Poster Presentation 25th Lorne Cancer Conference 2013

An in vitro assay to screen novel potential driver genes of pancreatic carcinogenesis (#313)

Andreia V. Pinho 1 , Australian Pancreatic Cancer Genome Initiative 1 , Andrew V. Biankin 1 , Ilse Rooman 1
  1. Garvan Institute of Medical Research, Darlinghurst, NSW, Australia

Pancreatic Ductal Adenocarcinoma (PDAC) is a deadly tumour, presenting a median survival of 6 months. A window of opportunity for early detection exists in the preneoplastic lesion stages, which are taught to evolve from acinar to ductal metaplasia (ADM).

Our group is a member of the International Cancer Genome Consortium (ICGC), being responsible for generating the world’s largest catalogue of human PDAC genomic abnormalities. The analysis of the first 142 tumour samples has been completed and a list of novel candidate genes has emerged which requires further biological testing1.

Our aim is to develop an in vitro screening assay using mouse pancreatic cells that can evaluate whether these new candidate genomic aberrations identified through the ICGC project are involved in the early stages of pancreatic carcinogenesis.

To establish our assay, we used previously described PDAC mouse models in which oncogenic KRas is expressed specifically in pancreatic cells, alone (KC) or in combination with mutant p53 (KPC). The exocrine tissue of young, pre-diseased animals was isolated and cultured and several endpoints were examined.

Histological analysis of pancreata from young KC and KPC mice revealed only the presence of small preneoplastic lesions. Nevertheless, after isolation and within a 5-day culture period, the exocrine cells derived from KC and KPC mice presented a progressively increased ability for plate adherence and proliferation. Moreover, the cultures derived from cancer-prone mice displayed upregulated markers for ADM, stem cell and cell cycle markers.

We have established a fast and simple in vitro assay that allows to determine whether a genetic aberration predisposes the mouse pancreas to develop cancer, overcoming long observational studies to assess tumour initiation in vivo. This method is being used as an initial screen of multiple ICGC candidate genes for a role in early pancreatic carcinogenesis.

  1. Biankin AV et al., Pancreatic cancer genomes reveal aberrations in axon guidance pathway genes. Nature, 2012. 491(7424): p. 399-405.