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Acta Neuropathologica
Published in: Acta Neuropathologica 6/2004

01-12-2004 | Regular Paper

Perivascular clustering in temporal lobe epilepsy: oligodendroglial cells of unknown function

Authors: Burkhard S. Kasper, Werner Paulus

Published in: Acta Neuropathologica | Issue 6/2004

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Abstract

Marked perivascular clustering (PC), i.e., groups and rows of small round cells along white matter vessels, is seen in temporal lobe epilepsy (TLE) specimens obtained by surgery. This study focuses on the constituting cell types and discusses clinical significance and pathogenesis of PC, which are so far unknown. Based on a series of 59 nonlesional TLE surgical specimens, we characterized PC by immunohistochemistry and correlated the amount of PC with clinical parameters. PC cells were variably positive for galactocerebroside, myelin basic protein and S-100 protein, while glial fibrillary acidic protein, vimentin, nestin and neuronal antigens were not expressed. There was no correlation between the amount of PC and any clinical feature, including age at surgery, age at epilepsy onset, duration of epilepsy, preoperative seizure frequency, childhood febrile convulsions, family history of epilepsy, and postsurgical outcome. Our findings suggest oligodendroglial differentiation of PC, while its primary (dysplastic) versus secondary (reactive) pathogenesis remains unresolved.
Literature
1.
Abbott NJ, Khan EU, Rollinson CM, Reichel A, Janigro D, Dombrowski SM, Dobbie MS, Begley DJ (2002) Drug resistance in epilepsy: the role of the blood brain barrier. Novartis Found Symp 243:38–47CrossRefPubMed
2.
Ambrosi G, Virgintino D, Benagiano V, Maiorano E, Bertossi M, Roncali L (1995) Glial cells and blood-brain barrier in human cortex. Ital J Anat Embryol 100 Suppl 1:177–184
3.
Arai N (1999) Cortical dysplasia in surgical pathology of intractable epilepsy. Neuropathology 19:229–232CrossRef
4.
Arai N, Umitsu R, Komori T, Hayashi M, Kurata K, Nagata J, Tamagawa K, Mizutani T, Oda M, Morimatsu Y (2003) Peculiar form of cerebral microdysgenesis characterized by white matter neurons with perineuronal and perivascular glial satellitosis: a study using a variety of human autopsied brains. Pathol Int 53:345–352CrossRefPubMed
5.
Armstrong DD (1993) The neuropathology of temporal lobe epilepsy. J Neuropathol Exp Neurol 52:433–443
6.
Blümcke I, Schewe JC, Normann S, Brüstle O, Schramm J, Elger CE, Wiestler OD (2001) Increase of nestin-immunoreactive precursor cells in the dentate gyrus of pediatric patients with early-onset temporal lobe epilepsy. Hippocampus 11:311–321CrossRefPubMed
7.
Blümcke I, Wiestler OD (2002) Ammon’s horn sclerosis: a maldevelopmental disorder associated with temporal lobe epilepsy. Brain Pathol 12:199–211PubMed
8.
Burger PC, Scheithauer BW, Vogel FS (2002) Surgical pathology of the nervous system and ist coverings, 4th edn. Churchill Livingston, New York, pp 397–398
9.
Carpenter MB, Sutin J (1983) Human neuroanatomy, 8th edn. Williams & Wilkins, Baltimore
10.
Choi D, Na DG, Byun HS, Suh YL, Kim SE, Ro DW, Chung IG, Hong SC, Hong SB (1999) White-matter change in mesial temporal sclerosis: correlation of MRI with PET, pathology, and clinical features. Epilepsia 40:1634–1641PubMed
11.
Engel J Jr (1993) Surgical treatment of the epilepsies. Raven Press, New York, p 615
12.
Janigro D (1999) Blood-brain barrier, ion homeostasis and epilepsy: possible implications towards the understanding of ketogenic diet mechanisms. Epilepsy Res 37:223–232CrossRefPubMed
13.
Kasper BS, Stefan H, Buchfelder M, Paulus W (1999) Temporal lobe microdysgenesis in epilepsy versus control brains. J Neuropathol Exp Neurol 58:22–28
14.
Kasper BS, Stefan H, Paulus W (2003) Microdysgenesis in mesial temporal lobe epilepsy: a clinicopathological study. Ann Neurol 54:501–506CrossRefPubMed
15.
Komori T, Arai N, Shimizu H, Yagishita A, Mizutani T, Oda M (2002) Cortical perivascular satellitosis in intractable epilepsy; a form of cortical dysplasia? Acta Neuropathol 104:149–154CrossRefPubMed
16.
Liwnicz BH, Leach JL, Yeh HS, Privitera M (1990) Pericyte degeneration and thickening of basement membranes of cerebral microvessels in complex partial seizures: electron microscopic study of surgically removed tissue. Neurosurgery 26:409–420PubMed
17.
Mathern GW, Pretorius JK, Babb TL (1995) Influence of the type of initial precipitating injury and at what age it occurs on course and outcome in patients with temporal lobe seizures. J Neurosurg 82:220–227
18.
Meiners LC, vanGils A, Jansen GH, deKort G, Witkamp TD, Ramos LMP, Valk J, Debets RMC, vanHuffelen AC, vanVeelen CWM, Mali WP (1994) Temporal lobe epilepsy: the various appearances of histologically proven mesial temporal sclerosis. AJNR 15:1547–1555
19.
Mitchell LA, Jackson GD, Kalnins RM, Saling MM, Fitt GJ, Ashpole RD, Berkovic SF (1999) Anterior temporal abnormality in temporal lobe epilepsy. A quantitative MRI and histopathological study. Neurology 52:327–336PubMed
20.
Neuwelt EA, Abbott NJ, Drewes L, Smith QR, Couraud PO, Chiocca EA, Audus KL, Greig NH, Doolittle ND (1999) Cerebrovascular biology and the various neural barriers: challenges and future directions. Neurosurgery 44:604–609CrossRefPubMed
21.
Pachter JS, Vries HE de, Fabry Z (2003) The blood-brain barrier and its role in immune privilege in the central nervous system. J Neuropathol Exp Neurol 62:593–604
22.
Palmer TD, Markakis EA, Willhoite AR, Safar F, Gage FH (1999) Fibroblast growth factor-2 activates a latent neurogenic program in neural stem cells from diverse regions of the adult CNS. J Neurosci 19:8487–8497
23.
Palmer TD, Willhoite AR, Gage FH (2000) Vascular niche for adult hippocampal neurogenesis. J Comp Neurol 425:479–494CrossRefPubMed
24.
Parent JM (2002) The role of seizure-induced neurogenesis in epileptogenesis and brain repair. Epilepsy Res 50:179–189CrossRefPubMed
25.
Parent JM, Yu TW, Leibowitz RT, Geschwind DH, Sloviter RS, Lowenstein DH (1997) Dentate granule cell neurogenesis is increased by seizures and contributes to aberrant network reorganization in the adult rat hippocampus. J Neurosci 17:3727–3738
26.
Paulus W, Roggendorf W, Kirchner T (1992) Ki-M1P as a marker for microglia and brain macrophages in routinely processed human tissues. Acta Neuropathol 84:538–544PubMed
27.
Pereira A, Ferrandon A, Nehlig A (2002) Local cerebral blood flow during lithium-pilocarpin seizures in the developing and adult rat: role of coupling between blood flow and metabolism in the genesis of neuronal damage. J Cereb Blood Flow Metab 22:196–205PubMed
28.
Porter BE, Brooks-Kayal A, Golden JA (2002) Disorders of cortical development and epilepsy. Arch Neurol 59:361–365CrossRefPubMed
29.
Remler MP, Marcussen WH (1984) The blood-brain barrier and the systemic convulsant model of epilepsy. Epilepsia 25:574–577PubMed
30.
Scaravilli F (ed) (1997) Neuropathology of epilepsy. World Scientific, Singapore, p 206
31.
Vezzani A, Moneta D, Richichi C, Aliprandi M, Burrows SJ, Ravizza T, Perego C, De Simoni MG (2002) Functional role of inflammatory cytokines and antiinflammatory molecules in seizures and epileptogenesis. Epilepsia 43 Suppl 5:30–35
32.
Williams K, Alvares X, Lackner AA (2001) Central nervous system perivascular cells are immunoregulatory cells that connect the CNS with the peripheral immune system. Glia 36:156–164CrossRefPubMed
Metadata
Title
Perivascular clustering in temporal lobe epilepsy: oligodendroglial cells of unknown function
Authors
Burkhard S. Kasper
Werner Paulus
Publication date
01-12-2004
Publisher
Springer-Verlag
Published in
Acta Neuropathologica / Issue 6/2004
Print ISSN: 0001-6322
Electronic ISSN: 1432-0533
DOI
https://doi.org/10.1007/s00401-004-0914-3

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