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According to scientists at the German Cancer Research Center (Deutsches Krebsforschungszentrum, or DKFZ), the enzyme TXNIP, which inhibits the enzyme TRX-1, might be a regulator of aging and might be a viable candidate for future interventions against age-related diseases [1].

Study summary

The “free radical theory of aging” suggests that reactive oxygen species (ROS) are responsible for age-related loss of cellular functions and, therefore, represent the main cause of aging. Redox regulation by thioredoxin-1 (TRX) plays a crucial role in responses to oxidative stress. We show that thioredoxin-interacting protein (TXNIP), a negative regulator of TRX, plays a major role in maintaining the redox status and, thereby, influences aging processes. This role of TXNIP is conserved from flies to humans. Age-dependent upregulation of TXNIP results in decreased stress resistance to oxidative challenge in primary human cells and in Drosophila. Experimental overexpression of TXNIP in flies shortens lifespan due to elevated oxidative DNA damage, whereas downregulation of TXNIP enhances oxidative stress resistance and extends lifespan.

Oxidative stress and aging

To understand the scope of this study and what attracted the researchers’ interest, it’s important to have a primer on oxidative stress, its involvement in aging, and the enzymes TRX-1 and TXNIP.

Reactive oxygen species (ROS) are part of a larger class of molecules known as free radicals, whose prominent feature is their high chemical reactivity. As a general rule, in order to be stable, atoms need to have their electrons paired up, and free radicals have at least one unpaired electron. As a consequence, they’ll tend to “steal” electrons from nearby molecules to achieve higher stability, damaging these molecules in the process. This kind of damage is called oxidative stress, and it tends to increase as a living organism ages.

The free-radical theory of aging, which states that aging is a consequence of oxidative stress build-up throughout the years, has been around since the 1950s. Indeed, oxidative stress does seem to play a role in aging; oxidative stress damages both mitochondrial and nuclear DNA, though more modern theories of aging—such as the Hallmarks of Aging [2]—encompass many other factors as well. Nothing is clear-cut in biology, and free radicals do have benefits as well, but over the long haul, oxidative stress may cause significant harm.

TRX-1 and TXNIP

Excess free radicals can be kept somewhat under control by the action of antioxidants; these are molecules that interfere in the oxidative reactions triggered by free radicals, possibly preventing damage. While the consumption of antioxidant supplements hasn’t been proven to do much for your health, oxidants and antioxidants coexist and interact in your body on a daily basis, with TRX-1 being one of the latter.

TRX-1, short for thioredoxin-1, is a known cellular antioxidant involved in DNA replication and repair; studies have shown that its action may protect against age-related diseases. TXNIP, on the other hand, works as an inhibitor of TRX-1; naturally, inhibiting TRX-1 also inhibits its antioxidant action, and more free radicals are thus free to roam the body.

The study

To account for the increased oxidative damage observed with age, DKFZ researchers wanted to see if levels of TXNIP also rise with age; in principle, more TXNIP should lead to more TRX-1 inhibition and thus more oxidative stress. The scientists tested their hypothesis in both human cells and in vivo in fruit flies.

For the human cell part of the study, they sampled T cells (part of the immune system) from the blood of one donor group aged 20-25 and another group aged over 55, and they observed that, indeed, the older subjects showed significantly increased levels of TXNIP; similar results were also observed in cells coming from different human tissues.

The rise in TXNIP production with age was also observed in fruit flies; to verify whether this had an effect on the lifespan of the insects, the researchers bred flies that produced much more TXNIP than normal as well as flies that produced much less of it. On average, the former kind lived much shorter lives than the latter, suggesting that TXNIP may be an important regulator of aging.

Conclusion

Humans are not fruit flies, and before the idea is thoroughly tested in people, we cannot say whether TXNIP regulation will have the same effects observed in this study. However, Prof. Peter Krammer, one of the lead authors of the study, observed that the human and fruit fly versions of TRX-1 and its antagonist TXNIP are very similar, thereby making it reasonable to think that they may also have very similar functions. Further studies will be required before we can tell whether TNXIP is an appropriate target for interventions against aging.

Literature

[1] Oberacker, T., Bajorat, J., Ziola, S., Schroeder, A., Röth, D., Kastl, L., … & Krammer, P. H. (2018). Enhanced expression of thioredoxin‐interacting‐protein regulates oxidative DNA damage and aging. FEBS letters.

[2] López-Otín, C., Blasco, M. A., Partridge, L., Serrano, M., & Kroemer, G. (2013). The hallmarks of aging. Cell, 153(6), 1194-1217.

About the author

Nicola Bagalà

Nicola is a bit of a jack of all trades—a holder of an M.Sc. in mathematics; an amateur programmer; a hobbyist at novel writing, piano and art; and, of course, a passionate life extensionist. After his interest in the science of undoing aging arose in 2011, he gradually shifted from quiet supporter to active advocate in 2015, first launching his advocacy blog Rejuvenaction before eventually joining LEAF. These years in the field sparked an interest in molecular biology, which he actively studies. Other subjects he loves to discuss to no end are cosmology, artificial intelligence, and many others—far too many for a currently normal lifespan, which is one of the reasons he’s into life extension.
  1. June 25, 2018

    Hi, thanks for the news I appreciate. I am working on a mining company for mining a cryptocurrency and I will try to have a contract with an investor in order to spend all our profits into anti aging research here at my university and we will focus on: Loss of Proteostasis or Long-lived protein modification because there are not alot of researchs into this, I mean no big advancement. Again thanks for this news.

    • mm
      June 26, 2018

      If you are interested in investment you should consider joining our Longevity Investor Network we have a number of people from the Cryptocurrency community in the group. Check it out and see if it is something you might be interested in.

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