Slow Down Your Natural Ageing Process: How Is It Possible

Slow Down Your Natural Ageing Process: How Is It Possible

Slowing down the body’s natural aging process is one of the most studied topics by scientists. Countless experiments are still underway to develop real elixirs of youth. The cycloastragenol in part. As we saw in the file “Cycloastragenol: An anti-aging”, this molecule has the power to activate telomerase. As a reminder, it is the enzyme capable of growing telomeres in our DNA, the ends of chromosomes responsible for protecting genetic information. The shortening of these telomeres quite simply means aging of the cell.

The markers of aging

Before going any further, we must first understand what “aging” really is. This is characterized, in fact, by the deterioration and alteration of the various functions within our organism. Knowing its true signs allows you to adopt the best technique to slow it down. These signs, called in English “hallmarks”, appear initially at the level of the cells. They can then be noticed in the various tissues of the body, joints, muscles, etc.

Impaired communication between cells aging

Cycloastragenol slows down the aging process by protecting our DNA Some cells, such as neurons for example, can no longer correctly transmit information flows. This leads to a significant disturbance in motor and cognitive functions.

Depletion of stem cells

Stem cells cannot regenerate easily like other cells in our body. However, as they age, they become exhausted and can no longer produce new cells for the reconstruction of aged or damaged tissues.

Cellular senescence

Put simply, it is the state of the cell where it is no longer able to grow and divide, and eventually dies. The buildup of senescent cells in the body can cause immunity problems and further accelerate the aging process.

Mitochondrial dysfunction

The mitochondria responsible for producing energy within cells no longer function. A lack of energy however leads to the death of the latter. Using the nmn powder is important there.

Deregulation of nutrient assimilation

The cells can no longer properly assimilate the nutrients essential for their proper functioning. The deficiencies however promote their aging, and apoptosis.

Decrease in protein production

We also notice the stop of production of proteins, like collagen for example. The latter is responsible for the elasticity of the skin, hence the formation of wrinkles.

DNA modifications

There may also be some modification on the activity of DNA. The latter can, for example, be deactivated and therefore is no longer capable of ordering the creation of new cells.

DNA damage

As we age, our DNA also breaks down. His telomeres get shorter, causing the loss of genetic information. Cells can no longer replicate normally.


David Lockhart