http://orcid.org/0000-0002-4870-0837
References
- Acosta-Rodriguez VA, De Groot MHM, Rijo-Ferreira F, Green CB, Takahashi JS. 2017. Mice under caloric restriction self-impose a temporal restriction of food intake as revealed by an automated feeder system. Cell Metab. 26:267–277.e2.
- Alexander KE, Ventura EE, Spruijt-Metz D, Weigensberg MJ, Goran MI, Davis JN. 2009. Association of breakfast skipping with visceral fat and insulin indices in overweight Latino youth. Obesity (Silver Spring). 17:1528–33.
- Arble DM, Bass J, Laposky AD, Vitaterna MH, Turek FW. 2009. Circadian timing of food intake contributes to weight gain. Obesity (Silver Spring). 17:2100–02.
- Badman MK, Pissios P, Kennedy AR, Koukos G, Flier JS, Maratos-Flier E. 2007. Hepatic fibroblast growth factor 21 is regulated by PPARalpha and is a key mediator of hepatic lipid metabolism in ketotic states. Cell Metab. 5:426–37.
- Bjursell M, Gerdin AK, Lelliott CJ, Egecioglu E, Elmgren A, Tornell J, Oscarsson J, Bohlooly YM. 2008. Acutely reduced locomotor activity is a major contributor to Western diet-induced obesity in mice. Am J Physiol Endocrinol Metab. 294:E251–260.
- Bray MS, Ratcliffe WF, Grenett MH, Brewer RA, Gamble KL, Young ME. 2013. Quantitative analysis of light-phase restricted feeding reveals metabolic dyssynchrony in mice. Int J Obes (Lond). 37:843–52.
- Bray MS, Tsai JY, Villegas-Montoya C, Boland BB, Blasier Z, Egbejimi O, Kueht M, Young ME. 2010. Time-of-day-dependent dietary fat consumption influences multiple cardiometabolic syndrome parameters in mice. Int J Obes (Lond). 34:1589–98.
- Buhr ED, Takahashi JS. 2013. Molecular components of the mammalian circadian clock. Handb Exp Pharmacol. 217:3–27.
- Chaix A, Zarrinpar A, Miu P, Panda S. 2014. Time-restricted feeding is a preventative and therapeutic intervention against diverse nutritional challenges. Cell Metab. 20:991–1005.
- Chung H, Chou W, Sears DD, Patterson RE, Webster NJ, Ellies LG. 2016. Time-restricted feeding improves insulin resistance and hepatic steatosis in a mouse model of postmenopausal obesity. Metabolism. 65:1743–54.
- Colles SL, Dixon JB, O’Brien PE. 2007. Night eating syndrome and nocturnal snacking: Association with obesity, binge eating and psychological distress. Int J Obes (Lond). 31:1722–30.
- Di Lorenzo L, De Pergola G, Zocchetti C, L’Abbate N, Basso A, Pannacciulli N, Cignarelli M, Giorgino R, Soleo L. 2003. Effect of shift work on body mass index: Results of a study performed in 319 glucose-tolerant men working in a Southern Italian industry. Int J Obes Relat Metab Disord. 27:1353–58.
- Dibner C, Schibler U, Albrecht U. 2010. The mammalian circadian timing system: Organization and coordination of central and peripheral clocks. Annu Rev Physiol. 72:517–49.
- Duncan MJ, Smith JT, Narbaiza J, Mueez F, Bustle LB, Qureshi S, Fieseler C, Legan SJ. 2016. Restricting feeding to the active phase in middle-aged mice attenuates adverse metabolic effects of a high-fat diet. Physiol Behav. 167:1–9.
- Foretz M, Guichard C, Ferre P, Foufelle F. 1999. Sterol regulatory element binding protein-1c is a major mediator of insulin action on the hepatic expression of glucokinase and lipogenesis-related genes. Proc Natl Acad Sci U S A. 96:12737–42.
- Gallant AR, Lundgren J, Drapeau V. 2012. The night-eating syndrome and obesity. Obes Rev. 13:528–36.
- Garaulet M, Gomez-Abellan P. 2014. Timing of food intake and obesity: A novel association. Physiol Behav. 134:44–50.
- Garland T Jr., Schutz H, Chappell MA, Keeney BK, Meek TH, Copes LE, Acosta W, Drenowatz C, Maciel RC, Van Dijk G, et al. 2011. The biological control of voluntary exercise, spontaneous physical activity and daily energy expenditure in relation to obesity: Human and rodent perspectives. J Exp Biol. 214:206–29.
- Gil-Lozano M, Mingomataj EL, Wu WK, Ridout SA, Brubaker PL. 2014. Circadian secretion of the intestinal hormone GLP-1 by the rodent L cell. Diabetes. 63:3674–85.
- Haraguchi A, Aoki N, Ohtsu T, Ikeda Y, Tahara Y, Shibata S. 2014. Controlling access time to a high-fat diet during the inactive period protects against obesity in mice. Chronobiol Int. 31:935–44.
- Hatori M, Vollmers C, Zarrinpar A, Ditacchio L, Bushong EA, Gill S, Leblanc M, Chaix A, Joens M, Fitzpatrick JA, et al. 2012. Time-restricted feeding without reducing caloric intake prevents metabolic diseases in mice fed a high-fat diet. Cell Metab. 15:848–60.
- Krawczewski Carhuatanta KA, Demuro G, Tschop MH, Pfluger PT, Benoit SC, Obici S. 2011. Voluntary exercise improves high-fat diet-induced leptin resistance independent of adiposity. Endocrinology. 152:2655–64.
- Laing BT, Do K, Matsubara T, Wert DW, Avery MJ, Langdon EM, Zheng D, Huang H. 2016. Voluntary exercise improves hypothalamic and metabolic function in obese mice. J Endocrinol. 229:109–22.
- Ma Y, Bertone ER, Stanek EJ 3rd, Reed GW, Hebert JR, Cohen NL, Merriam PA, Ockene IS. 2003. Association between eating patterns and obesity in a free-living US adult population. Am J Epidemiol. 158:85–92.
- Maury E, Ramsey KM, Bass J. 2010. Circadian rhythms and metabolic syndrome: from experimental genetics to human disease. Circ Res. 106:447–62.
- Moran-Ramos S, Baez-Ruiz A, Buijs RM, Escobar C. 2016. When to eat? The influence of circadian rhythms on metabolic health: are animal studies providing the evidence? Nutr Res Rev. 29:180–93.
- Niswender KD, Shiota M, Postic C, Cherrington AD, Magnuson MA. 1997. Effects of increased glucokinase gene copy number on glucose homeostasis and hepatic glucose metabolism. J Biol Chem. 272:22570–75.
- Novak CM, Burghardt PR, Levine JA. 2012. The use of a running wheel to measure activity in rodents: Relationship to energy balance, general activity, and reward. Neurosci Biobehav Rev. 36:1001–14.
- Oishi K, Hashimoto C. 2018. Short-term time-restricted feeding during the resting phase is sufficient to induce leptin resistance that contributes to development of obesity and metabolic disorders in mice. Chronobiol Int.
- Oishi K, Ohkura N, Yasumoto Y, Yamamoto S. 2017a. Circadian fluctuations in circulating plasminogen activator inhibitor-1 are independent of feeding cycles in mice. Chronobiol Int. 34:254–59.
- Oishi K, Yamamoto S, Itoh N, Nakao R, Yasumoto Y, Tanaka K, Kikuchi Y, Fukudome S, Okita K, Takano-Ishikawa Y. 2015. Wheat alkylresorcinols suppress high-fat, high-sucrose diet-induced obesity and glucose intolerance by increasing insulin sensitivity and cholesterol excretion in male mice. J Nutr. 145:199–206.
- Oishi K, Yasumoto Y, Higo-Yamamoto S, Yamamoto S, Ohkura N. 2017b. Feeding cycle-dependent circulating insulin fluctuation is not a dominant Zeitgeber for mouse peripheral clocks except in the liver: Differences between endogenous and exogenous insulin effects. Biochem Biophys Res Commun. 483:165–70.
- Parsons MJ, Moffitt TE, Gregory AM, Goldman-Mellor S, Nolan PM, Poulton R, Caspi A. 2015. Social jetlag, obesity and metabolic disorder: investigation in a cohort study. Int J Obes (Lond). 39:842–48.
- Reznick J, Preston E, Wilks DL, Beale SM, Turner N, Cooney GJ. 2013. Altered feeding differentially regulates circadian rhythms and energy metabolism in liver and muscle of rats. Biochim Biophys Acta. 1832:228–38.
- Roenneberg T, Allebrandt KV, Merrow M, Vetter C. 2012. Social jetlag and obesity. Curr Biol. 22:939–43.
- Schibler U, Ripperger J, Brown SA. 2003. Peripheral circadian oscillators in mammals: Time and food. J Biol Rhythms. 18:250–60.
- Selman C, McLaren JS, Collins AR, Speakman JR. 2002. Voluntary exercise has only limited effects on activity of antioxidant enzymes and does not cause oxidative damage in a small mammal. J Nutr. 132:1784S–1786S.
- Sherman H, Frumin I, Gutman R, Chapnik N, Lorentz A, Meylan J, Le Coutre J, Froy O. 2011. Long-term restricted feeding alters circadian expression and reduces the level of inflammatory and disease markers. J Cell Mol Med. 15:2745–59.
- Sherman H, Genzer Y, Cohen R, Chapnik N, Madar Z, Froy O. 2012. Timed high-fat diet resets circadian metabolism and prevents obesity. FASEB J. 26:3493–502.
- Shibata S, Tahara Y, Hirao A. 2010. The adjustment and manipulation of biological rhythms by light, nutrition, and abused drugs. Adv Drug Deliv Rev. 62:918–27.
- Stamatikos AD, Paton CM. 2013. Role of stearoyl-CoA desaturase-1 in skeletal muscle function and metabolism. Am J Physiol Endocrinol Metab. 305:E767–775.
- Stunkard AJ, Grace WJ, Wolff HG. 1955. The night-eating syndrome: A pattern of food intake among certain obese patients. Am J Med. 19:78–86.
- Tsai JY, Villegas-Montoya C, Boland BB, Blasier Z, Egbejimi O, Gonzalez R, Kueht M, McElfresh TA, Brewer RA, Chandler MP, et al. 2013. Influence of dark phase restricted high fat feeding on myocardial adaptation in mice. J Mol Cell Cardiol. 55:147–55.
- Ulhôa MA, Marqueze EC, Burgos LGA, Moreno CRC. 2015. Shift work and endocrine disorders. Int J Endocrinol. 2015:826249.
- Warburton DE, Nicol CW, Bredin SS. 2006. Health benefits of physical activity: The evidence. CMAJ. 174:801–09.
- Wong RH, Sul HS. 2010. Insulin signaling in fatty acid and fat synthesis: A transcriptional perspective. Curr Opin Pharmacol. 10:684–91.
- Woodie LN, Luo Y, Wayne MJ, Graff EC, Ahmed B, O’Neill AM, Greene MW. 2018. Restricted feeding for 9h in the active period partially abrogates the detrimental metabolic effects of a Western diet with liquid sugar consumption in mice. Metabolism. 82:1–13.
- Yasumoto Y, Hashimoto C, Nakao R, Yamazaki H, Hiroyama H, Nemoto T, Yamamoto S, Sakurai M, Oike H, Wada N, et al. 2016. Short-term feeding at the wrong time is sufficient to desynchronize peripheral clocks and induce obesity with hyperphagia, physical inactivity and metabolic disorders in mice. Metabolism. 65:714–27.
- Yasumoto Y, Nakao R, Oishi K. 2015. Free access to a running-wheel advances the phase of behavioral and physiological circadian rhythms and peripheral molecular clocks in mice. PLoS One. 10:e0116476.
- Zarrinpar A, Chaix A, Yooseph S, Panda S. 2014. Diet and feeding pattern affect the diurnal dynamics of the gut microbiome. Cell Metab. 20:1006–17.