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Volume 7, Issue 1, Pages (July 2010)

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1 Volume 7, Issue 1, Pages 127-133 (July 2010)
Primary Tumor Genotype Is an Important Determinant in Identification of Lung Cancer Propagating Cells  Stephen J. Curtis, Kerstin W. Sinkevicius, Danan Li, Allison N. Lau, Rebecca R. Roach, Raffaella Zamponi, Amber E. Woolfenden, David G. Kirsch, Kwok-Kin Wong, Carla F. Kim  Cell Stem Cell  Volume 7, Issue 1, Pages (July 2010) DOI: /j.stem Copyright © 2010 Elsevier Inc. Terms and Conditions

2 Cell Stem Cell 2010 7, 127-133DOI: (10.1016/j.stem.2010.05.021)
Copyright © 2010 Elsevier Inc. Terms and Conditions

3 Figure 1 Orthotopic Transplantation of Kras and Kras;p53-flox Tumor Cells Recapitulates the Primary Tumor Phenotype (A) Cartoon of the transplantation scheme used to assay lung tumor-propagating cells (TPCs) through serial transplantation. (B) H&E staining of primary (left) and secondary (right) Kras lung adenocarcinomas showing similar pathological grade, nuclear features, and general tumor architecture. (C) H&E staining of primary (left) and secondary (right) Kras;p53-flox lung tumors showing similar histopathological characteristics of advanced adenocarcinoma, including pleomorphic nuclei and rare giant cells. All images are shown at 200× magnification. The scale bar represents 100 μM. Cell Stem Cell 2010 7, DOI: ( /j.stem ) Copyright © 2010 Elsevier Inc. Terms and Conditions

4 Figure 2 Sca1+ Cells from Kras;p53-flox Tumors Are Lung Tumor-Propagating Cells (A) Representative FACS analysis of Kras;p53-flox tumor cells used for transplantation (top). Limiting dilution transplantation of the sorted cells indicated that the Sca1+ population was significantly enriched for TPCs (table). (B) Sca1− cell transplants yielded smaller, more diffuse lesions (left), whereas Sca1+ cell transplants yielded secondary tumors that recapitulated the histopathology of primary Kras;p53-flox tumors (right, compare to Figure 1C). (C) Immunofluorescence (IF) staining with antisera raised against SP-C (red), CCSP (green), and counterstain DAPI (blue) showed that primary Kras;p53-flox lung adenocarcinomas (left) are mainly composed of SP-C+ cells, a pattern recapitulated in secondary tumors from Sca1+ cell transplants (right). (D) Serial transplantation of secondary tumor cell populations revealed a lack of tumor formation from Sca1− cells (left), in contrast to tertiary tumor development from Sca1+ cells (right). All images are shown at 200× magnification. The scale bar represents 100 μM. See also Figure S1 and Table S1 for additional data. Cell Stem Cell 2010 7, DOI: ( /j.stem ) Copyright © 2010 Elsevier Inc. Terms and Conditions

5 Figure 3 The Sca1+ and Sca1− Populations from Kras Lung Tumors Are Equally Capable of Propagating Tumors (A) Representative FACS analysis of Kras tumors showing a pattern of Sca1 staining similar to Kras;p53-flox tumors (top, compare to Figure 2A). Limiting dilution transplantation indicated that Sca1+ and Sca1− Kras tumor cells are identical in tumor-propagating potential (table). (B) Secondary tumors from Sca1− (left) and Sca1+ (right) Kras tumor cell transplants displayed similar pathological features. (C) IF analysis of secondary tumors (as in Figure 2) revealed similar SP-C and CCSP marker status in secondary tumors from Sca1− cells (left) and Sca1+ cells (right). (D) Both Sca1- Kras tumor cells (left) and Sca1+ tumor cells (right) were capable of serial transplantation to form tertiary tumors. All images are shown at 200× magnification. The scale bar represents 100 μM. See also Figure S2 and Table S2 for additional data. Cell Stem Cell 2010 7, DOI: ( /j.stem ) Copyright © 2010 Elsevier Inc. Terms and Conditions

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