FDG PET imaging of Ela1-myc mice reveals major biological differences between pancreatic acinar and ductal tumours

Ibane Abasolo, Judit Pujal, Rosa M. Rabanal, Anna Serafin, Pilar Navarro, Olga Millán, Francisco X. Real

Producció científica: Contribució a revistaArticleRecercaAvaluat per experts

7 Cites (Scopus)

Resum

Purpose: The aim was to evaluate FDG PET imaging in Ela1-myc mice, a pancreatic cancer model resulting in the development of tumours with either acinar or mixed acinar-ductal phenotype. Methods: Transversal and longitudinal FDG PET studies were conducted; selected tissue samples were subjected to autoradiography and ex vivo organ counting. Glucose transporter and hexokinase mRNA expression was analysed by quantitative reverse transcription polymerase chain reaction (RT-PCR); Glut2 expression was analysed by immunohistochemistry. Results: Transversal studies showed that mixed acinar-ductal tumours could be identified by FDG PET several weeks before they could be detected by hand palpation. Longitudinal studies revealed that ductal-but not acinar-tumours could be detected by FDG PET. Autoradiographic analysis confirmed that tumour areas with ductal differentiation incorporated more FDG than areas displaying acinar differentiation. Ex vivo radioactivity measurements showed that tumours of solely acinar phenotype incorporated more FDG than pancreata of non-transgenic littermates despite the fact that they did not yield positive PET images. To gain insight into the biological basis of the differential FDG uptake, glucose transporter and hexokinase transcript expression was studied in microdissected tumour areas enriched for acinar or ductal cells and validated using cell-specific markers. Glut2 and hexokinase I and II mRNA levels were up to 20-fold higher in ductal than in acinar tumours. Besides, Glut2 protein overexpression was found in ductal neoplastic cells but not in the surrounding stroma. Conclusion: In Ela1-myc mice, ductal tumours incorporate significantly more FDG than acinar tumours. This difference likely results from differential expression of Glut2 and hexokinases. These findings reveal previously unreported biological differences between acinar and ductal pancreatic tumours. © 2009 Springer-Verlag.
Idioma originalAnglès
Pàgines (de-a)1156-1166
RevistaEuropean Journal of Nuclear Medicine and Molecular Imaging
Volum36
Número7
DOIs
Estat de la publicacióPublicada - 1 de jul. 2009

Fingerprint

Navegar pels temes de recerca de 'FDG PET imaging of Ela1-myc mice reveals major biological differences between pancreatic acinar and ductal tumours'. Junts formen un fingerprint únic.

Com citar-ho