HT1080 Cells
Products
HT1080-eGFP-Puro $ 1,500
HT1080-Fluc-Neo/eGFP-Puro $ 2,100
HT1080-hNIS-Neo/eGFP-Puro $ 2,100
Description:
Usage Information:
HT1080 cells are suitable for in vitro and in vivo experimentation. Immunocompromised mice should be used for in life studies, and will form tumors and metastases following implantation of the cells.
The following chart provides some examples of HT1080 cells used as a xenograft model.
Route of Implantation |
Mice |
Tumor/Metastases |
References |
---|---|---|---|
Intramuscular |
Nude |
Primary tumor, lung metastases |
Miwa et al. (2014) Oncotarget 5: 12849-12861. |
Tail-vein |
Nude |
Lung metastases |
Hanyu et al. (2009) Cancer Science 100: 2085-2092. Fuse et al. (2007) J Biol Chem 282:8276-8283. |
Subcutaneous |
Immunosupressed |
Subcutaneous tumor |
Rasheed et al. (1974) Cancer 33:1027-1033. |
Subcutaneous |
Nude |
Subcutaneous tumor |
Shi et al. (2015) Int J Mol Med 35: 31-38. |
Subcutaneous |
Nude |
Subcutaneous tumor, lung metastases, few liver and brain metastases |
Praus et al. (1999) Gene Therapy 6: 227-236. |
Mammary gland |
Nude |
Mammary tumor, lung metastases |
Hanyu et al. (2009) Cancer Science 100: 2085-2092. |
Note: The above information is based on available data from the indicated references. It is not meant to be comprehensive and Imanis has not directly tested each condition.
Stable reporter cell lines:
Our HT1080 reporter cell lines can be tracked in vivo, making them great tools for studying the mechanisms of tumor growth, as well as evaluating the effects of various drugs or therapies in animals. Our HT1080 cells are available with a variety of different reporters, including the human sodium iodide symporter (hNIS), firefly luciferase (Fluc), enhanced green fluorescent protein (eGFP), or near-infrared fluorescent protein (iRFP). Several dual reporter HT1080 cell lines are available to facilitate multi-modality imaging.
In order to ensure high, constitutive expression of the reporter proteins, our cell lines are generated by lentivirus transduction. The lentivirus vectors used for these transductions are self-inactivating (SIN) vectors in which the viral enhancer and promoter has been deleted. This increases the biosafety of the lentiviruses by preventing mobilization of replication competent viruses (Miyoshi et al., J Virol. 1998).
For more information about a specific reporter and its uses, click on the photos below.