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Human Pancreatic Organoids for Cancer Research Applications

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What is Pancreatic Ductal Adenocarcinoma?

Pancreatic ductal adenocarcinoma (PDAC) represents 85% of all cases of pancreatic cancer. Pancreatic cancer is the seventh most common cancer with an incidence rate of approximately 3.5% and is the fourth most common cause of cancer-related death for both sexes and all ages. Smoking, diabetes mellitus, obesity, age, and genetic predisposition are the main risk factors identified so far to be implicated in the development of PDAC.

The KRAS mutations G12D and G12V are found in more than 90% of PDAC cases. The success of drugs targeting KRASG12C suggests the potential for drugs specifically targeting these alternative PDAC-associated KRAS mutations.

Historically, pancreatic cancer cell lines or animal models have been used to study PDAC but are limited by lack of biological relevance or high costs. Patient derived organoids (PDOs) are novel in vitro 3D cell models that have tissue-like functionality and are an alternative to traditional 2D cell lines and PDX animal models.

Pancreatic Ductal Adenocarcinoma Organoid Biobank

The 3dGRO® pancreatic organoid biobank is a collection of tissue-derived human pancreatic cancer organoids (PDAC organoids) for disease modeling research. The pancreatic organoid biobank contains highly characterized organoid lines from PDAC diseased patients, representing primary tumors containing wild-type and KRAS driver mutations.

For complete pancreatic organoid culture protocols and media recipes visit the 3dGRO Human Pancreatic Organoid User Guide.

Catalog NumberIDDiseaseSourceAgeSexKRAS Mutation
SCC700PPTO.02Pancreatic Ductal AdenocarcinomaPrimary Tumor62MG12D
SCC702PPTO.13Pancreatic Ductal AdenocarcinomaPrimary Tumor73MG12R
SCC703PPTO.26Pancreatic Ductal AdenocarcinomaPrimary Tumor81MG12V
SCC704PPTO.30Pancreatic Ductal AdenocarcinomaPrimary Tumor73MG12D
SCC705PPTO.36Pancreatic Ductal AdenocarcinomaPrimary Tumor76FG12D
SCC706PPTO.46Pancreatic Ductal AdenocarcinomaPrimary Tumor66FG12R
SCC707PPTO.49Pancreatic Ductal AdenocarcinomaPrimary Tumor55MG12V
SCC708PPTO.61Pancreatic Ductal AdenocarcinomaPrimary Tumor60FWild-Type
SCC709PPTO.64Pancreatic Ductal AdenocarcinomaPrimary Tumor58MG12D
SCC710PPTO.65Pancreatic Ductal AdenocarcinomaPrimary Tumor69FG12D
SCC711PPTO.76Pancreatic Ductal AdenocarcinomaPrimary Tumor57FG12D
SCC712PPTO.80Pancreatic Ductal AdenocarcinomaPrimary Tumor78FG12R
SCC713PPTO.90Pancreatic Ductal AdenocarcinomaPrimary Tumor57FG12V
SCC714PPTO.93Pancreatic Ductal AdenocarcinomaPrimary Tumor66MQ61H
SCC716OCIP.174Pancreatic Ductal AdenocarcinomaXenograph59FQ61H
SCC717OCIP.180Pancreatic Ductal AdenocarcinomaXenograph64MWild-Type
SCC718OCIP.255Pancreatic Ductal AdenocarcinomaXenograph66FUnknown
SCC719OCIP.285Pancreatic Ductal AdenocarcinomaXenograph65FQ61L
SCC720OCIP.335Pancreatic Ductal AdenocarcinomaXenograph74MWild-Type

Pancreatic Ductal Adenocarcinoma Organoid Data

Four microscopy images of pancreatic ductal adenocarcinoma organoids over a 5 day period. The first image shows the organoids at Day 1 at 2X, with small black dots covering the entirety of the image. The second image shows the organoids at Day 5 of growth at 2X magnification, with fewer, larger black circles scattered across the image. The third image shows the organoids at Day 1 at 10X magnification, with small clear circles on a grey image background. The fourth image shows the organoids at Day 5 at 10X magnification, with larger and fewer clear circles on a grey image background.

Figure 1.Time course of PDAC cancer organoid growth over a 5-day period shows positive cell proliferation after thaw (SCC700, PPTO.02) at 2X (top images) or 10X (bottom images) magnification.

Microscopy images of PDAC organoids before cryopreservation. The first image shows organoids at Day 6 at 2X magnification, with small black circles covering the entirety of the image. The second image shows organoids at Day 6 at 10X magnification, with larger clear circles on a grey background.

Figure 2.Human PDAC cancer organoid (SCC706, PPTO.46) morphology and confluency prior to cryopreservation on day 6 (first image at 2X magnification, second image at 10X magnification).

Microscopy images of PDAC organoids. The first image is a contrast microscopy image of the organoid, with one large clear organoid in the center of a grey background. The second image is an immunocytochemical stain of the organoid. CK19 surrounds the cells in the organoid and is shown in green, actin lines the inner ring of the cells of the organoid and is shown in red, and DAPI forms small circles in the middle of the cells and is shown in blue. The third image is an immunocytochemical stain of the organoid; EpCAM lines each cell in the organoid and is shown in green, actin lines the inner ring of the cells of the organoid and is shown in red, and DAPI forms small circles in the middle of the cells and is shown in blue.

Figure 3.Immunocytochemical characterization of human pancreatic organoids (SCC700, PPTO.02). Human PDAC cancer organoids are positive for Cytokeratin 19 (CK19, green), epithelial cell adhesion molecule (EpCAM, green) and Actin (red). Cells counterstained with DAPI (blue).

Microscopy images of PDAC organoids cultured in Millicell® Microwell plates and stained with EpCAM in green, which surrounds each organoid, action in red, which is in the center of each organoid, and DAPI in blue, which is in the center of each organoid. In the first image, multiple small blue and green circles are in a hexagon grid in the center of a black background. In the second image, multiple small blue and green circles are in a hexagon grid and within slightly larger grey circles, indicating the microwell grid. In the third image, slightly larger green and red circles are spaced evenly on a black background.

Figure 4.Pancreatic Ductal Adenocarcinoma Organoids (SCC704) cultured using Millicell® Microwell Plate 400µm (MC96U4005). Cells stained with EpCAM (green), Actin (red) and DAPI (blue).

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