S A Warmington1, R Tolan, S McBennett. 1. Department of Physiology, University of Dublin, Trinity College, Dublin 2, Ireland. warmings@tcd.ie
Abstract
BACKGROUND: Skeletal muscle mass in genetically obese (ob/ob) mice displays a reduced mass compared with their normal lean counterpart mice. However, the functional capacity of the available skeletal muscle mass in these animals has not yet been determined. OBJECTIVE: To investigate the properties of skeletal muscle in ob/ob mice and determine the effects of leptin administration on skeletal muscle in these mice. METHODS: Following 4 weeks of i.p. leptin administration (or control treatment) anaesthetized ob/ob and lean mice had their extensor digitorum longus and soleus muscles removed, and standard measures of isometric contractile properties and fatigability were performed. Histochemistry was used to determine fibre type proportions and individual fibre areas of all muscles. RESULTS: Leptin had no effect on the morphology or function of ob/ob skeletal muscle despite reducing body mass in ob/ob mice. Force production was unaltered in obese mice. However, a significant prolongation of contraction and relaxation times were evident. Obese skeletal muscle was also more fatigue resistant. Fibre proportions displayed a more slow type profile in ob/ob skeletal muscle, and in conjunction with previous work a reduced ability to hypertrophy. CONCLUSION: Skeletal muscle from obese mice is morphologically and functionally different from lean mouse skeletal muscle. Obese muscle is very similar to skeletal muscle from aged mice, and the specific contractile properties examined appear to be determined by the fibre make-up of these muscles.
BACKGROUND: Skeletal muscle mass in genetically obese (ob/ob) mice displays a reduced mass compared with their normal lean counterpart mice. However, the functional capacity of the available skeletal muscle mass in these animals has not yet been determined. OBJECTIVE: To investigate the properties of skeletal muscle in ob/ob mice and determine the effects of leptin administration on skeletal muscle in these mice. METHODS: Following 4 weeks of i.p. leptin administration (or control treatment) anaesthetized ob/ob and lean mice had their extensor digitorum longus and soleus muscles removed, and standard measures of isometric contractile properties and fatigability were performed. Histochemistry was used to determine fibre type proportions and individual fibre areas of all muscles. RESULTS: Leptin had no effect on the morphology or function of ob/ob skeletal muscle despite reducing body mass in ob/ob mice. Force production was unaltered in obesemice. However, a significant prolongation of contraction and relaxation times were evident. Obese skeletal muscle was also more fatigue resistant. Fibre proportions displayed a more slow type profile in ob/ob skeletal muscle, and in conjunction with previous work a reduced ability to hypertrophy. CONCLUSION: Skeletal muscle from obesemice is morphologically and functionally different from lean mouse skeletal muscle. Obese muscle is very similar to skeletal muscle from aged mice, and the specific contractile properties examined appear to be determined by the fibre make-up of these muscles.
Authors: T Piche; E Gelsi; S M Schneider; X Hébuterne; J Giudicelli; B Ferrua; C Laffont; S Benzaken; P Hastier; M L Montoya; F Longo; P Rampal; A Tran Journal: Gut Date: 2002-09 Impact factor: 23.059
Authors: Joseph E Ostler; Santosh K Maurya; Justin Dials; Steve R Roof; Steven T Devor; Mark T Ziolo; Muthu Periasamy Journal: Am J Physiol Endocrinol Metab Date: 2014-01-14 Impact factor: 4.310
Authors: S M Turpin; J G Ryall; R Southgate; I Darby; A L Hevener; M A Febbraio; B E Kemp; G S Lynch; M J Watt Journal: J Physiol Date: 2009-02-09 Impact factor: 5.182