Cat.No. : CSC-RO0048 Host Cell: CHO-K1
| Cat. No. | CSC-RO0048 |
| Description | This cell line is a stably transfected cell line which expresses Human CTLA4 without any tag. |
| Background | This gene is a member of the immunoglobulin superfamily and encodes a protein which transmits an inhibitory signal to T cells. The protein contains a V domain, a transmembrane domain, and a cytoplasmic tail. The membrane-bound isoform functions as a homodimer interconnected by a disulfide bond, while the soluble isoform functions as a monomer. Mutations in this gene have been associated with insulin-dependent diabetes mellitus, Graves disease, Hashimoto thyroiditis, celiac disease, systemic lupus erythematosus, thyroid-associated orbitopathy, and other autoimmune diseases. |
| Gene | CTLA4 |
| Gene Species | Homo sapiens (Human) |
| Host Cell | CHO-K1 |
| Host Cell Species | Cricetulus griseus (Chinese hamster) |
| Stability | Validated for at least 10 passages |
| Application | 1. Studying the interactions between immune cells and cancer cells 2. Studying the mechanisms of resistance to immune checkpoint blockade 3. High-throughput screening 4. Drug target validation |
| Quality Control | Negative for bacteria, yeast, fungi and mycoplasma. |
| Shipping | Dry ice |
| Storage | Liquid nitrogen |
| Revival | Rapidly thaw cells in a 37°C water bath. Transfer contents into a tube containing pre-warmed media. Centrifuge cells and seed into a 25 cm2 flask containing pre-warmed media. |
| Gene Name | CTLA4 cytotoxic T-lymphocyte-associated protein 4 [ Homo sapiens ] |
| Gene Symbol | CTLA4 |
| Synonyms | CD; GSE; GRD4; ICOS; CD152; CTLA-4; IDDM12; CELIAC3 |
| Gene ID | 1493 |
| UniProt ID | P16410 |
| mRNA Refseq | NM_001037631.2 |
| Protein Refseq | NP_001032720.1 |
| Chromosome Location | 2q33 |
| Function | protein binding; |
| Pathway | Adaptive Immune System, organism-specific biosystem; Autoimmune thyroid disease, organism-specific biosystem; Autoimmune thyroid disease, conserved biosystem; CTLA4 inhibitory signaling, organism-specific biosystem; Calcineurin-regulated NFAT-dependent transcription in lymphocytes, organism-specific biosystem; Cell adhesion molecules (CAMs), organism-specific biosystem; Cell adhesion molecules (CAMs), conserved biosystem; |
| MIM | 123890 |
| Mycoplasma | Negative |
| Format | One frozen vial containing millions of cells |
| Storage | Liquid nitrogen |
| Safety Considerations |
The following safety precautions should be observed. 1. Use pipette aids to prevent ingestion and keep aerosols down to a minimum. 2. No eating, drinking or smoking while handling the stable line. 3. Wash hands after handling the stable line and before leaving the lab. 4. Decontaminate work surface with disinfectant or 70% ethanol before and after working with stable cells. 5. All waste should be considered hazardous. 6. Dispose of all liquid waste after each experiment and treat with bleach. |
| Ship | Dry ice |
CD28 and CTLA-4 (CD152) play important roles in regulating T-cell immunity, balancing activation and inhibition of T-cell responses. Although both receptors share the same ligands, CD80 and CD86, the specific requirements for the two different ligands remain unclear. Here, researchers demonstrate that although CTLA-4 targets both CD80 and CD86 for destruction via transcytosis, this process results in different fates for CTLA-4 itself. In the presence of CD80, CTLA-4 remains ligand-bound and is ubiquitinated and trafficked through late endosomes and lysosomes. In contrast, in the presence of CD86, CTLA-4 dissociates and recycles back to the cell surface in a pH-dependent manner, allowing further transcytosis. Researchers also identify clinically relevant mutations that cause autoimmune diseases and selectively impair CD86 transcytosis by affecting CTLA-4 recycling or CD86 binding. These observations provide a rationale for the two distinct ligands and suggest that defects in CTLA-4-mediated CD86 transcytosis are involved in autoimmunity.
To study CD80 and CD86 TEs, the researchers performed experiments using a variety of CTLA-4-expressing cells (Chinese hamster ovary (CHO) cells, Jurkat T cells, and primary human Treg cells) to capture fluorescent ligands (green fluorescent protein (GFP) or mCherry labeled) from contralateral cells during CTLA-4-ligand interaction. To ensure that the measured ligand transfer was caused only by TEs and not by cell doublets, the researchers labeled ligand donor cells with CellTrace Violet (CTV) and monitored the transfer of fluorescent ligands to CTLA-4+ cells by flow cytometry (Figure 1a-c). CTV+ donor cells clearly showed ligand loss (Figure 1b, c, upper quadrants), indicating that both CD80 and CD86 were effectively removed by TEs. Ligand acquisition by CTLA-4+ cells is shown as fluorescent protein uptake in the lower right quadrant, which is clearly visible when CTLA-4+ cells acquire CD80 (Figure 1b, lower right grey quadrant). In contrast, uptake of CD86 was consistently more difficult to detect (Figure 1b, lower right blue quadrant). Therefore, the researchers used the lysosomal acidification inhibitor NH4Cl to examine whether CD86 detection was pH sensitive, as this is important for endolysosomal fusion and lysosomal acidification. In the presence of NH4Cl, CD86 capture was now more easily observed (Figure 1b, right column, lower right quadrant). These data raise the possibility that CD80 and CD86 undergo different intracellular processing following TE and that CD86 detection within recipient cells is more pH sensitive.
Figure 1. TE of CD80 and CD86 reveals distinct ligand characteristics. (Kennedy A, et al., 2022)
A: The Human CTLA4 Stable Cell Line-CHO is derived from Chinese Hamster Ovary (CHO) cells, which are widely used in biotechnology for their ability to express recombinant proteins. The genetic modification involves the stable integration of the CTLA4 gene, which encodes for a protein that plays a crucial role in T cell regulation. This cell line exhibits a phenotype characterized by the overexpression of CTLA4, which is involved in the negative regulation of T cell activation.
A: The Human CTLA4 Stable Cell Line-CHO is specifically engineered to stably express the CTLA4 protein, which is a key immune checkpoint molecule. This makes it a valuable tool for studying the mechanisms of T cell inhibition and for the development of immunotherapies targeting CTLA4, such as immune checkpoint inhibitors used in cancer treatment.
A: The use of the Human CTLA4 Stable Cell Line-CHO in research must adhere to the guidelines and regulations set forth by the local institutional review board (IRB) or equivalent ethical committee. This includes ensuring that the cells are used solely for research purposes, that they are not used for human cloning, and that all research is conducted with respect for the principles of animal welfare and human dignity.
A: The Human CTLA4 Stable Cell Line-CHO should be stored in a frozen state at temperatures below -80°C to preserve its stability. For revival, the cells should be thawed rapidly in a water bath at 37°C and then transferred to a culture medium appropriate for CHO cells, ensuring that the cells are gradually warmed to room temperature before being placed in a cell culture incubator.
A: Handling the Human CTLA4 Stable Cell Line-CHO requires standard biosafety precautions, including the use of aseptic techniques, proper waste disposal, and the use of personal protective equipment (PPE) such as gloves, lab coats, and safety goggles. Additionally, the cell line should be stored and handled in a designated area to prevent contamination and cross-contamination.
A: The Human CTLA4 Stable Cell Line-CHO can be utilized in various assays to investigate the role of CTLA4 in T cell activation, such as flow cytometry to assess CTLA4 expression levels, ELISA to measure cytokine production, and functional assays to evaluate T cell proliferation and activation.
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