IGF1 Gene Therapy as a Neuroprotective Treatment, Slowing Female Reproductive Aging

Researchers here describe an interesting approach to slowing aspects of neurodegeneration that contribute to, among other things, female reproductive aging. That is the focus of this paper, but numerous other aspects of the aging brain are also involved. IGF1 is well studied in the context of aging, and manipulation of the signaling pathways linking insulin, IGF1, and growth hormone has been shown to extend life span in a number of species. Where we can make direct comparisons between mice and humans, such as between growth hormone receptor knockout mice and humans with Laron syndrome, the effects are nowhere near as large. Suppression of growth hormone signaling can extend life by 70% or so in mice, but Laron syndrome doesn't appear to make humans live meaningfully longer. Many approaches to slowing aging have much larger effects in short-lived mammals than they do in long-lived mammals. The inflammatory environment characteristic of the aged brain is caused by activation of glial cells, mainly microglia. Several studies report that neuroinflammation leads to reduced gonadotropin-releasing hormone (GnRH) secretion, which is associated with multiple aging-related physiological changes, including bone loss, skin atrophy, muscle weakness, and memory loss. Indeed, GnRH administration amend aging-impaired neurogenesis and decelerates aging in mice. In addition, the same authors also describe that inhibition of NF-κB-directed immunity, specifically in hypothalamic microg...
Source: Fight Aging! - Category: Research Authors: Tags: Daily News Source Type: blogs