Author:
Shkhyan Ruzanna,Flynn Candace,Lamoure Emma,Handel Ben Van,Sarkar Arijita,Li Jinxiu,York Jesse,Banks Nicholas,Van der Horst Robert,Liu Nancy Q.,Lee Siyoung,Bajaj Paul,Vadivel Kanagasabai,Harn Hans I-Chen,Lozito Thomas,Lieberman Jay R.,Chuong Cheng-Ming,Hurtig Mark S.,Evseenko Denis
Abstract
AbstractAdult mammals are incapable of multi-tissue regeneration and augmentation of this potential may drastically shift current therapeutic paradigms. Here, we found that a common co-receptor of IL-6 cytokines, glycoprotein 130 (gp130), serves as a major nexus integrating various context-specific signaling inputs to either promote regenerative outcomes or aggravate disease progression. Via genetic and pharmacological experiments in vitro and in vivo, we demonstrated that a signaling tyrosine 814 (Y814) within gp130 serves as a major cellular stress sensor. Mice with constitutively inactivated Y814 (F814) exhibit regenerative, not reparative, responses after wounding in skin and anti-degenerative responses in the synovial joint. In addition, pharmacological inhibition of gp130 Y814 results in regeneration of multiple tissues in several species as well as disease modification in animal models of osteoarthritis. Our study characterizes a novel molecular mechanism that, if selectively manipulated, enhances the intrinsic regenerative capacity while preventing pathological outcomes in injury and disease.SummaryGp130 Y814 signaling module serves as a cellular stress sensor responsible for hindering tissue regeneration while triggering pathological outcomes after injury.
Publisher
Cold Spring Harbor Laboratory