What is the Difference Between Quiescent and Senescent Cells?
🆚 Go to Comparative Table 🆚Quiescent and senescent cells are two different types of cells that have distinct features and functions. Here are the key differences between them:
- Definition: Quiescent cells exist in a reversible state of cell cycle arrest, while senescent cells exist in an irreversible state of stable cell cycle arrest.
- Response to stress: Quiescent cells are able to withstand cellular stressors and survive harsh conditions, whereas senescent cells are less capable of coping with stress and exhibit susceptibility to DNA damage, oxidative stress, and other stressors.
- Replicative potential: Quiescent cells have the ability to re-enter the cell cycle, while senescent cells do not have the ability to re-enter the cell cycle.
- Causes/mechanism: Quiescence occurs due to a lack of nutrients and growth factors, while senescence occurs due to cellular aging or severe DNA damage.
- Cellular phenotype: Quiescent cells exhibit reduced metabolic activity, small cell size, low RNA and protein synthesis, and are able to maintain their cellular phenotype and functions while awaiting external cues for reactivation. Senescent cells exhibit an enlarged and flattened morphology, altered chromatin structure, altered gene expression patterns, and increased senescence-associated Beta-galactosidase activity.
In summary, quiescent cells are reversibly dormant cells that can re-enter the cell cycle when needed, while senescent cells are irreversibly dormant cells that have lost their ability to re-enter the cell cycle. Senescent cells are associated with aging and contribute to various age-related diseases.
Comparative Table: Quiescent vs Senescent Cells
Quiescent and senescent cells are both non-replicating cells in the state of cell cycle arrest, but they have distinct differences. Here is a table comparing the two:
| Feature | Quiescent Cells | Senescent Cells |
|---|---|---|
| Definition | Cells in a reversible state of cell cycle arrest | Cells in an irreversible state of stable cell cycle arrest |
| Response to Stress | Able to withstand cellular stressors and survive harsh conditions | Less capable of coping with stress and exhibit susceptibility to DNA damage, oxidative stress, and other stressors |
| Replicative Potential | Can re-enter the cell cycle | Cannot re-enter the cell cycle |
| Causes/Mechanism | Quiescence occurs due to lack of nutrients and growth factors | Senescence occurs due to cellular aging or severe DNA damage |
| Cellular Phenotype | Exhibit reduced metabolic activity, small cell size, low RNA and protein synthesis. Maintain cellular phenotype and functions while awaiting external cues for reactivation | Exhibit enlarged and flattened morphology of cells, with altered chromatin structure, altered gene expression patterns, and increased senescence-associated Beta-galactosidase activity |
In summary, quiescent cells are in a reversible state of cell cycle arrest and can re-enter the cell cycle when conditions are favorable, while senescent cells are in an irreversible state of cell cycle arrest and cannot re-enter the cell cycle. Quiescence occurs due to lack of nutrients and growth factors, whereas senescence occurs due to aging and severe DNA damage.
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