XStamp™-IL-2 Lentivector for Targeting Exosomes to Immune Cells
- Display IL-2 sequences on exosome surfaces
- Target immune cells
- Create stable XStamp-IL-2 cell lines
Products
| Catalog Number | Description | Size | Price | Quantity | Add to Cart | |||
|---|---|---|---|---|---|---|---|---|
| XSTP726PA-1 | Xstamp IL-2 receptor targeting lentivector - IL-2 exosomes target cells with surface IL-2 receptor | 10 µg | $819 |
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Overview
Overview
Putting exosomes to work: Target exosomes to immune cells Use exosomes to deliver protein, RNA, DNA, or small molecule cargo to immune cells with XStamp-IL-2. The patented XStamp technology is an optimized, exosome surface display system that efficiently places protein sequences on exosomal surfaces. The XStamp-IL-2 Lentivector fuses IL-2 sequences to the XStamp tag, ensuring that exosomes display IL-2 on their outer surface. Exosomes made from cells transfected or transduced with the XStamp-IL-2 Lentivector will now be targeted to cells expressing the IL-2 receptor, primarily immune cells.- Display IL-2 sequences on exosome surfaces
- Target immune cells
- Create stable XStamp-IL-2 cell lines
SBI also offers a selection of pre-built targeting XStamp Lentivectors, as well as a clone-your-own XStamp Cloning and Expression Vector:
| Cat.# | Specificity | Targeting Ligand Used |
|---|---|---|
| XSTP710PA-1 | Clone-your-own | You decide |
| XSTP720PA-1 | GI tract cells | Motilin |
| XSTP721PA-1 | Neural cells | NCAM |
| XSTP722PA-1 | Brain cells | BHP1 |
| XSTP723PA-1 | Cancer cells | GE11 |
| XSTP724PA-1 | Breast cancer cells | HER2 |
| XSTP725PA-1 | Antigen-presenting cells | CD40L/CD154 |
| XSTP726PA-1 | Immune cells | IL-2 |
References
How It Works
How It Works
Engineering exosomes with specific surface proteins
XStamp is based upon a C-terminal fusion of the C1C2 domain from the protein MFG-E8, which is targeted to the exosome surface. Protein sequences that are fused to the XStamp tag will efficiently display the protein ligand fusion on the surfaces of secreted exosomes.
Supporting Data
Supporting Data
See XStamp targeting in action
Figure 1. XStamp with motilin specifically targets exosomes to GI cells. Motilin is a 22-amino acid polypeptide hormone that binds to the motilin receptor, which is exclusively expressed in the intestine. XStamp with motilin can be used to target exosomes to GI cells. METHODS: The XStamp-Motilin construct (Cat.# XSTP720PA-1) was transfected into HEK293 cells and after 48 hours, the exosomes were isoalted using ExoQuick-TC. The next day, the XStamp-Motilin exosomes were Exo-Fected with a Texas-Red-labeled siRNA to monitor exosome docking and delivery. The transfected XStamp-Motilin exosomes were then added to MDA-MB-231 Breast Cancer Cells (motilin receptor negative) and to HT-29 Colon Cancer Cells (motilin receptor positive). The cells were imaged after 24 hours for uptake of the Texas-Red-labeled siRNA delivery from the XStamped exosomes. The HT-29 colon cancer cells that are motilin receptor positive took up the XStamp-Motilin exosomes at a much higher rate than the MDA-MB-231 Breast Cancer (motilin receptor negative) cells.
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Related Products
Products
| Catalog Number | Description | Size | Price | Quantity | Add to Cart | |||
|---|---|---|---|---|---|---|---|---|
| XSTP726PA-1 | Xstamp IL-2 receptor targeting lentivector - IL-2 exosomes target cells with surface IL-2 receptor | 10 µg | $819 |
|
||||
Overview
Overview
Putting exosomes to work: Target exosomes to immune cells Use exosomes to deliver protein, RNA, DNA, or small molecule cargo to immune cells with XStamp-IL-2. The patented XStamp technology is an optimized, exosome surface display system that efficiently places protein sequences on exosomal surfaces. The XStamp-IL-2 Lentivector fuses IL-2 sequences to the XStamp tag, ensuring that exosomes display IL-2 on their outer surface. Exosomes made from cells transfected or transduced with the XStamp-IL-2 Lentivector will now be targeted to cells expressing the IL-2 receptor, primarily immune cells.- Display IL-2 sequences on exosome surfaces
- Target immune cells
- Create stable XStamp-IL-2 cell lines
SBI also offers a selection of pre-built targeting XStamp Lentivectors, as well as a clone-your-own XStamp Cloning and Expression Vector:
| Cat.# | Specificity | Targeting Ligand Used |
|---|---|---|
| XSTP710PA-1 | Clone-your-own | You decide |
| XSTP720PA-1 | GI tract cells | Motilin |
| XSTP721PA-1 | Neural cells | NCAM |
| XSTP722PA-1 | Brain cells | BHP1 |
| XSTP723PA-1 | Cancer cells | GE11 |
| XSTP724PA-1 | Breast cancer cells | HER2 |
| XSTP725PA-1 | Antigen-presenting cells | CD40L/CD154 |
| XSTP726PA-1 | Immune cells | IL-2 |
References
How It Works
How It Works
Engineering exosomes with specific surface proteins
XStamp is based upon a C-terminal fusion of the C1C2 domain from the protein MFG-E8, which is targeted to the exosome surface. Protein sequences that are fused to the XStamp tag will efficiently display the protein ligand fusion on the surfaces of secreted exosomes.
Supporting Data
Supporting Data
See XStamp targeting in action
Figure 1. XStamp with motilin specifically targets exosomes to GI cells. Motilin is a 22-amino acid polypeptide hormone that binds to the motilin receptor, which is exclusively expressed in the intestine. XStamp with motilin can be used to target exosomes to GI cells. METHODS: The XStamp-Motilin construct (Cat.# XSTP720PA-1) was transfected into HEK293 cells and after 48 hours, the exosomes were isoalted using ExoQuick-TC. The next day, the XStamp-Motilin exosomes were Exo-Fected with a Texas-Red-labeled siRNA to monitor exosome docking and delivery. The transfected XStamp-Motilin exosomes were then added to MDA-MB-231 Breast Cancer Cells (motilin receptor negative) and to HT-29 Colon Cancer Cells (motilin receptor positive). The cells were imaged after 24 hours for uptake of the Texas-Red-labeled siRNA delivery from the XStamped exosomes. The HT-29 colon cancer cells that are motilin receptor positive took up the XStamp-Motilin exosomes at a much higher rate than the MDA-MB-231 Breast Cancer (motilin receptor negative) cells.