BACKGROUND: Tacrolimus has a wide spectrum of adverse effects, including neurotoxic and vascular events. Vascular dysfunction due to interference of tacrolimus with mitochondrial function in endothelial cells may contribute to these adverse reactions. MATERIAL/ METHODS: We evaluated the impact of clinically relevant tacrolimus concentrations after 48 hours on energy metabolism in cultured human umbilical vein endothelial cells (HUVEC): Global fatty acid oxidation (FAO), activities of respiratory chain complexes I-V (RC), citratesynthase (CS), glycolytic enzymes and energy rich phosphates were measured. RESULTS: RC-complexes II+III were significantly compromised at 100 nmol/L and CS at 10, 25 and 50 nmol/L, while global FAO was not significantly impaired. Cellular lactate-dehydrogenase (LDH)-, hexokinase- and phosphofructokinase-activities were not altered; AMP levels increased after 48 hours at 200 nmol/L while energy charges remained stable. No cellular toxicity, assessed by light microscopy and LDH leakage was observed even at highest tacrolimus concentrations. CONCLUSIONS: Tacrolimus partially impaired mitochondrial function in HUVEC at the level of RC-complexes II+III and CS. Part of tacrolimus toxicity and vascular dysfunction may arise from these metabolic alterations. To some extent, energy balance could be maintained by FAO and cytosolic energy production; energy consumption might be economized. Although only demonstrated for endothelial cells, it is conceivable that such effects will alter energy metabolism in different tissues with high oxidative demands.
BACKGROUND:Tacrolimus has a wide spectrum of adverse effects, including neurotoxic and vascular events. Vascular dysfunction due to interference of tacrolimus with mitochondrial function in endothelial cells may contribute to these adverse reactions. MATERIAL/ METHODS: We evaluated the impact of clinically relevant tacrolimus concentrations after 48 hours on energy metabolism in cultured human umbilical vein endothelial cells (HUVEC): Global fatty acid oxidation (FAO), activities of respiratory chain complexes I-V (RC), citratesynthase (CS), glycolytic enzymes and energy rich phosphates were measured. RESULTS: RC-complexes II+III were significantly compromised at 100 nmol/L and CS at 10, 25 and 50 nmol/L, while global FAO was not significantly impaired. Cellular lactate-dehydrogenase (LDH)-, hexokinase- and phosphofructokinase-activities were not altered; AMP levels increased after 48 hours at 200 nmol/L while energy charges remained stable. No cellular toxicity, assessed by light microscopy and LDH leakage was observed even at highest tacrolimus concentrations. CONCLUSIONS:Tacrolimus partially impaired mitochondrial function in HUVEC at the level of RC-complexes II+III and CS. Part of tacrolimustoxicity and vascular dysfunction may arise from these metabolic alterations. To some extent, energy balance could be maintained by FAO and cytosolic energy production; energy consumption might be economized. Although only demonstrated for endothelial cells, it is conceivable that such effects will alter energy metabolism in different tissues with high oxidative demands.
Authors: Aida Venado; Nicholas A Kolaitis; Chiung-Yu Huang; Ying Gao; David V Glidden; Allison Soong; Nicole Sutter; Patricia P Katz; John R Greenland; Daniel R Calabrese; Steven R Hays; Jeffrey A Golden; Rupal J Shah; Lorriana E Leard; Jasleen Kukreja; Tobias Deuse; Paul J Wolters; Kenneth Covinsky; Paul D Blanc; Jonathan P Singer Journal: Thorax Date: 2020-05-06 Impact factor: 9.139
Authors: Henning Pflugrad; Anita Blanka Tryc; Annemarie Goldbecker; Hannelore Barg-Hock; Christian Strassburg; Jürgen Klempnauer; Heinrich Lanfermann; Karin Weissenborn; Peter Raab Journal: PLoS One Date: 2019-08-23 Impact factor: 3.240
Authors: Samantha Ellis; Catherine Rang; Tom Kotsimbos; Dominic Keating; Felicity Finlayson; Richard Stark; Dominic Thyagarajan; John Wilson Journal: BMJ Open Respir Res Date: 2019-08-09
Authors: Henning Pflugrad; Patrick Nösel; Xiaoqi Ding; Birte Schmitz; Heinrich Lanfermann; Hannelore Barg-Hock; Jürgen Klempnauer; Mario Schiffer; Karin Weissenborn Journal: PLoS One Date: 2020-03-10 Impact factor: 3.240