Your search keyword '"Aherne, W."' showing total 2 results

1. A chemical inhibitor of PPM1D that selectively kills cells overexpressing PPM1D.

Author

Rayter, S., Elliott, R., Travers, J., Rowlands, M. G., Richardson, T. B., Boxall, K., Jones, K., Linardopoulos, S., Workman, P., Aherne, W., Lord, C. J., and Ashworth, A.

Subjects

CHEMICAL inhibitors, PHOSPHOPROTEIN phosphatases, BREAST cancer, CANCER cells, RNA, MOLECULES, CELL lines

Abstract

The PPM1D gene is aberrantly amplified in a range of common cancers and encodes a protein phosphatase that is a potential therapeutic target. However, the issue of whether inhibition of PPM1D in human tumour cells that overexpress this protein compromises their viability has not yet been fully addressed. We show here, using an RNA interference (RNAi) approach, that inhibition of PPM1D can indeed reduce the viability of human tumour cells and that this effect is selective; tumour cell lines that overexpress PPM1D are sensitive to PPM1D inhibition whereas cell lines with normal levels are not. Loss of viability associated with PPM1D RNAi in human tumour cells occurs via the activation of the kinase P38. To identify chemical inhibitors of PPM1D, a high-throughput screening of a library of small molecules was performed. This strategy successfully identified a compound that selectively reduces viability of human tumour cell lines that overexpress PPM1D. As expected of a specific inhibitor, the toxicity to PPM1D overexpressing cell lines after inhibitor treatment is P38 dependent. These results further validate PPM1D as a therapeutic target and identify a proof-of-principle small molecule inhibitor.Oncogene (2008) 27, 1036–1044; doi:10.1038/sj.onc.1210729; published online 13 August 2007 [ABSTRACT FROM AUTHOR]

Published

2008

2. A phase I pharmacokinetic and pharmacodynamic study of BGC9331 and carboplatin in relapsed gynaecological malignancies.

Author

Benepal, T., Jackman, A., Pyle, L., Bate, S., Hardcastle, A., Aherne, W., Mitchell, F., Simmons, L., Ruddle, R., Raynaud, F., and Gore, M.

Subjects

ENZYME-linked immunosorbent assay, CANCER cells, CELL culture, CELL lines, DRUG therapy, PHARMACOKINETICS

Abstract

BGC9331 is a rationally designed, specific nonpolyglutamatable thymidylate synthase (TS) inhibitor that is active in gynaecological malignancies. In the light of the sensitivity of human ovarian tumour cell lines to BGC9331 and non-cross resistance to platinum drugs, we studied the combination BGC9331/carboplatin (BCA) in a phase 1 (P1) pharmacokinetic (PK) and pharmacodynamic (PD) study in platinum pretreated gynaecological malignancies. Patients were ⩾ 18 years or over, with a histologically confirmed gynaecological malignancy, radiological evidence of relapse, and a platinum treatment free interval of at least 6 months. Up to three prior lines of chemotherapy were permitted. Carboplatin (AUCS) and BGC9331 were administered on day 1, and BGC9331 was also given on day 8 of a 21-day cycle. In total, 14 patients were enrolled, and treated with BGC9331 at four dose levels, 40, 65, 85 and 100 mg m-2. The principal grade 3 and 4 haematological toxicity was neutropaenia. The principal nonhaematological toxicities were lethargy and nausea. Dose-limiting toxicities were seen in two patients at 100 mg m-2 BGC9331 (grade 4 neutropaenia > 7 days, and grade 4 fatigue > 7 days). Plasma BGC9331 was measured by an ELISA that was adapted for use in humans. Carboplatin was assayed by flameless atomic absorption spectrometry. There was no PK interaction between the two drugs. Plasma deoxyuridine was elevated indicating TS inhibition to at least day 12. Antitumour activity was observed in four out of 14 (28%) of patients. In conclusion, the combination of BGC9331 and carboplatin is well tolerated with no significant PK interaction between the two drugs. There is evidence of TS inhibition with the combination. We have demonstrated antitumour activity in platinum pretreated gynaecological malignancy. Further exploration of this combination in this disease is warranted. [ABSTRACT FROM AUTHOR]

Published

2005