• Decision making for refusals of treatment—a framework to consider

      Jones, Steven; Monteith, Paul; Williams, Barry (Journal of Paramedic Practice, 2014-05-02)
      Challenges to practice are encountered on a daily basis by paramedics that often share many common recurring themes around consent or refusal to treatment. The benefits of training and open debate acknowledge the often complex decisions relating to consent and mental capacity and reduce opportunities for future legal challenge. How the law should be integrated into everyday decision making will be examined and a framework proposed to assist practice for defendable decision making. This article was inspired following joint training undertaken with paramedics and local critical incident managers from the police, which highlighted a need for a practical decision-making framework to be available for application during incidents and for use as an analytical tool to aid post-decision reflection and learning at debrief.
    • The developing landscape of diagnostic and prognostic biomarkers for spinal cord injury in cerebrospinal fluid and blood

      Hulme CH; Brown SJ; Fuller HR; Riddell J; Osman A; Chowdhury J; Kumar N; Johnson WE; Wright KT; Keele University, RJAH Orthopaedic Hospital, University of Glasgow, University of Chester (Nature Publishing Group, 2016-12-20)
      STUDY DESIGN: Review study. OBJECTIVES: The identification of prognostic biomarkers of spinal cord injury (SCI) will help to assign SCI patients to the correct treatment and rehabilitation regimes. Further, the detection of biomarkers that predict permanent neurological outcome would aid in appropriate recruitment of patients into clinical trials. The objective of this review is to evaluate the current state-of-play in this developing field. SETTING: Studies from multiple countries were included. METHODS: We have completed a comprehensive review of studies that have investigated prognostic biomarkers in either the blood or cerebrospinal fluid (CSF) of animals and humans following SCI. RESULTS: Targeted and unbiased approaches have identified several prognostic biomarkers in CSF and blood. These proteins associate with cellular damage following SCI and include components from neurons, oligodendrocytes and reactive astrocytes, that is, neurofilament proteins, glial fibrillary acidic protein, Tau and S100 calcium-binding protein β. Unbiased approaches have also identified microRNAs that are specific to SCI, as well as other cell damage-associated proteins. CONCLUSIONS: The discovery and validation of stable, specific, sensitive and reproducible biomarkers of SCI is a rapidly expanding field of research. So far, few studies have utilised unbiased approaches aimed at the discovery of biomarkers within the CSF or blood in this field; however, some targeted approaches have been successfully used. Several studies using various animal models and some with small human patient cohorts have begun to pinpoint biomarkers in the CSF and blood with putative prognostic value. An increased sample size will be required to validate these biomarkers in the heterogeneous clinical setting.
    • The Development and Growth of Tissues Derived From Cranial Neural Crest and Primitive Mesoderm Is Dependent on the Ligation Status of Retinoic Acid Receptor γ: Evidence That Retinoic Acid Receptor γ Functions to Maintain stem/progenitor Cells in the Absence of Retinoic Acid

      Johnson, William Eustace Basil; Wai, Htoo Aung; Aston University (Mary Ann Liebert, Inc, 2015-02-15)
      Retinoic acid (RA) signaling is important to normal development. However, the function of the different RA receptors (RARs)--RARα, RARβ, and RARγ--is as yet unclear. We have used wild-type and transgenic zebrafish to examine the role of RARγ. Treatment of zebrafish embryos with an RARγ-specific agonist reduced somite formation and axial length, which was associated with a loss of hoxb13a expression and less-clear alterations in hoxc11a or myoD expression. Treatment with the RARγ agonist also disrupted formation of tissues arising from cranial neural crest, including cranial bones and anterior neural ganglia. There was a loss of Sox 9-immunopositive neural crest stem/progenitor cells in the same anterior regions. Pectoral fin outgrowth was blocked by RARγ agonist treatment. However, there was no loss of Tbx-5-immunopositive lateral plate mesodermal stem/progenitor cells and the block was reversed by agonist washout or by cotreatment with an RARγ antagonist. Regeneration of the caudal fin was also blocked by RARγ agonist treatment, which was associated with a loss of canonical Wnt signaling. This regenerative response was restored by agonist washout or cotreatment with the RARγ antagonist. These findings suggest that RARγ plays an essential role in maintaining stem/progenitor cells during embryonic development and tissue regeneration when the receptor is in its nonligated state.
    • Early Transplantation of Mesenchymal Stem Cells After Spinal Cord Injury Relieves Pain Hypersensitivity Through Suppression of Pain-Related Signaling Cascades and Reduced Inflammatory Cell Recruitment

      Johnson, William Eustace Basil; Watanabe, Shuji; Uchida, Kenzo; Nakajima, Hideaki; Matsuo, Hideaki; Sugita, Daisuke; Yoshida, Ai; Honjoh, Kazuya; Baba, Hisatoshi; Aston University, University of Fukui
      Bone marrow-derived mesenchymal stem cells (BMSC) modulate inflammatory/immune responses and promote motor functional recovery after spinal cord injury (SCI). However, the effects of BMSC transplantation on central neuropathic pain and neuronal hyperexcitability after SCI remain elusive. This is of importance because BMSC-based therapies have been proposed for clinical treatment. We investigated the effects of BMSC transplantation on pain hypersensitivity in green fluorescent protein (GFP)-positive bone marrow-chimeric mice subjected to a contusion SCI, and the mechanisms of such effects. BMSC transplantation at day 3 post-SCI improved motor function and relieved SCI-induced hypersensitivities to mechanical and thermal stimulation. The pain improvements were mediated by suppression of protein kinase C-γ and phosphocyclic AMP response element binding protein expression in dorsal horn neurons. BMSC transplants significantly reduced levels of p-p38 mitogen-activated protein kinase and extracellular signal-regulated kinase (p-ERK1/2) in both hematogenous macrophages and resident microglia and significantly reduced the infiltration of CD11b and GFP double-positive hematogenous macrophages without decreasing the CD11b-positive and GFP-negative activated spinal-microglia population. BMSC transplants prevented hematogenous macrophages recruitment by restoration of the blood-spinal cord barrier (BSCB), which was associated with decreased levels of (a) inflammatory cytokines (tumor necrosis factor-α, interleukin-6); (b) mediators of early secondary vascular pathogenesis (matrix metallopeptidase 9); (c) macrophage recruiting factors (CCL2, CCL5, and CXCL10), but increased levels of a microglial stimulating factor (granulocyte-macrophage colony-stimulating factor). These findings support the use of BMSC transplants for SCI treatment. Furthermore, they suggest that BMSC reduce neuropathic pain through a variety of related mechanisms that include neuronal sparing and restoration of the disturbed BSCB, mediated through modulation of the activity of spinal-resident microglia and the activity and recruitment of hematogenous macrophages.
    • The effects of targeted therapy on cell viability and apoptosis on CML and AML cell lines

      Williams, John; Ireland, Elyse; Marsico, Paolo (University of Chester, 2019-01-15)
      Tyrosine kinase inhibitors (TKIs) are currently the first therapy option for chronic myeloid leukaemia (CML) and acute myeloid leukaemia (AML) patients. However, many patients affected by CML and AML may develop resistance to TKIs or may not recover under this treatment regime. New potential and more effective treatments are recently emerging. Heat shock protein inhibitors (HSPIs) and the proteasome inhibitor Bortezomib are drugs which have been yet to be successfully tested on leukemic patients, despite being successful on other malignancies such as multiple myeloma (MM). The combination between HSPIs and Bortezomib could potentially be successful in killing leukemic cells, by enhancing their respective molecular mechanisms. Indeed, HSPIs would bind to HSP72 avoiding the protein to exert its ligase function to the proteasome, whilst Bortezomib could stop the ubiquitinated proteins to enter the proteasome and ultimately inducing apoptosis. To test the effects of such combination, cell viability was measured via MTS assay, apoptosis levels were tested through Annexin V\PI assays. Involvement of HSP72 and pro-survival protein Bcl-2 were measured via flow-cytometry. The cells were administered with HSPIs and Bortezomib first as single agents for 24 hours, to establish working minimal concentration. Also, the drugs were tested for a shorter time, to understand when the drugs start to be effective. It emerged that one hour is sufficient for the drugs to give an initial effect in terms of cell viability and apoptosis. Following, combination experiments of HSPIs and Bortezomib were performed; the first drug was administered for one hour, the second following one hour and the cells were incubated for 24 hours. This was repeated alternatively for both type of drugs on the different cell lines. MTS and Annexin V\PI showed that there is not a synergistic effect between drugs, but instead there is antagonism. No necrosis was found at any level of the study. The cells were then probed for HSP72 and Bcl-2, to investigate their involvement in apoptosis mechanisms. Following 6 hours of combined and single agent treatment, both type of drugs inhibit HSP72 but failed to reduce the expression of Bcl-2, particularly on AML cells. It is thus proposed that CML and AML cells may die by apoptosis following a short time of treatment with HSPIs and Bortezomib by an extrinsic pathway of apoptosis, independent from Bcl-2 involvement and from mitochondrial pathway of apoptosis. This study may be the first to indicate a potential use of HSPIs and Bortezomib on CML and AML patients for a short time of treatment, although not in combination. Future studies are needed to further investigate the mechanisms of action of these drugs, aiming to potentially give CML and AML patients another successful therapy option to overcome resistance to canonic chemotherapy.
    • Electro Convulsive Therapy: Milestones in its history

      Jones, Colin; Jones, Steven; University of Chester (Mental Health Nurses Association, 2018)
      ECT is a treatment where an electrical current is passed briefly through electrodes applied to the scalp to induce generalised seizure activity. This article explores the origins and developmental milestones of ECT, examines the literature on the history of ECT and concludes with the author’s work experiences.
    • Embedding recovery based approaches into mental health nurse training- a reflective account

      Jones, Steven; Bifarin, Oladayo O.; University of Chester (Mark Allen Healthcare, 2018-11-02)
      Background: Mental health nursing has undoubtedly progressed as a profession but is at a hiatus that is not assisted by government policy and decreased resources. Aims: This reflective account explores some of the considerable expectations placed upon qualified nurses and the real tensions that influence care delivery standards. Methods: Reflecting on experiences gained in clinical settings, underpinned by literature on recovery, some of the expectations placed on qualified nurses in contemporary mental health service delivery are examined. Conclusion: In order to adequately inform the practices and skill set of contemporary mental health nurses, recovery models and clinical staff input should play a central role in nurse education. Education and clinical practice areas should continue to move towards each other and seize every initiative to ensure both are on the same page.
    • Endocytotic potential governs magnetic particle loading in dividing neural cells: studying modes of particle inheritance

      Tickle, Jacqueline A.; Jenkins, Stuart I.; Polyak, Boris; Pickard, Mark R.; Chari, Divya M.; Keele University, United Kingdom; Drexel University College of Medicine, Philadelphia, USA (Future Medicine, 2016-01-10)
      AIM: To achieve high and sustained magnetic particle loading in a proliferative and endocytotically active neural transplant population (astrocytes) through tailored magnetite content in polymeric iron oxide particles. MATERIALS & METHODS: MPs of varying magnetite content were applied to primary-derived rat cortical astrocytes ± static/oscillating magnetic fields to assess labeling efficiency and safety. RESULTS: Higher magnetite content particles display high but safe accumulation in astrocytes, with longer-term label retention versus lower/no magnetite content particles. Magnetic fields enhanced loading extent. Dynamic live cell imaging of dividing labeled astrocytes demonstrated that particle distribution into daughter cells is predominantly 'asymmetric'. CONCLUSION: These findings could inform protocols to achieve efficient MP loading into neural transplant cells, with significant implications for post-transplantation tracking/localization.
    • The experience of stigma in inflammatory bowel disease: an interpretive (hermeneutic) phenomenological study

      Dibley, Lesley; Norton, Christine; Whitehead, Elizabeth; University of Chester (John Wiley & Sons Ltd, 2017-11-03)
      Aim to explore experiences of stigma in people with inflammatory bowel disease. Background Diarrhoea, urgency and incontinence are common symptoms in inflammatory bowel disease. Social rules stipulate full control of bodily functions in adulthood: poor control may lead to stigmatisation, affecting patients’ adjustment to disease. Disease-related stigma is associated with poorer clinical outcomes but qualitative evidence is minimal. Design An interpretive (hermeneutic) phenomenological study of the lived experience of stigma in inflammatory bowel disease. Methods Forty community-dwelling adults with a self-reported diagnosis of inflammatory bowel disease were recruited purposively. Participants reported feeling stigmatised or not and experiencing faecal incontinence or not. Unstructured interviews took place in participants’ homes in the United Kingdom (September 2012 – May 2013). Data were analysed using Diekelmann's interpretive method. Findings Three constitutive patterns - Being in and out of control, Relationships and social Support and Mastery and mediation - reveal the experience of disease-related stigma, occurring regardless of continence status and because of name and type of disease. Stigma recedes when mastery over disease is achieved through development of resilience - influenced by humour, perspective, mental wellbeing and upbringing (childhood socialisation about bodily functions). People travel in and out of stigma, dependent on social relationships with others including clinicians and tend to feel less stigmatised over time. Conclusion Emotional control, social support and mastery over disease are key to stigma reduction. By identifying less resilient patients, clinicians can offer appropriate support, accelerating the patient's path towards disease acceptance and stigma reduction.
    • GAS5 lncRNA Modulates the Action of mTOR Inhibitors in Prostate Cancer Cells

      Yacqub-Usman, Kiren; Pickard, Mark R.; Williams, Gwyn T.; Keele University, United Kingdom (NCRI Cancer Conference 2014 Abstracts, 2014)
      Background There is a need to develop new therapies for castrate-resistant prostate cancer (CRPC) and growth arrest-specific 5 (GAS5) long non-coding RNA (lncRNA), which riborepresses androgen receptor action, may offer novel opportunities in this regard. GAS5 lncRNA expression declines as prostate cancer cells acquire castrate-resistance, and decreased GAS5 expression attenuates the responses of prostate cancer cells to apoptotic stimuli. Enhancing GAS5 lncRNA expression may therefore offer a strategy to improve the effectiveness of chemotherapeutic agents. GAS5 is a member of the 5' terminal oligopyrimidine gene family, and we have therefore examined if mTOR inhibition can enhance cellular GAS5 levels in prostate cancer cells. In addition, we have determined if GAS5 lncRNA itself is required for mTOR inhibitor action in prostate cancer cells, as recently demonstrated in lymphoid cells. Method The effects of mTOR inhibitors on GAS5 lncRNA expression and cell proliferation were determined in a range of prostate cancer cell lines. Transfection of cells with GAS5 siRNA and plasmid constructs was performed to determine the involvement of GAS5 lncRNA in mTOR inhibitor action. Results Treatment with rapamycin and rapalogues increased cellular GAS5 levels and inhibited culture growth in both androgen-dependent (LNCaP) and androgen-sensitive (22Rv1) cell lines, but not in androgen-independent (PC-3 and DU145) cells. GAS5 silencing in both LNCaP and 22Rv1 cells decreased their sensitivity to growth inhibition by mTOR inhibitors. Moreover, transfection of GAS5 lncRNA sensitized PC-3 and DU145 cells to mTOR inhibitors, resulting in inhibition of culture growth. Conclusion mTOR inhibition enhances GAS5 transcript levels in some, but not all, prostate cancer cell lines. This may in part be related to endogenous levels of GAS5 expression, which tend to be lower in prostate cancer cells representative of advanced disease, particularly since current findings demonstrate a role for GAS5 lncRNA in mTOR inhibitor action in prostate cancer cells.
    • Heart rate and perceived muscle pain responses to a functional walking test in McArdle disease

      Buckley, John P.; Quinlivan, Ros M.; Sim, Julius; Short, Deborah S.; Eston, Roger (Routledge, 2014-04-14)
      The aim of this study was to assess a 12-min self-paced walking test in patients with McArdle disease. Twenty patients (44.7 ±11 years; 11 female) performed the walking test where walking speed, distance walked, heart rate (HR) and perceived muscle pain (Borg CR10 scale) were measured. Median (interquartile range) distance walked was 890 m (470–935). From 1 to 6 min, median walking speed decreased (from 75.0 to 71.4 m∙min–1) while muscle pain and %HR reserve increased (from 0.3 to 3.0 and 37% to 48%, respectively). From 7 to 12 min, walking speed increased to 74.2 m∙min–1, muscle pain decreased to 1.6 and %HR reserve remained between 45% and 48%. To make relative comparisons, HR and muscle pain were divided by walking speed and expressed as ratios. These ratios rose significantly between 1 and 6 min (HR:walking speed P = .001 and pain:walking speed P < .001) and similarly decreased between 6 and 11 min (P = .002 and P = .001, respectively). Peak ratios of HR:walking speed and pain:walking speed were inversely correlated to distance walked: rs (HR) = −.82 (P < .0001) and rs (pain) = −.55 (P = .012). Largest peak ratios were found in patients who walked < 650 m. A 12-min walking test can be used to assess exercise capacity and detect the second wind in McArdle disease.
    • Heat shock proteins: Interactions with bone and immune cells

      Williams, John H. H.; Davies, Emma L. (University of Liverpool (Chester College of Higher Education), 2004-09)
      Heat shock proteins (Hsps) are increasingly being seen as having roles other than those of intracellular molecular chaperones, particularly with regard to their potential to act as cytokines, and to stimulate the innate immune system. Hsps have also been found to promote bone resorption and osteoclast formation in vitro, although the mechanism has not been previously identified. The overall aims of this thesis were to determine whether Hsps could stimulate bone resorption by affecting the RANKL/OPG pathway, and to address the hypothesis that Hsps can act as a danger signal to the innate immune system. In order for Hsps to affect either the RANKL/OPG system of bone resorption or act as danger signals they would need to be actively released from cells, ideally in a controlled manner following exposure to the source of stress. Hsp60 and Hsp70 were found to be released from a range of immune cells including the cell lines Jurkat and U937, and also PBMCs, T-cells and B-cells. This release was not due to cell damage. The release of Hsp60 and Hsp70 were downregulated by inhibitors of protein secretion, in particular Hsp70 release was reduced by compounds that inhibited lysosomal pathways and Hsp60 release by classical secretion inhibitors. Hsp60, Hsp70, GroEL and LPS all affected the RANKL/OPG system of bone regulation; OPG production and release was down-regulated in the MG63 and GCT osteoblast-like cell lines following treatment with Hsp60, Hsp70 and LPS, and RANKL expression was upregulated following treatment with Hsp60, Hsp70, GroEL and LPS. This effect on the RANKL/OPG system was found to translate into an effect on osteoclast formation when conditioned media from treated osteoblasts was added to osteoclast precursors in the presence of M-CSF. A range of different factors that affected Hsp release were identified; PHA activation of PBMCs was found to upregulate Hsp60 release from PBMCs. GroEL and LPS caused an upregulation in Hsp70 release from PBMCs and GCT osteoblast like cells, and Hsp70 was found to stimulate Hsp60 release from PBMCs and GCT cells. These responses of Hsp release were used to form a theory of a cascade-like danger signal that may occur when cells are exposed to bacterial infection and which would result in activation of antigen presenting cells via previously identified receptors for Hsps such as CD14/TLR4 or by unidentified pathways. The elevated release of Hsps in response to GroEL and LPS was also identified as a mechanism that could stimulate bone loss during infection or autoimmuniry by affecting the RANKL/OPG system. hi conclusion, Hsp60 and Hsp70 can be released from immune cells under normal conditions, and from both immune and osteoblast-like cells following stimulation with LPS and other Hsps. The observed release responses provide a mechanism through which Hsps can act as danger signals to the innate immune system, and also as promoters of bone resorption via the RANKL/OPG system.
    • High CIP2A levels correlate with an antiapoptotic phenotype that can be overcome by targeting BCL-XL in chronic myeloid leukemia. Leukemia

      Lucas, Claire; Milani, Mateus; Butterworth, Michael; Carmell, Natasha; Scott, Laura; Clark, Richard; Cohen, Gerald; Varadarajan, Shankar; University of Liverpool (Nature, 2016-02-29)
      Cancerous inhibitor of protein phosphatase 2A (CIP2A) is a predictive biomarker of disease progression in many malignancies, including imatinib-treated chronic myeloid leukemia (CML). Although high CIP2A levels correlate with disease progression in CML, the underlying molecular mechanisms remain elusive. In a screen of diagnostic chronic phase samples from patients with high and low CIP2A protein levels, high CIP2A levels correlate with an antiapoptotic phenotype, characterized by downregulation of proapoptotic BCL-2 family members, including BIM, PUMA and HRK, and upregulation of the antiapoptotic protein BCL-XL. These results suggest that the poor prognosis of patients with high CIP2A levels is due to an antiapoptotic phenotype. Disrupting this antiapoptotic phenotype by inhibition of BCL-XL via RNA interference or A-1331852, a novel, potent and BCL-XL-selective inhibitor, resulted in extensive apoptosis either alone or in combination with imatinib, dasatinib or nilotinib, both in cell lines and in primary CD34(+) cells from patients with high levels of CIP2A. These results demonstrate that BCL-XL is the major antiapoptotic survival protein and may be a novel therapeutic target in CML.
    • High drug related mortality rates following prison release: Assessing the acceptance likelihood of a naltrexone injection and related concerns

      Murphy, Philip N.; Mohammed, Faizal; Wareing, Michelle; Cotton, Angela; McNeil, John; Irving, Paula; Jones, Steven; Sharples, Louisa; Monk, Rebecca; Elton, Peter; et al. (Elsevier, 2018-07-04)
      Background and aims. High drug related mortality amongst former prisoners in the 4 weeks following release is an internationally recognised problem. Naltrexone injections at release could diminish this by blockading opioid receptors, but naltrexone is not licenced for injection for treating opiate misuse in the United Kingdom and some other countries. This study examined the likelihood of accepting a naltrexone injection at release, and the relationship of this likelihood to other relevant variables. Method. Sixty-one male prisoners with a history of heroin use, who were approaching release from two prisons in the north-west of England, provided likelihood ratings for accepting a naltrexone injection if it were to have been available. Additional data was gathered regarding demographic and drug use histories, and also from psychometric instruments relevant to drug misuse and treatment preparedness. Results. Maximum likelihood ratings for accepting a naltrexone injection were recorded by 55.7% of the sample with only 9.8% indicating no likelihood of accepting an injection. Likelihood ratings were positively related to serving a current sentence for an acquisitive offence compared to drug related or violence offences, and negatively related to peak methadone dosages during the current sentence. Conclusions. Although naltrexone injections were not available to participants in this study, the findings suggest that the potential uptake for this intervention is sufficient to warrant a clinical trial with this population of British prisoners, with a view to potential changes to its current licencing status
    • The Hormone Response Element Mimic Sequence of GAS5 LncRNA is Sufficient to Induce Apoptosis in Breast Cancer Cell Lines

      Pickard, Mark R.; Williams, Gwyn T.; Keele University, United Kingdom (2015)
      Growth arrest-specific 5 (GAS5) encodes snoRNAs and lncRNA. The latter promotes apoptosis, but its expression is down-regulated in breast cancer. The mTOR and nonsense-mediated decay pathways together regulate GAS5 transcript levels but rapalogues fail to enhance GAS5 levels in triple-negative breast cancer cells, so that mTOR inhibitor-independent induction of GAS5 may be more productive in enhancing apoptotic responses to therapies in breast cancer. Notably, GAS5 lncRNA acts by riborepression of glucocorticoid/related receptors; a stem-loop sequence constitutes the GAS5 hormone response element mimic (HREM). The aim of this study was to determine if the GAS5 HREM sequence alone is sufficient to promote the apoptosis of breast cancer cells. Cells were nucleofected with a DNA oligonucleotide corresponding to the GAS5 lncRNA HREM; controls received oligonucleotides either with scrambled GAS5 sequence or with stem complementarity present but lacking the GAS5 HRE consensus. Cells were irradiated with ultraviolet-C (UV-C) light at 20 h post-transfection to induce apoptosis. The basal apoptotic rate almost doubled in MCF7 and MDA-MB-231 cells transfected with the HREM oligonucleotide compared with controls. This effect was apparent at 20 h post¬-transfection, and a corresponding decrease was observed in culture viability; clonogenic activity was also impaired. The HREM sequence also enhanced UV-C-induced apoptosis in an additive manner in both cell lines. Endogenous GAS5 lncRNA expression was unaffected by transfection of the HREM sequence. Thus the GAS5 lncRNA HREM is sufficient to induce apoptosis in breast cancer cells, including TNBC cells and this may serve as the basis for the development of novel oligonucleotide cancer therapies. Funded by the Breast Cancer Campaign.
    • The hormone response element mimic sequence of GAS5 lncRNA is sufficient to induce apoptosis in breast cancer cell lines – towards oligonucleotide therapies?

      Pickard, Mark R.; Williams, Gwyn T.; Keele University, United Kingdom (NCRI Cancer Conference 2014 Abstracts, 2014)
      Background Growth arrest-specific 5 (GAS5), a non-protein coding gene, encodes snoRNAs and lncRNA; transcript levels are controlled by the mTOR and nonsense-mediated decay pathways. GAS5 lncRNA promotes the apoptosis of breast cells, including triple-negative breast cancer (TNBC) cells, but its expression is down-regulated in breast cancer. Rapalogues enhance GAS5 levels in oestrogen receptor-positive breast cancer cells but not in TNBC cells, so that mTOR inhibitor-independent induction of GAS5 may be more productive in enhancing apoptotic responses to therapies. Notably, GAS5 lncRNA acts by riborepression of glucocorticoid/related receptors; a stem-loop sequence constitutes the GAS5 hormone response element mimic (HREM). The aim of this study was to determine if the GAS5 HREM sequence alone is sufficient to promote the apoptosis of breast cancer cells. Method Cells were nucleofected with a DNA oligonucleotide corresponding to the GAS5 lncRNA HREM; controls received oligonucleotides either with scrambled GAS5 sequence or retaining stem-loop structure but lacking the GAS5 HRE consensus; mock-transfected cells were also studied. Cells were irradiated with ultraviolet-C (UV-C) light at 20 h post-transfection to induce apoptosis. Culture viability and apoptosis were assessed and cellular GAS5 levels were determined by RT-qPCR. Results The basal apoptotic rate almost doubled in MCF7 and MDA-MB-231 cells transfected with the HREM oligonucleotide compared with controls. This effect was apparent at 20 h post­-transfection, and a corresponding decrease was observed in culture viability. The HREM sequence also enhanced UV-C-induced apoptosis in an additive manner in both cell lines. Endogenous GAS5 lncRNA expression was unaffected by transfection of the HREM sequence. Conclusion The GAS5 lncRNA HREM is sufficient to induce apoptosis in breast cancer cells, including TNBC cells. This study serves as an exemplar of how emerging knowledge of biologically important lncRNAs may be exploited towards the development of novel oncotherapeutic agents.
    • The hormone response element mimic sequence of GAS5 lncRNA is sufficient to induce apoptosis in breast cancer cells.

      Pickard, Mark R.; Williams, Gwyn T.; Keele University (Impact Journals, 2016-02-03)
      Growth arrest-specific 5 (GAS5) lncRNA promotes apoptosis, and its expression is down-regulated in breast cancer. GAS5 lncRNA is a decoy of glucocorticoid/related receptors; a stem-loop sequence constitutes the GAS5 hormone response element mimic (HREM), which is essential for the regulation of breast cancer cell apoptosis. This preclinical study aimed to determine if the GAS5 HREM sequence alone promotes the apoptosis of breast cancer cells. Nucleofection of hormone-sensitive and -insensitive breast cancer cell lines with a GAS5 HREM DNA oligonucleotide increased both basal and ultraviolet-C-induced apoptosis, and decreased culture viability and clonogenic growth, similar to GAS5 lncRNA. The HREM oligonucleotide demonstrated similar sequence specificity to the native HREM for its functional activity and had no effect on endogenous GAS5 lncRNA levels. Certain chemically modified HREM oligonucleotides, notably DNA and RNA phosphorothioates, retained pro-apoptotic. activity. Crucially the HREM oligonucleotide could overcome apoptosis resistance secondary to deficient endogenous GAS5 lncRNA levels. Thus, the GAS5 lncRNA HREM sequence alone is sufficient to induce apoptosis in breast cancer cells, including triple-negative breast cancer cells. These findings further suggest that emerging knowledge of structure/function relationships in the field of lncRNA biology can be exploited for the development of entirely novel, oligonucleotide mimic-based, cancer therapies.
    • HSPC1 inhibitors and their use in Chronic Lymphocytic Leukaemia

      Smith, Carly M. (University of Chester, 2015-08)
      HSPC1 (Hsp90), a member of the anti-apoptotic Heat Shock Protein (HSP) family appears to play a pivotal role in the development and maintenance of several tumour cell characteristics and as a result has become a target for novel anti-cancer therapies. HSPC1 inhibitors have been tested in clinical trials on a wide variety of cancer types with moderate success. However, despite recent advantages in HSPC1 inhibitor development, the effects of these drugs are not consistent. A number of factors may play a role in determining cell sensitivity to these inhibitors. As Chronic Lymphocytic Leukaemia (CLL) is such a heterogeneous disease with great variation in baseline HSP levels and other proteins amongst the patient cohort, it would not be unreasonable to assume that HSPC1 inhibitors may have varying success as a treatment strategy for this disease. The present study examined the effects of four HSPC1 inhibitors on primary CLL cells, as well as cells from healthy control subjects, and analysed a number of HSPC1 client proteins to assess the efficacy of these inhibitors. Great variation in cellular response to these drugs was observed in both CLL and healthy control subjects. Analysis of HSPC1 client proteins in these cells including ZAP-70, Akt, NF-kB and HSPA1A, revealed that HSPC1 inhibitors do not effect client protein levels in all samples. The results suggest that these inhibitors should not be considered as a universal treatment strategy for CLL and provide a basis for further study into elucidating the mechanisms behind HSPC1 inhibitor resistance. The final aim of this work was to investigate the role of the microenvironment in CLL progression, where a co-culture system was used as an in-vitro tool. Whilst consistent data was obtained using cell lines, and showed that microenvironmental factors promoted resistance to HSPC1 inhibitors, use of primary CLL cells in this model produced inconsistent data, again highlighting the heterogeneity of the disease.
    • Human adipose tissue-derived mesenchymal stem/stromal cells adhere to and inhibit the growth of Staphylococcus aureus and Pseudomonas aeruginosa.

      Wood, Chelsea R.; Al Dhahri, Douaa; Pickles, Neil; Sammons, Rachel L.; Worthington, Tony; Wright, Karina T.; Johnson, William Eustace Basil; Al-Delfi, Ibtesam R. T. (2018-10-23)
      We have cultured and phenotyped human adipose tissue-derived mesenchymal stem/stromal cells (AT MSCs) and inoculated these cultures with bacteria common to infected skin wounds, i.e. Staphylococcus aureus and Pseudomonas aeruginosa. Cell interactions were examined by scanning electron microscopy (SEM), whilst bacterial growth was measured by colony forming unit (c.f.u.) and biofilm assays. AT MSCs appeared to attach to the bacteria and to engulf S. aureus. Significantly fewer bacterial c.f.u. were present in AT MSC : bacterial co-cultures compared with bacteria cultured alone. Antibacterial activity, including an inhibition of P. aeruginosa biofilm formation, was observed when bacteria were treated with conditioned medium harvested from the AT MSC :  bacterial co-cultures, irrespective of the bacterial species to which the AT MSCs had been exposed to previously. Hence, we have demonstrated that AT MSCs inhibit the growth of two common bacterial species. This was associated with bacterial adhesion, potential engulfment or phagocytosis, and the secretion of antibacterial factors.
    • Human placental oxygenation in late gestation: experimental and theoretical approaches

      Nye, Gareth; Ingram, Emma; Jenson, Oliver; Johnstone, Edward; Schneider, Henning; Lewis, Rohan; Chernyavsky, Igor; Brownbill, Paul; University of Manchester, University of Southampton, University of Bern (Wiley, 2018-01-26)
      The placenta is crucial for life. It is an ephemeral but complex organ acting as the barrier interface between maternal and fetal circulations, providing exchange of gases, nutrients, hormones, waste products and immunoglobulins. Many gaps exist in our understanding of the detailed placental structure and function, particularly in relation to oxygen handling and transfer in healthy and pathological states in utero. Measurements to understand oxygen transfer in vivo in the human are limited, with no general agreement on the most appropriate methods. An invasive method for measuring partial pressure of oxygen in the intervillous space through needle electrode insertion at the time of Caesarean sections has been reported. This allows for direct measurements in vivo whilst maintaining near normal placental conditions; however, there are practical and ethical implications in using this method for determination of placental oxygenation. Furthermore, oxygen levels are likely to be highly heterogeneous within the placenta. Emerging non-invasive techniques, such as MRI, and ex vivo research are capable of enhancing and improving current imaging methodology for placental villous structure and increase the precision of oxygen measurement within placental compartments. These techniques, in combination with mathematical modelling, have stimulated novel cross-disciplinary approaches that could advance our understanding of placental oxygenation and its metabolism in normal and pathological pregnancies, improving clinical treatment options and ultimately outcomes for the patient.