Phosphatidylinositol 4,5-bisphosphate stimulates vesicle formation from liposomes by brain cytosol

Kinuta, Masahiro; Yamada, Hiroshi; Abe, Tadashi; Watanabe, Masami; Li, Shun Ai; Kamitani, Akihiro; Yasuda, Tatsuji; Matsukawa, Takashi; Kumon, Hiromi; Takei, Kohji

doi:10.1073/pnas.261715599

Cited by 29 publications

(20 citation statements)

References 53 publications

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“…Dynamin‐dependent vesicle formation can be reconstituted in vitro by incubation of large unilamellar liposomes with brain cytosol in the presence of nucleotides, and monitored quantitatively by dynamic light scattering (DLS) (Kinuta et al , 2002). To establish the importance of amphiphysin in vesicle formation, we compared brain cytosol from wild‐type and amphiphysin 1 knockout mice in this assay.…”

Section: Resultsmentioning

confidence: 99%

“…Brain cytosol from wild‐type mice and amphiphysin 1 knockout mice (Di Paolo et al , 2002) was prepared essentially by the previous method and used (Kinuta et al , 2002). Dynamin 1 was purified from bovine brains by the method of Liu et al (1994).…”

Section: Methodsmentioning

confidence: 99%

“…Large unilamellar liposomes composed of 80% (w/w) FF and 20% cholesterol in 0.3 M sucrose (1 mg/ml) were prepared as described previously (Takei et al , 1999). Vesicle formation was performed by the method of Kinuta et al (2002), with minor modification. A reaction mixture (500 μl) containing cytosolic buffer (25 mM Hepes–KOH (pH 7.2), 25 mM KCl, 2.5 mM magnecium acetate, 100 mM potassium glutamate), 100 μg of liposomes, brain cytosol from either wild‐type or amphiphysin knockout mice (500 μg/ml protein), 2 mM ATP and 200 μM GTP was incubated at 37°C for 15 min.…”

Section: Methodsmentioning

confidence: 99%

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The stimulatory action of amphiphysin on dynamin function is dependent on lipid bilayer curvature

Yoshida

Kinuta

Abe

et al. 2004

EMBO J

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112

120

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Amphiphysin is a major dynamin-binding partner at the synapse; however, its function in fission is unclear. Incubation of large unilamellar liposomes with mice brain cytosol led to massive formation of small vesicles, whereas cytosol of amphiphysin 1 knockout mice was much less efficient in this reaction. Vesicle formation from large liposomes by purified dynamin was also strongly enhanced by amphiphysin. In the presence of liposomes, amphiphysin strongly affected dynamin GTPase activity and the recruitment of dynamin to the liposomes, but this activity was highly dependent on liposome size. Deletion from amphiphysin of its central proline-rich stretch dramatically potentiated its effect on dynamin, possibly by relieving an inhibitory intramolecular interaction. These results suggest a model in which maturation of endocytic pits correlates with the oligomerization of dynamin with either amphiphysin or other proteins with similar domain structure. Formation of these complexes is coupled to the activation of dynamin GTPase activity, thus explaining how deep invagination of the pit leads to fission.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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The stimulatory action of amphiphysin on dynamin function is dependent on lipid bilayer curvature

Yoshida

Kinuta

Abe

et al. 2004

EMBO J

Self Cite

112

120

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“…For actin polymerization assay, small liposomes of uniform size, ϳ100 nm in diameter, composed of 50% PS/50% PC, 50% phosphatidylethanolamine/50% PC, 50% PI/50% PC, 50% phosphatidic acid/50% PC, or 10% PI(4,5)P 2 /90% PC were used. For this purpose, large unilamellar liposomes in 1 mM EDTA, 20 mM Hepes, pH 7.4, were prepared as described previously (21) and then extruded in a syringe-type extruder (Avanti Polar Lipids) six times through polycarbonate membranes (pore size, 100 nm).…”

Section: Methodsmentioning

confidence: 99%

Dynamic interaction of amphiphysin with N-WASP regulates actin assembly

Yamada¹,

Padilla‐Parra²,

Park³

et al. 2011

Okayama I. Z.

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Amphiphysin 1, an endocytic adaptor concentrated at synapses that couples clathrin-mediated endocytosis to dynamin-dependent fission, was also shown to have a regulatory role in actin dynamics. Here, we report that amphiphysin 1 interacts with N-WASP and stimulates N-WASP-and Arp2/3-dependent actin polymerization. Both the Src homology 3 and the N-BAR domains are requiredforthisstimulation.Acidicliposome-triggered,N-WASPdependent actin polymerization is strongly impaired in brain cytosol of amphiphysin 1 knock-out mice. FRET-FLIM analysis of Sertoli cells, where endogenously expressed amphiphysin 1 colocalizes with N-WASP in peripheral ruffles, confirmed the association between the two proteins in vivo. This association undergoes regulation and is enhanced by stimulating phosphatidylserine receptors on the cell surface with phosphatidylserine-containing liposomes that trigger ruffle formation. These results indicate that actin regulation is a key function of amphiphysin 1 and that such function cooperates with the endocytic adaptor role and membrane shaping/curvature sensing properties of the protein during the endocytic reaction.The dynamic nature of the actin cytoskeleton is crucial for a variety of cellular events, including cell morphogenesis, cell migration, and intracellular membrane traffic (1). Actin polymerization is stimulated by a variety of actin regulatory proteins, prominent among which are WASP family proteins that function by triggering Arp2/3-mediated actin nucleation (2). Activation of WASP family proteins, in turn, is controlled by factors that bind these proteins and release an autoinhibitory intramolecular interaction that prevents their VCA domain from interacting with the Arp2/3 complex. As extensively shown for N-WASP, many such factors are proteins that bind to the N-WASP proline-rich region via the SH3 4 domain. Recently, we have found that the SH3 domain containing protein amphiphysin 1 stimulates actin polymerization during phagocytosis in testicular Sertoli cells, and this effect requires interactions of its C-terminal SH3 domain (3). Amphiphysin 1 is an endocytic adaptor present at high levels in brain at neuronal synapses but is also expressed at significant levels in Sertoli cells (4,5). In addition to a C-terminal SH3 domain, known to bind the GTPase dynamin and the phosphoinositide phosphatase synaptojanin (6), amphiphysin 1 contains an N-terminal BAR domain, a curved protein module that binds lipid bilayers and generates and senses curvature (7,8). It also contains binding motifs for clathrin and for the clathrin adaptor AP-2 (9). Hence, amphiphysin 1 was primarily studied as an endocytic protein capable of assembling at the neck of endocytic pits and of coupling clathrin-mediated budding to dynamin-mediated fission (10, 11). However, regulatory roles of amphiphysin 1 in actin cytoskeleton have also been suggested by studies of neuronal growth cones (12) and by the function of the amphiphysin homologue in yeast, . 81-86-235-7126; E-mail: kohji@md.okayama-u.ac.jp. 4 The abbrevi...

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“…Phosphoinositide kinase activity in total brain lysate was determined as described previously (40). Lipids were separated by TLC using 70 mM CHCl 3, 100 mM MeOH, 25 mM H 2 O , and 15 mM NH4OH (vol/vol).…”

Section: Emmentioning

confidence: 99%

PIP5KIγ is required for cardiovascular and neuronal development

Wang

Lian²,

Golden³

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

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All eukaryotic cells contain the phospholipid phosphatidylinositol 4, 5-bisphosphate (PIP2) that serves multiple roles in signal transduction cascades. Type I phosphatidylinositol-4-phosphate 5-kinase (PIP5KI) catalyzes the synthesis of PIP2 by phosphorylating phosphatidylinositol 4 phosphate. Although the classical isoforms of PIP5KI (designated as ␣, ␤, and ␥) all generate the same phospholipid product, they have significantly dissimilar primary structures and expression levels in different tissues, and they appear to localize within different compartments within the cell. Therefore, it appears likely that PIP5KI isoforms have overlapping, but not identical, functions. Here we show that targeted disruption of PIP5KI␥ causes widespread developmental and cellular defects. PIP5KI␥-null embryos have myocardial developmental defects associated with impaired intracellular junctions that lead to heart failure and extensive prenatal lethality at embryonic day 11.5 of development. Loss of PIP5KI␥ also results in neural tube closure defects that were associated with impaired PIP2 production, adhesion junction formation, and neuronal cell migration. These data, along with those of other PIP5KI isoforms, indicate that individual PIP5KI isoenzymes fulfill specific roles in embryonic development.phosphoinositide ͉ phospholipid ͉ phosphatidylinositol 4,5-bisphosphate

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Phosphatidylinositol 4,5-bisphosphate stimulates vesicle formation from liposomes by brain cytosol

Cited by 29 publications

References 53 publications

The stimulatory action of amphiphysin on dynamin function is dependent on lipid bilayer curvature

The stimulatory action of amphiphysin on dynamin function is dependent on lipid bilayer curvature

Dynamic interaction of amphiphysin with N-WASP regulates actin assembly

PIP5KIγ is required for cardiovascular and neuronal development

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