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Establishment and Characterization of Primary Human Pancreatic Carcinoma in Continuous Cell Culture and in Nude Mice

Overview
Journal Br J Cancer
Specialty Oncology
Date 1979 Feb 1
PMID 435363
Citations 23
Authors
A G Grant
D Duke
J Hermon-Taylor
Affiliations
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Abstract

Primary human panceratic exocrine adenocarcinoma has been established in tissue culture and as xenografts in immune-deficient nu/nu mice. The cell line has a doubling time of 36 h and grows as a confluent monolayer together with a constant population of free-floating cells. Evidence of tumourigenicity was provided by growth on an early diploid fibroblast monolayer and in soft agar, and as solid tumours in immune-deficient nu/mu mice. Chromosome analysis of the cultured cells confirmed their tumour origin. Xenografts established from the cell line or directly from primary tumour tissue have retained a similar histology to the original tumour on serial transplantation. An electrophoretic study of exportable pancreatic digestive enzymes and a number of intracellular enzymes has shown that the cell line and xenografts maintain a human intracellular enzyme profile, but do not produce pancreatic digestive enzymes.

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References
1.
Grant A, McGlashan D, Hermon-Taylor J . A study of pancreatic secretory and intracellular enzymes in pancreatic cancer tissue, other gastrointestinal cancers, normal pancreas and serum. Clin Chim Acta. 1978; 90(1):75-82. DOI: 10.1016/0009-8981(78)90086-4. View
2.
Gelder F, Reese C, Moossa A, Hall T, Hunter R . Purification, partial characterization, and clinical evaluation of a pancreatic oncofetal antigen. Cancer Res. 1978; 38(2):313-24. View
3.
COURTENAY V, Mills J . An in vitro colony assay for human tumours grown in immune-suppressed mice and treated in vivo with cytotoxic agents. Br J Cancer. 1978; 37(2):261-8. PMC: 2009601. DOI: 10.1038/bjc.1978.35. View
4.
Morgan R, Wormsley K . Progress report. Cancer of the pancreas. Gut. 1977; 18(7):580-96. PMC: 1411584. DOI: 10.1136/gut.18.7.580. View
5.
Schmidt M, DESCHNER E, Thaler H, Clements L, GOOD R . Gastrointestinal cancer studies in the human to nude mouse heterotransplant system. Gastroenterology. 1977; 72(5 Pt 1):829-37. View