“Aging is not only slow, but it is irreversible, and that is what most people have been suspecting,” Gero Pte Ltd.’s CEO Peter Fedichev recently told BioWorld. “[But] aging is not an inevitable part of human existence.” By setting limits to what science can do – and not do – for aging, the Palo Alto, Calif.- and Singapore-based generative artificial intelligence (AI) biotech Gero is trying to figure out and, at the same time help the industry, “see what is actionable, reversible and what may not be” to help people avoid “hitting their heads against the wall” when tackling aging and aging-related diseases.
Scientists have discovered that a small chemokine protein released by activated platelets, platelet factor 4 (PF 4), reduced neuroinflammation, and improved cognition in aged mice. The study was published on Aug. 16 in the online edition of Nature.
Integrated Biosciences Inc., an early-stage startup that is combining synthetic biology and machine learning in the hunt for drugs that tackle cell senescence, has demonstrated its capabilities in a newly published study in Nature Aging on May 4, 2023, which employed artificial intelligence to identify three novel compounds that are highly selective for Bcl-2 and that exhibit favorable medicinal chemistry profiles.
Compared to the issues that come with, say, a failing liver, skin aging can look like more of a vanity problem. But aging in both tissues, and multiple others, is driven by the same underlying molecular mechanisms. One of those mechanisms is fibrosis, the cross-linking of extracellular matrix (ECM) proteins that leads to tissue stiffening. Anti-aging company Cambrian Biopharma Inc. has argued that stiffening of the ECM should be considered one of the formal hallmarks of aging.
The first in vivo cell atlas of senescent tissue in skeletal muscle has identified the damaging properties of these cells and explained why they block muscle regeneration. According to a study at Pompeu Fabra University led by scientists from Altos Labs Inc., cell damage caused the senescence of the cells, which secreted toxic substances into the surrounding microenvironment, causing fibrosis and preventing tissue regeneration.
By independently manipulating the lifespan of worms and one of its purported biomarkers, namely, the cessation of vigorous movement (CVM), investigators at the Center for Genomic Regulation (CRG) in Barcelona have demonstrated that the two are driven by partly independent processes.
With the science on aging advancing, it’s time for the U.S. to modernize its regulatory approval path for new longevity treatments, members of a House Science, Space and Technology subcommittee were told Sept. 15.
Scientists have discovered an RNA-based mechanism that is involved in core hallmarks of a number of accelerated aging conditions and shown that therapies targeting this RNA reverses some of these hallmarks in human cells and extend life spans in mouse models.
Sequence analysis of 131 human brains has revealed the mutagenesis processes that take place throughout life, from development to senescence. In a new study published in the July 29, 2022, issue of Science, the authors described how high rates of brain somatic mutations (what they call hypermutability) correlated with age.
In this multipart special report, BioWorld explores the concept of extending lifespan, which is surprisingly well-validated by basic research. The team examined the latest science, the key biological drivers that can be targeted pharmacologically and the companies developing these potential “Fountain of Youth” candidate drugs.