Kurt Andersson

Overview

Best Publications

• Cholecystokinin peptides produce marked reduction of dopamine turnover in discrete areas in the rat brain following intraventricular injection.

  Kjell Fuxe;Kjell Fuxe;Kurt Andersson;Kurt Andersson;Vittorio Locatelli;Vittorio Locatelli;Luigi F. Agnati;Luigi F. Agnati

  289
  Citations

• Asphyctic lesion: proliferation of tyrosine hydroxylase-immunoreactive nerve cell bodies in the rat substantia nigra and functional changes in dopamine neurotransmission

  Börje Bjelke;Kurt Andersson;Sven Ove Ögren;Per Bolme

  257
  Citations

• Expression of nitric oxide synthases in subcutaneous adipose tissue of nonobese and obese humans.

  Montserrat Elizalde;Mikael Rydén;Vanessa van Harmelen;Peter Eneroth

  214
  Citations

• Neuroendocrine actions of nicotine and of exposure to cigarette smoke: medical implications.

  Kjell Fuxe;Kurt Andersson;Peter Eneroth;Anders Härfstrand

  213
  Citations

• Chronic antidepressant treatment and central 5-HT synapses

  K. Fuxe;S.-O. Ögren;L.F. Agnati;F. Benfenati

  211
  Citations

• On the origin of extracellular glutamate levels monitored in the basal ganglia of the rat by in vivo microdialysis.

  M Herrera-Marschitz;Z-B You;M Goiny;J J Meana

  206
  Citations

• Three-dimensional structure of a specific pre-messenger RNP particle established by electron microscope tomography

  U. Skoglund;K. Andersson;B. Strandberg;B. Daneholt

  205
  Citations

• Systemic nicotine stimulates human adipose tissue lipolysis through local cholinergic and catecholaminergic receptors

  K Andersson;P Arner

  182
  Citations

• A nitric oxide-mediated mechanism regulates lipolysis in human adipose tissue in vivo.

  Kurt Andersson;Nicolas Gaudiot;Catherine Ribiere;Montserrat Elizalde

  166
  Citations

• Chronic nicotine treatment counteracts the disappearance of tyrosine-hydroxylase-immunoreactive nerve cell bodies, dendrites and terminals in the mesostriatal dopamine system of the male rat after partial hemitransection.

  Ann Marie Janson;Kjell Fuxe;Luigi F. Agnati;Isao Kitayama

  164
  Citations

• Dopaminergic Systems in the Brain and Pituitary

  Kjell Fuxe;Luigi F. Agnati;Madhu Kalia;Menek Goldstein

  160
  Citations

• Distribution of nicotinic cholinergic receptors in the rat tel- and diencephalon: a quantitative receptor autoradiographical study using [3H]-acetylcholine, [α-125l]bungarotoxin and [3H]nicotine

  A. Härfstrand;A. Adem;K. Fuxe;L. Agnati

  135
  Citations

• Characterization of normal and supersensitive dopamine receptors: Effects of ergot drugs and neuropeptides

  K. Fuxe;K. Fuxe;L. F. Agnati;L. F. Agnati;C. Köhler;C. Köhler;D. Kuonen;D. Kuonen

  124
  Citations

• Delayed neuronal death following perinatal asphyxia in rat

  Elisabetta Dell'Anna;Yong Chen;Ephrem Engidawork;Kurt Andersson

  121
  Citations

• Studies on neuropeptide Y-catecholamine interactions in the hypothalamus and in the forebrain of the male rat. Relationship to neuroendocrine function

  A. Härfstrand;K. Fuxe;L.F. Agnati;P. Eneroth

  116
  Citations

• Effects of single injections of nicotine on the ascending dopamine pathways in the rat: Evidence for increases of dopamine turnover in the mesostriatal and mesolimbic dopamine neurons

  Kurt Andersson;Kjell Fuxe;Luigi F. Agnati

  114
  Citations

• Intravenous injections of nicotine induce very rapid and discrete reductions of hypothalamic catecholamine levels associated with increases of ACTH, vasopressin and prolactin secretion.

  Kurt Andersson;Richard Siegel;Kjell Fuxe;Peter Eneroth

  114
  Citations

• On the role of ascending dopamine systems in the control of voluntary ethanol intake and ethanol intoxication

  Kalervo Kiianmaa;Kurt Andersson;Kjell Fuxe

  109
  Citations

• Long-term effects of perinatal asphyxia on basal ganglia neurotransmitter systems studied with microdialysis in rat ☆

  C.F. Loidl;M. Herrera-Marschitz;K. Andersson;Z.-B. You

  100
  Citations

• Chronic nicotine treatment increases dopamine levels and reduces dopamine utilization in substantia nigra and in surviving forebrain dopamine nerve terminal systems after a partial di-mesencephalic hemitransection.

  Fuxe K;Janson Am;Jansson A;Andersson K

  96
  Citations