5 Must Know Facts For Your Next Test

1. Apoptosis can be triggered by various signals including developmental cues, DNA damage, or cellular stress, making it a crucial mechanism for cellular quality control.
2. During apoptosis, cells undergo distinct morphological changes such as cell shrinkage, membrane blebbing, and DNA fragmentation.
3. The process of apoptosis can be divided into two main pathways: the intrinsic pathway, which is activated by internal stress signals, and the extrinsic pathway, which is triggered by external signals from other cells.
4. Apoptosis is vital for normal embryonic development, as it helps shape organs and eliminate unnecessary cells during tissue formation.
5. Failure of apoptotic processes can lead to various diseases including cancer, where cells evade apoptosis, allowing for uncontrolled growth and tumor progression.

Review Questions

• How does apoptosis contribute to maintaining cellular homeostasis and tissue integrity?
  • Apoptosis plays a crucial role in maintaining cellular homeostasis by eliminating damaged, dysfunctional, or unnecessary cells. This process prevents the accumulation of unwanted cells that could disrupt tissue function or lead to disease. By ensuring that only healthy cells survive and proliferate, apoptosis helps maintain the overall integrity and functionality of tissues throughout the organism.
• What are the key differences between apoptosis and necrosis in terms of cellular response and consequences?
  • Apoptosis is a controlled and programmed process that leads to cell death without causing inflammation or damage to surrounding tissues, while necrosis results from acute injury leading to cell death in an uncontrolled manner. In apoptosis, cells shrink and fragment neatly, with membrane integrity maintained until late stages. In contrast, necrotic cells swell and burst, releasing their contents into the extracellular space and provoking an inflammatory response that can harm nearby cells.
• Evaluate how dysregulation of apoptotic pathways might contribute to the development of diseases such as cancer or neurodegenerative disorders.
  • Dysregulation of apoptotic pathways can have profound implications for health. In cancer, many tumor cells develop resistance to apoptosis due to mutations in genes regulating this process, allowing them to proliferate uncontrollably. Conversely, in neurodegenerative disorders like Alzheimer's disease, excessive apoptosis may lead to the loss of critical neurons. Understanding these dysregulations highlights potential therapeutic targets for restoring normal apoptotic functions in treating such diseases.

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