterised primarily by variances in copy number and genomic mutation. One of these subgroups ‘Metastatic-like DDRD9 had significantly higher PCM scores and DDRD immune scores compared to the other subgroups (p Citation Format: Emma Reilly, Andrena McCavigan, Steven M. Walker, Nuala McCabe, Eileen Parkes, Denis P. Harkin, Richard D. Kennedy, Laura A. Knight. Identification of a high-risk subgroup in primary prostate cancers presenting with targetable immune biology [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 283.

Abstract MIP-055: IDENTIFICATION OF A MOLECULAR SUBTYPE OF HIGH GRADE SEROUS OVARIAN CANCER REPRESENTING MAPK PATHWAY ACTIVATION AND PLATINUM RESISTANCE

BACKGROUND: We previously defined 3 molecular subgroups of High Grade Serous Ovarian Cancer (HGSOC), using gene expression data from 265 FFPE samples obtained from treatment naive patients, who received platinum based treatment following surgical resection. The 3 molecular subgroups were Angio: characterised by upregulation of angiogenesis genes; Immune: characterised by upregulation of immune genes and AngioImmune: characterised by upregulation of angiogenesis and immune genes. Patients within these 3 subgroups respond differently to standard of care treatment The Immune subgroup have the best prognosis and the Angio and AngioImmune subgroups have similar worse prognosis. A weighted gene signature to identify each of the molecular subgroups was developed. This dataset was used as a reference to investigate the effect of chemotherapy on molecular subgroup designation. METHODS: To investigate the effect of chemotherapy on predefined molecular subgroups, we analysed 35 matched pre- and post- chemotherapy samples by gene expression. The molecular subgroup assignment for each of the paired samples was determined using the gene expression signatures for each subgroup. Novel cisplatin resistant HGSOC cell lines were generated to study the mechanisms of acquired cisplatin resistance. RESULTS: 40% of the treatment naive samples that were aligned with the AngioImmune subgroup and this increased to 67.5% post-chemotherapy. 10/15 (67%) treatment naive tumours that were initially assigned to the good prognostic Immune molecular subgroup shifted to the bad prognostic AngioImmune molecular subgroup post chemotherapy. Hence platinum chemotherapy selects for the AngioImmune subgroup, suggesting that this subgroup represents tumours which are innately platinum resistant but also provides a mechanism of acquired resistance. Additionally we demonstrate that the AngioImmune subgroup is driven by activation of the MAPK pathway and shows that cisplatin resistant HGSOC cell lines are specifically sensitive to MEK inhibitors. CONCLUSIONS: The MAPK pathway is a mechanism of innate and acquired platinum resistance in HGSOC. Furthermore the data suggests that original pre-treatment surgical/biopsy samples may fall within a different molecular subgroup to samples taken post-platinum therapy. Citation Format: Aya El-Helali, Nuala McCabe, Charlie Gourley, Andrena McCavigan, Caroline O. Michie, Bethanie Price, Niamh McGivern, Michael Churchman, Aya El-Helai, Eamonn J. O9Brien, Laura Hill, Timothy S Davison, Alistair Williams, W Glenn McCluggage, Katherine E Keating, Denis P Harkin, and Richard Kennedy. IDENTIFICATION OF A MOLECULAR SUBTYPE OF HIGH GRADE SEROUS OVARIAN CANCER REPRESENTING MAPK PATHWAY ACTIVATION AND PLATINUM RESISTANCE [abstract]. In: Proceedings of the 11th Biennial Ovarian Cancer Research Symposium; Sep 12-13, 2016; Seattle, WA. Philadelphia (PA): AACR; Clin Cancer Res 2017;23(11 Suppl):Abstract nr MIP-055.