The Elixir of Life : Telomeres and Telomerase group create Mice with longer Telomeres
It appears that the elixir of life is near us. The telomeres and telomerase group at the Spanish National Cancer Research Centre (CNIO) has succeeded in creating mice in the laboratory with hyper-long telomeres and with reduced molecular ageing.
Telomeres — the protective structures located at the ends of chromosomes — are essential to the stability of our genetic material and to maintain the “youthful state” of our cells and of our bodies.
However, telomeres get shorter as we age.
Once they reach a critical length, cells enter a state of senescence or die.
This is one of the molecular causes of cellular ageing and of the emergence of ageing-related diseases.
Based on epigenetic changes, the new technique avoids the manipulation of genes in order to delay molecular ageing.
The study also underlines the importance of this new strategy in generating embryonic stem cells and iPS cells with long telomeres for use in regenerative medicine.
When telomeres are extra-long — as achieved for the first time by the group headed by Maria A. Blasco using the expression of the telomerase gene — they exert a protectiverole against ageing and ageing-related diseases, thus significantly extending the lives of the mice.
The in vitro expansion of the embryonic stem cells results in the elongation of the telomeres up to twice their normal length, explained the authors in a paper described in the journal Nature Communications.
The cells with hyper-long telomeres in these mice appear to be perfectly functional.
When the tissues were analysed at various moments, these cells maintained the additional length scale, accumulated less DNA damage and had a greater capacity to repair any damage.
In addition, the animals presented a lower tumour incidence than normal mice.
The results show that pluripotent stem cells that carry hyper-long telomeres can give rise to organisms with telomeres that remain young at the molecular level for longer.
According to the authors, this “proof of concept means that it is possible to generate adult tissue with longer telomeres in the absence of genetic modifications”.
The next step is to “generate a new species of mice in which the telomeres of all the cells are twice as long as those in normal mice.”