PDF icon PDF herunterladen
Horm Metab Res 2011; 43(2): 112-116
DOI: 10.1055/s-0030-1267998
Animals

© Georg Thieme Verlag KG Stuttgart · New York

Time-Course Alterations of Plasma and Soleus Agouti-Related Peptide and Relationship to ATP, Glycogen, Cortisol, and Insulin Concentrations Following Treadmill Training Programs in Male Rats

A. Ghanbari-Niaki1 , R. R. Kraemer2 , H. Abednazari3
  • 1Exercise Biochemistry Division, Faculty of Physical Education and Sports Sciences, University of Mazandaran, Baboulsar, Mazandaran, Iran
  • 2Department of Kinesiology and Health Studies, Southeastern Louisiana University, Hammond, LA, USA
  • 3Science and Research Branch, Islamic Azad University, Tehran, Iran
Weitere Informationen

Publikationsverlauf

received 09.08.2010

accepted 21.10.2010

Publikationsdatum:
22. November 2010 (online)

Auch verfügbar aufeRef
   Lizenzen und Reprints
Preview

Abstract

No studies have examined the time-course changes of the appetite stimulating hormone, agouti-related peptide (AgRP), induced by exercise training. The purpose of the study was to determine the effects of short (3 weeks), moderate (9 weeks), and long-term (12 weeks) treadmill training on plasma and soleus concentrations of AgRP, as well as ATP and glycogen concentrations in soleus muscle and liver tissues. 54 Wistar male rats were randomly assigned into control (total n=27; 3 week control=10; 9 week control=8; 12 week control=9) and training (total n=27; 3 week trained=10; 9 week trained=8; 12 week trained=9). The training groups ran for 60 min/d, 5 d/wk at 25 m/min and 0% grade for 3, 9, and 12 weeks. After the last exercise session soleus muscle, liver, and plasma were collected and frozen. Results demonstrated that after 3, 9, and 12 weeks of exercise training there was an increase in plasma and soleus AgRP that declined with age. Soleus muscle glycogen was inversely related to AgRP. After 9 weeks of training there was a significant decrease and increase in plasma insulin and cortisol, respectively. Thus, as little as 3 weeks of running enhances AgRP concentration in rat soleus and plasma whereas changes in liver ATP and glycogen and soleus muscle glycogen require 9 weeks for alteration. Plasma and soleus muscle AgRP decline with age, and AgRP concentration in plasma and soleus are related to insulin, soleus ATP, and liver glycogen.

Key words

treadmill running - liver - AgRP - adrenal cortex - insulin

References

  • 1 Hutber CA, Bonen R. Glycogenesis in muscle and liver during exercise.  J Appl Physiol. 1989;  66 2811-2817
    Suche in Google Scholar
  • 2 Coggan AR. Plasma glucose metabolism during exercise in human.  Sports Med. 1991;  11 102-124
    Suche in Google Scholar
  • 3 Martins C, Morgan L, Truby H. A review of the effects of exercise on appetite regulation: an obesity perspective.  Int J Obes (Lond). 2008;  32 1337-1347
    Suche in Google Scholar
  • 4 Kraemer RR, Castracane VD. Exercise and humoral mediators of peripheral energy balance: ghrelin and adiponectin.  Exp Biol Med (Maywood). 2007;  232 184-194
    Suche in Google Scholar
  • 5 Ghanbari-Niaki A, Nabatchian S, Hedayati M. Plasma agouti-related protein (AGRP), growth hormone, insulin responses to a single circuit-resistance exercise in male college students.  Peptides. 2007;  28 1035-1039
    Suche in Google Scholar
  • 6 Jürimäe J, Mäestu J, Jürimäe T, Mangus B, von Duvillard SP. Peripheral signals of energy homeostasis as possible markers of training stress in athletes: a review.  Metabolism. 2010 Mar 19;  [Epub ahead of print]
    Suche in Google Scholar
  • 7 Ilnytska O, Argyropoulos G. The role of the agouti-related protein in energy balance regulation.  Cell Mol Life Sci. 2008;  65 2721-2731
    Suche in Google Scholar
  • 8 Ollmann MM, Wilson BD, Yang YK, Kerns JA, Chen Y, Gantz I, Barsch GS. Antagonism of central melanocortin receptors in vitro and in vivo by agouti–related protein.  Science. 1997;  278 135-138
    Suche in Google Scholar
  • 9 Shutter JR, Graham M, Kinsey AC, Scully S, Lüthy R, Stark KL. Hypothalamic expression of ART, a novel gene related to agouti, is upregulated in obese and diabetic mutant mice.  Genes Dev. 1997;  11 593-602
    Suche in Google Scholar
  • 10 Ghanbari-Niaki A, Fathi R, Kakhak SA, Farshidi Z, Barmaki S, Rahbarizadeh F, Kraemer RR. Treadmill exercise's reduction of Agouti-related protein expression in rat liver.  Int J Sport Nutr Exerc Metab. 2009;  19 473-484
    Suche in Google Scholar
  • 11 Ghanbari-Niaki A, Marziyeh Saghebjoo M, Rashid-Lamir A, Fathi R, Kraemer RR. Acute circuit-resistance exercise increases expression of lymphocyte agouti-related protein in young women.  Experimental Biology and Medicine. 2010;  235 326-334
    Suche in Google Scholar
  • 12 Breen TL, Conwell IM, Warlaw SL. Effects of fasting, leptin and insulin on AgRP, and POMC peptide release in hypothalamus.  Brain Res. 2005;  1032 141-148
    Suche in Google Scholar
  • 13 Palou M, Sánchez J, Rodríguez AM, Priego T, Picó C, Palou A. Induction of NPY/AgRP orexigenic peptide expression in rat hypothalamus is an early event in fasting: relationship with circulating leptin, insulin and glucose.  Cell Physiol Biochem. 2009;  23 115-124
    Suche in Google Scholar
  • 14 Goto M, Arima H, Watanabe M, Hayashi M, Banno R, Sato I, Nagasaki H, Oiso Y. Ghrelin increases neuropeptide Y and agouti-related peptide gene expression in the arcuate nucleus in rat hypothalamic organotypic cultures.  Endocrinology. 2006;  147 5102-5109
    Suche in Google Scholar
  • 15 Katsuki A, Sumida Y, Gabazza EC, Murashima S, Tanaka T, Furuta M, Araki-Sasaki R, Hori Y, Nakatani K, Yano Y, Adachi Y. J Clin Endocrinol Metab. 2001;  86 1921-1924
    Suche in Google Scholar
  • 16 Charbonneau C, Bai F, Richards BS, Argyropoulos G. Central and peripheral interactions between the agouti-related protein and leptin.  Biochem Biophys Res Commun. 2004;  319 518-524
    Suche in Google Scholar
  • 17 Pan W, Kastin AJ, Yu Y, Cain CM, Fairburn T, Stütz AM, Morrison C, Argyropoulos G. Selective tissue uptake of agouti-related protein (82–131) and its modulation by fasting.  Endocrinology. 2005;  146 5533-5539
    Suche in Google Scholar
  • 18 de Rijke CE, Hillebrand JJ, Verhagen LA, Roeling TA, Adan RA. Hypothalamic neuropeptide expression following chronic food restriction in sedentary and wheel-running rats.  J Mol Endocrinol. 2005;  35 381-390
    Suche in Google Scholar
  • 19 Levin BE, Dunn-Meynell AA. Chronic exercise lowers the defended body weight gain and adiposity in diet-induced obese rats.  Am J Physiol. 2004;  286 R771-R778
    Suche in Google Scholar
  • 20 Ghanbari-Niaki A, Abednazari H, Tayebi SM, Hossaini-Kakhak A, Kraemer RR. Treadmill training enhances rat agouti-related protein in plasma and reduces ghrelin levels in plasma and soleus muscle.  Metabolism. 2009;  58 1747-1752
    Suche in Google Scholar
  • 21 Mayer CM, Belsham DD. Insulin directly regulates NPY and AgRP gene expression via the MAPK MEK/ERK signal transduction pathway in mHypoE-46 hypothalamic neurons.  Mol Cell Endocrinol. 2009;  307 99-108
    Suche in Google Scholar
  • 22 Goforth Jr HW, Laurent D, Prusaczyk WK, Schneider KE, Petersen KF, Shulman GI. Effects of depletion exercise and light training on muscle glycogen supercompensation in men.  Am J Physiol Endocrinol Metab. 2003;  285 E1304-E1311
    Suche in Google Scholar
  • 23 Lee K, Li B, Xi X, Suh Y, Martin RJ. Role of neuronal energy status in the regulation of adenosine 5′-monophosphate-activated protein kinase, orexigenic neuropeptides expression, and feeding behavior.  Endocrinology. 2005;  146 3-10
    Suche in Google Scholar
  • 24 Chang GQ, Karatayev O, Davydova Z, Wortley K, Leibowitz SF. Glucose injection reduces neuropeptide Y and agouti-related protein expression in the arcuate nucleus: a possible physiological role in eating behavior.  Brain Res Mol Brain Res. 2005;  135 69-80
    Suche in Google Scholar
  • 25 Cheng H, Isoda F, Belsham DD, Mobbs CV. Inhibition of agouti-related peptide expression by glucose in a clonal hypothalamic neuronal cell line is mediated by glycolysis, not oxidative phosphorylation.  Endocrinology. 2008;  149 703-710
    Suche in Google Scholar
  • 26 Archer ZA, Rayner DV, Mercer JG. Hypothalamic gene expression is altered in underweight but obese juvenile male Sprague-Dawley rats fed a high-energy diet.  J Nutr.. 2004;  134 1369-1374
    Suche in Google Scholar
  • 27 McMurray RG, Bauman MJ, Harrell JS, Brown S, Bangdiwala SI. Effects of improvement in aerobic power on resting insulin and glucose concentrations in children.  Eur J Appl Physiol. 2000;  81 132-139
    Suche in Google Scholar
  • 28 Hill EE, Zack E, Battaglini C, Viru M, Viru A, Hackney AC. Exercise and circulating cortisol levels: the intensity threshold effect.  J Endocrinol Invest. 2008;  31 587-591
    Suche in Google Scholar
  • 29 Purge P, Jürimäe J, Jürimäe T. Hormonal and psychological adaptation in elite male rowers during prolonged training.  J Sports Sci. 2006;  24 1075-1082
    Suche in Google Scholar

Correspondence

Dr. R. R. Kraemer

Department of Kinesiology and

Health Studies

Southeastern Louisiana

University LW0845

Hammond

LA 70402

USA

Telefon: +1/985/549 2132

Fax: +1/985/549 5119

eMail: robert.kraemer@selu.edu

A. Ghanbari-Niaki

Exercise Biochemistry division

Faculty of Physical Education

and Sports Sciences

University of Mazandaran

Baboulsar

Mazandaran

Iran

Telefon: +911 1252 44705

Fax: +911 1253 42202

eMail: aghanbariniaki@gmail.com

eMail: ghanbara@umz.ac.ir