Common name
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B-hDLL3 MC38
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Catalog number
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311448
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Aliases
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delta like canonical Notch ligand 3, SCDO1
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Disease
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Colon carcinoma
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Organism
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Mouse
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Strain
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C57BL/6
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Tissue types
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Colon
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Tissue
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Colon
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Description
The mouse Dll3 gene was replaced by human DLL3 coding sequence in B-hDLL3 MC38 cells. Human DLL3 is highly expressed on the surface of B-hDLL3 MC38 cells.
Application
B-hDLL3 MC38 cells have the capability to establish tumors
in vivo and can be used for efficacy studies.
Targeting strategy
Gene targeting strategy for B-hDLL3 MC38 cells. The exogenous promoter and human DLL3 coding sequence was inserted to replace part of murine exon 2 and all of exon 5. The insertion disrupts the endogenous murine Dll3 gene, resulting in a non-functional transcript.
Protein expression analysis
DLL3 expression analysis in B-hDLL3 MC38 cells by flow cytometry. Single cell suspensions from wild-type MC38 and B-hDLL3 MC38 cultures were stained with anti-human DLL3 antibody AMG-757 (in house). Human DLL3 was detected on the surface of B-hDLL3 MC38 cells but not wild-type MC38 cells. The 3-G07 clone of B-hDLL3 MC38 cells was used for in vivo experiments.
Tumor growth curve & Body weight changes
Subcutaneous homograft tumor growth of B-hDLL3 MC38 cells. B-hDLL3 MC38 cells (5x105) and wild-type MC38 cells (5x105) were subcutaneously implanted into C57BL/6 mice (female, 7-week-old). Tumor volume and body weight were measured twice a week. (A) Average tumor volume ± SEM. (B) Body weight (Mean± SEM). Volume was expressed in mm3 using the formula: V=0.5 X long diameter X short diameter2. As shown in panel A, B-hDLL3 MC38 cells were able to establish tumors in vivo and can be used for efficacy studies.
Tumor growth curve & Body weight changes
Subcutaneous homograft tumor growth of B-hDLL3 MC38 cells. B-hDLL3 MC38 cells (1x106) and wild-type MC38 cells (5x105) were subcutaneously implanted into B-hCD3E mice (female, 7-week-old, n=6). Tumor volume and body weight were measured twice a week. (A) Average tumor volume ± SEM. (B) Body weight (Mean± SEM). Volume was expressed in mm3 using the formula: V=0.5 X long diameter X short diameter2. As shown in panel A, B-hDLL3 MC38 cells were able to establish tumors in vivo and can be used for efficacy studies.
Tumor volume and weight measurements
Note:
Due to the presence of immunogenicity, the expression level of hDLL3 in tumor tissue has been slightly reduced. We suggest enrolling 8-10 mice per group, or inoculating the DLL3 cell line in DLL3-related humanized mice, to evaluate tumor efficacy.
Protein expression analysis of tumor cells
B-hDLL3 MC38 cells were subcutaneously transplanted into B-hCD3E mice (n=6), and on 28 days post inoculation, tumor cells were harvested and assessed for human DLL3 expression by flow cytometry using anti-human DLL3 antibody AMG-757 (in house). As shown, human DLL3 was expressed on the surface of tumor cells. Therefore, B-hDLL3 MC38 cells can be used for in vivo efficacy studies of novel DLL3 therapeutics.
In vivo efficacy of CD3 BsAb
Antitumor activity of bispecific antibody (BsAb) X in B-hCD3E mice. B-hDLL3 MC38 cells were subcutaneously implanted into B-hCD3E mice (female, 8 week-old, n=6). Mice were grouped when the tumor size was approximately 100 mm3, at which time they were treated with BsAb X provided by the client with doses and schedules indicated in panel. (A) Tumor volume changes during treatment. (B) Body weight changes during treatment. As shown in panel A, BsAb X was efficacious in controlling tumor growth in B-hCD3E mice, demonstrating that the B-hCD3E mouse model is a powerful tool for in vivo efficacy study of T cell bispecific antibody. Values are expressed as mean ± SEM.