Enzymatic and Structural Characterization of Proteins Linked to Mycobacterium tuberculosis Pathogenicity

Boucau, Julie

January 2008

No description available.

Chemistry

Tuberculosis

drug development

enzymatic assay

Antigen 85

Cytochrome P450 1B1 (CYP1B1) is over-expressed in human colon adeno-carcinomas relative to normal colon: Implications for drug development.

Gibson, Paul, Gill, Jason H., Khan, Parveen A., Seargent, Jill M., Martin, Sandie W., Batman, Philip A., Griffith, John, Bradley, C., Double, John A., Bibby, Michael C., Loadman, Paul

January 2003

No / The cytochrome P450 family of enzymes is involved in the Phase I metabolism of a wide variety of compounds. Although generally involved with detoxification, overexpression of one family member, cytochrome P450 1B1 (CYP1B1), has been associated with human epithelial tumors. As such, CYP1B1 was hypothesized to be a novel target for the development of anticancer therapies. We investigated expression of CYP1B1 protein in 61 human colorectal adenocarcinomas and compared this to that observed in 14 histologically normal human large bowel samples removed from patients undergoing surgery for large bowel tumors. Although we confirmed that CYP1B1 was expressed at high levels in human colorectal tumor epithelia, we also found that CYP1B1 was not absent from normal colonic epithelia but was expressed at low levels. The expression of CYP1B1 in colon tumors does not correlate with tumor stage or degree of lymph node invasion in this study. Furthermore, in addition to expression in colon epithelia, CYP1B1 is also observed in blood vessels within the colon. As with the epithelia, levels of CYP1B1 were higher in tumor vasculature than that of the normal colon. Although these observations greatly support the development of CYP1B1 targeted anticancer therapies, they also indicate the caution that should be observed when developing such drugs.

Cytochrome P450 1B1 (CYP1B1)

Human colon adenocarcinomas

Drug development

Current directions in co-crystal growth.

Blagden, Nicholas, Berry, David J., Parkin, A., Javed, Hafsa S., Ibrahim, Asim, Gavan, Pauline T., De Matos, Luciana L., Seaton, Colin C.

January 2008

No / In this feature article we will focus on the issues relating to the crystal growth of co-crystals, with a particular emphasis on drug development. The initial focus of this perspective is on the relevant literature examples that may be able to inform our understanding with regards co-crystal crystallisation and the allied supramolecular concepts. The second part of this perspective contains selected examples from our own work, which add to the literature perspective. Topics include; nucleation templates, in situ synchrotron XRD studies, solid-state synthesis through mixing and screening strategies.

Crystal engineering

Crystal growth

Co-crystals

Drug development

Crystallisation

Searching for new treatments of malaria

Wright, Colin W.

10 1900

No / The aim of this chapter is to illustrate some current developments in natural product-derived antimalarial drugs. Traditional medicines have provided two of our most important antimalarial drugs (quinine and artemisinin) and have the potential to provide many novel antimalarial lead compounds of which several examples will be discussed. In addition, well- known natural antimalarials such as artemisinin continue to be an important focus of research and there is also increasing interest in investigating natural product sources that have not been traditionally used as antimalarials such as marine species of plants and animals. Assays based on specific malaria parasite targets such as thioredoxin reductase and heat shock protein have been employed to screen extracts and/or compounds and these have resulted in the identification of a number of potentially interesting antiplasmodial agents. However, since many victims of malaria are unable to afford antimalarial drugs, another approach adopted by some charities/NGO’s is to encourage people to grow their own medicinal plants such as Artemisia annua; some recent studies on this theme will be discussed.

Malaria

Antimalarial drugs

Treatment

Natural products

Drug development

Antiplasmodial agents

Precision pharmacology: Mass spectrometry imaging and pharmacokinetic drug resistance

Jove, M., Spencer, Jade A., Clench, M., Loadman, Paul, Twelves, C.

10 July 2019

Yes / Failure of systemic cancer treatment can be, at least in part, due to the drug not being delivered to the tumour at sufficiently high concentration and/or sufficiently homogeneous distribution; this is termed as “pharmacokinetic drug resistance”. To understand whether a drug is being adequately delivered to the tumour, “precision pharmacology” techniques are needed. Mass spectrometry imaging (MSI) is a relatively new and complex technique that allows imaging of drug distribution within tissues. In this review we address the applicability of MSI to the study of cancer drug distribution from the bench to the bedside. We address: (i) the role of MSI in pre-clinical studies to characterize anti-cancer drug distribution within the body and the tumour, (ii) the application of MSI in pre-clinical studies to define optimal drug dose or schedule, combinations or new drug delivery systems, and finally (iii) the emerging role of MSI in clinical research. / Spanish Medical Oncology Society (SEOM) for contribution with a grant for research abroad of Dr. Jove, “Instituto Carlos III” for contribution with a “Río Hortega” Grant (nº CM17/00008) for Dr. Jove

MALDI-MSI

Intra-tumoural drug distribution

Drug development

Pharmacokinetics

Application of In Vitro Chemosensitivity Testing for Evaluation of New Cytotoxic Drugs in Chronic Lymphocytic Leukaemia

Åleskog, Anna

January 2002

<p>Despite major advances in the understanding of the biology of chronic lymphocytic leukaemia (CLL), progress in improving its treatment has been limited and it still remains an incurable disorder. In the present research, we have performed <i>in vitro</i> drug sensitivity testing of primary CLL cells for preclinical evaluation of cytotoxic drugs, using the fluorometric microculture cytotoxicity assay (FMCA).</p><p>The tumour type-specific activities of 14 standard drugs, evaluated <i>in vitro</i> on tumour cells from patients with CLL and acute leukaemias, were in good agreement with their known clinical activities. A correlation between drug treatment and development of cellular drug resistance was demonstrated in CLL, but not in the acute leukaemias. Moreover, the nucleoside analogues fludarabine, cladribine, cytarabine and gemcitabine, as well as the anthracycline idarubicin, were highly active in CLL cells.</p><p>A new cytotoxic drug candidate, CHS 828, was evaluated in primary cell cultures from a broad spectrum of tumours. CHS 828 was highly active against haematological malignancies <i>in vitro</i>, especially CLL, but also against some solid tumours. The drug appeared to be non cross-resistant with standard drugs.</p><p>In addition, the relationship between drug sensitivity <i>in vitro</i> and a recently described prognostic factor in CLL, the mutational status of the immunoglobulin variable heavy chain (IgV_H) gene, was evaluated. Interestingly, cells with unmutated IgV_H genes were more chemosensitive than the mutated cells. </p><p>In summary, our results indicate that <i>in vitro</i> studies on tumour cellsfrom leukaemia patients may yield considerable information regarding the activity, mechanisms of action and cross-resistance of cytotoxic drugs, as well as concerning the relationship between drug sensitivity and prognostic factors, which can be useful in the preclinical evaluation of new cytotoxic drugs. Furthermore, the results suggest that the pyrimidine analogues cytarabine and gemcitabine, as well as the anthracycline idarubicin, may have a role in the treatment of CLL. The new cyanoguanidine CHS 828 is highly active in CLL cells and appears to be non cross-resistant with standard drugs. The poorer prognosis in patients with CLL cells with unmutated IgV_H genes can not be explained by increased chemoresistance.</p>

Clinical drug development

chronic lymphocytic leukaemia

cytotoxicity

in vitro assay

cytotoxic drug development

CHS 828

IgVH mutation status

Klinisk läkemedelsutveckling

Pharmaceutical chemistry

Läkemedelskemi

Application of In Vitro Chemosensitivity Testing for Evaluation of New Cytotoxic Drugs in Chronic Lymphocytic Leukaemia

Åleskog, Anna

January 2002

Despite major advances in the understanding of the biology of chronic lymphocytic leukaemia (CLL), progress in improving its treatment has been limited and it still remains an incurable disorder. In the present research, we have performed in vitro drug sensitivity testing of primary CLL cells for preclinical evaluation of cytotoxic drugs, using the fluorometric microculture cytotoxicity assay (FMCA). The tumour type-specific activities of 14 standard drugs, evaluated in vitro on tumour cells from patients with CLL and acute leukaemias, were in good agreement with their known clinical activities. A correlation between drug treatment and development of cellular drug resistance was demonstrated in CLL, but not in the acute leukaemias. Moreover, the nucleoside analogues fludarabine, cladribine, cytarabine and gemcitabine, as well as the anthracycline idarubicin, were highly active in CLL cells. A new cytotoxic drug candidate, CHS 828, was evaluated in primary cell cultures from a broad spectrum of tumours. CHS 828 was highly active against haematological malignancies in vitro, especially CLL, but also against some solid tumours. The drug appeared to be non cross-resistant with standard drugs. In addition, the relationship between drug sensitivity in vitro and a recently described prognostic factor in CLL, the mutational status of the immunoglobulin variable heavy chain (IgVH) gene, was evaluated. Interestingly, cells with unmutated IgVH genes were more chemosensitive than the mutated cells. In summary, our results indicate that in vitro studies on tumour cellsfrom leukaemia patients may yield considerable information regarding the activity, mechanisms of action and cross-resistance of cytotoxic drugs, as well as concerning the relationship between drug sensitivity and prognostic factors, which can be useful in the preclinical evaluation of new cytotoxic drugs. Furthermore, the results suggest that the pyrimidine analogues cytarabine and gemcitabine, as well as the anthracycline idarubicin, may have a role in the treatment of CLL. The new cyanoguanidine CHS 828 is highly active in CLL cells and appears to be non cross-resistant with standard drugs. The poorer prognosis in patients with CLL cells with unmutated IgVH genes can not be explained by increased chemoresistance.

Clinical drug development

chronic lymphocytic leukaemia

cytotoxicity

in vitro assay

cytotoxic drug development

CHS 828

IgVH mutation status

Klinisk läkemedelsutveckling

Pharmaceutical chemistry

Läkemedelskemi

Interferon, viruses and drug discovery

Gage, Zoe O.

January 2017

The interferon (IFN) response is a crucial component of cellular innate immunity, vital for controlling virus infections. Dysregulation of the IFN response however can lead to serious medical conditions including autoimmune disorders. Modulators of IFN induction and signalling could be used to treat these diseases and as tools to further understand the IFN response and viral infections. We have developed cell-based assays to identify modulators of IFN induction and signalling, based on A549 cell lines where a GFP gene is under the control of the IFN-β promoter (A549/pr(IFN-β).GFP) and the ISRE containing MxA promoter (A549/pr(ISRE).GFP) respectively. The assays were optimized, miniaturized and validated as suitable for HTS by achieving Z' Factor scores >0.6. A diversity screen of 15,667 compounds using the IFN induction reporter assay identified 2 hit compounds (StA-IFN-1 and StA-IFN-4) that were validated as specifically inhibiting IFNβ induction. Characterisation of these molecules demonstrated that StA-IFN-4 potently acts at, or upstream, of IRF3 phosphorylation. We successfully expanded this HTS platform to target viral interferon antagonists acting upon IFN-signalling. An additional assay was developed where the A549/pr(ISRE).GFP.RBV-P reporter cell line constitutively expresses the Rabies virus phosphoprotein. A compound inhibiting viral protein function will restore GFP expression. The assay was successfully optimized for HTS and used in an in-house screen. We further expanded this assay by placing the expression of RBV-P under the control of an inducible promoter. This demonstrates a convenient approach for assay development and potentiates the targeting of a variety of viral IFN antagonists for the identification of compounds with the potential to develop a novel class of antiviral drugs.

616.9

Hepatic and renal impairment trials: FDA guidance and industry practice

Heller, Gillis L.

January 2006

published_or_final_version / abstract / Community Medicine / Master / Master of Public Health

Clinical trials - United States.

Drug development - United States.

Chronic renal failure.

Liver - Diseases.

POLYAMINE MODULATION IN ALCOHOLISM: EXAMINATION USING A NOVEL SCREENING PROCEDURE DESIGNED TO PREDICT ANTI-RELAPSE AND NEUROPROTECTIVE EFFICACY

Lewis, J. Ben

01 January 2011

Alcohol dependence is a major public health concern. Despite the FDA’s approval of multiple anti-relapse drugs, relapse rates remain unacceptably high. Furthermore, cognitive deficits among chronic drinkers are evident and are suggested to contribute to relapse risk. Current evidence suggests that several critical features of alcoholism and alcohol-associated neurodegeneration are mechanistically linked to glutamatergic actions; specifically, they appear positively affected by glutamatergic inhibition, particularly inhibition via polyamine modulation of a subpopulation of n-methyl-d-aspartate receptors. The current project was designed to evaluate the performance of two putative polyamine modulators (JR-220 and CP-101,606) in a variety of screens designed to identify the potential to reduce withdrawal severity, neurotoxicity and relapse risk. Screens included a complex organotypic screen designed to assess neuroprotective potential (Experiment 1), a simple behavioral screen designed to assess withdrawal severity (Experiment 2) as well as several more complex behavioral screens designed to examine cue-conditioning during withdrawal (Experiment 3), relapse behavior (Experiment 4), stress-associated consumption (Experiment 5) and binge-like consumption (Experiment 6). An additional open field experiment (Experiment 7) was conducted in order to address interpretational issues concerning activity in Experiments 2-6. Finally, as a first step in moving beyond simple screening, we expanded our binge screen to adhere more closely to an established, validated model of binge consumption (Experiment 8). While some interpretational issues were noted, taken together, the results from these experiments provide strong evidence for both drugs as potential pharmacotherapies for alcoholism and further implicate polyamines and NR2B subunits as critical mechanisms in ETOH consumption and withdrawal.

Alcohol

Polyamines

Excitotoxicity

Relapse

NMDAr

Drug Development

Psychology

Substance Abuse and Addiction