The impact of cancer physicians' and patients' attitudes on personalised prescription of novel targeted anticancer drugs using predictive biomarkers

Alyamani, Nayef A.

January 2014

Background: The use of novel targeted anticancer drugs in clinical practice is rapidly increasing. As the use of these drugs increases, so does the need to develop biomarkers to optimise the drugs' clinical and cost effectiveness. The attitudes and views of all stakeholders regarding the optimal use of predictive biomarkers in guiding personalised medicine are crucial for identifying acceptable criteria of predictive biomarker tests to guide future biomarker development. To gain insight into these views, we aimed to develop and validate a survey tool that would aid in assessing attitudes of cancer physicians and patients regarding the utilisation of biomarkers in tailoring treatment according to individual patient needs. Methods: Two questionnaires (one for oncologists and one for patients) based on emerging clinical data about novel targeted anticancer agents were designed to capture information about acceptable sensitivity, specificity, invasiveness and cost of a predictive biomarker test. A hypothetical scenario was provided that described a newly developed, targeted anticancer drug that was found to be more beneficial to certain patient subgroups identified through a predictive biomarker test. Questions in the patient survey were based on the results of the oncologist survey. Results: The response rates to these surveys were 20% (n=67) for the oncologists and 59% (n=100) for the patients. The oncologists' attitudes regarding the predictive biomarker test's false negative (FN) and false positive (FP) rates varied with the level of health outcome generated by the hypothetical drug. The acceptable FN rate for predictive biomarker test results detected in the current study was similar to many current predictive biomarkers, but the FP rate considered acceptable was much lower. The majority of the patients (90%) accepted the median acceptable FN rate of 10% reported by the oncologists. A significant minority of the oncologists (27%) refused a tumour biopsy (in addition to the diagnostic biopsy) to collect samples for the purpose of predictive biomarker testing. A much higher percentage of patients (68%) refused a biopsy under such conditions. Interestingly, our data also suggest that oncologists' expectations for the outcome of therapy have changed little in recent years, while patients' expectations have increased dramatically. Conclusions: Our data suggest that oncologists and patients agree that a FN rate of 10% is acceptable. However, based on the oncologists' responses, the FP rates associated with current predictive biomarkers are far from ideal. This may reflect oncologists' pragmatic approach in the absence of alternative choices for predictive biomarker tests. However, it also suggests that future biomarker development and implementation must focus on decreasing the FP rate without increasing the FN rate. Recent results demonstrating molecular heterogeneity in tumours suggest that, considering our data on acceptable test accuracy, serial/repeated tumour biopsies may be required. However, based on the attitudes of physicians and patients reported here, such ‘biopsy-driven' clinical trials may not be acceptable, and, without further investigation or education, this may be a barrier to the successful implementation of such potentially valuable investigational strategies. These results should certainly be taken into account when planning biopsy-dependent trials, and emphasises the importance of pursuing non-invasive biomarker assays. We believe that the survey questionnaires originating from the current study are valid tools for assessing stakeholders' attitudes and views about the appropriate application of predictive biomarkers in personalised medicine.

610

Novel analogues of CB 1954

Somani, Hanif

January 1996

No description available.

615.1

The role of caspase-3 in drug-induced apoptosis

Turner, Claire

January 2000

No description available.

615.1

The expression of xenobiotic metabolising enzymes in human tumours

McKay, Judith A.

January 1996

The cytochromes P450 (CYPs), epoxide hydrolases (EHs) and glutathione S-transferases (GSTs) are three of the major families of enzymes involved in the metabolism of xenobiotics in the human body. Immunohistochemical analysis revealed a high frequency of expression of xenobiotic metabolising enzymes in all tumour types studied, in contrast to corresponding normal tissue which displayed only low levels of expression. Further examination of the CYP1 family was carried out by immunoblot analysis. All breast tumours studied were found to express CYP1B1, and not CYP1A1 or CYP1A2. Moreover, CYP1B1 was identified in a number of kidney tumours but not in corresponding normal kidney, indicating that CYP1B1 may be a tumour-specific form of CYP, RT-PCR, in combination with restriction digestion and DNA sequencing, was used to identify CYP mRNA species present in several tumour types. Although CYP1A1 mRNA was identified in breast carcinomas, CYP1B1 was found to be the most frequently expressed form of the CYP1 family in this tissue. CYP3A mRNA was also displayed by several breast tumours, and demonstrated by sequencing to be CYP3A5. A similar situation to breast tumours was observed in tumours of the gastro-intestinal and urinary tracts, with CYP1B1 being the most frequently expressed form of the CYP1 family, and only a small number of samples displaying evidence of CYP1A mRNA. The effects of the expression of xenobiotic metabolising enzymes in tumours may be complex, and depend upon the relative amounts of active protein present, but it is likely that they will exert an influence on both the development of carcinogenesis and the anti-cancer drug resistance of tumours.

572.8

Studies on new tumour active compounds with one or more metal centres

Tayyem, Hasan Mohammad

January 2006

Doctor of Philosophy(PhD) / The present study deals with the synthesis, characterization, determination of anticancer activity of three mononuclear trans-planaraminepalladium(II) complexes code named TH5, TH6 and TH7 and three trinuclear complexes code named TH1, TH8 and TH14. The activity of the compounds against human cancer cell lines: A2780, A2780cisR and A2780ZD0473R, cell uptake, DNA-binding and nature of interaction with pBR322 plasmid DNA have been determined. Whereas cisplatin binds with DNA forming mainly intrastrand GG adduct that causes local bending of a DNA strand, TH5, TH6, TH7, TH1 and TH8 bind with DNA forming mainly interstrand GG adducts that causes more of a global change in DNA conformation. Although TH5, TH6 and TH7 each have two substituted pyridine ligands in a trans-geometry (3-hydroxypyridine in TH5, 2-hydroxypyridine in TH6 and 4-hydroxypyridine in TH7), the compounds differ in their activity against ovarian cancer cell lines, indicating that non-covalent interactions involving the hydroxyl group may be playing a significant role in activity of the compounds. Among trinuclear complexes TH1 is found to be significantly more active than cisplatin. It is actually twice as active as cisplatin against the parent cell line A2780, thirteen times as active as cisplatin against the cisplatin-resistant cell line A2780cisR and 11.5 times as active as cisplatin against the cell line A2780ZD0473R. Whereas the resistance factor for cisplatin as applied to the cell lines A2780 and A2780cisR cell lines is 12.9 that for TH1 is 1.98. The results suggest that TH1 has been able to significantly overcome resistance operating in A2780cisR cell line. The compound is soluble in water so that it may be taken orally. Provided it has favourable toxicity profile, TH1 has the potential to be developed into a highly active anticancer drug with a wider spectrum of activity than cisplatin. Although platinum drugs use a shot-gun approach to kill cancerous cells, widespread use in the clinic and increasing volume of their sale indicate that even in the genomic age, there is still need for shot-gun drugs in the clinic.

Anti-cancer drugs,

cell culture,

molar conductivity

New Methods to Screen for Cancer Drugs and to Evaluate their Mechanism of Action

Rickardson, Linda

January 2008

<p>Cancer is a common disease and due to problems with resistance against cancer drugs and the limited benefit from chemotherapy in many diagnoses, there is a need to develop new cancer drugs. In this thesis new methods to screen for cancer drugs and to evaluate their mechanism of action are discussed. </p><p>In Paper I, it was found that by studying the gene expression of a cell line panel and combining the data with sensitivity data of a number of cytotoxic drugs, it was possible to cluster compounds according to mechanism of action as well as identifying genes associated with chemosensitivity.</p><p>In Paper II, studies of compounds with selective activity in drug-resistant cell lines revealed the glucocorticoids as a group of interesting compounds. The glucocorticoid receptor was overexpressed in 8226/Dox40 and the difference in sensitivity was abolished when the cells were treated with a glucocorticoid receptor antagonist.</p><p>In Paper III, an image-based screening method for new proteasome inhibitors was successfully developed and the compounds disulfiram, PDTC and NSC 95397 were identified as inhibitors of the proteasome.</p><p>In Paper IV, disulfiram and PDTC were shown to induce cytotoxic activity, to inhibit the activation of the transcription factor NFkappaB and to inhibit the degradation of proteins normally degraded by the proteasome.</p><p>In Paper V, NSC 95397 was shown to be cytotoxic to all cells in the resistance-based cell line panel as well as to patient samples from a variety of cancer diagnoses. Connectivity Map was successfully used as a tool to propose a new mechanism of action of NSC 95397. The gene expression induced by NSC 95397-treatment was similar to that induced by several proteasome inhibitors not present in the Connectivity Map.</p>

Pharmacology

Cancer drugs

Screening

Gene expression

Farmakologi

Development and evaluation of Surface Enhanced Resonance Raman Scattering (SERRS) spectroscopy for quantitative analysis

McLaughlin, Clare

January 2001

No description available.

543

Azo dye; Anti-cancer drugs; Mitoxantrone

The design of novel inhibitors of poly (ADP-ribose) polymerase to potentiate cytotoxic drugs

White, Alex William

January 1996

The abundant nuclear enzyme poly (ADP-ribose)polymerase (P ARP) catalyses the formation of long homopolymeric chains of ADP-ribose, utilising NAD+ as a substrate, as the immediate cellular response to DNA damage. PARP recognises a damaged section of DNA and initiates polymer synthesis, which is believed to act as a signal to effect the repair of the lesion. A selective, potent PARP inhibitor could block the recognition, and hence repair, of DNA damage induced by cancer chemotherapy. Since increased DNA repair is regarded as a mechanism whereby tumour cells can become resistant to treatment, PARP inhibitors have therapeutic potential as resistance modifying agents. From a study of PARP inhibitors such as 3-hydroxybenzarnide (A), benzimidazole derivatives (B) were proposed as inhibitors of the enzyme, and the synthesis and biological evaluation of a series of such molecules has been achieved. Substituted 2-aryl benzirnidazoles have proved to be highly potent PARP inhibitors (B;R= 4'NO2Ph, IC5o= 59 nM), under a permeabilised cell assay the nitro phenyl derivative (B; R= 4'N02Ph) is the most potent compound reported to date (IC50= 19 nM). 2-Methyl benzirnidazole-4-carboxamide (B; R= Me) has been shown to potentiate the in vitro cytotoxicity of the antitumour agent temozolomide in L1210 cells, and the synthesis of benzimidazole inhibitors suitable for pre-clinical in vivo eluation has also been investigated, This thesis demonstrates that benzimidazole PARP inhibitors have promising potential for clinical development as resistance modifying agents.

547

New Methods to Screen for Cancer Drugs and to Evaluate their Mechanism of Action

Rickardson, Linda

January 2008

Cancer is a common disease and due to problems with resistance against cancer drugs and the limited benefit from chemotherapy in many diagnoses, there is a need to develop new cancer drugs. In this thesis new methods to screen for cancer drugs and to evaluate their mechanism of action are discussed. In Paper I, it was found that by studying the gene expression of a cell line panel and combining the data with sensitivity data of a number of cytotoxic drugs, it was possible to cluster compounds according to mechanism of action as well as identifying genes associated with chemosensitivity. In Paper II, studies of compounds with selective activity in drug-resistant cell lines revealed the glucocorticoids as a group of interesting compounds. The glucocorticoid receptor was overexpressed in 8226/Dox40 and the difference in sensitivity was abolished when the cells were treated with a glucocorticoid receptor antagonist. In Paper III, an image-based screening method for new proteasome inhibitors was successfully developed and the compounds disulfiram, PDTC and NSC 95397 were identified as inhibitors of the proteasome. In Paper IV, disulfiram and PDTC were shown to induce cytotoxic activity, to inhibit the activation of the transcription factor NFkappaB and to inhibit the degradation of proteins normally degraded by the proteasome. In Paper V, NSC 95397 was shown to be cytotoxic to all cells in the resistance-based cell line panel as well as to patient samples from a variety of cancer diagnoses. Connectivity Map was successfully used as a tool to propose a new mechanism of action of NSC 95397. The gene expression induced by NSC 95397-treatment was similar to that induced by several proteasome inhibitors not present in the Connectivity Map.

Pharmacology

Cancer drugs

Screening

Gene expression

Farmakologi

Analyses of Dose-Response and Mechanistic Action of Different Anti-Cancer Drugs for Neuroendocrine Tumor Cell Lines

Larsson, Dhana E

January 2011

Cancer is a disease with poor response rates on available treatments. Problems with resistance and intolerance against cancer drugs are major reasons for failure of the drugs. The need to discover new cancer drugs is important. In this thesis screening of new cancer drugs and evaluation of their mechanism of action are discussed. The aim of the thesis was to find new compounds active against neuroendocrine tumors (NETs). In paper I, we screened 1280 substances on two bronchial carcinoid cell lines and one pancreatic carcinoid cell line. Eleven of these compounds were found to have antitumor activity at low concentrations. The most active agents were brefeldin A, emetine, bortezomib and idarubicin, having IC50 values (the concentration of the drug where &gt; 50% of the cells die) &lt; 1μM. In addition, sanguinarine, Bay11-7085, mitoxantrone, doxorubicin, β-lapachone, NSC 95397 and CGP- 74514A were active with IC50 values &lt; 10 μM.  In paper II, additional studies have been undertaken to investigate the combination effect of the most active drugs with conventional cytotoxic drugs used in clinical practice. If synergistic or additive effects are found, drugs with different mechanism of action and toxicity profiles may be combined, making it possible to reduce the toxic effects yet maintaining the antitumor activity. In paper III, studies were undertaken to find the mechanistic action, apoptosis or necrosis, of the drugs NSC 95397, brefeldin A, bortezomib and sanguinarine in NETs. All four drugs were shown to induce caspase-3 activity and nuclear fragmentation/condensation in the neuroendocrine tumor cell lines, indicating that their antitumor activity was induction of apoptosis. In paper IV, the mechanism of action was studied for CGP-74514A and emetine. Both drugs worked by induction of apoptosis. In addition, their cytotoxic activity was studied in a three-dimensional model, the in vitro hollow fiber model. The Hollow Fiber model permits more realistic simulation of in vivo drug effects in a controlled system providing data that more accurately reflects biological responses. Our results showed that the hollow fiber model may be suitable for studies of new drugs in the neuroendocrine tumor cell lines. / Title corrected from: Analyses of Dos-Response and Mechanistic Action of Different Anti-Cancer Drugs for Neuroendocrine Tumor Cell Lines

Cancer drugs

Screening

Hollow Fiber model

Apoptosis