“Taking disease by sTORm”: Developing Rapalogs to Extend Healthy Lifespan (Joan Mannick, Tornado Therapeutics)
Translating Aging
English - July 26, 2023 07:30 - 29 minutes - 20.1 MBLife Sciences Science Chemistry Homepage Download Apple Podcasts Google Podcasts Overcast Castro Pocket Casts RSS feed
Joan Mannick, CEO and co-Founder of Tornado Therapeutics, joins the podcast to discuss her company’s exciting mission of developing a new generation of rapalog compounds specifically targeting the TORC1 complex. Rapalogs are analogs of the natural compound rapamycin, which has been shown to extend lifespan and healthspan in animal models by inhibiting the TOR pathway. However, rapamycin has limitations that have prevented its widespread clinical use for aging-related conditions.
Tornado aims to overcome these limitations by developing a portfolio of novel rapalogs licensed from Novartis, which were specifically designed to be more selective TORC1 inhibitors with improved drug-like properties relative to rapamycin. Early data suggests these compounds may have an improved safety profile and remain effective at treating diseases like cancer.
In her conversation with host Chris Patil, Dr. Mannick provides an accessible overview of TOR signaling biology and shares insights from her extensive experience developing rapalogs. The discussion covers Tornado’s strategic approach to indications like oncology and viral infections, the process of characterizing their licensed compounds, and notable milestones on the horizon.
Dr. Mannick provides an insider perspective on a compelling longevity biotech company striving to translate the promise of rapalogs into effective medicines for age-related diseases.
Key topics:
An overview of the TOR signaling pathway, the TORC1 and TORC2 complexes, and how the natural compound rapamycin inhibits TOR function.The benefits and limitations of using rapamycin/rapalogs clinically, and the need for more selective TORC1 inhibitors with improved drug properties.Tornado’s licensing of novel TORC1-specific rapalogs from Novartis, including early safety data.Indications that Tornado is initially pursuing, including oncology and viral infection, applying lessons learned about rapalogs over the past decade.The experience of being a “pipeline company” within the Cambrian Biopharma family, and the synergies available to companies operating within this model.The maturation of the longevity biotech fieldPromising milestones on Tornado’s horizon.Quotes:
Quotes have been lightly edited for clarity.
"Rapamycin is a very specific inhibitor of this critical protein mTOR that regulates lifespan and healthspan."
“An ideal rapalog to treat aging-related conditions and extend lifespan is predicted to be a rapalog that specifically inhibits TORC1, but leaves TORC2 alone.”
"The problem with rapamycin is that it has no remaining patent life. And we really have to do the studies to see if the benefit outweighs the risks."
“[Cambrian] enabled me to go very fast in terms of execution - you get a team, which is very rare when you start a startup.”
"Longevity medicine is white space ready to be explored. It's an untapped area that could transform the practice of medicine."
“We are picking indications where there's not just preclinical validation, but a lot of clinical validation.”
“We're going to use these lessons learned to see if with a better clinical development plan, we can now develop our next generation rapalogs to enhance antiviral immunity and decrease severity of viral respiratory tract infections.”
Links:
Email questions, comments, and feedback to [email protected]
Translating Aging on Twitter: @bioagepodcast
BioAge Labs Website...
Joan Mannick, CEO and co-Founder of Tornado Therapeutics, joins the podcast to discuss her company’s exciting mission of developing a new generation of rapalog compounds specifically targeting the TORC1 complex. Rapalogs are analogs of the natural compound rapamycin, which has been shown to extend lifespan and healthspan in animal models by inhibiting the TOR pathway. However, rapamycin has limitations that have prevented its widespread clinical use for aging-related conditions.
Tornado aims to overcome these limitations by developing a portfolio of novel rapalogs licensed from Novartis, which were specifically designed to be more selective TORC1 inhibitors with improved drug-like properties relative to rapamycin. Early data suggests these compounds may have an improved safety profile and remain effective at treating diseases like cancer.
In her conversation with host Chris Patil, Dr. Mannick provides an accessible overview of TOR signaling biology and shares insights from her extensive experience developing rapalogs. The discussion covers Tornado’s strategic approach to indications like oncology and viral infections, the process of characterizing their licensed compounds, and notable milestones on the horizon.
Dr. Mannick provides an insider perspective on a compelling longevity biotech company striving to translate the promise of rapalogs into effective medicines for age-related diseases.
Key topics:
An overview of the TOR signaling pathway, the TORC1 and TORC2 complexes, and how the natural compound rapamycin inhibits TOR function.The benefits and limitations of using rapamycin/rapalogs clinically, and the need for more selective TORC1 inhibitors with improved drug properties.Tornado’s licensing of novel TORC1-specific rapalogs from Novartis, including early safety data.Indications that Tornado is initially pursuing, including oncology and viral infection, applying lessons learned about rapalogs over the past decade.The experience of being a “pipeline company” within the Cambrian Biopharma family, and the synergies available to companies operating within this model.The maturation of the longevity biotech fieldPromising milestones on Tornado’s horizon.Quotes:
Quotes have been lightly edited for clarity.
"Rapamycin is a very specific inhibitor of this critical protein mTOR that regulates lifespan and healthspan."
“An ideal rapalog to treat aging-related conditions and extend lifespan is predicted to be a rapalog that specifically inhibits TORC1, but leaves TORC2 alone.”
"The problem with rapamycin is that it has no remaining patent life. And we really have to do the studies to see if the benefit outweighs the risks."
“[Cambrian] enabled me to go very fast in terms of execution - you get a team, which is very rare when you start a startup.”
"Longevity medicine is white space ready to be explored. It's an untapped area that could transform the practice of medicine."
“We are picking indications where there's not just preclinical validation, but a lot of clinical validation.”
“We're going to use these lessons learned to see if with a better clinical development plan, we can now develop our next generation rapalogs to enhance antiviral immunity and decrease severity of viral respiratory tract infections.”
Links:
Email questions, comments, and feedback to [email protected]
Translating Aging on Twitter: @bioagepodcast
BioAge Labs Website bioagelabs.com
BioAge Labs Twitter @bioagelabs
BioAge Labs LinkedIn