Surviving the Zombie Cell Apocalypse – Oisín Biotechs Stephen Hilbert

Oisín Biotechnologies ground-breaking research and technology is demonstrating that the solution to mitigating the effects of age-related diseases is to address the damage created by the aging process itself. We have recently successfully launched our first subsidiary, Oisin Oncology, focusing in combating multiple cancers.

Interview with Stephen Hilbert

We cover the exciting scientific progress at Oisín, targeting senescent cells (dubbed ‘zombie cells’) to help them to die properly, rejuvenation therapy vs traditional approaches to combating disease, Oisín’s potential for aiding astronauts survive high levels of radiation in space, funding for the research and therapy/drug development and specifically Stephen’s background in corporate development in helping raise capital for Oisín and it’s research.

Are we close to achieving Robust Mouse Rejuvenation?

According to Aubrey de Grey we are about 5-6 years away from  robust mouse rejuvenation   (RBR) subject to the kind of funding SENS has received this year and the previous year (2017-2018). There has been progress in developing certain therapies .

Specifically, the goal of RBR is this:

  • Make normal, healthy two-year old mice (expected to live one more year) live three further years.
    • The type of mice: The ideal mouse to trail on is one that doesn’t naturally have a certain kind of congenital disease (that might on average only live 1.5 or 2 years) – because increasing their lifespan might only be a sign that you have solved their particular congenital disease.
    • Number of extra years: Consistently increasing mouse lifespan for an extra two years on top of their normal three year lifespans – essentially tripling their remaining lifespan.
    • When to begin the treatment: Don’t start treating the mice until they are already 2 years old – at a time where they would normally be 2 thirds of the way though their life (at or past middle age) and they would have one more year to live.

Why not start treating the mice earlier?  The goal is to produce sufficiently dramatic results in a laboratory to convince the main-stream gerontology community such that they would willingly publicly endorse the idea that it is not impossible, but indeed it is only a matter of time before rejuvenation therapy will work in humans – that is to get out there on talk shows and in front of cameras and say all this.

The mainstream gerontology community are generally a bit conservative – they have vested interests in being successful in publishing papers, they get grants they have worries around peer review, they want tenure, and have a reputation to uphold.   Gerontologists hold the keys to public trust – they are considered to be the authorities on aging.


For the lowdown on progress towards Robust Mouse Rejuvenation see partway through this interview with Aubrey de Grey!

Preliminary results from study showing normalized mouse survival at 140 weeks

Stephen heads up corporate development for Oisín Biotechnologies. He has served as a business advisor to Oisín since its inception and has served on several biotechnology company advisory boards, specializing in business strategy and capital formation. Prior to Oisín, his career spanned over 15 years in the banking industry where he served as trusted advisor to accredited investors around the globe. Most recently he headed up a specialty alternative investment for a company in San Diego, focusing in tax and insurance strategies for family offices and investment advisors. Stephen is the founder of several ventures in the areas of real estate small manufacturing of novelty gifts and strategic consulting. He serves on the Overlake Hospital’s Pulse Board, assists with Children’s Hospital Guild and is the incoming Chairman at the Columbia Tower Club, a member’s club in Seattle.
LinkedIn Profile

Head of Corporate Strategy/Development Pre-Clinical Oisin Biotechnologies and OncoSenX
FightAging - Oisin Biotechnologies Produces Impressive Mouse Life Span Data from an Ongoing Study of Senescent Cell Clearance
FightAging reported:
Oisin Biotechnologies is the company working on what is, to my eyes, the best of the best when it comes to the current crop of senolytic technologies, approaches capable of selectively destroying senescent cells in old tissues. Adding senescent cells to young mice has been shown to produce pathologies of aging, and removal of senescent cells can reverse those pathologies, and also extend life span. It is a very robust and reliable approach, with these observations repeated by numerous different groups using numerous different methodologies of senescent cell destruction. Most of the current senolytic development programs focus on small molecules, peptides, and the like. These are expensive to adjust, and will be tissue specific in ways that are probably challenging and expensive to alter, where such alteration is possible at all. In comparison, Oisin Biotechnologies builds their treatments atop a programmable suicide gene therapy; they can kill cells based on the presence of any arbitrary protein expressed within those cells. Right now the company is focused on p53 and p16, as these are noteworthy markers of cancerous and senescent cells. As further investigation of cellular senescence improves the understanding of senescent biochemistry, Oisin staff could quickly adapt their approach to target any other potential signal of senescence – or of any other type of cell that is best destroyed rather than left alone. Adaptability is a very valuable characteristic. The Oisin Biotechnologies staff are currently more than six months in to a long-term mouse life span study, using cohorts in which the gene therapy is deployed against either p16, p53, or both p16 and p53, plus a control group injected with phosphate buffered saline (PBS). The study commenced more than six months ago with mice that were at the time two years (104 weeks) old. When running a life span study, there is a lot to be said for starting with mice that are already old; it saves a lot of time and effort. The mice were randomly put into one of the four treatment groups, and then dosed once a month. As it turns out, the mice in which both p16 and p53 expressing cells are destroyed are doing very well indeed so far, in comparison to their peers. This is quite impressive data, even given the fact that the trial is nowhere near done yet.
Considering investing/supporting this research?  Get in contact with Oisin here.