CONTEXT: Critical illness is hallmarked by mitochondrial damage, which is attenuated by targeting normoglycemia. Mitochondrial dysfunction induces fibroblast growth factor-21 (FGF21) via the integrated stress response (ISR). OBJECTIVE: We evaluated whether critical illness elevates serum FGF21 concentrations and whether targeting normoglycemia (80-110 mg/dL) with insulin vs tolerating hyperglycemia may lower serum FGF21 by attenuating mitochondrial dysfunction and the ISR. SETTING/ DESIGN: We quantified serum FGF21 concentrations in critically ill patients. To allow tissue analyses, including hepatic fgf21 expression in relation with mitochondrial function and ISR markers, we studied critically ill rabbits. Patients and rabbits were randomized to hyper- or normoglycemia. Patients/Other Participants: We studied 405 fed critically ill patients vs 20 matched non-critically ill control subjects as well as 26 critically ill rabbits vs 13 healthy rabbits. INTERVENTIONS: Insulin was infused to control blood glucose. MAIN OUTCOME MEASURES AND RESULTS:Serum FGF21 concentrations upon intensive care unit admission were 8-fold higher than in control subjects (P < .0001), decreased with time, but always remained higher in nonsurvivors than survivors (P ≤ .006). Maintaining normoglycemia lowered serum FGF21 (P = .01), statistically explaining at least part of its mortality benefit. In ill rabbits, hepatic fgf21 expression was substantially increased (P < .0001) and was tightly correlated with mitochondrial dysfunction (all R(2) ≥ 0.49; all P ≤ .0006 for complex I and V) and ISR markers on day 3 (R(2) ≥ 0.73; P ≤ .0001), all lowered by targeting normoglycemia. CONCLUSION: Critical illness is a potent inducer of serum FGF21 and of liver fgf21 expression, possibly driven at least in part by mitochondrial damage and the ISR, which were all attenuated by targeting normoglycemia.
RCT Entities:
CONTEXT: Critical illness is hallmarked by mitochondrial damage, which is attenuated by targeting normoglycemia. Mitochondrial dysfunction induces fibroblast growth factor-21 (FGF21) via the integrated stress response (ISR). OBJECTIVE: We evaluated whether critical illness elevates serum FGF21 concentrations and whether targeting normoglycemia (80-110 mg/dL) with insulin vs tolerating hyperglycemia may lower serum FGF21 by attenuating mitochondrial dysfunction and the ISR. SETTING/ DESIGN: We quantified serum FGF21 concentrations in critically ill patients. To allow tissue analyses, including hepatic fgf21 expression in relation with mitochondrial function and ISR markers, we studied critically ill rabbits. Patients and rabbits were randomized to hyper- or normoglycemia. Patients/Other Participants: We studied 405 fed critically ill patients vs 20 matched non-critically ill control subjects as well as 26 critically ill rabbits vs 13 healthy rabbits. INTERVENTIONS:Insulin was infused to control blood glucose. MAIN OUTCOME MEASURES AND RESULTS: Serum FGF21 concentrations upon intensive care unit admission were 8-fold higher than in control subjects (P < .0001), decreased with time, but always remained higher in nonsurvivors than survivors (P ≤ .006). Maintaining normoglycemia lowered serum FGF21 (P = .01), statistically explaining at least part of its mortality benefit. In ill rabbits, hepatic fgf21 expression was substantially increased (P < .0001) and was tightly correlated with mitochondrial dysfunction (all R(2) ≥ 0.49; all P ≤ .0006 for complex I and V) and ISR markers on day 3 (R(2) ≥ 0.73; P ≤ .0001), all lowered by targeting normoglycemia. CONCLUSION:Critical illness is a potent inducer of serum FGF21 and of liver fgf21 expression, possibly driven at least in part by mitochondrial damage and the ISR, which were all attenuated by targeting normoglycemia.
Authors: Salah Sommakia; Naredos H Almaw; Sandra H Lee; Dinesh K A Ramadurai; Iosif Taleb; Christos P Kyriakopoulos; Chris J Stubben; Jing Ling; Robert A Campbell; Rami A Alharethi; William T Caine; Sutip Navankasattusas; Guillaume L Hoareau; Anu E Abraham; James C Fang; Craig H Selzman; Stavros G Drakos; Dipayan Chaudhuri Journal: Circ Heart Fail Date: 2021-12-06 Impact factor: 8.790
Authors: Miguel Ángel Gómez-Sámano; Mariana Grajales-Gómez; Julia María Zuarth-Vázquez; Ma Fernanda Navarro-Flores; Mayela Martínez-Saavedra; Óscar Alfredo Juárez-León; Mariana G Morales-García; Víctor Manuel Enríquez-Estrada; Francisco J Gómez-Pérez; Daniel Cuevas-Ramos Journal: Redox Biol Date: 2016-12-22 Impact factor: 11.799