Damage or Error (Based) Theory of Aging

Molecular And Cellular Mechanism of Aging I:

Damage or Error (Based) Theory of Aging

Introduction: The 7 types of aging damage proposed by de Grey

1. Cancer-causing nuclear mutations/epimutations:

These are changes to the nuclear DNA (nDNA), the molecule that contains our genetic information, or to proteins which bind to the nDNA. Certain mutations can lead to cancer, and, according to de Grey, non-cancerous mutations and epimutations do not contribute to aging within a normal lifespan, so cancer is the only endpoint of these types of damage that must be addressed.

2. Mitochondrial mutations:

Mitochondria are components in our cells that are important for energy production. They contain their own genetic material, and mutations to their DNA can affect a cell’s ability to function properly. Indirectly, these mutations may accelerate many aspects of aging.

3. Intracellular aggregates:

Our cells are constantly breaking down proteins and other molecules that are no longer useful or which can be harmful. Those molecules which can’t be digested simply accumulate as junk inside our cells. Atherosclerosis, macular degeneration and all kinds of neurodegenerative diseases (such as Alzheimer’s disease) are associated with this problem.

4. Extracellular aggregates:

Harmful junk protein can also accumulate outside of our cells. The amyloid plaque seen in the brains of Alzheimer’s patients is one example.

5. Cell loss:

Some of the cells in our bodies cannot be replaced, or can only be replaced very slowly – more slowly than they die. This decrease in cell number causes the heart to become weaker with age, and it also causes Parkinson’s disease and impairs the immune system.

6. Cell senescence:

This is a phenomenon where the cells are no longer able to divide, but also do not die and let others divide. They may also do other things that they’re not supposed to, like secreting proteins that could be harmful. Immune senescence and type 2 diabetes are caused by this.

7. Extracellular crosslinks:

Cells are held together by special linking proteins. When too many cross-links form between cells in a tissue, the tissue can lose its elasticity and cause problems including arteriosclerosis and presbyopia.


Bookmark and Share

Leave a Reply

Your email address will not be published. Required fields are marked *

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>