Increased levels of plasma glial-derived neurotrophic factor in children with attention deficit hyperactivity disorder

References

• Nigg JT, Casey B. An integrative theory of attention-deficit/ hyperactivity disorder based on the cognitive and affective neurosciences. Dev Psychopathol 2005;17:785–806.
   PubMed Web of Science ®Google Scholar
• Polanczyk G, de Lima M, Horta B, Biederman J, Rohde L. The worldwide prevalence of ADHD: A systematic review and metaregression analysis. Am J Psych 2007;164:942–8.
   PubMed Web of Science ®Google Scholar
• Kim JY, Ahn DH, Shin YJ. An epidemiological study of attention-deficits hyperactivity disorder and learning disabilities in a rural area. J Korean Neuropsychiatr 1999;38:784–93.
   Google Scholar
• Association AP. The diagnostic and statistical manual of mental disorders: DSM 5: bookpointUS; 2013.
   Google Scholar
• Kelly AC, Margulies DS, Castellanos FX. Recent advances in structural and functional brain imaging studies of attention-deficit/hyperactivity disorder. Curr Psychiatry Rep 2007;9:401–7.
   PubMedGoogle Scholar
• Airaksinen MS, Saarma M. The GDNF family: Signalling, biological functions and therapeutic value. Nat Rev Neurosci 2002;3:383–94.
   PubMed Web of Science ®Google Scholar
• Maisonpierre PC, Belluscio L, Friedman B, Alderson RF, Wiegand SJ, Furth ME, et al. NT-3, BDNF, and NGF in the developing rat nervous system: Parallel as well as reciprocal patterns of expression. Neuron 1990;5:501–9.
   PubMed Web of Science ®Google Scholar
• Shim S-H, Hwangbo Y, Kwon Y-J, Jeong H-Y, Lee B-H, Lee H-J, et al. Increased levels of plasma brain-derived neurotrophic factor (BDNF) in children with attention deficit-hyperactivity disorder (ADHD). Prog Neuropsychopharmacol Biol Psychiatry 2008;32:1824–8.
   PubMed Web of Science ®Google Scholar
• Pascual A, Hidalgo-Figueroa M, Piruat JI, Pintado CO, Gómez-Díaz R, López-Barneo J. Absolute requirement of GDNF for adult catecholaminergic neuron survival. Nat Neurosci 2008;11:755–61.
   PubMed Web of Science ®Google Scholar
• Straten G, Schmeer C, Kretz A, Gerhardt E, Kügler S, Schulz JB, et al. Potential synergistic protection of retinal ganglion cells from axotomy-induced apoptosis by adenoviral administration of glial cell line-derived neurotrophic factor and X-chromosome-linked inhibitor of apoptosis. Neurobiol Dis 2002;11:123–33.
   PubMed Web of Science ®Google Scholar
• Ducray A, Krebs SH, Schaller B, Seiler RW, Meyer M, Widmer HR. GDNF family ligands display distinct action profiles on cultured GABAergic and serotonergic neurons of rat ventral mesencephalon. Brain Res 2006;1069:104–12.
   PubMed Web of Science ®Google Scholar
• Granholm A-C, Reyland M, Albeck D, Sanders L, Gerhardt G, Hoernig G, et al. Glial cell line-derived neurotrophic factor is essential for postnatal survival of midbrain dopamine neurons. J Neurosci 2000;20:3182–90.
   PubMed Web of Science ®Google Scholar
• Bourque MJ, Trudeau LE. GDNF enhances the synaptic efficacy of dopaminergic neurons in culture. Eur J Neurosci 2000;12:3172–80.
   PubMed Web of Science ®Google Scholar
• Gratacòs E, Pérez-Navarro E, Tolosa E, Arenas E, Alberch J. Neuroprotection of striatal neurons against kainate excitotoxicity by neurotrophins and GDNF family members. J Neurochem 2001;78:1287–96.
   PubMed Web of Science ®Google Scholar
• Gerlai R, McNamara A, Choi-Lundberg D, Armanini M, Ross J, Powell-Braxton L, et al. Impaired water maze learning performance without altered dopaminergic function in mice heterozygous for the GDNF mutation. Eur J Neurosci 2001;14:1153–63.
   PubMed Web of Science ®Google Scholar
• Nanobashvili A, Airaksinen MS, Kokaia M, Rossi J, Asztely F, Olofsdotter K, et al. Development and persistence of kindling epilepsy are impaired in mice lacking glial cell line-derived neurotrophic factor family receptor alpha 2. Proc Natl Acad Sci USA 2000 Oct 24;97:12312–7.
   PubMed Web of Science ®Google Scholar
• Messer CJ, Eisch AJ, Carlezon Jr >WA, Whisler K, Shen L, Wolf DH, et al. Role for GDNF in biochemical and behavioral adaptations to drugs of abuse. Neuron 2000;26:247–57.
   PubMed Web of Science ®Google Scholar
• Kim YS, Cheon KA, Kim BN, Chang SA, Yoo HJ, Kim JW, et al. The reliability and validity of kiddie-schedule for affective disorders and schizophrenia-present and lifetime version-Korean version (K-SADS-PL-K). Yonsei Med J 2004;45:81–9.
   PubMed Web of Science ®Google Scholar
• Park K, Yoon J, Park H, Pakr H, Kwon K. The manual of Korean Educational Development Institute-Wechsler Intelligence Scale for children-revised. Seoul: Korean Educational Development Institute; 1991.
   Google Scholar
• DuPaul G, Barkley R. ADHD rating scale. Attention-deficit hyperactivity disorder: A clinical workbook; 1991:46–8.
   Google Scholar
• So YK, Noh JS, Kim YS, Ko SG, Koh YJ. The reliability and validity of Korean parent and teacher ADHD rating scale. J Korean Neuropsychiatr 2002;41:283–9.
   Google Scholar
• Dmitrzak-Weglarz M, Skibinska M, Slopien A, Tyszkiewicz M, Pawlak J, Maciukiewicz M, et al. Serum neurotrophin concentrations in polish adolescent girls with anorexia nervosa. Neuropsychobiology 2013;67:25–32.
   PubMed Web of Science ®Google Scholar
• Wang X, Hou Z, Yuan Y, Hou G, Liu Y, Li H, et al. Association study between plasma GDNF and cognitive function in late-onset depression. J Affect Disord 2011;132:418–21.
   PubMed Web of Science ®Google Scholar
• Pertusa M, García-Matas S, Mammeri H, Adell A, Rodrigo T, Mallet J, et al. Expression of GDNF transgene in astrocytes improves cognitive deficits in aged rats. Neurobiol Aging 2008;29:1366–79.
   PubMed Web of Science ®Google Scholar
• Arnsten AF. Stimulants: Therapeutic actions in ADHD. Neuropsychopharmacology 2006;31:2376–83.
   PubMed Web of Science ®Google Scholar
• Volkow ND, Wang G-J, Fowler JS, Fischman M, Foltin R, Abumrad NN, et al. Methylphenidate and cocaine have a similar in vivo potency to block dopamine transporters in the human brain. Life Sci 1999;65:PL7–PL12.
   PubMed Web of Science ®Google Scholar
• Kimko HC, Cross JT, Abernethy DR. Pharmacokinetics and clinical effectiveness of methylphenidate. Clin Pharmacokinet 1999;37:457–70.
   PubMed Web of Science ®Google Scholar
• Kuczenski R, Segal DS. Effects of methylphenidate on extracellular dopamine, serotonin, and norepinephrine: Comparison with amphetamine. J Neurochem 1997;68:2032–7.
   PubMed Web of Science ®Google Scholar
• Schiffer W, Volkow N, Fowler J, Alexoff D, Logan J, Dewey S. Therapeutic doses of amphetamine or methylphenidate differentially increase synaptic and extracellular dopamine. Synapse 2006;59:243–51.
   PubMed Web of Science ®Google Scholar
• Reinoso B, Undie A, Levitt P. Dopamine receptors mediate differential morphological effects on cerebral cortical neurons in vitro. J Neurosci Res 1996;43:439–53.
   PubMed Web of Science ®Google Scholar
• Todd RD. Neural development is regulated by classical neurotransmitters: Dopamine D2 receptor stimulation enhances neurite outgrowth. Biol Psychiatry 1992;31:794–807.
   PubMed Web of Science ®Google Scholar
• Sadasivan S, Pond BB, Pani AK, Qu C, Jiao Y, Smeyne RJ. Methylphenidate exposure induces dopamine neuron loss and activation of microglia in the basal ganglia of mice. PloS one 2012;7:e33693.
   PubMed Web of Science ®Google Scholar
• Golden JP, DeMaro JA, Osborne PA, Milbrandt J, Johnson Jr EM. Expression of neurturin, GDNF, and GDNF family-receptor mRNA in the developing and mature mouse. Exp Neurol 1999;158:504–28.
   PubMed Web of Science ®Google Scholar
• Kastin AJ, Akerstrom V, Pan W. Glial cell line-derived neurotrophic factor does not enter normal mouse brain. Neurosci Lett 2003;340:239–41.
   PubMed Web of Science ®Google Scholar