Article ISI
METABOLISM-CLINICAL AND EXPERIMENTAL  (2020)

Cancer causes metabolic perturbations associated with reduced insulin-stimulated glucose uptake in peripheral tissues and impaired muscle microvascular perfusion

Han, Xiuqing; Raun, Steffen H.; Carlsson, Michala; Sjoberg, Kim A.; Henriquez-Olguin, Carlos; Ali, Mona; Lundsgaard, Anne-marie; Fritzen, Andreas M.; Moller, Lisbeth L. V.; Li, Zhen; Li, Jinwen; Jensen, Thomas E.; Kiens, Bente; Sylow, Lykke

Abstract

--- - "Background: Redirecting glucose from skeletal muscle and adipose tissue, likely benefits the tumor's energy demand to support tumor growth, as cancer patients with type 2 diabetes have 30% increased mortality rates. The aim of this study was to elucidate tissue-specific contributions and molecular mechanisms underlying cancer-induced metabolic perturbations." - "Methods: Glucose uptake in skeletal muscle and white adipose tissue (WAT), as well as hepatic glucose production, were determined in control and Lewis lung carcinoma (LLC) tumor-bearing C57BL/6 mice using isotopic tracers. Skeletal muscle microvascular perfusion was analyzed via a real-time contrast-enhanced ultrasound technique. Finally, the role of fatty acid turnover on glycemic control was determined by treating tumorbearing insulin-resistant mice with nicotinic acid or etomoxir." - "Results: LLC tumor-bearing mice displayed reduced insulin-induced blood-glucose-lowering and glucose intolerance, which was restored by etomoxir or nicotinic acid. Insulin-stimulated glucose uptake was 30-40% reduced in skeletal muscle and WAT of mice carrying large tumors. Despite compromised glucose uptake, tumor-bearing mice displayed upregulated insulin-stimulated phosphorylation of TBC1D4(Thr642) (+18%), AKT(Ser474) (+65%), and AKT(Thr309) (+86%) in muscle. Insulin caused a 70% increase in muscle microvascular perfusion in control mice, which was abolished in tumor-bearing mice. Additionally, tumor-bearing mice displayed increased (+45%) basal (not insulin-stimulated) hepatic glucose production." - "Conclusions: Cancer can result in marked perturbations on at least six metabolically essential functions; i) insulin's blood-glucose-lowering effect, ii) glucose tolerance, iii) skeletal muscle and WAT insulin-stimulated glucose uptake, iv) intramyocellular insulin signaling, v) muscle microvascular perfusion, and vi) basal hepatic glucose production in mice. The mechanism causing cancer-induced insulin resistance may relate to fatty acid metabolism. (C) 2020 Elsevier Inc. All rights reserved."

Más información

Título según WOS: ID WOS:000523185800003 Not found in local WOS DB
Título de la Revista: METABOLISM-CLINICAL AND EXPERIMENTAL
Volumen: 105
Editorial: W B SAUNDERS CO-ELSEVIER INC
Fecha de publicación: 2020
DOI:

10.1016/j.metabol.2020.154169
Notas: ISI