W. Nicol Keith scite author profile

Targeted therapies and the consequent adoption of “personalized” oncology have achieved notable successes in some cancers; however, significant problems remain with this approach. Many targeted therapies are highly toxic, costs are extremely high, and most patients experience relapse after a few disease-free months. Relapses arise from genetic heterogeneity in tumors, which harbor therapy-resistant immortalized cells that have adopted alternate and compensatory pathways (i.e., pathways that are not reliant upon the same mechanisms as those which have been targeted). To address these limitations, an international task force of 180 scientists was assembled to explore the concept of a low-toxicity “broad-spectrum” therapeutic approach that could simultaneously target many key pathways and mechanisms. Using cancer hallmark phenotypes and the tumor microenvironment to account for the various aspects of relevant cancer biology, interdisciplinary teams reviewed each hallmark area and nominated a wide range of high-priority targets (74 in total) that could be modified to improve patient outcomes. For these targets, corresponding low-toxicity therapeutic approaches were then suggested; many of which were phytochemicals. Proposed actions on each target and all of the approaches were further reviewed for known effects on other hallmark areas and the tumor microenvironment. Potential contrary or procarcinogenic effects were found for 3.9% of the relationships between targets and hallmarks, and mixed evidence of complementary and contrary relationships was found for 7.1%. Approximately 67% of the relationships revealed potentially complementary effects, and the remainder had no known relationship. Among the approaches, 1.1% had contrary, 2.8% had mixed and 62.1% had complementary relationships. These results suggest that a broad-spectrum approach should be feasible from a safety standpoint. This novel approach has potential to help us address disease relapse, which is a substantial and longstanding problem, so a proposed agenda for future research is offered.

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Increased dosage and amplification of the focal adhesion kinase gene in human cancer cells

Agochiya

et al. 1999

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Amplification, increased dosage and in situ expression of the telomerase RNA gene in human cancer

et al. 1997

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Telomere length is maintained by the enzyme, telomerase, which has been linked to cellular immortality and tumour progression. However, the reasons for the high levels of telomerase found in human tumours are unknown. We have mapped the human telomerase RNA gene, (hTR), to chromosome 3q26.3 and show the hTR gene to be ampli®ed in four carcinomas, (2/33 cervix, 1/31 head and neck, 1/9 lung). In addition, increased copy numbers of the hTR locus was also observed in 97% of tumours. By in situ hybridisation, the histological distribution of high levels of hTR expression could be demonstrated in a lung tumour and its metastasis with hTR ampli®cation. These results are the ®rst report of genetic alterations involving a known component of telomerase in human cancer. Indeed, it is also the ®rst report of the ampli®cation of a speci®c locus within the chromosome 3q region frequently subject to copy number gains in human tumours. In addition, we also show for the ®rst time the histological distribution of the RNA component of telomerase in human tumours.

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Comparative genomic hybridization analysis of primary colorectal carcinomas and their synchronous metastases

Al-Mulla

Keith

Pickford

et al. 1999

Genes Chromosom. Cancer

119

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Telomerase-specific suicide gene therapy vectors expressing bacterial nitroreductase sensitize human cancer cells to the pro-drug CB1954

et al. 2001

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W. Nicol Keith

Designing a broad-spectrum integrative approach for cancer prevention and treatment

Increased dosage and amplification of the focal adhesion kinase gene in human cancer cells

Amplification, increased dosage and in situ expression of the telomerase RNA gene in human cancer

Comparative genomic hybridization analysis of primary colorectal carcinomas and their synchronous metastases

Telomerase-specific suicide gene therapy vectors expressing bacterial nitroreductase sensitize human cancer cells to the pro-drug CB1954

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