Repletion of TNFα or leptin in calorically restricted mice suppresses post-restriction hyperphagia
SUMMARY The causes of post-restriction hyperphagia (PRH) represent a target for drug-based therapies to prevent obesity. However, the factors causing PRH are poorly understood. We show that, in mice, the extent of PRH was independent of the time under restriction, but depended on its severity, sugge...
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The Company of Biologists
2012-01-01
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| Series: | Disease Models & Mechanisms |
| Online Access: | http://dmm.biologists.org/content/5/1/83 |
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doaj-bc41f51406c34cba94888b43d44c2af92020-11-25T02:00:14ZengThe Company of BiologistsDisease Models & Mechanisms1754-84031754-84112012-01-0151839410.1242/dmm.007781007781Repletion of TNFα or leptin in calorically restricted mice suppresses post-restriction hyperphagiaCatherine HamblyJacqueline S. DuncanZoë A. ArcherKim M. MoarJulian G. MercerJohn R. SpeakmanSUMMARY The causes of post-restriction hyperphagia (PRH) represent a target for drug-based therapies to prevent obesity. However, the factors causing PRH are poorly understood. We show that, in mice, the extent of PRH was independent of the time under restriction, but depended on its severity, suggesting that PRH was driven by signals from altered body composition. Signals related to fat mass were important drivers. Circulating levels of leptin and TNFα were significantly depleted following caloric restriction (CR). We experimentally repleted their levels to match those of controls, and found that in both treatment groups the level of PRH was significantly blunted. These data establish a role for TNFα and leptin in the non-pathological regulation of energy homeostasis. Signals from adipose tissue, including but not limited to leptin and TNFα, regulate PRH and might be targets for therapies that support people engaged in CR to reduce obesity.http://dmm.biologists.org/content/5/1/83 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Catherine Hambly Jacqueline S. Duncan Zoë A. Archer Kim M. Moar Julian G. Mercer John R. Speakman |
| spellingShingle |
Catherine Hambly Jacqueline S. Duncan Zoë A. Archer Kim M. Moar Julian G. Mercer John R. Speakman Repletion of TNFα or leptin in calorically restricted mice suppresses post-restriction hyperphagia Disease Models & Mechanisms |
| author_facet |
Catherine Hambly Jacqueline S. Duncan Zoë A. Archer Kim M. Moar Julian G. Mercer John R. Speakman |
| author_sort |
Catherine Hambly |
| title |
Repletion of TNFα or leptin in calorically restricted mice suppresses post-restriction hyperphagia |
| title_short |
Repletion of TNFα or leptin in calorically restricted mice suppresses post-restriction hyperphagia |
| title_full |
Repletion of TNFα or leptin in calorically restricted mice suppresses post-restriction hyperphagia |
| title_fullStr |
Repletion of TNFα or leptin in calorically restricted mice suppresses post-restriction hyperphagia |
| title_full_unstemmed |
Repletion of TNFα or leptin in calorically restricted mice suppresses post-restriction hyperphagia |
| title_sort |
repletion of tnfα or leptin in calorically restricted mice suppresses post-restriction hyperphagia |
| publisher |
The Company of Biologists |
| series |
Disease Models & Mechanisms |
| issn |
1754-8403 1754-8411 |
| publishDate |
2012-01-01 |
| description |
SUMMARY
The causes of post-restriction hyperphagia (PRH) represent a target for drug-based therapies to prevent obesity. However, the factors causing PRH are poorly understood. We show that, in mice, the extent of PRH was independent of the time under restriction, but depended on its severity, suggesting that PRH was driven by signals from altered body composition. Signals related to fat mass were important drivers. Circulating levels of leptin and TNFα were significantly depleted following caloric restriction (CR). We experimentally repleted their levels to match those of controls, and found that in both treatment groups the level of PRH was significantly blunted. These data establish a role for TNFα and leptin in the non-pathological regulation of energy homeostasis. Signals from adipose tissue, including but not limited to leptin and TNFα, regulate PRH and might be targets for therapies that support people engaged in CR to reduce obesity. |
| url |
http://dmm.biologists.org/content/5/1/83 |
| work_keys_str_mv |
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