The Drosophila fragile X mental retardation protein controls actin dynamics by directly regulating profilin in the brain

被引：119

作者：

Reeve, SR

Bassetto, L

Genova, GK

Kleyner, Y

Leyssen, M

Jackson, FR

Hassan, BA ^{[1
]}

机构：

[1] Catholic Univ Louvain VIB, Sch Med, Dept Human Genet,Lab Neurogenet, B-3000 Louvain, Belgium

[2] Tufts Univ, Sch Med, Ctr Neurosci Res, Boston, MA 02111 USA

[3] Tufts Univ, Sch Med, Dept Neurosci, Boston, MA 02111 USA

[4] Tufts Univ, Sch Med, Sackler Sch, Grad Program Genet, Boston, MA 02111 USA

来源：

CURRENT BIOLOGY | 2005年 / 15卷 / 12期

关键词：

D O I：

10.1016/j.cub.2005.05.050

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Loss of Fragile X mental retardation protein (FMRP) function causes the highly prevalent Fragile X syndrome [1, 2]. Identifying targets for the RNA binding FMRP is a major challenge and an important goal of research into the pathology of the disease. Perturbations in neuronal development and circadian behavior are seen in Drosophila dfmr1 mutants. Here we show that regulation of the actin cytoskeleton is under dFMRP control. dFMRP binds the mRNA of the Drosophila profilin homolog and negatively regulates Profilm protein expression. An increase in Profilin mimics the phenotype of dfmr1 mutants. Conversely, decreasing Profilin levels suppresses dfmrl phenotypes. These data place a new emphasis on actin mis-regulation as a major problem in dfmr1 mutant neurons.

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收藏

页码：1156 / 1163

页数：8

相关论文

共 25 条

[1] Understanding fragile X syndrome: insights from animal models [J].

Bakker, CE ;

Oostra, BA .

CYTOGENETIC AND GENOME RESEARCH, 2003, 100 (1-4) :111-123

[2] Ciboulot regulates actin assembly during Drosophila brain metamorphosis [J].

Boquet, I ;

Boujemaa, R ;

Carlier, MF ;

Préat, T .

CELL, 2000, 102 (06) :797-808

[3] Microarray identification of FMRP-associated brain mRNAs and altered mRNA translational profiles in fragile X syndrome [J].

Brown, V ;

Jin, P ;

Ceman, S ;

Darnell, JC ;

O'Donnell, WT ;

Tenenbaum, SA ;

Jin, XK ;

Feng, Y ;

Wilkinson, KD ;

Keene, JD ;

Darnell, RB ;

Warren, ST .

CELL, 2001, 107 (04) :477-487

[4] Understanding the biological underpinnings of fragile X syndrome [J].

Chiurazzi, P ;

Neri, G ;

Oostra, BA .

CURRENT OPINION IN PEDIATRICS, 2003, 15 (06) :559-566

[5] Fragile X mental retardation protein targets G quartet mRNAs important for neuronal function [J].

Darnell, JC ;

Jensen, KB ;

Jin, P ;

Brown, V ;

Warren, ST ;

Darnell, RB .

CELL, 2001, 107 (04) :489-499

[6] Drosophila lacking dfmr1 activity show defects in circadian output and fail to maintain courtship interest [J].

Dockendorff, TC ;

Su, HS ;

McBride, SMJ ;

Yang, ZH ;

Choi, CH ;

Siwicki, KK ;

Sehgal, A ;

Jongens, TA .

NEURON, 2002, 34 (06) :973-984

[7] Actin binding proteins: Regulation of cytoskeletal microfilaments [J].

Dos Remedios, CG ;

Chhabra, D ;

Kekic, M ;

Dedova, IV ;

Tsubakihara, M ;

Berry, DA ;

Nosworthy, NJ .

PHYSIOLOGICAL REVIEWS, 2003, 83 (02) :433-473

[8] Rac function and regulation during Drosophila development [J].

Hakeda-Suzuki, S ;

Ng, J ;

Tzu, J ;

Dietzl, G ;

Sun, Y ;

Harms, M ;

Nardine, T ;

Luo, LQ ;

Dickson, BJ .

NATURE, 2002, 416 (6879) :438-442

[9] THE PERIOD CLOCK GENE IS EXPRESSED IN CENTRAL-NERVOUS-SYSTEM NEURONS WHICH ALSO PRODUCE A NEUROPEPTIDE THAT REVEALS THE PROJECTIONS OF CIRCADIAN PACEMAKER CELLS WITHIN THE BRAIN OF DROSOPHILA-MELANOGASTER [J].

HELFRICHFORSTER, C .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1995, 92 (02) :612-616

[10] A role for the Drosophila fragile X-related gene in circadian output [J].

Inoue, SB ;

Shimoda, M ;

Nishinokubi, I ;

Siomi, MC ;

Okamura, M ;

Nakamura, A ;

Kobayashi, S ;

Ishida, N ;

Siomi, H .

CURRENT BIOLOGY, 2002, 12 (15) :1331-1335