| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Huang-Ming Cao, Xiao-Ping Ye, Jun-Hua Ma, He Jiang, Sheng-Xian Li, Rong-Ying Li, Xue-Song Li, Cui-Cui Guo, Zhi-Quan Wang, Ming Zhan, Chun-Lin Zuo, Chun-Ming Pan, Shuang-Xia Zhao, Cui-Xia Zheng, Huai-Dong Son. Mimecan, a Hormone Abundantly Expressed in Adipose Tissue, Reduced Food Intake Independently of Leptin Signaling. EBioMedicine. vol 2. issue 11. 2016-11-04. PMID:26870797. |
taken together, the results suggest that mimecan is a satiety hormone in adipose tissue, and that mimecan inhibits food intake independently of leptin signaling by inducing il-1β and il-6 expression in the hypothalamus. |
2016-11-04 |
2023-08-13 |
mouse |
| Michael J Waterson, Tamas L Horvat. Neuronal Regulation of Energy Homeostasis: Beyond the Hypothalamus and Feeding. Cell metabolism. vol 22. issue 6. 2016-10-19. PMID:26603190. |
neuronal regulation of energy homeostasis: beyond the hypothalamus and feeding. |
2016-10-19 |
2023-08-13 |
Not clear |
| Michael J Waterson, Tamas L Horvat. Neuronal Regulation of Energy Homeostasis: Beyond the Hypothalamus and Feeding. Cell metabolism. vol 22. issue 6. 2016-10-19. PMID:26603190. |
the hypothalamus has received significant attention in this regard given its ability to influence feeding behavior, yet organisms rely on a much broader diversity and distribution of neuronal networks to regulate both energy intake and expenditure. |
2016-10-19 |
2023-08-13 |
Not clear |
| Matija Sestan-Pesa, Tamas L Horvat. Metabolism and Mental Illness. Trends in molecular medicine. vol 22. issue 2. 2016-10-17. PMID:26776095. |
over the past century, overwhelming evidence has emerged pointing to the hypothalamus of the central nervous system (cns) as a crucial regulator of systemic control of metabolism, including appetite and feeding behavior. |
2016-10-17 |
2023-08-13 |
Not clear |
| Kakuyou Ogawa, Michiho It. Appetite-enhancing Effects of trans-Cinnamaldehyde, Benzylacetone and 1-Phenyl-2-butanone by Inhalation. Planta medica. vol 82. issue 1-2. 2016-09-26. PMID:26756819. |
in this study, food intake and the expression of neuropeptide y and proopiomelanocortin in the hypothalamus after inhalation of fragrant compounds or essential oils were investigated in mice. |
2016-09-26 |
2023-08-13 |
mouse |
| Kakuyou Ogawa, Michiho It. Appetite-enhancing Effects of trans-Cinnamaldehyde, Benzylacetone and 1-Phenyl-2-butanone by Inhalation. Planta medica. vol 82. issue 1-2. 2016-09-26. PMID:26756819. |
food intake was increased 1.2-fold and the neuropeptide y mrna expression in the hypothalamus was increased significantly in mice that inhaled trans-cinnamaldehyde, benzylacetone or 1-phenyl-2-butanone, compared with the control group. |
2016-09-26 |
2023-08-13 |
mouse |
| Eliza L Sutto. Profile of suvorexant in the management of insomnia. Drug design, development and therapy. vol 9. 2016-09-20. PMID:26648692. |
its development followed from the 1998 discovery of orexins (also called hypocretins), excitatory neuropeptides originating from neurons in the hypothalamus involved in regulation of sleep and wake, feeding behavior and energy regulation, motor activity, and reward-seeking behavior. |
2016-09-20 |
2023-08-13 |
Not clear |
| Patricia Seoane-Collazo, Johan Fernø, Francisco Gonzalez, Carlos Diéguez, Rosaura Leis, Rubén Nogueiras, Miguel Lópe. Hypothalamic-autonomic control of energy homeostasis. Endocrine. vol 50. issue 2. 2016-09-16. PMID:26089260. |
several key areas such as the hypothalamus and brainstem receive and integrate signals conveying energy status from the periphery, such as leptin, thyroid hormones, and insulin, ultimately leading to modulation of food intake, energy expenditure (ee), and peripheral metabolism. |
2016-09-16 |
2023-08-13 |
Not clear |
| Jessica R Barson, Sarah F Leibowit. Hypothalamic neuropeptide signaling in alcohol addiction. Progress in neuro-psychopharmacology & biological psychiatry. vol 65. 2016-09-14. PMID:25689818. |
the hypothalamus is now known to regulate alcohol intake in addition to its established role in food intake, in part through neuromodulatory neurochemicals termed neuropeptides. |
2016-09-14 |
2023-08-13 |
Not clear |
| H Ikeda, C Ardianto, N Yonemochi, L Yang, T Ohashi, M Ikegami, H Nagase, J Kame. Inhibition of opioid systems in the hypothalamus as well as the mesolimbic area suppresses feeding behavior of mice. Neuroscience. vol 311. 2016-09-13. PMID:26454026. |
inhibition of opioid systems in the hypothalamus as well as the mesolimbic area suppresses feeding behavior of mice. |
2016-09-13 |
2023-08-13 |
mouse |
| H Ikeda, C Ardianto, N Yonemochi, L Yang, T Ohashi, M Ikegami, H Nagase, J Kame. Inhibition of opioid systems in the hypothalamus as well as the mesolimbic area suppresses feeding behavior of mice. Neuroscience. vol 311. 2016-09-13. PMID:26454026. |
moreover, since μ-, δ- and κ-opioid receptors are reported to distribute in the hypothalamus, these receptors in the hypothalamus might regulate feeding behavior. |
2016-09-13 |
2023-08-13 |
mouse |
| H Ikeda, C Ardianto, N Yonemochi, L Yang, T Ohashi, M Ikegami, H Nagase, J Kame. Inhibition of opioid systems in the hypothalamus as well as the mesolimbic area suppresses feeding behavior of mice. Neuroscience. vol 311. 2016-09-13. PMID:26454026. |
thus, the present study investigated the role of μ-, δ- and κ-opioid receptors in the vta, the nacc and the hypothalamus in the regulation of feeding behavior. |
2016-09-13 |
2023-08-13 |
mouse |
| H Ikeda, C Ardianto, N Yonemochi, L Yang, T Ohashi, M Ikegami, H Nagase, J Kame. Inhibition of opioid systems in the hypothalamus as well as the mesolimbic area suppresses feeding behavior of mice. Neuroscience. vol 311. 2016-09-13. PMID:26454026. |
the injection of naloxone into the nacc, vta and lateral hypothalamus (lh), but not the ventromedial nucleus of the hypothalamus, significantly decreased food intake. |
2016-09-13 |
2023-08-13 |
mouse |
| Christophe Magnan, Barry E Levin, Serge Luque. Brain lipid sensing and the neural control of energy balance. Molecular and cellular endocrinology. vol 418 Pt 1. 2016-09-09. PMID:26415589. |
fatty acid (fa) -sensitive neurons are present in the brain, especially the hypothalamus, and play a key role in the neural control of energy and glucose homeostasis including feeding behavior, secretion insulin and action. |
2016-09-09 |
2023-08-13 |
Not clear |
| A P S Dornellas, R L H Watanabe, G D Pimentel, V T Boldarine, C M O Nascimento, L M Oyama, K Ghebremeskel, Y Wang, A A Bueno, E B Ribeir. Deleterious effects of lard-enriched diet on tissues fatty acids composition and hypothalamic insulin actions. Prostaglandins, leukotrienes, and essential fatty acids. vol 102-103. 2016-08-30. PMID:26525379. |
the results showed that, upon hs-lp feeding, peripheral tissues underwent potentially deleterious alterations in their fa composition, whist the hypothalamus was relatively preserved. |
2016-08-30 |
2023-08-13 |
rat |
| Maitrayee Sahu, Abhiram Sah. Leptin receptor expressing neurons express phosphodiesterase-3B (PDE3B) and leptin induces STAT3 activation in PDE3B neurons in the mouse hypothalamus. Peptides. vol 73. 2016-08-29. PMID:26297880. |
leptin signaling in the hypothalamus is critical for normal food intake and body weight regulation. |
2016-08-29 |
2023-08-13 |
mouse |
| Sarah H Lockie, Tara Dinan, Andrew J Lawrence, Sarah J Spencer, Zane B Andrew. Diet-induced obesity causes ghrelin resistance in reward processing tasks. Psychoneuroendocrinology. vol 62. 2016-08-24. PMID:26292268. |
however, ghrelin promotes feeding through actions at both the hypothalamus and mesolimbic dopamine reward pathways. |
2016-08-24 |
2023-08-13 |
mouse |
| Olga Zagorácz, Anita Kovács, Kristóf László, Tamás Ollmann, László Péczely, László Lénár. Effects of direct QRFP-26 administration into the medial hypothalamic area on food intake in rats. Brain research bulletin. vol 118. 2016-08-22. PMID:26385088. |
qrfp-26 expressing neurons and binding sites are densely present in the rat medial hypothalamus (mha), an area directly responsible for the regulation of feeding. |
2016-08-22 |
2023-08-13 |
rat |
| Marta Librán-Pérez, Inge Geurden, Karine Dias, Genevieve Corraze, Stephane Panserat, José L Soenga. Feeding rainbow trout with a lipid-enriched diet: effects on fatty acid sensing, regulation of food intake and cellular signaling pathways. The Journal of experimental biology. vol 218. issue Pt 16. 2016-08-15. PMID:26089527. |
using rainbow trout fed with low-fat or high-fat diets, we aimed to determine whether the response of food intake, mrna abundance of hypothalamic neuropeptides involved in the metabolic regulation of food intake and fatty acid sensing systems in the hypothalamus and liver are similar to results previously observed when levels of specific fatty acids were raised by injection. |
2016-08-15 |
2023-08-13 |
Not clear |
| Marta Librán-Pérez, Inge Geurden, Karine Dias, Genevieve Corraze, Stephane Panserat, José L Soenga. Feeding rainbow trout with a lipid-enriched diet: effects on fatty acid sensing, regulation of food intake and cellular signaling pathways. The Journal of experimental biology. vol 218. issue Pt 16. 2016-08-15. PMID:26089527. |
the increased levels of fatty acids in the hypothalamus and liver of rainbow trout fed with a high-fat diet only partially activated fatty acid sensing systems and did not elicit changes in food intake, suggesting that the fatty acid sensing response in fish is more dependent on the presence of specific fatty acids, such as oleate or octanoate, rather than to the global increase in fatty acids. |
2016-08-15 |
2023-08-13 |
Not clear |