Postnatal development of synaptopodin expression in the rodent hippocampus

Journal of Comparative Neurology

Volumn 490, Issue 2, 2005, Pages 133-144

  Czarnecki, Kathrin ^a   Haas, Carola A ^a   Bas Orth, Carlos ^b   Deller, Thomas ^b   Frotscher, Michael ^a  

^a UNIVERSITY OF FREIBURG   (Germany)

^b GOETHE UNIVERSITY   (Germany)

Author keywords

Dendritic spines; Hippocampal formation; Mossy cells; Neuronal differentiation; Synaptic plasticity

Indexed keywords

ACTIN BINDING PROTEIN; MESSENGER RNA; SYNAPTOPODIN;

ADOLESCENT; AGED; ANIMAL CELL; ANIMAL TISSUE; ANTIBODY LABELING; ARTICLE; CONTROLLED STUDY; DENDRITIC SPINE; DENTATE GYRUS; GRANULE CELL; HIPPOCAMPUS; IMMUNOHISTOCHEMISTRY; IMMUNOREACTIVITY; INTERNEURON; NERVE CELL DIFFERENTIATION; NERVE CELL PLASTICITY; NONHUMAN; NUCLEOTIDE SEQUENCE; PODOCYTE; POSTNATAL DEVELOPMENT; PRIORITY JOURNAL; PROTEIN EXPRESSION; PROTEIN LOCALIZATION; PYRAMIDAL NERVE CELL; RAT;

AGE FACTORS; ANIMALS; ANIMALS, NEWBORN; CALCIUM-BINDING PROTEIN, VITAMIN D-DEPENDENT; GENE EXPRESSION REGULATION, DEVELOPMENTAL; GREEN FLUORESCENT PROTEINS; HIPPOCAMPUS; IMMUNOHISTOCHEMISTRY; IN SITU HYBRIDIZATION; MICE; MICE, INBRED C57BL; MICROFILAMENT PROTEINS; MICROSCOPY, CONFOCAL; PARVALBUMINS; RATS; RATS, SPRAGUE-DAWLEY; RNA, MESSENGER;

EID: 23744481505     PISSN: 00219967     EISSN: None     Source Type: Journal    
DOI: 10.1002/cne.20651     Document Type: Article

References (33)

1. Bas Orth C, Vlachos A, Del Turco D, Burbach GJ, Haas CA, Mundel P, Feng G, Frotscher M, Deller T. 2005. Lamina-specific distribution of synaptopodin, an actin-associated molecule essential for the spine apparatus, in identified principal cell dendrites of the mouse hippocampus. J Comp Neurol 487:227-239.
2. 3H-thymidine autoradiography. J Comp Neurol 190:87-114.
3. Bayer S. 1980b. Development of the hippocampal region in the rat. II. Morphogenesis during embryonic and early postnatal life. J Comp Neurol 190:115-134.
4. Bekenstein JW, Lothman EW. 1991. An in vivo study of the ontogeny of long-term potentiation (LTP) in the CA1 region and in the dentate gyrus of the rat. Brain Res Dev Brain Res 63:245-251.
5. 2+-storing compartment associated with GABAergic synapses in the axon initial segment of hippocampal pyramidal neurones. Exp Brain Res 101:216-230.
6. Collin C, Miyaguchi K, Segal M. 1997. Dendritic spine density and LTP induction in cultured hippocampal slices. J Neurophysiol 77:1614-1623.
7. Deller T, Merten T, Roth SU, Mundel P, Frotscher M. 2000a. Actin-associated protein synaptopodin in the rat hippocampal formation: localization in the spine neck and close association with the spine apparatus of principal neurons. J Comp Neurol 418:164-181.
8. Deller T, Mundel P, Frotscher M. 2000b. Potential role of synaptopodin in spine motility by coupling actin to the spine apparatus. Hippocampus 10:569-581.
9. Deller T, Korte M, Chabanis S, Drakew A, Schwegler H, Stefani GG, Zuniga A, Schwarz K, Bonhoeffer T, Zeller R, Frotscher M, Mundel P. 2003. Synaptopodin-deficient mice lack a spine apparatus and show deficits in synaptic plasticity. Proc Natl Acad Sci U S A 100:10494-10499.
10. Durand GM, Kovalchuk Y, Konnerth A. 1996. Long-term potentiation and functional synapse induction in developing hippocampus. Nature 381: 71-75.
11. Engert E, Bonhoeffer T. 1999. Dendritic spine changes associated with hippocampal long-term synaptic plasticity. Nature 339:66-70.
12. Feng G, Mellor RH, Bernstein M, Keller-Peck C, Nguyen QT, Wallace M, Nerbonne JM, Lichtmann JW, Sanes JR. 2000. Imaging neuronal subsets in transgenic mice expressing multiple spectral variants of GFP. Neuron 28:41-51.
13. Fifkova E, Markham JA, Delay RJ. 1983. Calcium in the spine apparatus of dendritic spines in the dentate molecular layer. Brain Res 266:163-168.
14. Fischer M, Kaech S, Knutti D, Matus A. 1998. Rapid actin-based plasticity in dendritic spines. Neuron 20:847-854.
15. Frotscher M, Zafirov S, Heimrich B. 1995. Development of identified neuronal types and of specific synaptic connections in slice cultures of rat hippocampus. Prog Neurobiol 45:143-164.
16. Fukazawa Y, Saitoh Y, Ozawa F, Ohta Y, Mizuno K, Inokuchi K. 2003. Hippocampal LTP is accompanied by enhanced F-actin content within the dendritic spine that is essential for late LTP maintenance in vivo. Neuron 38:447-460.
17. Harris KM, Jensen FE, Tsao BH. 1992. Three-dimensional structure of dendritic spines and synapses in rat hippocampus (CA1) at postnatal day 15 and adult ages: implications for the maturation of synaptic physiology and long-term potentiation. J Neurosci 12:2685-2705.
18. Jackson PS, Suppes T, Harris KM. 1993. Stereotypical changes in the pattern and duration of long-term potentiation expressed at postnatal days 11 and 15 in the rat hippocampus. J Neurophysiol 70:1412-1419.
19. Kaplan MS, Bell DH. 1984. Mitotic neuroblasts in the 9-day-old and 11-month-old rodent hippocampus. J Neurosci 4:1429-1441.
20. Kremerskothen J, Plaas C, Kindler S, Frotscher M, Barnekow A. 2005. Synaptopodin, a molecule involved in the formation of the dendritic spine apparatus, is a dual actin/α-actinin binding protein. J Neurochem 92:597-606.
21. Kuhn HG, Dickinson-Anson H, Gage F. 1996. Neurogenesis in the dentate gyrus of the adult rat: age-related decrease of neuronal progenitor proliferation. J Neurosci 16:2027-2033.
22. Lisman JA. 1989. A mechanism for the Hebb and anti-Hebb processes underlying learning and memory. Proc Natl Acad Sci U S A 86:9574-9578.
23. Lubbers K, Frotscher M. 1988. Differentiation of granule cells in relation to GABAergic neurons in the rat fascia dentata. Combined Golgi/EM and immunocytochemical studies. Anat Embryol 178:119-127.
24. Matus A, Ackermann M, Pehling G, Byers HR, Fujiwara K. 1982. High actin concentration in brain dendritic spines and postsynaptic densities. Proc Natl Acad Sci U S A 79:7590-7594.
25. Matyas F, Freund TF, Gulyas AI. 2004. Immunocytochemically defined interneuron populations in the hippocampus of mouse strains used in transgenic technology. Hippocampus 14:460-481.
26. Minkwitz H-G. 1976. Zur Entwicklung der Neuronenstruktur des Hippocampus während der prä- und postnatalen Ontogenese der Albinoratte. III. Mitteilung: Morphometrische Erfassung der ontogenetischen Veränderungen in Dendritenstruktur und Spinebesatz an Pyramidenneuronen (CA1) des Hippocampus. J Hirnforsch 17:254-270.
27. Muller D, Buchs PA, Stoppini L. 1993. Time course of synaptic development in hippocampal organotypic cultures. Brain Res Dev Brain Res 71:93-100.
28. Mundel P, Heid HW, Mundel TM, Kruger M, Reiser J, Kriz W. 1997. Synaptopodin: an actin-associated protein in telencephalic dendrites and renal podocytes. J Cell Biol 139:193-204.
29. Spacek J. 1985. Three-dimensional analysis of dendritic spines. II. Spine apparatus and other cytoplasmic components. Anat Embryol 171:235-243.
30. 2+]: intracellular stores spill their guts. Neuron 22:427-430.
31. Teyler TJ, Perkins AT 4th, Harris KM. 1989. The development of long-term potentiation in hippocampus and neocortex. Neuropsychologia 27:31-39.
32. Wilson DA. 1984. A comparison of the postnatal development of post-activation potentiation in the neocortex and dentate gyrus of the rat. Brain Res 318:61-68.
33. Yamazaki M, Matsuo R, Fukazawa Y, Ozawa F, Inokuchi K. 2001. Regulated expression of an actin-associated protein, synaptopodin, during long-term potentiation. J Neurochem 79:192-199.