57 research outputs found

    Vascular endothelial growth factor (VEGF), transforming growth factor beta (TGFbeta), angiostatin, and endostatin are increased in radiotherapy-induced gastrointestinal toxicity

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    Radiotherapy-induced gut toxicity (RIGT) is a debilitating effect of radiotherapy for cancer, often resulting in significant diarrhoea and pain. Previous studies have highlighted roles of the intestinal microvasculature and matrix metalloproteinases (MMPs) in the development of RIGT. We hypothesized vascular mediators would be significantly altered in a dark agouti (DA) rat model of RIGT. Additionally, we aimed to assess the effect of MMP-2 and -9 inhibition on the response of tumour-associated microvascular endothelial cells (TAMECs) to radiation.Dark Agouti (DA) rats were administered 2.5 Gy abdominal irradiation (3 times/week over 6 weeks). Vascular endothelial growth factor (VEGF), transforming growth factor beta (TGFβ), von Willebrand factor (VWF), angiostatin, and endostatin expression was assessed at 3, 6 and 15 weeks. Additionally, DA rat mammary adenocarcinoma tumour-associated microvascular endothelial cells (TAMECs) were used to assess the effects of radiation (12 Gy) and the MMP inhibitor SB-3CT on MMP, VEGF, and TGFβ expression, and cell viability.VEGF mRNA expression was significantly increased in the colon at week 15 (p = 0.0012), and TGFβ mRNA expression was significantly increased in both the jejunum and colon at week 3 (p = 0.0280, and p = 0.0310, respectively). Endostatin immunostaining was significantly increased at week 3 (p = 0.0046), and angiostatin at 3 and 6 weeks (p = 0.0022, and p = 0.0135, respectively). MMP-2 and -9 mRNA and total protein levels were significantly increased following irradiation of TAMECs. Although this increase was significantly attenuated by SB-3CT, it did not significantly alter endothelial cell viability or VEGF and TGFβ mRNA expression.Findings of this study support the involvement of VEGF, TGFβ, angiostatin, endostatin, and MMP-2 in the pathobiology of RIGT. However, the relationship between these mediators is complex and needs further investigation to improve understanding of their therapeutic potential in RIGT.Romany L. Stansborough, Emma H. Bateman, Noor Al-Dasooqi, Joanne M. Bowen, Anthony Wignall, Dorothy M. Keefe, Ann S. Yeoh, Richard M. Logan, Eric E. K. Yeoh, Andrea M. Stringer and Rachel J. Gibso

    The pathogenesis of mucositis: updated perspectives and emerging targets

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    Published online: 8 July 2019Mucositis research and treatment are a rapidly evolving field providing constant new avenues of research and potential therapies. The MASCC/ISOO Mucositis Study Group regularly assesses available literature relating to pathogenesis, mechanisms, and novel therapeutic approaches and distils this to summary perspectives and recommendations. Reviewers assessed 164 articles published between January 2011 and June 2016 to identify progress made since the last review and highlight new targets for further investigation. Findings were organized into sections including established and emerging mediators of toxicity, potential insights from technological advances in mucositis research, and perspective. Research momentum is accelerating for mucositis pathogenesis, and with this has come utilization of new models and interventions that target specific mechanisms of injury. Technological advances have the potential to revolutionize the field of mucositis research, although focused effort is needed to move rationally targeted interventions to the clinical setting.J. Bowen, N. Al-Dasooqi, P. Bossi, H. Wardill, Y. Van Sebille, A. Al-Azri, E. Bateman, M. E. Correa, J. Raber-Durlacher, A. Kandwal, B. Mayo, R. G. Nair, A. Stringer, K. ten Bohmer, D. Thorpe, R. V. Lalla, S. Sonis, K. Cheng, S. Elad . On behalf of The Mucositis Study Group of the Multinational Association of Supportive Care in Cancer/International Society of Oral Oncology (MASCC/ISOO

    Characterization of ERK Docking Domain Inhibitors that Induce Apoptosis by Targeting Rsk-1 and Caspase-9

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    <p>Abstract</p> <p>Background</p> <p>The extracellular signal-regulated kinase-1 and 2 (ERK1/2) proteins play an important role in cancer cell proliferation and survival. ERK1/2 proteins also are important for normal cell functions. Thus, anti-cancer therapies that block all ERK1/2 signaling may result in undesirable toxicity to normal cells. As an alternative, we have used computational and biological approaches to identify low-molecular weight compounds that have the potential to interact with unique ERK1/2 docking sites and selectively inhibit interactions with substrates involved in promoting cell proliferation.</p> <p>Methods</p> <p>Colony formation and water soluble tetrazolium salt (WST) assays were used to determine the effects of test compounds on cell proliferation. Changes in phosphorylation and protein expression in response to test compound treatment were examined by immunoblotting and <it>in vitro </it>kinase assays. Apoptosis was determined with immunoblotting and caspase activity assays.</p> <p>Results</p> <p><it>In silico </it>modeling was used to identify compounds that were structurally similar to a previously identified parent compound, called <b>76</b>. From this screen, several compounds, termed <b>76.2</b>, <b>76.3</b>, and <b>76.4 </b>sharing a common thiazolidinedione core with an aminoethyl side group, inhibited proliferation and induced apoptosis of HeLa cells. However, the active compounds were less effective in inhibiting proliferation or inducing apoptosis in non-transformed epithelial cells. Induction of HeLa cell apoptosis appeared to be through intrinsic mechanisms involving caspase-9 activation and decreased phosphorylation of the pro-apoptotic Bad protein. Cell-based and <it>in vitro </it>kinase assays indicated that compounds <b>76.3 </b>and <b>76.4 </b>directly inhibited ERK-mediated phosphorylation of caspase-9 and the p90Rsk-1 kinase, which phosphorylates and inhibits Bad, more effectively than the parent compound <b>76</b>. Further examination of the test compound's mechanism of action showed little effects on related MAP kinases or other cell survival proteins.</p> <p>Conclusion</p> <p>These findings support the identification of a class of ERK-targeted molecules that can induce apoptosis in transformed cells by inhibiting ERK-mediated phosphorylation and inactivation of pro-apoptotic proteins.</p

    Melatonin protects rats from radiotherapy-induced small intestine toxicity

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    Radiotherapy-induced gut toxicity is among the most prevalent dose-limiting toxicities following radiotherapy. Prevention of radiation enteropathy requires protection of the small intestine. However, despite the prevalence and burden of this pathology, there are currently no effective treatments for radiotherapy-induced gut toxicity, and this pathology remains unclear. The present study aimed to investigate the changes induced in the rat small intestine after external irradiation of the tongue, and to explore the potential radio-protective effects of melatonin gel. Male Wistar rats were subjected to irradiation of their tongues with an X-Ray YXLON Y.Tu 320-D03 irradiator, receiving a dose of 7.5 Gy/day for 5 days. For 21 days post-irradiation, rats were treated with 45 mg/day melatonin gel or vehicle, by local application into their mouths. Our results showed that mitochondrial oxidative stress, bioenergetic impairment, and subsequent NLRP3 inflammasome activation were involved in the development of radiotherapy-induced gut toxicity. Oral treatment with melatonin gel had a protective effect in the small intestine, which was associated with mitochondrial protection and, consequently, with a reduced inflammatory response, blunting the NF-κB/NLRP3 inflammasome signaling activation. Thus, rats treated with melatonin gel showed reduced intestinal apoptosis, relieving mucosal dysfunction and facilitating intestinal mucosa recovery. Our findings suggest that oral treatment with melatonin gel may be a potential preventive therapy for radiotherapy-induced gut toxicity in cancer patients.This study was partially supported by grant no. SAF2009-14037 from the Spanish Ministry of Economy and Competitivity (MINECO), GREIB.PT_2010_04 from the CEIBiotic Program of the University of Granada, Spain, and CTS-101 from the Consejería de Innovación, Ciencia y Empresa, Junta de Andalucía, Spain

    Matrix metalloproteinases and gut toxicity following cytotoxic cancer therapy

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    Purpose of review: Chemotherapy is an effective anticancer treatment; however, it induces mucositis in a wide range of patients. This condition is characterized by pain and ulceration, vomiting, bloating and diarrhea, depending on the area of the alimentary tract affected. Although treatment is available for a small subset of patients suffering from mucositis, the majority rely on pain relief as their only treatment option. Much progress has been made in recent years into understanding the pathobiology underlying the development of mucositis and matrix metalloproteinases (MMPs) have been implicated as being key mediators. The purpose of this review was to evaluate recent literature implicating MMPs in mucositis. Recent findings: MMPs are well known for their roles in induction of inflammation and contribution to tissue injury. Recent literature provides a role for MMPs in mucositis development possibly through inflammatory pathways, alterations in extracellular matrix composition, adhesion molecules and tight junctions. Summary: Better understanding of the precise roles of MMPs is now required in order to target appropriate treatment strategies.Noor Al-Dasooq

    Gastrointestinal mucositis: the role of MMP-tight junction interactions in tissue injury

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    Chemotherapy for cancer causes significant gut toxicity known as mucositis. The pathogenesis of mucositis is ill defined. Recent clinical research guidelines have highlighted epithelial junctional complexes as emerging targets within mucositis research. Given the robust biological evidence linking tight junctions and matrix metalloproteinases, key mediators of mucositis, tight junction proteins have received significant attention. Despite this, the link between tight junctions, matrix metalloproteinases and mucositis development is yet to be established. This critical review therefore aims to describe the role of matrix metalloproteinases in mucositis, and how matrix metalloproteinase-dependent tight junction disruption may contribute to the pathobiology of mucositis.Noor Al-Dasooqi, Hannah R. Wardill, Rachel J Gibso

    Mucositis

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    Noor Al-Dasooqi, Dorothy M. Keefe and Stephen T. Sonishttp://trove.nla.gov.au/version/19402933

    HER2 targeted therapies for cancer and the gastrointestinal tract

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    HER2 (v-erb-b2 erythroblastic leukemia viral oncogene) is a member of the epidermal growth factor (EGF) receptor family of receptor tyrosine kinases. Since the discovery of a role for HER2 and other EGF receptors in the development and progression of cancer, they have become targets for a number of targeted anti-cancer drugs. These drugs have proven to be effective in treating and managing a range of cancers, however, recent observations in the clinic have suggested that their administration causes many toxicities, including gastrointestinal toxicity. Drugs with HER2 inhibitory activity fall into two categories; the monoclonal antibodies and small molecule tyrosine kinase inhibitors. Both of these drug classes have been shown to induce symptoms consistent with mucositis development; including nausea and vomiting, diarrhoea and abdominal pain. However, to date, limited studies have been carried out to justify the source of these toxicities. This review summarizes our current knowledge of the toxicities associated with commonly used HER2 targeted therapy drugs, the role of HER2 in cancer and the healthy gastrointestinal tract and the possible mechanisms by which drugs with HER2 inhibitory activity can induce gastrointestinal damage and possibly mucositis in patients.Al-Dasooqi Noor, Gibson, Rachel, Bowen Joanne and Keefe Doroth

    HER2 targeted therapy-induced gastrointestinal toxicity: from the clinical experience to possible molecular mechanisms

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    HER2 (v-erb-b2 erythroblastic leukemia viral oncogene) is a member of the epidermal growth factor (EGF) receptor family of receptor tyrosine kinases. Since the discovery of a role for HER2 and other EGF receptors in the development and progression of cancer, they have become targets for a number of targeted anti-cancer drugs. These drugs have proven to be effective in treating and managing a range of cancers, however, recent observations in the clinic have suggested that their administration causes many toxicities, including gastrointestinal toxicity. Drugs with HER2 inhibitory activity fall into two categories; the monoclonal antibodies and small molecule tyrosine kinase inhibitors. Both of these drug classes have been shown to induce symptoms consistent of mucositis development; including nausea and vomiting, diarrhoea and abdominal pain. However, to date, limited studies have been carried out to justify the source of these toxicities. This chapter summarises our current knowledge of the toxicities associated with commonly used HER2 targeted therapy drugs, the role of HER2 in cancer and the healthy gastrointestinal tract and the possible mechanisms by which drugs with HER2 inhibitory activity can induce gastrointestinal damage and possibly mucositis in patients. © 2012 John Wiley & Sons, Ltd.Noor Al-Dasooqi, Rachel J. Gibson, Joanne M. Bowen and Dorothy M. Keefehttp://trove.nla.gov.au/work/157109184?q=9780470748145&c=book&sort=holdings+desc&_=1351552618126&versionId=17126279
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