Persistence of Long-Term Memory Storage: New Insights into its Molecular Signatures in the Hippocampus and Related Structures

被引：71

作者：

Bekinschtein, Pedro ^{[1
]}

Katche, Cynthia ^{[1
]}

Slipczuk, Leandro ^{[1
]}

Gonzalez, Carolina ^{[1
]}

Dorman, Guido ^{[1
]}

Cammarota, Martin ^{[1
,3
]}

Izquierdo, Ivan ^{[3
]}

Medina, Jorge H. ^{[1
,2
,3
]}

机构：

[1] UBA, Fac Med, Inst Biol Celular & Neurociencias, RA-1121 Buenos Aires, DF, Argentina

[2] UBA, Fac Med, Dept Fisiol, RA-1121 Buenos Aires, DF, Argentina

[3] Pontificia Univ Catolica Rio Grande do Sul, Inst Pesquisas Biomed, Ctr Memoria, Porto Alegre, RS, Brazil

来源：

NEUROTOXICITY RESEARCH | 2010年 / 18卷 / 3-4期

关键词：

Memory; Hippocampus; Persistence; BDNF; Consolidation; REQUIRES PROTEIN-SYNTHESIS; CONTEXTUAL FEAR MEMORY; ELEMENT-BINDING PROTEIN; 2 CRITICAL PERIODS; SPATIAL MEMORY; RECEPTOR-BINDING; RAT HIPPOCAMPUS; MESSENGER-RNA; NMDA RECEPTOR; PKM-ZETA;

D O I：

10.1007/s12640-010-9155-5

中图分类号：

Q189 [神经科学];

学科分类号：

071006 ;

摘要：

Although much is known about long-term memory (LTM) consolidation, what puts the "long" in LTM is the exclusive feature of persisting over time. However, until recently the molecular mechanisms underneath memory persistence had never been properly studied. In rats, the protein translation inhibitor anisomycin impaired memory persistence when injected into the dorsal hippocampus 12 h after inhibitory avoidance (IA) training without affecting memory formation. Here, we also show learning-induced changes in hippocampal c-Fos, Homer 1a, Akt, CamKII alpha, and ERK2 levels around 18-24 h after IA training. Thus, memory persistence is associated with a late phase of plasticity-related protein synthesis in the hippocampus.

引用

页码：377 / 385

页数：9

共 59 条

[1] Genetic demonstration of a role for PKA in the late phase of LTP and in hippocampus-based long-term memory [J].

Abel, T ;

Nguyen, PV ;

Barad, M ;

Deuel, TAS ;

Kandel, ER .

CELL, 1997, 88 (05) :615-626

[2] Aversive experiences are associated with a rapid and transient activation of ERKs in the rat hippocampus. [J].

Alonso, M ;

Viola, H ;

Izquierdo, I ;

Medina, JH .

NEUROBIOLOGY OF LEARNING AND MEMORY, 2002, 77 (01) :119-124

[3] The persistence of long-term memory: A molecular approach to self-sustaining changes in learning-induced synaptic growth [J].

Bailey, CH ;

Kandel, ER ;

Si, KS .

NEURON, 2004, 44 (01) :49-57

[4] Control of the establishment of aversive memory by calcineurin and Zif268 [J].

Baumgaertel, Karsten ;

Genoux, David ;

Welzl, Hans ;

Tweedie-Cullen, Ry Y. ;

Koshibu, Kyoko ;

Livingstone-Zatchej, Magdalena ;

Mamie, Celine ;

Mansuy, Isabelle M. .

NATURE NEUROSCIENCE, 2008, 11 (05) :572-578

[5] BDNF and memory formation and storage [J].

Bekinschtein, Pedro ;

Cammarota, Martin ;

Izquierdo, Ivan ;

Medina, Jorge H. .

NEUROSCIENTIST, 2008, 14 (02) :147-156

[6] Persistence of long-term memory storage requires a late protein synthesis- and BDNF-dependent phase in the hippocampus [J].

Bekinschtein, Pedro ;

Cammarota, Martin ;

Igaz, Lionel Muller ;

Bevilaqua, Lia R. M. ;

Izquierdo, Ivan ;

Medina, Jorge H. .

NEURON, 2007, 53 (02) :261-277

[7] Memory extinction, learning anew, and learning the new: Dissociations in the molecular machinery of learning in cortex [J].

Berman, DE ;

Dudai, Y .

SCIENCE, 2001, 291 (5512) :2417-2419

[8]

Bourtchouladze R, 1998, LEARN MEMORY, V5, P365

[9] The Immediate Early Gene Arc/Arg3.1: Regulation, Mechanisms, and Function [J].

Bramham, Clive R. ;

Worley, Paul F. ;

Moore, Melissa J. ;

Guzowski, John F. .

JOURNAL OF NEUROSCIENCE, 2008, 28 (46) :11760-11767

[10] Perirhinal and postrhinal contributions to remote memory for context [J].

Burwell, RD ;

Bucci, DJ ;

Sanborn, MR ;

Jutras, MJ .

JOURNAL OF NEUROSCIENCE, 2004, 24 (49) :11023-11028

← 1 2 3 4 5 6 →