What is the Difference Between Positive and Negative Selection of T Cells?
🆚 Go to Comparative Table 🆚The difference between positive and negative selection of T cells lies in the way they select and retain specific T cell populations. Positive selection is a process that occurs in the thymus, where developing T cells with T cell receptors (TCRs) that bind moderately to major histocompatibility complex (MHC) molecules receive survival signals, leading to the development of mature CD8+ and CD4+ T cells. On the other hand, negative selection is a process that occurs in the thymus, where developing double-positive (DP) or single-positive (SP) thymocytes that express TCRs and bind strongly to MHC molecules are eliminated, preventing these cells from becoming mature T cells that could potentially attack the body's own cells.
Key differences between positive and negative selection include:
- Targeting: Positive selection targets T cells with specific TCRs that bind moderately to MHC molecules, while negative selection targets DP or SP thymocytes with TCRs that bind strongly to MHC molecules.
- Outcome: Positive selection leads to the survival and development of mature CD8+ and CD4+ T cells, while negative selection results in the elimination of autoreactive DP or SP thymocytes.
- Function: Positive selection is essential for the development of a functional immune system, while negative selection prevents autoimmunity by removing potentially autoreactive T cells from the T cell repertoire.
In summary, positive selection of T cells is a process that ensures the survival and development of mature T cells with the appropriate TCRs, while negative selection is a process that eliminates potentially autoreactive T cells to prevent autoimmunity.
Comparative Table: Positive vs Negative Selection of T Cells
Positive and negative selection of T cells are essential processes in the development of the immune system, occurring in the thymus. These processes help create a functional and diverse T cell repertoire while minimizing the risk of autoimmune responses. Here is a table summarizing the differences between positive and negative selection of T cells:
| Feature | Positive Selection | Negative Selection |
|---|---|---|
| Purpose | Selects T cells that bind to MHC class I and II molecules, ensuring the development of functional T cells | Selects T cells that do not bind too strongly to MHC molecules, preventing the production of self-reactive T cells |
| Location | Thymic cortex | Thymic medulla |
| T Cell Types | CD4+CD8+ double-positive (DP) cells | CD4+ or CD8+ single-positive (SP) cells |
| Outcome | Survival and maturation of T cells | Elimination of self-reactive T cells |
| Signals | Survival signals induced by association with MHC class I and II molecules | Apoptosis induced by binding to MHC molecules |
Positive selection occurs in the thymic cortex, where double-positive (CD4+CD8+) cells are selected based on their association with MHC class I and II molecules. This ensures the development of functional T cells. On the other hand, negative selection occurs in the thymic medulla, where single-positive (CD4+ or CD8+) cells are selected based on their weak binding to MHC molecules. This prevents the production of self-reactive T cells and minimizes the risk of autoimmune responses.
- T Cells vs B Cells
- Antibodies vs T Cells
- T Helper vs T Cytotoxic Cells
- Naive vs Effector T Cells
- Memory T Cells vs Memory B Cells
- B Cell Receptor vs T Cell Receptor
- Positive vs Negative Tropism
- T Lymphocytes vs B Lymphocytes
- Positive vs Negative Gene Regulation
- CD4 Cells vs CD8 Cells
- Positive vs Negative Control
- NK Cells vs NKT Cells
- T Cell Dependent vs Independent Antigens
- B Cell vs T Cell Lymphoma
- B Cell vs T Cell Leukemia
- Positive vs Negative Sense RNA Virus
- Phagocytes vs Lymphocytes
- CAR-T vs TCR-T
- Specificity vs Selectivity