The Proline/Arginine-Rich Domain Is a Major Determinant of Dynamin Self-Activation

被引：11

作者：

Barylko, Barbara ^{[1
]}

Wang, Lei ^{[1
]}

Binns, Derk D. ^{[1
]}

Ross, Justin A. ^{[2
]}

Tassin, Tara C. ^{[1
]}

Collins, Katie A. ^{[1
]}

Jameson, David M. ^{[2
]}

Albanesi, Joseph P. ^{[1
]}

机构：

[1] Univ Texas SW Med Ctr Dallas, Dept Pharmacol, Dallas, TX 75235 USA

[2] Univ Hawaii, John A Burns Sch Med, Dept Cell & Mol Biol, Honolulu, HI 96813 USA

来源：

BIOCHEMISTRY | 2010年 / 49卷 / 50期

基金：

美国国家卫生研究院;

关键词：

GTPASE; MECHANISM;

D O I：

10.1021/bi101343p

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：

Dynamins induce membrane vesiculation during endocytosis and Golgi budding in a process that requires assembly-dependent GTPase activation. Brain-specific dynamin 1 has a weaker propensity to self-assemble and self-activate than ubiquitously expressed dynamin 2. Here we show that dynamin 3, which has important functions in neuronal synapses, shares the self-assembly and GTPase activation characteristics of dynamin 2. Analysis of dynamin hybrids and of dynamin I dynamin 2 and dynamin 1 dynamin 3 heteropolymers reveals that concentration-dependent GTPase activation is suppressed by the C-terminal proline/arginine-rich domain of dynamin 1. Dynamin proline/arginine-rich domains also mediate interactions with SH3 domain-containing proteins and thus regulate both self-association and heteroassociation of dynamins.

引用

页码：10592 / 10594

页数：3

共 24 条

[1] GTPase Cycle of Dynamin Is Coupled to Membrane Squeeze and Release, Leading to Spontaneous Fission [J].

Bashkirov, Pavel V. ;

Akimov, Sergey A. ;

Evseev, Alexey I. ;

Schmid, Sandra L. ;

Zimmerberg, Joshua ;

Frolov, Vadim A. .

CELL, 2008, 135 (07) :1276-1286

[2] The mechanism of GTP hydrolysis by dynamin II: A transient kinetic study [J].

Binns, DD ;

Helms, MK ;

Barylko, B ;

Davis, CT ;

Jameson, DM ;

Albanesi, JP ;

Eccleston, JF .

BIOCHEMISTRY, 2000, 39 (24) :7188-7196

[3] Correlation between self-association modes and GTPase activation of dynamin [J].

Binns, DD ;

Barylko, B ;

Grichine, N ;

Atkinson, MAL ;

Helms, MK ;

Jameson, DM ;

Eccleston, JF ;

Albanesi, JP .

JOURNAL OF PROTEIN CHEMISTRY, 1999, 18 (03) :277-290

[4] Differential distribution of dynamin isoforms in mammalian cells [J].

Cao, H ;

Garcia, F ;

McNiven, MA .

MOLECULAR BIOLOGY OF THE CELL, 1998, 9 (09) :2595-2609

[5] A selective activity-dependent requirement for dynamin 1 in synaptic vesicle endocytosis [J].

Ferguson, Shawn M. ;

Brasnjo, Gabor ;

Hayashi, Mitsuko ;

Woelfel, Markus ;

Collesi, Chiara ;

Giovedi, Silvia ;

Raimondi, Andrea ;

Gong, Liang-Wei ;

Ariel, Pablo ;

Paradise, Summer ;

O'Toole, Eileen ;

Flavell, Richard ;

Cremona, Ottavio ;

Miesenboeck, Gero ;

Ryan, Timothy A. ;

De Camilli, Pietro .

SCIENCE, 2007, 316 (5824) :570-574

[6] A dynamin-3 spliced variant modulates the actin/cortactin-dependent morphogenesis of dendritic spines [J].

Gray, NW ;

Kruchten, AE ;

Chen, J ;

McNiven, MA .

JOURNAL OF CELL SCIENCE, 2005, 118 (06) :1279-1290

[7] DYNAMIN SELF-ASSEMBLES INTO RINGS SUGGESTING A MECHANISM FOR COATED VESICLE BUDDING [J].

HINSHAW, JE ;

SCHMID, SL .

NATURE, 1995, 374 (6518) :190-192

[8] Dynamin GTPase regulation is altered by PH domain mutations found in centronuclear myopathy patients [J].

Kenniston, Jon A. ;

Lemmon, Mark A. .

EMBO JOURNAL, 2010, 29 (18) :3054-3067

[9] Phosphatidylinositol (4,5)-bisphosphate-dependent activation of dynamins I and II lacking the proline/arginine-rich domains [J].

Lin, HC ;

Barylko, B ;

Achiriloaie, M ;

Albanesi, JP .

JOURNAL OF BIOLOGICAL CHEMISTRY, 1997, 272 (41) :25999-26004

[10] Postsynaptic positioning of endocytic zones and AMPA receptor cycling by physical coupling of dynamin-3 to homer [J].

Lu, Jiuyi ;

Helton, Thomas D. ;

Blanpied, Thomas A. ;

Racz, Bence ;

Newpher, Thomas M. ;

Weinberg, Richard J. ;

Ehlers, Michael D. .

NEURON, 2007, 55 (06) :874-889

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