Novartis’ dare Unit Targetsโ Aging at the Molecular Level โฃto Combat Rising Disease Burden
By Dr. Michaela Lee, World-Today-News.com – November 2, 2023
The global health landscape is shifting. Age-related diseases – encompassing neurodegenerative conditions likeโ Alzheimer’s,โค and widespreadโ cardiovascular and metabolic illnesses – are no longer simply aโ consequence of longer lifespans, but a rapidly increasing burden on healthcare systems worldwide. Now, a dedicated research unit within โNovartis, known as DARe (Discovery โฃof Age-Relatedโ Diseases), is taking a bold new approach: targeting the fundamental mechanisms of aging itself to developโค regenerative therapies.
DARe’s strategy isn’t basedโ on theoretical models, but firmly anchored in humanโค data.Researchers are meticulously dissecting the molecular processes that drive age-related decline, with the ultimate goal of restoring cellular and tissue function. “We have an exciting chance to reimagine the discovery of medicines forโ human diseases using the lens of aging โand regenerative โคbiology across organ systems,” explains Michaela Kneissel, Global Head of dare forโ Biomedical Research at Novartis.
(Image: โTheโฃ mitochondrial network in cultured human skeletal muscle cells, courtesyโข of Ryan Hahn)
Currently, DARe is focusing on three โcore processes central to aging and the progress of related โdiseases:
* Mitochondrial Dysfunction: Frequently enough described as the “powerhouses” of cells, mitochondria become less efficient with age, leading to reduced energyโ production (ATP) โขand a dangerous increase in damaging free radicals.
* Declining DNA Repair: Our ability to โคrepair genetic damage diminishes over time, resulting in genomic instability and contributing to cellular dysfunction and disease.
* extracellular Matrix (ECM) Alterations: The ECM, the structural scaffolding surrounding cells, undergoes changes with age, impacting cellular activity, tissue integrity, and ultimately, organ function.
But DARe’s research extends beyond these foundational areas. Scientists are also investigating the potential of modulating cell fate and state – essentially, guiding cells to regenerate and restore tissue function. This work is powered by a complex “Regeneration โEngine,” a data science platform thatโข analyzes high-resolution datasets to identify promising therapeutic targets. Initial research has focusedโ on osteoarthritis and tendinopathy, but has now expanded to include โคAlzheimer’s Disease and โSjรถgren’s Disease.
Interestingly,DAReโ is also looking at lifestyleโฃ interventions. The benefits of exercise in combating age-related decline are well-documented, and researchers โare working to understand the underlying molecular mechanisms – particularly how physical activity can reverse โage-related mitochondrial dysfunction. Similarly,the team is exploring ways to increase energy expenditure in skeletal muscle,perhaps offering a therapeutic โavenue for age-related obesity.
dare’s commitment โto a data-driven, human-centric approach representsโฃ a significant shift in pharmaceutical research. By focusing on the root causes of aging, rather than simply treating itsโข symptoms, Novartis’ DARe unit aims to unlockโค a new era of regenerative medicine andโ address the growing global health challenge of age-related diseases.
Keywords: Aging, Age-Related Diseases, Regenerative Medicine, Novartis, DARe, Mitochondrial Dysfunction, DNA Repair, Extracellular Matrix, Alzheimer’s Disease, Osteoarthritis, Exercise, Obesity, Biomedical Research, Pharmaceuticals, Health News.
