What is unique about the immune system of people who live to extreme old age? Here the authors describe that centenarians may achieve such longevity through several mechanisms, including limiting the pathological effects of inflammageing and immunosenescence, preservation of immune surveillance, sustained gut microbial diversity and maintenance of intestinal barrier integrity.

Everyone’s DNA keeps mutating. Could correcting those errors lead to longevity?

Stanford published a paper in Science showing they regrew joint cartilage in aging mice — and in human tissue samples taken from knee-replacement patients — by blocking a single enzyme called 15-PGDH. It’s being hyped as the end of knee and hip replacement surgery. The science is real. The hype is getting ahead of what the paper actually says.

This episode walks through the study itself — the three experiments, the surprising mechanism (which doesn’t involve stem cells at all), and the actual clinical timeline.

Bottom line: the mechanism is a genuinely new paradigm for tissue regeneration. The human osteoarthritis trial? \.

An international team of researchers funded in part by NIAMS sought to understand why skin nevi grow long hair. Nevi, which are a type of skin lesion, have an abundance of pigment-producing cells, called melanocytes, that have become aged (or senescent). The team determined that senescent melanocytes within nevi produce large quantities of several signaling molecules. One such molecule, called osteopontin, causes dormant hair stem cells to wake up, which increases hair growth.

The study, which appeared in the journal Nature on June 21, 2023, provides answers as to why nevi are hairy and also uncovers the unexpected growth-promoting potential of senescent cells, which are typically thought to be associated with inhibited tissue growth.