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  • Alvarez-Buylla A, García-Verdugo JM & Tramontin AD (2001). A unified hypothesis on the lineage of neural stem cells. Nat Rev Neurosci 2, 287293.
  • Antin J, Gibbs J, Holt J, Young RC & Smith GP (1975). Cholecystokinin elicits the complete behavioral sequence of satiety in rats. J Comp Physiol Psychol 89, 784790.
  • Bi S, Scott KA, Kopin AS & Moran TH (2004). Differential roles for cholecystokinin A receptors in energy balance in rats and mice. Endocrinology 145, 38733880.
  • Bi S, Chen J, Behles RR, Hyun J, Kopin AS & Moran TH (2007). Differential body weight and feeding responses to high-fat diets in rats and mice lacking cholecystokinin 1 receptors. Am J Physiol Regul Integr Comp Physiol 293, R55R63.
  • Blass EM & Teicher MH (1980). Suckling. Science 210, 1522.
  • Blevins JE, Overduin J, Fuller JM, Cummings DE, Matsumoto K & Moralejo DH (2009). Normal feeding and body weight in Fischer 344 rats lacking the cholecystokinin-1 receptor gene. Brain Res 1255, 98112.
  • Blumberg S, Haba D, Schroeder M, Smith GP & Weller A (2006). Independent ingestion and microstructure of feeding patterns in infant rats lacking CCK-1 receptors. Am J Physiol Regul Integr Comp Physiol 290, R208R218.
  • Bouret SG & Simerly RB (2004). Leptin and development of hypothalamic feeding circuits. Endocrinology 145, 26212626.
  • Bouret SG & Simerly RB (2007). Development of leptin-sensitive circuits. J Neuroendocrinol 19, 575582.
  • Cho HJ, Shiotani Y, Shiosaka S, Inagaki S, Kubota Y, Kiyama H, Umegaki K, Tateishi K, Hashimura E, Hamaoka T & Tohyama M (1983). Ontogeny of cholecystokinin-8-containing neuron system of the rat: an immunohistochemical analysis. I. Forebrain and upper brainstem. J Comp Neurol 218, 2541.
  • Frayling C, Britton R & Dale N (2011). ATP-mediated glucosensing by hypothalamic tanycytes. J Physiol 589, 22752286.
  • Giacobini P & Wray S (2008). Prenatal expression of cholecystokinin (CCK) in the central nervous system (CNS) of mouse. Neurosci Lett 438, 96101.
  • Gibbs J, Young RC & Smith GP (1973). Cholecystokinin decreases food intake in rats. J Comp Physiol Psychol 84, 488495.
  • Hall WG (1979). Feeding and behavioral activation in infant rats. Science 205, 206209.
  • Hassink SG, de Lancey E, Sheslow DV, Smith-Kirwin SM, O’Connor DM, Considine RV, Opentanoval I, Dostal K, Spear ML, Leef K, Ash M, Spitzer AR & Funanage VL (1997). Placental leptin: an important new growth factor in intrauterine and neonatal development Pediatrics 100, E1.
  • Hays SE, Houston SH, Beinfeld MC & Paul SM (1981). Postnatal ontogeny of cholecystokinin receptors in rat brain. Brain Res 213, 237241.
  • Hirosue Y, Inui A, Teranishi A, Miura M, Nakajima M, Okita M, Nakajima Y, Himori N, Baba S & Kasuga M (1993). Cholecystokinin octapeptide analogues suppress food intake via central CCK-A receptors in mice. Am J Physiol Regul Integr Comp Physiol 265, R481R486.
  • Honda T, Wada E, Battey JF & Wank SA (1993). Differential gene expression of CCKA and CCKB receptors in the rat brain. Mol Cell Neurosci 4, 143154.
  • Houpt KA & Epstein AN (1973). Ontogeny of controls of food intake in the rat: GI fill and glucoprivation. Am J Physiol 225, 5866.
  • Ikeda M, Yoshioka T & Allen CN (2003). Developmental and circadian changes in Ca2+ mobilization mediated by GABAA and NMDA receptors in the suprachiasmatic nucleus. Eur J Neurosci 17, 5870.
  • Ivy AC & Oldberg E (1928). A hormone mechanism for gallbladder contraction and evacuation. Am J Physiol 86, 599613.
  • Kiyama H, Shiosaka S, Kubota Y, Cho HJ, Takagi H, Tateishi K, Hashimura E, Hamaoka T & Tohyama M (1983). Ontogeny of cholecystokinin-8 containing neuron system of the rat: an immunohistochemical analysis. II. Lower brain stem. Neuroscience 10, 13411359.
  • Kopin AS, Mathes WF, McBride EW, Nguyen M, Al-Haider W, Schmitz F, Bonner-Weir S, Kanarek R & Beinborn M (1999). The cholecystokinin-A receptor mediates inhibition of food intake yet is not essential for the maintenance of body weight. J Clin Invest 103, 383391.
  • Lay JM, Gillespie PJ & Samuelson LC (1999). Murine prenatal expression of cholecystokinin in neural crest, enteric neurons, and enteroendocrine cells. Dev Dyn 216, 190200.
  • Lee GW, Proenca R, Montez JM, Carroll KM, Darvishzadeh JG, Lee JI & Friedman JM (1996). Abnormal splicing of the leptin receptor in diabetic mice. Nature 379, 632635.
  • Mistry AM, Swick A & Romsos DR (1999). Leptin alters metabolic rates before acquisition of its anorectic effect in developing neonatal mice. Am J Physiol Regul Integr Comp Physiol 277, R742R747.
  • Mohammad S, Ozaki T, Takeuchi K, Unno K, Yamoto K, Morioka E, Takiguchi S & Ikeda M (2012). Functional compensation between cholecystokinin-1 and 2 receptors in murine paraventricular nucleus neurons. J Biol Chem 287, 3939139401.
  • Moran TH, Ameglio PJ, Schwartz GJ & McHugh PR (1992). Blockade of type A, not type B, CCK receptors attenuates satiety actions of exogenous and endogenous CCK. Am J Physiol Regul Integr Comp Physiol 262, R46R50.
  • Moran TH, Katz LF, Plata-Salaman CR & Schwartz GJ (1998). Disordered food intake and obesity in rats lacking cholecystokinin A receptors. Am J Physiol Regul Integr Comp Physiol 274, R618R625.
  • Muramatsu Y, Yamada T, Taniguchi Y, Ogini T, Kose H, Matsumoto K & Sasaki Y (2005). Pnlip encoding pancreatic lipase is possible candidate for obesity QTL in the OLETF rat. Biochem Biophys Res Commun 331, 12701276.
  • Mutt V & Jorpes JE (1968). Structure of porcine cholecystokinin-pancreozymin. 1. Cleavage with thrombin and with trypsin. Eur J Biochem 6, 156162.
  • Peters JH, Simasko SM & Ritter RC (2006). Modulation of vagal afferent excitation and reduction of food intake by leptin and cholecystokinin. Physiol Behav 89, 477485.
  • Raiteri M, Paudice P & Vallebuona F (1993). Release of cholecystokinin in the central nervous system. Neurochem Int 22, 519527.
  • Reidelberger RD, Heimann D, Kelsey L & Hulce M (2003). Effects of peripheral CCK receptor blockade on feeding responses to duodenal nutrient infusions in rats. Am J Physiol Regul Integr Comp Physiol 284, R389R398.
  • Reidelberger RD, Hernandez J, Fritzsch B & Hulce M (2004). Abdominal vagal mediation of the satiety effects of CCK in rats. Am J Physiol Regul Integr Comp Physiol 286, R1005R1012.
  • Rinaman L, Verbalis JG, Stricker EM & Hoffman GE (1993). Distribution and neurochemical phenotypes of caudal medullary neurons activated to express cFos following peripheral administration of cholecystokinin. J Comp Neurol 338, 475490.
  • Rinaman L, Hoffman GE, Stricker EM & Verbalis JG (1994). Exogenous cholecystokinin activates cFos expression in medullary but not hypothalamic neurons in neonatal rats. Dev Brain Res 77, 140145.
  • Rinaman L, Levitt P & Card JP (2000). Progressive postnatal assembly of limbic-autonomic circuits revealed by central transneuronal transport of pseudorabies virus. J Neurosci 20, 27312741.
  • Rinaman L (2006). Ontogeny of hypothalamic hindbrain feeding control circuits. Dev Psychobiol 48, 389396.
  • Robinson PH, Moran TH, Goldrich M & McHugh PR (1987). Development of cholecystokinin binding sites in rat upper gastrointestinal tract. Am J Physiol Gastrointest Liver Physiol 252, G529G534.
  • Robinson PH, Moran TH & McHugh PR (1988). Cholecystokinin inhibits independent ingestion in neonatal rats. Am J Physiol Regul Integr Comp Physiol 255, R14R20.
  • Sanders NM, Dunn-Meynell AA & Levin BE (2004). Third ventricular alloxan reversibly impairs glucose counterregulatory responses. Diabetes 53, 12301236.
  • Schroeder M, Zagoory-Sharon O, Lavi-Avnon Y, Moran TH & Weller A (2006). Weight gain and maternal behavior in CCK1 deficient rats. Physiol Behav 89, 402409.
  • Schroeder M, Lavi-Avnon Y, Zagoory-Sharon O, Moran TH & Weller A (2007). Preobesity in the infant OLETF rat: the role of suckling. Dev Psychobiol 49, 685691.
  • Schwartz GJ, Moran TH & McHugh PR (1990). Autoradiographic and functional development of gastric cholecystokinin receptors in the rat. Peptides 11, 11991203.
  • Smith GP, Tyrka A & Gibbs J (1991). Type-A CCK receptors mediate the inhibition of food intake and activity by CCK-8 in 9- to 12-day-old rat pups. Pharmacol Biochem Behav 38, 207210.
  • Shimazoe T, Morita M, Ogiwara S, Kojiya T, Goto J, Kamakura M, Moriya T, Shinohara K, Takiguchi S, Kono A, Miyasaka K, Funakoshi A & Ikeda M (2008). Cholecystokinin-A receptors regulate photic input pathways to the circadian clock. FASEB J 22, 14791490.
  • Stehling O, Döring H, Ertl J, Preibisch G & Schmidt I (1996). Leptin reduces juvenile fat stores by altering the circadian cycle of energy expenditure. Am J Physiol Regul Integr Comp Physiol 271, R1770R1774.
  • Swithers SE & Hall WG (1989). A nutritive control of independent ingestion in rat pups emerges by nine days of age. Physiol Behav 46, 873879.
  • Takiguchi S, Takata Y, Funakoshi A, Miyasaka K, Kataoka K, Fujimura Y, Goto T & Kono A (1997). Disrupted cholecystokinin type-A receptor (CCKAR) gene in OLETF rats. Gene 197, 169175.
  • Takiguchi S, Suzuki S, Sato Y, Kanai S, Miyasaka K, Jimi A, Shinozaki H, Takata Y, Funakoshi A, Kono A, Minowa O, Kobayashi T & Noda T (2002). Role of CCK-A receptor for pancreatic function in mice: a study in CCK-A receptor knockout mice. Pancreas 24, 276283.
  • Vanderhaeghen JJ, Signeau JC & Gepts W (1975). New peptide in the vertebrate CNS reacting with antigastrin antibodies. Nature 257, 604605.
  • Wang L, Barachina MD, Martínez V, Wei JY & Taché Y (2000). Synergistic interaction between CCK and leptin to regulate food intake. Regul Pept 92, 7985.
  • Weller A, Smith GP & Gibbs J (1990). Endogenous cholecystokinin reduces feeding in young rats. Science 247, 15891591.
  • Weller A, Gispan IH & Smith GP (1997). Characteristics of glucose and maltose preloads that inhibit feeding in 12-day-old rats. Physiol Behav 61, 819822.
  • Yang L, Scott KA, Hyun J, Tamashiro KL, Tray N, Moran TH & Bi S (2009). Role of dorsomedial hypothalamic neuropeptide Y in modulating food intake and energy balance. J Neurosci 29, 179190.
  • Yuan CS, Attele AS, Dey L & Xie JT (2000). Gastric effects of cholecystokinin and its interaction with leptin on brainstem neuronal activity in neonatal rats. J Pharmacol Exp Ther 295, 177182.
  • Zhang Y, Proenca R, Maffei M, Barone M, Leopold L & Friedman JM (1994). Positional cloning of the mouse obese gene and its human homologue. Nature 372, 425431.