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1.
Br J Cancer ; 114(9): 986-94, 2016 Apr 26.
Article in English | MEDLINE | ID: mdl-27115568

ABSTRACT

BACKGROUND: Mipsagargin (G-202; (8-O-(12-aminododecanoyl)-8-O-debutanoyl thapsigargin)-Asp-γ-Glu-γ-Glu-γ-GluGluOH)) is a novel thapsigargin-based targeted prodrug that is activated by PSMA-mediated cleavage of an inert masking peptide. The active moiety is an inhibitor of the sarcoplasmic/endoplasmic reticulum calcium adenosine triphosphatase (SERCA) pump protein that is necessary for cellular viability. We evaluated the safety of mipsagargin in patients with advanced solid tumours and established a recommended phase II dosing (RP2D) regimen. METHODS: Patients with advanced solid tumours received mipsagargin by intravenous infusion on days 1, 2 and 3 of 28-day cycles and were allowed to continue participation in the absence of disease progression or unacceptable toxicity. The dosing began at 1.2 mg m(-2) and was escalated using a modified Fibonacci schema to determine maximally tolerated dose (MTD) with an expansion cohort at the RP2D. Plasma was analysed for mipsagargin pharmacokinetics and response was assessed using RECIST criteria. RESULTS: A total of 44 patients were treated at doses ranging from 1.2 to 88 mg m(-2), including 28 patients in the dose escalation phase and 16 patients in an expansion cohort. One dose-limiting toxicity (DLT; Grade 3 rash) was observed in the dose escalation portion of the study. At 88 mg m(-2), observations of Grade 2 infusion-related reaction (IRR, 2 patients) and Grade 2 creatinine elevation (1 patient) led to declaration of 66.8 mg m(-2) as the recommended phase II dose (RP2D). Across the study, the most common treatment-related adverse events (AEs) were fatigue, rash, nausea, pyrexia and IRR. Two patients developed treatment-related Grade 3 acute renal failure that was reversible during the treatment-free portion of the cycle. To help ameliorate the IRR and creatinine elevations, a RP2D of 40 mg m(-2) on day 1 and 66.8 mg m(-2) on days 2 and 3 with prophylactic premedications and hydration on each day of infusion was established. Clinical response was not observed, but prolonged disease stabilisation was observed in a subset of patients. CONCLUSIONS: Mipsagargin demonstrated an acceptable tolerability and favourable pharmacokinetic profile in patients with solid tumours.


Subject(s)
Enzyme Inhibitors/therapeutic use , Neoplasms/drug therapy , Prodrugs/therapeutic use , Thapsigargin/therapeutic use , Aged , Aged, 80 and over , Enzyme Inhibitors/administration & dosage , Enzyme Inhibitors/pharmacokinetics , Humans , Male , Middle Aged , Thapsigargin/administration & dosage , Thapsigargin/pharmacokinetics
2.
Br J Cancer ; 105(10): 1563-73, 2011 Nov 08.
Article in English | MEDLINE | ID: mdl-22015557

ABSTRACT

BACKGROUND: Upregulation of PIM kinase expression has been reported in many malignancies, suggesting that inhibition of PIM kinase activity may be an attractive therapeutic strategy. We hypothesised that inhibition of PIM kinase activity with SGI-1776, a novel small molecule inhibitor of PIM kinase activity, would reduce the viability of renal cell carcinoma (RCC) cells and enhance the activity of sunitinib. METHODS: Immunoblotting, qRT-PCR, and gene expression arrays were carried out to identify genes modulated by SGI-1776 treatment. The anticancer activity of SGI-1776 and sunitinib was determined by viability and apoptosis assays and in tumour xenografts in vivo. RESULTS: Treatment with SGI-1776 led to a decrease in phosphorylated and total c-Myc levels, which resulted in the modulation of c-Myc target genes. SGI-1776 in combination with sunitinib induced a further reduction in c-Myc levels, which was associated with enhanced anticancer activity. siRNA-mediated knockdown of c-Myc demonstrated that its expression has a key role in regulating the sensitivity to the combination of SGI-1776 and sunitinib. Importantly, the combination significantly reduced tumour burden in two RCC xenograft models compared with single-agent therapy and was very well tolerated. CONCLUSION: These data indicate that targeting PIM kinase signalling is a promising treatment strategy for RCC.


Subject(s)
Antineoplastic Agents/pharmacology , Carcinoma, Renal Cell/pathology , Imidazoles/pharmacology , Indoles/pharmacology , Kidney Neoplasms/pathology , Protein Kinase Inhibitors/pharmacology , Proto-Oncogene Proteins c-pim-1/antagonists & inhibitors , Pyridazines/pharmacology , Pyrroles/pharmacology , Animals , Carcinoma, Renal Cell/enzymology , Cell Line, Tumor , Female , Humans , Immunohistochemistry , Kidney Neoplasms/enzymology , Mice , Mice, Inbred BALB C , Mice, Nude , Phosphorylation , Proto-Oncogene Proteins c-myc/metabolism , Real-Time Polymerase Chain Reaction , Sunitinib
3.
Br J Cancer ; 102(4): 754-64, 2010 Feb 16.
Article in English | MEDLINE | ID: mdl-20087343

ABSTRACT

BACKGROUND: Tumour necrosis factor-related apoptosis-inducing ligand (TRAIL) induces tumour cell apoptosis by binding to death receptor 4 (DR4) and DR5. DR4 and DR5 activation however can also induce inflammatory and pro-survival signalling. It is not known how these different cellular responses are regulated and what the individual role of DR4 vs DR5 is in these processes. METHODS: DNA microarray study was carried out to identify genes differentially expressed after DR4 and DR5 activation. RT-PCR and western blotting was used to examine the expression of early growth response gene-1 (Egr-1) and the proteins of the TRAIL signalling pathway. The function of Egr-1 was studied by siRNA-mediated knockdown and overexpression of a dominant-negative version of Egr-1. RESULTS: We show that the immediate early gene, Egr-1, regulates TRAIL sensitivity. Egr-1 is constitutively expressed in colon cancer cells and further induced upon activation of DR4 or DR5. Our results also show that DR4 mediates a type II, mitochondrion-dependent apoptotic pathway, whereas DR5 induces a mitochondrion-independent, type I apoptosis in HCT15 colon carcinoma cells. Egr-1 drives c-FLIP expression and the short splice variant of c-FLIP (c-FLIP(S)) specifically inhibits DR5 activation. CONCLUSION: Selective knockdown of c-FLIP(S) sensitises cells to DR5-induced but not DR4-induced apoptosis and Egr-1 exerts an effect as an inhibitor of the DR5-induced apoptotic pathway, possibly by regulating the expression of c-FLIP(S).


Subject(s)
Apoptosis/genetics , Carcinoma/genetics , Colonic Neoplasms/genetics , Early Growth Response Protein 1/physiology , Receptors, TNF-Related Apoptosis-Inducing Ligand/physiology , CASP8 and FADD-Like Apoptosis Regulating Protein/genetics , CASP8 and FADD-Like Apoptosis Regulating Protein/physiology , Carcinoma/pathology , Colonic Neoplasms/pathology , Early Growth Response Protein 1/antagonists & inhibitors , Early Growth Response Protein 1/genetics , Gene Expression Regulation, Neoplastic/drug effects , Humans , Mitochondria/drug effects , Mitochondria/metabolism , Mutant Proteins/genetics , Mutant Proteins/physiology , RNA, Small Interfering/pharmacology , Receptors, TNF-Related Apoptosis-Inducing Ligand/genetics , Receptors, TNF-Related Apoptosis-Inducing Ligand/metabolism , Receptors, Tumor Necrosis Factor/genetics , Receptors, Tumor Necrosis Factor/metabolism , Receptors, Tumor Necrosis Factor/physiology , Recombinant Proteins/pharmacology , Signal Transduction/drug effects , Signal Transduction/genetics , TNF-Related Apoptosis-Inducing Ligand/pharmacology , Transfection , Tumor Cells, Cultured
4.
Br J Cancer ; 100(9): 1415-24, 2009 May 05.
Article in English | MEDLINE | ID: mdl-19352384

ABSTRACT

Tumour necrosis factor-related apoptosis-inducing ligand (TRAIL) induces apoptosis on binding to its receptors, death receptor 4 and 5 (DR4, DR5). TRAIL can also activate c-Jun N-terminal kinase (JNK) through the adaptor molecules, TNF receptor-associated factor 2 (TRAF2) and receptor-interacting protein (RIP). The role of JNK in TRAIL-induced tumour cell apoptosis is unclear. In this study, we demonstrate that JNK is activated by TRAIL in colon cancer cells. Inhibition of JNK with L-JNKI reduced rhTRAIL-induced cell death but enhanced cell death induced by selective activation of DR4 or DR5. This difference was unrelated to receptor internalisation or differential activation of c-Jun, but activation of different JNK isoforms. Our data demonstrate that JNK1, but not JNK2 is activated by rhTRAIL in the examined colon cancer cell lines. Although rhTRAIL activated both the long and short isoforms of JNK1, selective activation of DR4 or DR5 led to predominant activation of the short JNK1 isoforms (JNK1alpha1 and/or JNK1beta1). Knockdown of JNK1alpha1 by shRNA enhanced apoptosis induced by TRAIL, agonistic DR4 or DR5 antibodies. On the other hand, knockdown of the long JNK1 isoforms (JNK1alpha2 and JNK1beta2) had the opposite effect; it reduced TRAIL-induced cell death. These data indicate that the short JNK1 isoforms transmit an antiapoptotic signal, whereas the long isoforms (JNK1alpha2 or JNK1beta2) act in a proapoptotic manner.


Subject(s)
Colonic Neoplasms/metabolism , Mitogen-Activated Protein Kinase 8/metabolism , Receptors, TNF-Related Apoptosis-Inducing Ligand/metabolism , Receptors, TNF-Related Apoptosis-Inducing Ligand/therapeutic use , Apoptosis/drug effects , Cell Death/drug effects , Cell Line, Tumor , Colonic Neoplasms/enzymology , Colonic Neoplasms/genetics , Colonic Neoplasms/pathology , DNA Primers , Enzyme Activation/drug effects , Flow Cytometry , Humans , Isoenzymes/drug effects , Isoenzymes/metabolism , Kinetics , Mitogen-Activated Protein Kinase 8/drug effects , Mitogen-Activated Protein Kinase 8/genetics , Plasmids , RNA, Neoplasm/genetics , RNA, Neoplasm/isolation & purification , Reverse Transcriptase Polymerase Chain Reaction , Transfection
5.
Br J Cancer ; 100(10): 1523-9, 2009 May 19.
Article in English | MEDLINE | ID: mdl-19401686

ABSTRACT

Heat-shock proteins (HSPs) are molecular chaperones that regulate protein folding to ensure correct conformation and translocation and to avoid protein aggregation. Heat-shock proteins are increased in many solid tumours and haematological malignancies. Many oncogenic proteins responsible for the transformation of cells to cancerous forms are client proteins of HSP90. Targeting HSP90 with chemical inhibitors would degrade these oncogenic proteins, and thus serve as useful anticancer agents. This review provides an overview of the HSP chaperone machinery and the structure and function of HSP90. We also highlight the key oncogenic proteins that are regulated by HSP90 and describe how inhibition of HSP90 could alter the activity of multiple signalling proteins, receptors and transcriptional factors implicated in carcinogenesis.


Subject(s)
Antineoplastic Agents/therapeutic use , Drug Delivery Systems/methods , HSP90 Heat-Shock Proteins/antagonists & inhibitors , Neoplasms/drug therapy , Disease Progression , HSP90 Heat-Shock Proteins/chemistry , HSP90 Heat-Shock Proteins/physiology , Heat-Shock Response/genetics , Heat-Shock Response/physiology , Humans , Models, Biological , Structure-Activity Relationship
6.
Oncogene ; 31(25): 3023-38, 2012 Jun 21.
Article in English | MEDLINE | ID: mdl-22002308

ABSTRACT

Oncolytic virotherapy with reovirus has demonstrated anti-cancer activity and minimal toxicity in clinical trials, but the mechanisms underlying these effects have not been fully elucidated. Reolysin, a proprietary formulation of reovirus for cancer therapy, stimulated selective viral replication and apoptosis in multiple myeloma (MM) cells. Reolysin-mediated apoptosis was associated with an induction of endoplasmic reticular (ER) stress-related gene expression, swelling of the endoplasmic reticulum, increases in intracellular calcium levels and a strong induction of the Bcl-2 homology 3 (BH3)-only pro-apoptotic protein NOXA. Knockdown of NOXA expression by short hairpin RNA significantly reduced the pro-apoptotic effects of Reolysin. We next showed that co-administration of Reolysin and bortezomib resulted in the dual accumulation of viral and ubiquitinated proteins, which led to enhanced ER stress, NOXA induction and apoptosis. Importantly, the combination of reovirus infection and proteasomal inhibition significantly decreased tumor burden in a xenograft and syngeneic bone disease model of MM without exhibiting adverse side effects. Our study establishes ER stress stimulation and NOXA induction as novel mediators of reovirus-induced apoptosis. Furthermore, reovirus infection can be used as a promising approach to augment the anti-myeloma activity of bortezomib by promoting additional stress to the endoplasmic reticulum of MM cells.


Subject(s)
Antineoplastic Agents/therapeutic use , Apoptosis/drug effects , Boronic Acids/therapeutic use , Endoplasmic Reticulum Stress , Multiple Myeloma/drug therapy , Multiple Myeloma/virology , Oncolytic Virotherapy , Orthoreovirus, Mammalian , Pyrazines/therapeutic use , Animals , Bortezomib , Cells, Cultured , Humans , Mice , Multiple Myeloma/metabolism , Multiple Myeloma/pathology , Neoplasm Transplantation , Proto-Oncogene Proteins c-bcl-2/metabolism , Transplantation, Heterologous
7.
Eur J Clin Nutr ; 65(1): 63-9, 2011 Jan.
Article in English | MEDLINE | ID: mdl-20859299

ABSTRACT

BACKGROUND/OBJECTIVES: Vitamin E is an essential fat-soluble vitamin that has been shown to induce favorable effects on animal and human immune systems. The objective of this study was to assess the effects of tocotrienol-rich fraction (TRF) supplementation on immune response following tetanus toxoid (TT) vaccine challenge in healthy female volunteers. SUBJECTS/METHODS: In this double-blinded, placebo-controlled clinical trial, participants were randomly assigned to receive either placebo (control group) or 400 mg of TRF (study group) supplementation daily. Over the 2-month period of the study, volunteers were asked to attend three clinical sessions (that is, on days 0, 28 and 56) and blood samples were obtained from the volunteers during the follow-up. On day 28, all volunteers were also vaccinated with the TT vaccine (20 Lf) intramuscularly. RESULTS: The results from the clinical trial showed that TRF supplementation significantly increased the total vitamin E level in the plasma of the TRF-supplemented volunteers compared with the placebo group, indicating overall compliance. Volunteers supplemented with TRF showed a significantly (P < 0.05) enhanced production of interferon-γ and interleukin (IL)-4 by the mitogen or TT-stimulated leukocytes compared with the control group. Volunteers from the TRF group produced significantly (P < 0.05) lower amounts of IL-6 compared with the placebo group. Anti-TT IgG production was also significantly (P < 0.05) augmented in the TRF-supplemented group compared with the placebo group. CONCLUSIONS: We conclude that TRF has immunostimulatory effects and potential clinical benefits to enhance immune response to vaccines.


Subject(s)
Adjuvants, Immunologic/therapeutic use , Dietary Supplements , Tetanus Toxoid/immunology , Tocotrienols/administration & dosage , Tocotrienols/pharmacology , Adolescent , Adult , Antibodies, Bacterial/blood , Double-Blind Method , Female , Follow-Up Studies , Humans , Immunoglobulin G/blood , Interferon-gamma/immunology , Interleukin-4/immunology , Interleukin-6/immunology , Tetanus Toxoid/administration & dosage , Tocotrienols/blood , Vaccination , Young Adult
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