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Items: 45

1.

Microglia monitor and protect neuronal function through specialized somatic purinergic junctions.

Cserép C, Pósfai B, Lénárt N, Fekete R, László ZI, Lele Z, Orsolits B, Molnár G, Heindl S, Schwarcz AD, Ujvári K, Környei Z, Tóth K, Szabadits E, Sperlágh B, Baranyi M, Csiba L, Hortobágyi T, Maglóczky Z, Martinecz B, Szabó G, Erdélyi F, Szipőcs R, Tamkun MM, Gesierich B, Duering M, Katona I, Liesz A, Tamás G, Dénes Á.

Science. 2020 Jan 31;367(6477):528-537. doi: 10.1126/science.aax6752. Epub 2019 Dec 12.

PMID:
31831638
2.

Evidence of intraneuronal Aβ accumulation preceding tau pathology in the entorhinal cortex.

Welikovitch LA, Do Carmo S, Maglóczky Z, Szocsics P, Lőke J, Freund T, Cuello AC.

Acta Neuropathol. 2018 Dec;136(6):901-917. doi: 10.1007/s00401-018-1922-z. Epub 2018 Oct 25.

PMID:
30362029
3.

Alterations in hippocampal and cortical densities of functionally different interneurons in rat models of absence epilepsy.

Papp P, Kovács Z, Szocsics P, Juhász G, Maglóczky Z.

Epilepsy Res. 2018 Sep;145:40-50. doi: 10.1016/j.eplepsyres.2018.05.013. Epub 2018 May 31.

PMID:
29885592
4.

Post mortem single-cell labeling with DiI and immunoelectron microscopy unveil the fine structure of kisspeptin neurons in humans.

Takács S, Bardóczi Z, Skrapits K, Göcz B, Váczi V, Maglóczky Z, Szűcs I, Rácz G, Matolcsy A, Dhillo WS, Watanabe M, Kádár A, Fekete C, Kalló I, Hrabovszky E.

Brain Struct Funct. 2018 Jun;223(5):2143-2156. doi: 10.1007/s00429-018-1610-8. Epub 2018 Jan 29.

PMID:
29380121
5.

Synaptic Reorganization of the Perisomatic Inhibitory Network in Hippocampi of Temporal Lobe Epileptic Patients.

Wittner L, Maglóczky Z.

Biomed Res Int. 2017;2017:7154295. doi: 10.1155/2017/7154295. Epub 2017 Jan 2. Review.

6.

Glutamate neurons are intermixed with midbrain dopamine neurons in nonhuman primates and humans.

Root DH, Wang HL, Liu B, Barker DJ, Mód L, Szocsics P, Silva AC, Maglóczky Z, Morales M.

Sci Rep. 2016 Aug 1;6:30615. doi: 10.1038/srep30615.

7.

Enhanced expression of potassium-chloride cotransporter KCC2 in human temporal lobe epilepsy.

Karlócai MR, Wittner L, Tóth K, Maglóczky Z, Katarova Z, Rásonyi G, Erőss L, Czirják S, Halász P, Szabó G, Payne JA, Kaila K, Freund TF.

Brain Struct Funct. 2016 Sep;221(7):3601-15. doi: 10.1007/s00429-015-1122-8. Epub 2015 Oct 1.

PMID:
26427846
8.

Editorial: At the top of the interneuronal pyramid-calretinin expressing cortical interneurons.

Barinka F, Maglóczky Z, Zecevic N.

Front Neuroanat. 2015 Aug 14;9:108. doi: 10.3389/fnana.2015.00108. eCollection 2015. No abstract available.

9.

A subcortical inhibitory signal for behavioral arrest in the thalamus.

Giber K, Diana MA, Plattner V, Dugué GP, Bokor H, Rousseau CV, Maglóczky Z, Havas L, Hangya B, Wildner H, Zeilhofer HU, Dieudonné S, Acsády L.

Nat Neurosci. 2015 Apr;18(4):562-568. doi: 10.1038/nn.3951. Epub 2015 Feb 23.

10.

Critical role of somatostatin receptor 2 in the vulnerability of the central noradrenergic system: new aspects on Alzheimer's disease.

Ádori C, Glück L, Barde S, Yoshitake T, Kovacs GG, Mulder J, Maglóczky Z, Havas L, Bölcskei K, Mitsios N, Uhlén M, Szolcsányi J, Kehr J, Rönnbäck A, Schwartz T, Rehfeld JF, Harkany T, Palkovits M, Schulz S, Hökfelt T.

Acta Neuropathol. 2015 Apr;129(4):541-63. doi: 10.1007/s00401-015-1394-3. Epub 2015 Feb 13.

PMID:
25676386
11.

The vulnerability of calretinin-containing hippocampal interneurons to temporal lobe epilepsy.

Tóth K, Maglóczky Z.

Front Neuroanat. 2014 Sep 29;8:100. doi: 10.3389/fnana.2014.00100. eCollection 2014. Review.

12.

Redistribution of CB1 cannabinoid receptors in the acute and chronic phases of pilocarpine-induced epilepsy.

Karlócai MR, Tóth K, Watanabe M, Ledent C, Juhász G, Freund TF, Maglóczky Z.

PLoS One. 2011;6(11):e27196. doi: 10.1371/journal.pone.0027196. Epub 2011 Nov 4.

13.

Complementary synaptic distribution of enzymes responsible for synthesis and inactivation of the endocannabinoid 2-arachidonoylglycerol in the human hippocampus.

Ludányi A, Hu SS, Yamazaki M, Tanimura A, Piomelli D, Watanabe M, Kano M, Sakimura K, Maglóczky Z, Mackie K, Freund TF, Katona I.

Neuroscience. 2011 Feb 3;174:50-63. doi: 10.1016/j.neuroscience.2010.10.062. Epub 2010 Oct 28. Erratum in: Neuroscience. 2011 Jul 14;186:220.

14.

Laminar analysis of slow wave activity in humans.

Csercsa R, Dombovári B, Fabó D, Wittner L, Eross L, Entz L, Sólyom A, Rásonyi G, Szucs A, Kelemen A, Jakus R, Juhos V, Grand L, Magony A, Halász P, Freund TF, Maglóczky Z, Cash SS, Papp L, Karmos G, Halgren E, Ulbert I.

Brain. 2010 Sep;133(9):2814-29. doi: 10.1093/brain/awq169. Epub 2010 Jul 23.

15.

Dynamic changes of CB1-receptor expression in hippocampi of epileptic mice and humans.

Maglóczky Z, Tóth K, Karlócai R, Nagy S, Eross L, Czirják S, Vajda J, Rásonyi G, Kelemen A, Juhos V, Halász P, Mackie K, Freund TF.

Epilepsia. 2010 Jul;51 Suppl 3:115-20. doi: 10.1111/j.1528-1167.2010.02624.x.

16.

Loss and reorganization of calretinin-containing interneurons in the epileptic human hippocampus.

Tóth K, Eross L, Vajda J, Halász P, Freund TF, Maglóczky Z.

Brain. 2010 Sep;133(9):2763-77. doi: 10.1093/brain/awq149. Epub 2010 Jun 24.

17.

Sprouting in human temporal lobe epilepsy: excitatory pathways and axons of interneurons.

Maglóczky Z.

Epilepsy Res. 2010 Mar;89(1):52-9. doi: 10.1016/j.eplepsyres.2010.01.002. Epub 2010 Feb 11.

PMID:
20149961
18.

The epileptic human hippocampal cornu ammonis 2 region generates spontaneous interictal-like activity in vitro.

Wittner L, Huberfeld G, Clémenceau S, Eross L, Dezamis E, Entz L, Ulbert I, Baulac M, Freund TF, Maglóczky Z, Miles R.

Brain. 2009 Nov;132(Pt 11):3032-46. doi: 10.1093/brain/awp238. Epub 2009 Sep 18.

PMID:
19767413
19.

Downregulation of the CB1 cannabinoid receptor and related molecular elements of the endocannabinoid system in epileptic human hippocampus.

Ludányi A, Eross L, Czirják S, Vajda J, Halász P, Watanabe M, Palkovits M, Maglóczky Z, Freund TF, Katona I.

J Neurosci. 2008 Mar 19;28(12):2976-90. doi: 10.1523/JNEUROSCI.4465-07.2008.

20.

Properties of in vivo interictal spike generation in the human subiculum.

Fabó D, Maglóczky Z, Wittner L, Pék A, Eross L, Czirják S, Vajda J, Sólyom A, Rásonyi G, Szucs A, Kelemen A, Juhos V, Grand L, Dombovári B, Halász P, Freund TF, Halgren E, Karmos G, Ulbert I.

Brain. 2008 Feb;131(Pt 2):485-99. Epub 2007 Dec 14.

PMID:
18083752
21.

Morphology and synaptic input of substance P receptor-immunoreactive interneurons in control and epileptic human hippocampus.

Tóth K, Wittner L, Urbán Z, Doyle WK, Buzsáki G, Shigemoto R, Freund TF, Maglóczky Z.

Neuroscience. 2007 Jan 19;144(2):495-508. Epub 2006 Nov 13.

22.

Impaired and repaired inhibitory circuits in the epileptic human hippocampus.

Maglóczky Z, Freund TF.

Trends Neurosci. 2005 Jun;28(6):334-40. Review.

PMID:
15927690
23.

Surviving CA1 pyramidal cells receive intact perisomatic inhibitory input in the human epileptic hippocampus.

Wittner L, Eross L, Czirják S, Halász P, Freund TF, Maglóczky Z.

Brain. 2005 Jan;128(Pt 1):138-52. Epub 2004 Nov 17.

PMID:
15548550
24.

Uridine release during aminopyridine-induced epilepsy.

Slézia A, Kékesi AK, Szikra T, Papp AM, Nagy K, Szente M, Maglóczky Z, Freund TF, Juhász G.

Neurobiol Dis. 2004 Aug;16(3):490-9.

PMID:
15262260
25.

In vivo laminar electrophysiology co-registered with histology in the hippocampus of patients with temporal lobe epilepsy.

Ulbert I, Maglóczky Z, Eross L, Czirják S, Vajda J, Bognár L, Tóth S, Szabó Z, Halász P, Fabó D, Halgren E, Freund TF, Karmos G.

Exp Neurol. 2004 Jun;187(2):310-8.

PMID:
15144857
26.

Synaptic reorganization of calbindin-positive neurons in the human hippocampal CA1 region in temporal lobe epilepsy.

Wittner L, Eross L, Szabó Z, Tóth S, Czirják S, Halász P, Freund TF, Maglóczky ZS.

Neuroscience. 2002;115(3):961-78.

PMID:
12435433
27.

Lignicolous macrofungi of the Kékes North forest reserve in the Mátra Mountains, Hungary.

Siller I, Turcsányi G, Maglóczky Z, Czájlik P.

Acta Microbiol Immunol Hung. 2002;49(2-3):193-205.

PMID:
12109149
28.
29.

Preservation of perisomatic inhibitory input of granule cells in the epileptic human dentate gyrus.

Wittner L, Maglóczky Z, Borhegyi Z, Halász P, Tóth S, Eross L, Szabó Z, Freund TF.

Neuroscience. 2001;108(4):587-600.

PMID:
11738496
30.

GABAergic interneurons are the targets of cannabinoid actions in the human hippocampus.

Katona I, Sperlágh B, Maglóczky Z, Sántha E, Köfalvi A, Czirják S, Mackie K, Vizi ES, Freund TF.

Neuroscience. 2000;100(4):797-804.

PMID:
11036213
31.

Changes in the distribution and connectivity of interneurons in the epileptic human dentate gyrus.

Maglóczky Z, Wittner L, Borhegyi Z, Halász P, Vajda J, Czirják S, Freund TF.

Neuroscience. 2000;96(1):7-25.

PMID:
10683405
32.
33.

The supramammillary nucleus innervates cholinergic and GABAergic neurons in the medial septum-diagonal band of Broca complex.

Borhegyi Z, Maglóczky Z, Acsády L, Freund TF.

Neuroscience. 1998 Feb;82(4):1053-65.

PMID:
9466429
34.
35.

Loss of Calbindin-D28K immunoreactivity from dentate granule cells in human temporal lobe epilepsy.

Maglóczky Z, Halász P, Vajda J, Czirják S, Freund TF.

Neuroscience. 1997 Jan;76(2):377-85.

PMID:
9015323
36.
37.

Principal cells are the postsynaptic targets of supramammillary afferents in the hippocampus of the rat.

Maglóczky Z, Acsády L, Freund TF.

Hippocampus. 1994 Jun;4(3):322-34.

PMID:
7531093
38.

Early degeneration of calretinin-containing neurons in the rat hippocampus after ischemia.

Freund TF, Maglóczky Z.

Neuroscience. 1993 Oct;56(3):581-96.

PMID:
8255422
39.
40.
41.
42.
43.

The structure of chicken ectostriatum. I. Golgi study.

Tömböl T, Maglóczky Z, Stewart MG, Csillag A.

J Hirnforsch. 1988;29(5):525-46.

PMID:
3216100
44.

Synaptic connections, axonal and dendritic patterns of neurons immunoreactive for cholecystokinin in the visual cortex of the cat.

Freund TF, Maglóczky Z, Soltész I, Somogyi P.

Neuroscience. 1986 Dec;19(4):1133-59.

PMID:
3029625
45.

Synaptic targets of HRP-filled layer III pyramidal cells in the cat striate cortex.

Kisvárday ZF, Martin KA, Freund TF, Maglóczky Z, Whitteridge D, Somogyi P.

Exp Brain Res. 1986;64(3):541-52.

PMID:
3803491

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