by ecancer reporter Clare Sansom
It is now widely believed that adenocarcinoma of the lung in smokers arises through a gradual accumulation of mutations and genetic damage as the cells progress to malignity.
Using second-generation sequencing techniques, researchers from Genentech have completed the full DNA sequence of cells from a primary lung adenocarcinoma derived from a long-term smoker, and from normal cells from adjacent lung tissue. A comparison of the two genomes has revealed a comprehensive range of mutations in this single tumour.
In this study, following sequencing of tumour and normal tissue, DNA reads were aligned to the reference human genome sequence and larger changes, including copy number imbalance, determined using comparative genomic hybridization (CGH).
The main results showed:
Taken together, these findings indicate that the genetic changes that arise during lung tumour development are complex and wide-ranging, and that some – such as mutations in many kinases in a single signal transduction pathway – may be redundant. Other recent whole-genome tumour studies have revealed similar trends, but few, if any, mutations have been observed in a wide range of samples. “Identification of recurrent driver mutations will require the sequencing of many more [tumour] samples”, conclude the study authors.
Reference:
Lee, W., Jiang, Z., Liu, J. and 24 others (2010). The mutation spectrum revealed by paired genome sequences from a lung cancer patient. Nature 465, 473-477.
We are an independent charity and are not backed by a large company or society. We raise every penny ourselves to improve the standards of cancer care through education. You can help us continue our work to address inequalities in cancer care by making a donation.
Any donation, however small, contributes directly towards the costs of creating and sharing free oncology education.
Together we can get better outcomes for patients by tackling global inequalities in access to the results of cancer research.
Thank you for your support.