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Literature DB >> 22383651

General considerations for live imaging of developing hippocampal neurons in culture.

Stefanie Kaech, Chun-Fang Huang, Gary Banker.

Abstract

Dissociated cell cultures of the rodent hippocampus have become a standard model for studying many facets of neural development, including the development of polarity, axonal and dendritic growth, and synapse formation. The cultures are quite homogeneous--∼90% of the cells are pyramidal neurons--and it is relatively easy to express green fluorescent protein (GFP)-tagged proteins by transfection. This article describes the cultures and the key features of the system used to image them. It also includes suggestions on labeling cells with GFP-tagged proteins. It concludes with a discussion of the advantages and disadvantages of this culture system.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2012 PMID： 22383651 PMCID： PMC4438674 DOI： 10.1101/pdb.ip068221

Source DB: PubMed Journal: Cold Spring Harb Protoc ISSN： 1559-6095

31 in total

1. Visualization of microtubule growth in cultured neurons via the use of EB3-GFP (end-binding protein 3-green fluorescent protein).

Authors: Tatiana Stepanova; Jenny Slemmer; Casper C Hoogenraad; Gideon Lansbergen; Bjorn Dortland; Chris I De Zeeuw; Frank Grosveld; Gert van Cappellen; Anna Akhmanova; Niels Galjart
Journal: J Neurosci Date: 2003-04-01 Impact factor: 6.167

2. Cortical neurons arise in symmetric and asymmetric division zones and migrate through specific phases.

Authors: Stephen C Noctor; Verónica Martínez-Cerdeño; Lidija Ivic; Arnold R Kriegstein
Journal: Nat Neurosci Date: 2004-01-04 Impact factor: 24.884

Review 3. The multipolar stage and disruptions in neuronal migration.

Authors: Joseph J LoTurco; Jilin Bai
Journal: Trends Neurosci Date: 2006-05-19 Impact factor: 13.837

4. Real-time imaging of discrete exocytic events mediating surface delivery of AMPA receptors.

Authors: Guillermo A Yudowski; Manojkumar A Puthenveedu; Dmitri Leonoudakis; Sandip Panicker; Kurt S Thorn; Eric C Beattie; Mark von Zastrow
Journal: J Neurosci Date: 2007-10-10 Impact factor: 6.167

5. Actin-dependent anterograde movement of growth-cone-like structures along growing hippocampal axons: a novel form of axonal transport?

Authors: G Ruthel; G Banker
Journal: Cell Motil Cytoskeleton Date: 1998

6. Efficient selection for high-expression transfectants with a novel eukaryotic vector.

Authors: H Niwa; K Yamamura; J Miyazaki
Journal: Gene Date: 1991-12-15 Impact factor: 3.688

7. Short-term high-resolution imaging of developing hippocampal neurons in culture.

Authors: Stefanie Kaech; Chun-Fang Huang; Gary Banker
Journal: Cold Spring Harb Protoc Date: 2012-03-01

8. Doublecortin associates with microtubules preferentially in regions of the axon displaying actin-rich protrusive structures.

Authors: Irina Tint; Daphney Jean; Peter W Baas; Mark M Black
Journal: J Neurosci Date: 2009-09-02 Impact factor: 6.167

9. Shootin1: A protein involved in the organization of an asymmetric signal for neuronal polarization.

Authors: Michinori Toriyama; Tadayuki Shimada; Ki Bum Kim; Mari Mitsuba; Eiko Nomura; Kazuhiro Katsuta; Yuichi Sakumura; Peter Roepstorff; Naoyuki Inagaki
Journal: J Cell Biol Date: 2006-10-09 Impact factor: 10.539

10. Microtubules provide directional cues for polarized axonal transport through interaction with kinesin motor head.

Authors: Takao Nakata; Nobutaka Hirokawa
Journal: J Cell Biol Date: 2003-09-15 Impact factor: 10.539

11 in total

1. Short-term high-resolution imaging of developing hippocampal neurons in culture.

Authors: Stefanie Kaech; Chun-Fang Huang; Gary Banker
Journal: Cold Spring Harb Protoc Date: 2012-03-01

2. Long-term time-lapse imaging of developing hippocampal neurons in culture.

Authors: Stefanie Kaech; Chun-Fang Huang; Gary Banker
Journal: Cold Spring Harb Protoc Date: 2012-03-01

3. Rapid genotyping of animals followed by establishing primary cultures of brain neurons.

Authors: Jin-Young Koh; Sadahiro Iwabuchi; Zhengmin Huang; N Charles Harata
Journal: J Vis Exp Date: 2015-01-29 Impact factor: 1.355

4. Axonal transport plays a crucial role in mediating the axon-protective effects of NmNAT.

Authors: Cheng Fang; Helena Decker; Gary Banker
Journal: Neurobiol Dis Date: 2014-04-28 Impact factor: 5.996

5. The Role of ATF3 in Neuronal Differentiation and Development of Neuronal Networks in Opossum Postnatal Cortical Cultures.

Authors: Antonela Petrović; Jelena Ban; Matea Ivaničić; Ivana Tomljanović; Miranda Mladinic
Journal: Int J Mol Sci Date: 2022-04-29 Impact factor: 6.208

6. A novel labeling strategy reveals that myosin Va and myosin Vb bind the same dendritically polarized vesicle population.

Authors: Madeline Frank; Clara G Citarella; Geraldine B Quinones; Marvin Bentley
Journal: Traffic Date: 2020-11 Impact factor: 6.215

7. Selective regulation of axonal growth from developing hippocampal neurons by tumor necrosis factor superfamily member APRIL.

Authors: Catarina Osório; Pedro J Chacón; Matthew White; Lilian Kisiswa; Sean Wyatt; Alfredo Rodríguez-Tébar; Alun M Davies
Journal: Mol Cell Neurosci Date: 2014-01-18 Impact factor: 4.314

General considerations for live imaging of developing hippocampal neurons in culture.

1. Visualization of microtubule growth in cultured neurons via the use of EB3-GFP (end-binding protein 3-green fluorescent protein).

2. Cortical neurons arise in symmetric and asymmetric division zones and migrate through specific phases.

Review 3. The multipolar stage and disruptions in neuronal migration.

4. Real-time imaging of discrete exocytic events mediating surface delivery of AMPA receptors.

5. Actin-dependent anterograde movement of growth-cone-like structures along growing hippocampal axons: a novel form of axonal transport?

6. Efficient selection for high-expression transfectants with a novel eukaryotic vector.

7. Short-term high-resolution imaging of developing hippocampal neurons in culture.

8. Doublecortin associates with microtubules preferentially in regions of the axon displaying actin-rich protrusive structures.

9. Shootin1: A protein involved in the organization of an asymmetric signal for neuronal polarization.

10. Microtubules provide directional cues for polarized axonal transport through interaction with kinesin motor head.

1. Short-term high-resolution imaging of developing hippocampal neurons in culture.

2. Long-term time-lapse imaging of developing hippocampal neurons in culture.

3. Rapid genotyping of animals followed by establishing primary cultures of brain neurons.

4. Axonal transport plays a crucial role in mediating the axon-protective effects of NmNAT.

5. The Role of ATF3 in Neuronal Differentiation and Development of Neuronal Networks in Opossum Postnatal Cortical Cultures.

6. A novel labeling strategy reveals that myosin Va and myosin Vb bind the same dendritically polarized vesicle population.

7. Selective regulation of axonal growth from developing hippocampal neurons by tumor necrosis factor superfamily member APRIL.

8. Establishment of Long-Term Primary Cortical Neuronal Cultures From Neonatal Opossum Monodelphis domestica.

9. NgCAM and VAMP2 reveal that direct delivery and dendritic degradation maintain axonal polarity.

10. Monodelphis domestica: a new source of mammalian primary neurons in vitro.