Abstract
In rodents, loss of growth hormone (GH) or its receptor is associated with extended lifespan. We aimed to determine the signaling process resulting in this longevity using GH receptor (GHR)-mutant mice with key signaling pathways deleted and correlate this with cancer incidence and expression of genes associated with longevity. GHR uses both canonical janus kinase (JAK)2-signal transducer and activator of transcription (STAT) signaling as well as signaling via the LYN-ERK1/2 pathway. We used C57BL/6 mice with loss of key receptor tyrosines and truncation resulting in 1) loss of most STAT5 response to GH; 2) total inability to generate STAT5 to GH; 3) loss of Box1 to prevent activation of JAK2 but not LYN kinase; or 4) total knockout of the receptor. For each mutant we analyzed lifespan, histopathology to determine likely cause of death, and hepatic gene and protein expression. The extended lifespan is evident in the Box1-mutant males (retains Lyn activation), which have a median lifespan of 1016 days compared to 890 days for the Ghr-/- males. In the females, GhrBox1-/- mice have a median lifespan of 970 days compared to 911 days for the knockout females. Sexually dimorphic GHR-STAT5 is repressive for longevity, since its removal results in a median lifespan of 1003 days in females compared to 734 days for wild-type females. Numerous transcripts related to insulin sensitivity, oxidative stress response, and mitochondrial function are regulated by GHR-STAT5; however, LYN-responsive genes involve DNA repair, cell cycle control, and anti-inflammatory response. There appears to be a yin-yang relationship between JAK2 and LYN that determines lifespan.