Dentists May Soon Regenerate Teeth Using GSK3 Antagonists – Article by Steve Hill
Steve Hill
Editor’s Note: In this article, Mr. Steve Hill explains a teeth-regeneration technique that works by activating the stem cells that reside in the dental pulp of teeth. The technique has the potential to translate to other tissues to help encourage regeneration. This article was originally published by the Life Extension Advocacy Foundation (LEAF).
~ Kenneth Alum, Director of Publication, U.S. Transhumanist Party, March 6, 2018
What if I told you that we could regenerate our teeth? Well, that may soon be a possibility thanks to new research showing that teeth can be encouraged to regrow. Rather than drilling holes into teeth and plugging them with artificial fillers, dentists in the near future may be able to rebuild your teeth with a new technique.
Stimulating stem cells
Professor Paul Sharpe, a scientist based at King’s College in London, and his team have found a way to do just this in mice. They published a study last year that described this new approach [1].
The researchers wanted to increase the natural ability of teeth to repair themselves by activating the stem cells that reside in the dental pulp of teeth. They knew that previous research showed that the wnt signaling pathway is a key pathway for stem cell activity in many parts of the body, and they wanted to see if it works the same way in teeth.
The researchers believed by that using drugs to stimulate the wnt pathway, they could increase stem cell activity in teeth and boost their regenerative potential significantly. Normally, this level of regeneration is only seen in animals like starfish and salamanders, but the researchers wanted to see if we can benefit from the same regenerative capacity.
To see if this would work, the team drilled holes into the molar teeth of mice to simulate dental cavities. Next, they exposed collagen sponges (the same protein found in the dentin in teeth) to a variety of drugs known to stimulate the wnt pathway. Then, they placed these sponges into the cavities and sealed them in for between 4 to 6 weeks.
After this time, the researchers saw that the teeth exposed to these sponges had created a lot more dentin than the control mice and mice given typical dental fillers. The researchers observed that this was essentially a full repair and, in most cases, the teeth of the mice were as good as new.
The next step towards clinical trials
Since then, the researchers have tested the technique on rats, which have considerably larger teeth than mice, making them the logical next step. The research team report that the therapy worked equally well on the rats as it did in the mice in the original study; however, the data is yet to be published.
The researchers are now screening their drug candidates to identify the most effective of the wnt-stimulating drugs. They are also adapting the technique to work with modern dental practices by injecting a gel containing the drug into a dental cavity and hardening it using a UV light to seal it in. This is similar to how dentists currently seal and repair teeth, so this technique would be easy to incorporate into dental practice.
Literature
It will be several years before this enters human clinical trials, but the results so far are promising, and the process may be quicker than normal because a number of the candidate drugs are already approved for human use. The arrival of this technique will revolutionize dentistry and is a great step forward for regenerative medicine in general.
Such techniques have the potential to translate to other tissues to help encourage regeneration, so it is also relevant to aging research. We look forward to more developments from this team in the future.
References
[1] Neves, V. C., Babb, R., Chandrasekaran, D., & Sharpe, P. T. (2017). Promotion of natural tooth repair by small molecule GSK3 antagonists. Scientific reports, 7, 39654.About Steve Hill
As a scientific writer and a devoted advocate of healthy longevity technologies Steve has provided the community with multiple educational articles, interviews and podcasts, helping the general public to better understand aging and the means to modify its dynamics. His materials can be found at H+ Magazine, Longevity reporter, Psychology Today and Singularity Weblog. He is a co-author of the book “Aging Prevention for All” – a guide for the general public exploring evidence-based means to extend healthy life (in press).
About LIFE EXTENSION ADVOCACY FOUNDATION (LEAF)
In 2014, the Life Extension Advocacy Foundation was established as a 501(c)(3) non-profit organization dedicated to promoting increased healthy human lifespan through fiscally sponsoring longevity research projects and raising awareness regarding the societal benefits of life extension. In 2015 they launched Lifespan.io, the first nonprofit crowdfunding platform focused on the biomedical research of aging.
They believe that this will enable the general public to influence the pace of research directly. To date they have successfully supported four research projects aimed at investigating different processes of aging and developing therapies to treat age-related diseases.
The LEAF team organizes educational events, takes part in different public and scientific conferences, and actively engages with the public on social media in order to help disseminate this crucial information. They initiate public dialogue aimed at regulatory improvement in the fields related to rejuvenation biotechnology.