Summary: Telomere shortening and beLIVELY Vita
- Telomere shortening : Natural mechanism that limits cell division and is associated with aging and disease.
- Aging process due to telomere shortening : Impairs cellular function and lifespan. Associated with a variety of age-related diseases.
Combating with beLIVELY Vita :
- Magnesium : Supports the structural integrity of telomeres.
- Turmeric Extract : Curcumin protects telomeres by reducing oxidative damage and inflammation and promoting telomerase activity. These properties help maintain telomere length and slow down the aging process.
These ingredients in beLIVELY Vita offer a multifactorial approach to support telomere health and may help minimize the negative effects of telomere shortening on the aging process.
Telomere shortening and its relationship with aging
Telomeres are repetitive DNA sequences at the ends of chromosomes that serve as protective caps. They protect the genetic information during cell division and prevent the loss of important DNA information. However, with each cell division, these telomeres shorten until they reach a critical length that makes the cell no longer functional, which can lead to senescence (cell aging) or apoptosis (programmed cell death). This shortening is a natural part of the aging process and affects the lifespan of cells and thus the health of the entire organism.
The continuous shortening of telomeres is closely linked to the biological aging process. This process affects cellular health and lifespan and is a marker of biological age and overall cell health. Over time, telomere shortening leads to impaired cellular functions, which can promote the development of age-related diseases such as cardiovascular disease, diabetes and various types of cancer. Since telomeres also play a role in the immune response, their shortening also affects immune function and susceptibility to disease.
Combating telomere shortening with beLIVELY Vita
beLIVELY Vita contains specific ingredients that can help support telomere health and combat the negative effects of telomere shortening:
- Magnesium : As an important cofactor in numerous enzymatic processes, magnesium supports DNA replication and repair. It is crucial for maintaining the structural integrity of telomeres and can thus support their protective function ( R ).