최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기생명과학회지 = Journal of life science, v.31 no.11, 2021년, pp.1037 - 1045
이은비 (경북대학교 식품공학부 식품응용공학전공) , 남주옥 (경북대학교 식품공학부 식품응용공학전공)
The prevalence of obesity is increasing worldwide, and since obesity is associated with dietary factors and sedentary lifestyles, it is a disease that is readily developing in the modern population. Because obesity is accompanied by serious complications such as diabetes and cardiovascular disease, ...
Ahmad, B., Vohra, M. S., Saleemi, M. A., Serpell, C. J., Fong, I. L. and Wong, E. H. 2021. Brown/beige adipocytes originate from distinct precursor cells and secrete various factors known as batokines. The batokines then target distant organs and tissues and perform various functions in an autocrine, paracrine, and endocrine manner Brown/Beige adipose tissues and the emerging role of their secretory factors in improving metabolic health: The batokines. Biochimie 184, 26-39.
Ahmadian, M., Suh, J. M., Hah, N., Liddle, C., Atkins, A. R., Downes, M. and Evans, R. M. 2013. PPARγ signaling and metabolism: the good, the bad and the future. Nat. Med. 19, 557-566.
Chen, L. H., Chien, Y. W., Liang, C. T., Chan, C. H., Fan, M. H. and Huang, H. Y. 2017. Green tea extract induces genes related to browning of white adipose tissue and limits weight-gain in high energy diet-fed rat. Mol. Nutr. Food Res. 61, 1347480.
Cheng, P., Zhang, F. and Yu, L. 2016. Physiological and pharmacological roles of FGF21 in cardiovascular diseases. J. Diabetes Res. 2016, 1540267.
Choi, E. W. and Lee, M. 2020. Fas mutation reduces obesity by increasing IL-4 and IL-10 expression and promoting white adipose tissue browning. Sci. Rep. 10, 1-14.
Chou, Y. C., Ho, C. T. and Pan, M. H. 2018. Immature Citrus reticulata extract promotes browning of beige adipocytes in high-fat diet-induced C57BL/6 mice. J. Agric. Food Chem. 66, 9697-9703.
Connolly, H. M., Crary, J. L., McGoon, M. D., Hensrud, D. D., Edwards, B. S., Edwards, W. D. and Schaff, H. V. 1997. Valvular heart disease associated with fenfluramine-phentermine. N. Engl. J. Med. 337, 581-588.
Douglas, A., Douglas, J., Robertson, C. and Munro, J. 1983. Plasma phentermine levels, weight loss and side-effects. Int. J. Obes. 7, 591-595.
Ferrer Lorente, R., Cabot, C., Fernandez Lopez, J. A. and Alemany, M. 2005. Combined effects of oleoyl-estrone and a β3-adrenergic agonist (CL316, 243) on lipid stores of diet-induced overweight male Wistar rats. Life Sci. 77, 2051-2058.
Forbes Hernandez, T. Y., et al. 2020. Strawberry (Fragaria×ananassa cv. Romina) methanolic extract promotes browning in 3T3-L1 cells. Food Funct. 11, 297-304.
Funch, D., Gydesen, H., Tornoe, K., Major Pedersen, A. and Chan, K. 2014. A prospective, claims-based assessment of the risk of pancreatitis and pancreatic cancer with liraglutide compared to other antidiabetic drugs. Diabetes Obes. Metab. 16, 273-275.
Gallo, M. 2013. Thyroid safety in patients treated with liraglutide. J. Endocrinol. Invest. 36, 140-145.
Goldgof, M., Xiao, C., Chanturiya, T., Jou, W., Gavrilova, O. and Reitman, M. L. 2014. The chemical uncoupler 2, 4-dinitrophenol (DNP) protects against diet-induced obesity and improves energy homeostasis in mice at thermoneutrality. J. Biol. Chem. 289, 19341-19350.
Govoni, S. and Pascale, A. 2011. NGF and heart: Is there a role in heart disease? Pharmacol. Res. 63, 266-277.
Haslam, D. 2016. Weight management in obesity-past and present. Int. J. Clin. Pract. 70, 206-217.
Jeon, S. M. 2016. Regulation and function of AMPK in physiology and diseases. Exp. Mol. Med. 48, e245-e245.
Jeremic, N., Chaturvedi, P. and Tyagi, S. C. 2017. Browning of white fat: novel insight into factors, mechanisms, and therapeutics. J. Cell. Physiol. 232, 61-68.
Jin, H., Lee, K., Chei, S., Oh, H. J., Lee, K. P. and Lee, B. Y. 2020. Ecklonia stolonifera extract suppresses lipid accumulation by promoting lipolysis and adipose browning in high-fat diet-induced obese male mice. Cells 9, 871.
Joshi, T., Singh, A. K. and Haratipour, P. 2019. Targeting AMPK signaling pathway by natural products for treatment of diabetes mellitus and its complications. J. Cell. Physiol. 234, 17212-17231.
Kopelman, P. G. 2000. Obesity as a medical problem. Nature 404, 635-643.
Kurylowicz, A. and Puzianowska Kuznicka, M. 2020. Induction of adipose tissue browning as a strategy to combat obesity. Int. J. Cell Sci. Mol. Biol. 21, 6241.
Lanzi, C. R., Perdicaro, D. J., Tudela, J. G., Muscia, V., Fontana, A. R., Oteiza, P. I. and Prieto, M. A. V. 2020. Grape pomace extract supplementation activates FNDC5/irisin in muscle and promotes white adipose browning in rats fed a high-fat diet. Food Funct. 11, 1537-1546.
Lee, S. G., Chae, J. and Kim, D. S. 2021. Enhancement of the Antiobesity and antioxidant effect of purple sweet potato extracts and enhancement of the effects by fermentation. Antioxidants 10, 888.
Li, X., Lu, H. Y. and Jiang, X. W. 2021. Cinnamomum cassia extract promotes thermogenesis during exposure to cold via activation of brown adipose tissue. J. Ethnopharmacol. 266, 113413.
Nagase, I., Yoshida, T. and Kumamoto, K. 1996. Expression of uncoupling protein in skeletal muscle and white fat of obese mice treated with thermogenic beta 3-adrenergic agonist. J. Clin. Investig. 97, 2898-2904.
Nemoto, S., Fergusson, M. M. and Finkel, T. 2005. SIRT1 functionally interacts with the metabolic regulator and transcriptional coactivator PGC-1α. J. Biol. Chem. 280, 16456-16460.
Park, J. Y. and Kim, J. B. 2002. Molecular insights into fat cell differentiation and functional roles of adipocytokines. Endocrinol. Metab. 17, 1-9.
Park, K. S. 2005. Relation between adiponectin and metabolic risk factors. Endocrinol. Metab. 20, 441-443.
Park, W. Y., Choe, S. K., Park, J. and Um, J. Y. 2019. Black Raspberry (Rubus coreanus miquel) Promotes browning of preadipocytes and inguinal white adipose tissue in cold-induced mice. Nutrients 11, 2164.
Peng, Ma., Ping, He., Chun-Yang, Xu., Bi-Yu, Hou., Gui-Fen, Qiang. and Guan-Hua, D. U. 2020. Recent developments in natural products for white adipose tissue browning. Chin. J. Nat. Med. 18, 803-817.
Picard, F., et al. 2004. Sirt1 promotes fat mobilization in white adipocytes by repressing PPAR-γ. Nature 429, 771-776.
Rothman, R. B., Baumann, M. H., Dersch, C. M., Romero, D. V., Rice, K. C., Carroll, F. I. and Partilla, J. S. 2001. Amphetamine-type central nervous system stimulants release norepinephrine more potently than they release dopamine and serotonin. Synapse 39, 32-41.
Seo, Y. J., Kim, K. J., Choi, J., Koh, E. J. and Lee, B. Y. 2018. Spirulina maxima extract reduces obesity through suppression of adipogenesis and activation of browning in 3T3-L1 cells and high-fat diet-induced obese mice. Nutrients 10, 712.
Sun, Y. S. and Qu, W. 2019. Dietary Apigenin promotes lipid catabolism, thermogenesis, and browning in adipose tissues of HFD-Fed mice. Food Chem. Toxicol. 133, 110780.
Tseng, H. H. and Yeh, W. C. 2018. Proteomic profiling of Ganoderma tsugae ethanol extract-induced adipogenesis displaying browning features. FEBS. Lett. 592, 1643-1666.
Vargas Castillo, A., Fuentes Romero, R., Rodriguez Lopez, L. A., Torres, N. and Tovar, A. R. 2017. Understanding the biology of thermogenic fat: is browning a new approach to the treatment of obesity? Arch. Med. Res. 48, 401-413.
Villarroya, F. 2012. Irisin, turning up the heat. Cell Metab. 15, 277-278.
Villarroya, J., Cereijo, R., Gavalda Navarro, A., Peyrou, M., Giralt, M. and Villarroya, F. 2019. New insights into the secretory functions of brown adipose tissue. J. Endocrinol. 243, R19-R27.
Watanabe, M., Maemura, K., Kanbara, K., Tamayama, T. and Hayasaki, H. 2002. GABA and GABA receptors in the central nervous system and other organs. Int. Rev. Cyt. 213, 1-47.
Whitten, J. S. 2015. Liraglutide (Saxenda) for weight loss. Am. Fam. Physician. 94, 161-166.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.