Early expression of KCC2 in rat hippocampal cultures augments expression of functional GABA synapses

Journal of Physiology

Volumn 566, Issue 3, 2005, Pages 671-679

  Chudotvorova, Ilona ^a   Ivanov, Anton ^a   Rama, Sylvain ^a   Hübner, Christian A ^b   Pellegrino, Christophe ^a   Ben Ari, Yehezkel ^a   Medina, Igor ^a  

^a Turing Center for Living Systems CENTURI Aix Marseille University   (France)

^b UNIVERSITY OF HAMBURG   (Germany)

Author keywords

[No Author keywords available]

Indexed keywords

4 AMINOBUTYRIC ACID; 4 AMINOBUTYRIC ACID A RECEPTOR; ALPHA AMINO 3 HYDROXY 5 METHYL 4 ISOXAZOLEPROPIONIC ACID; CHLORIDE ION; COTRANSPORTER; GLUTAMIC ACID; POTASSIUM CHLORIDE COTRANSPORTER; UNCLASSIFIED DRUG; POTASSIUM CHLORIDE COTRANSPORTER 2;

ANIMAL CELL; ARTICLE; BRAIN NERVE CELL; CELL FUNCTION; CELL MATURATION; CONTROLLED STUDY; DEVELOPMENTAL STAGE; EXCITATORY POSTSYNAPTIC POTENTIAL; FREQUENCY ANALYSIS; GABAERGIC SYSTEM; HIPPOCAMPUS; NERVE CELL CULTURE; NERVE CELL INHIBITION; NERVE CELL NETWORK; NERVE CELL STIMULATION; NEWBORN; NONHUMAN; PRIORITY JOURNAL; PROTEIN EXPRESSION; RAT; RECEPTOR DENSITY; SYNAPSE; ANIMAL TISSUE; EARLY DEVELOPMENTAL STAGE; GABAERGIC TRANSMISSION; HOMEOSTASIS;

EID: 23744504648     PISSN: 00223751     EISSN: None     Source Type: Journal    
DOI: 10.1113/jphysiol.2005.089821     Document Type: Article

References (28)

1. A receptors in the outgrowth of cultured hippocampal neurons. Neurosci Lett 152, 150-154.
2. Ben-Ari Y (2002). Excitatory actions of gaba during development: the nature of the nurture. Nat Rev Neurosci 3, 728-739.
3. Ben-Ari Y, Cherubini E, Corradetti R & Gaiarsa JL (1989). Giant synaptic potentials in immature rat CA3 hippocampal neurones. J Physiol 416, 303-325.
4. Benson DL, Watkins FH, Steward O & Banker G (1994). Characterization of GABAergic neurons in hippocampal cell cultures. J Neurocytol 23, 279-295.
5. Burrone J, O'Byrne M & Murthy VN (2002). Multiple forms of synaptic plasticity triggered by selective suppression of activity in individual neurons. Nature 420, 414-418.
6. Caillard O, Ben-Ari Y & Gaiarsa JL (1999). Mechanisms of induction and expression of long-term depression at GABAergic synapses in the neonatal rat hippocampus. J Neurosci 19, 7568-7577.
7. Chavas J & Marty A (2003). Coexistence of excitatory and inhibitory GABA synapses in the cerebellar interneuron network. J Neurosci 23, 2019-2031.
8. A receptor clustering in cultured hippocampal neurons. J Neurosci 22, 684-697.
9. Colin-Le Brun I, Ferrand N, Caillard O, Tosetti P, Ben-Ari Y & Gaiarsa JL (2004). Spontaneous synaptic activity is required for the formation of functional GABAergic synapses in the developing rat hippocampus. J Physiol 559, 129-139.
10. Esclapez M, Tillakaratne NJ, Kaufman DL, Tobin AJ & Houser CR (1994). Comparative localization of two forms of glutamic acid decarboxylase and their mRNAs in rat brain supports the concept of functional differences between the forms. J Neurosci 14, 1834-1855.
11. Fremeau RT Jr, Troyer MD, Pahner I, Nygaard GO, Tran CH, Reimer RJ, Bellocchio EE, Fortin D, Storm-Mathisen J & Edwards RH (2001). The expression of vesicular glutamate transporters defines two classes of excitatory synapse. Neuron 31, 247-260.
12. Ganguly K, Schinder AF, Wong ST & Poo M (2001). GABA itself promotes the developmental switch of neuronal GABAergic responses from excitation to inhibition. Cell 105, 521-532.
13. Garaschuk O, Linn J, Eilers J & Konnerth A (2000). Large-scale oscillatory calcium waves in the immature cortex. Nat Neurosci 3, 452-459.
14. Groc L, Petanjek Z, Gustafsson B, Ben-Ari Y, Hanse E & Khazipov R (2002). In vivo blockade of neural activity alters dendritic development of neonatal CA1 pyramidal cells. Eur J Neurosci 16, 1931-1938.
15. Hubner CA, Stein V, Hermans-Borgmeyer I, Meyer T, Ballanyi K & Jentsch TJ (2001). Disruption of KCC2 reveals an essential role of K-Cl cotransport already in early synaptic inhibition. Neuron 30, 515-524.
16. A receptors by an association with the adaptin AP2 complex modulates inhibitory synaptic currents in hippocampal neurons. J Neurosci 20, 7972-7977.
17. Leinekugel X, Khalilov I, McLean H, Caillard O, Gaiarsa JL, Ben-Ari Y & Khazipov R (1999). GABA is the principal fast-acting excitatory transmitter in the neonatal brain. Adv Neurol 79, 189-201.
18. A and NMDA receptors in the neonatal hippocampus. Neuron 18, 243-255.
19. Loturco JJ, Owens DF, Heath MJ, Davis MB & Kriegstein AR (1995). GABA and glutamate depolarize cortical progenitor cells and inhibit DNA synthesis. Neuron 15, 1287-1298.
20. Ludwig A, Li H, Saarma M, Kaila K & Rivera C (2003). Developmental up-regulation of KCC2 in the absence of GABAergic and glutamatergic transmission. Eur J Neurosci 18, 3199-3206.
21. Marty S, Berninger B, Carroll P & Thoenen H (1996). GABAergic stimulation regulates the phenotype of hippocampal interneurons through the regulation of brain-derived neurotrophic factor. Neuron 16, 565-570.
22. Pavlov I, Riekki R & Taira T (2004). Synergistic action of GABA-A and NMDA receptors in the induction of long-term depression in glutamatergic synapses in the newborn rat hippocampus. Eur J Neurosci 20, 3019-3026.
23. Represa A & Ben-Ari Y (2005). Trophic actions of GABA on neuronal development. Trends Neurosci 28, 278-283.
24. - cotransporter KCC2 and carbonic anhydrase CAVII. J Physiol 562, 27-36.
25. - co-transporter KCC2 renders GABA hyperpolarizing during neuronal maturation. Nature 397, 251-255.
26. Stein V, Hermans-Borgmeyer I, Jentsch TJ & Hubner CA (2004). Expression of the KCl cotransporter KCC2 parallels neuronal maturation and the emergence of low intracellular chloride. J Comp Neurol 468, 57-64.
27. Triller A & Choquet D (2005). Surface trafficking of receptors between synaptic and extrasynaptic membranes: and yet they do move!. Trends Neurosci 28, 133-139.
28. Tyzio R, Ivanov A, Bernard C, Holmes GL, Ben-Ari Y & Khazipov R (2003). Membrane potential of CA3 hippocampal pyramidal cells during postnatal development. J Neurophysiol 90, 2964-2972.