Effects of exercise training on hippocampus concentrations of insulin and IGF-1 in diabetic rats

The present study investigated the role of swimming training on cerebral metabolism and hippocampus concentrations of insulin and IGF‐1 in diabetic rats. Wistar rats were divided in sedentary control (SC), trained control (TC), sedentary diabetic (SD), and trained diabetic (TD). Diabetes was induced...

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Published in:Hippocampus 2009-10, Vol.19 (10), p.981-987
Main Authors: Gomes, Ricardo José, de Oliveira, Camila Aparecida Machado, Ribeiro, Carla, Mota, Clécia Soares de Alencar, Moura, Leandro Pereira, Tognoli, Lilian Mari Marcondes Cesar, Leme, José Alexandre Curiacos de Almeida, Luciano, Eliete, de Mello, Maria Alice Rostom
Format: Article
Language:English
Subjects:
Analysis of Variance
Animals
Blood Glucose
brain and exercise training
diabetes
Diabetes Mellitus, Experimental - physiopathology
Exercise Test
Glycogen - metabolism
Growth Hormone - blood
Hippocampus - physiopathology
Insulin - blood
Insulin - metabolism
Insulin-Like Growth Factor I - metabolism
insulin-like growth factor-I
Lactic Acid - blood
Liver - physiopathology
Male
Muscle, Skeletal - physiopathology
Physical Conditioning, Animal - physiology
Random Allocation
Rats
Rats, Wistar
Swimming - physiology
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Summary:The present study investigated the role of swimming training on cerebral metabolism and hippocampus concentrations of insulin and IGF‐1 in diabetic rats. Wistar rats were divided in sedentary control (SC), trained control (TC), sedentary diabetic (SD), and trained diabetic (TD). Diabetes was induced by Alloxan (35 mg kg−1 b.w.). Training program consisted in swimming 5 days/week, 1 h/day, 8 weeks, supporting a load corresponding to 90% of maximal lactate steady state (MLSS). For MLSS determination, rats were submitted to three sessions of 25‐min supporting loads of 4, 5, or 6% of body wt, with intervals of 1 week. Blood samples were collected every 5 min for lactate determination. An acute exercise test (25 min to 90% of MLSS) was done in 7th week to confirm the efficacy of training. All dependent variables were analyzed by one‐way analysis of variance (ANOVA) and a significance level of P < 0.05 was used for all comparisons. The Bonferroni test was used for post hoc comparisons. At the end of the training period, rats were sacrificed and sample blood was collected for determinations of serum glucose, insulin, GH, and IGF‐1. Samples of gastrocnemius muscle and liver were removed to evaluate glycogen content. Hippocampus was extracted to determinate glycogen, insulin, and IGF‐1 contents. Diabetes decreased serum GH, IGF‐1, and liver glycogen stores in SD. Diabetes also increased hippocampus glycogen and reduced hippocampus IGF‐1 content. Physical training recovered liver and hippocampus glycogen stores and promoted increases in serum IGF‐1 in TD group. Physical training restored hippocampus IGF‐1 content in diabetic group. It was concluded that in diabetic rats, physical training induces important metabolic and hormonal alterations that areassociated with an improvement in glucose homeostasis and with an increased activity in the systemic and hippocampus IGF‐1 peptide. © 2009 Wiley‐Liss, Inc.
ISSN:1050-9631
1098-1063
DOI:10.1002/hipo.20636