scholarly journals Exophilin-8 assembles secretory granules for exocytosis in the actin cortex via interaction with RIM-BP2 and myosin-VIIa

eLife ◽  
2017 ◽  
Vol 6 ◽  
Author(s):  
Fushun Fan ◽  
Kohichi Matsunaga ◽  
Hao Wang ◽  
Ray Ishizaki ◽  
Eri Kobayashi ◽  
...  
Keyword(s):  
Secretory Granules ◽  
Direct Interaction ◽  
Null Mouse ◽  
Cell Periphery ◽  
Actin Network ◽  
Actin Cortex ◽  
Granule Membrane ◽  
Mouse Pancreatic Islets ◽  
Myosin Va ◽  
Myosin Viia

Exophilin-8 has been reported to play a role in anchoring secretory granules within the actin cortex, due to its direct binding activities to Rab27 on the granule membrane and to F-actin and its motor protein, myosin-Va. Here, we show that exophilin-8 accumulates granules in the cortical F-actin network not by direct interaction with myosin-Va, but by indirect interaction with a specific form of myosin-VIIa through its previously unknown binding partner, RIM-BP2. RIM-BP2 also associates with exocytic machinery, Cav1.3, RIM, and Munc13-1. Disruption of the exophilin-8–RIM-BP2–myosin-VIIa complex by ablation or knockdown of each component markedly decreases both the peripheral accumulation and exocytosis of granules. Furthermore, exophilin-8-null mouse pancreatic islets lose polarized granule localization at the β-cell periphery and exhibit impaired insulin secretion. This newly identified complex acts as a physical and functional scaffold and provides a mechanism supporting a releasable pool of granules within the F-actin network beneath the plasma membrane.

scholarly journals Rab27A and its effector MyRIP link secretory granules to F-actin and control their motion towards release sites

2003 ◽  
Vol 163 (3) ◽  
pp. 559-570 ◽  
Author(s):  
Claire Desnos ◽  
Jean-Sébastien Schonn ◽  
Sébastien Huet ◽  
Viet Samuel Tran ◽  
Aziz El-Amraoui ◽  
...  
Keyword(s):  
Pc12 Cells ◽  
Evanescent Wave ◽  
Chromaffin Cells ◽  
Secretory Granules ◽  
Adrenal Chromaffin Cells ◽  
Actin Cortex ◽  
Myosin Va ◽  
Myosin Viia ◽  
Adrenal Chromaffin ◽  
And Control

The GTPase Rab27A interacts with myosin-VIIa and myosin-Va via MyRIP or melanophilin and mediates melanosome binding to actin. Here we show that Rab27A and MyRIP are associated with secretory granules (SGs) in adrenal chromaffin cells and PC12 cells. Overexpression of Rab27A, GTPase-deficient Rab27A-Q78L, or MyRIP reduced secretory responses of PC12 cells. Amperometric recordings of single adrenal chromaffin cells revealed that Rab27A-Q78L and MyRIP reduced the sustained component of release. Moreover, these effects on secretion were partly suppressed by the actin-depolymerizing drug latrunculin but strengthened by jasplakinolide, which stabilizes the actin cortex. Finally, MyRIP and Rab27A-Q78L restricted the motion of SGs in the subplasmalemmal region of PC12 cells, as measured by evanescent-wave fluorescence microscopy. In contrast, the Rab27A-binding domain of MyRIP and a MyRIP construct that interacts with myosin-Va but not with actin increased the mobility of SGs. We propose that Rab27A and MyRIP link SGs to F-actin and control their motion toward release sites through the actin cortex.

scholarly journals Coupled myosin VI motors facilitate unidirectional movement on an F-actin network

2009 ◽  
Vol 187 (1) ◽  
pp. 53-60 ◽  
Author(s):  
Sivaraj Sivaramakrishnan ◽  
James A. Spudich
Keyword(s):  
Single Molecule ◽  
Membrane Trafficking ◽  
Cell Periphery ◽  
Myosin Vi ◽  
Actin Network ◽  
Cortical Actin ◽  
Actin Cortex ◽  
Unidirectional Movement ◽  
Transport Vesicle ◽  
Pointed End

Unconventional myosins interact with the dense cortical actin network during processes such as membrane trafficking, cell migration, and mechanotransduction. Our understanding of unconventional myosin function is derived largely from assays that examine the interaction of a single myosin with a single actin filament. In this study, we have developed a model system to study the interaction between multiple tethered unconventional myosins and a model F-actin cortex, namely the lamellipodium of a migrating fish epidermal keratocyte. Using myosin VI, which moves toward the pointed end of actin filaments, we directly determine the polarity of the extracted keratocyte lamellipodium from the cell periphery to the cell nucleus. We use a combination of experimentation and simulation to demonstrate that multiple myosin VI molecules can coordinate to efficiently transport vesicle-size cargo over 10 µm of the dense interlaced actin network. Furthermore, several molecules of monomeric myosin VI, which are nonprocessive in single molecule assays, can coordinate to transport cargo with similar speeds as dimers.

scholarly journals Author response: Exophilin-8 assembles secretory granules for exocytosis in the actin cortex via interaction with RIM-BP2 and myosin-VIIa

2017 ◽  
Author(s):  
Fushun Fan ◽  
Kohichi Matsunaga ◽  
Hao Wang ◽  
Ray Ishizaki ◽  
Eri Kobayashi ◽  
...  
Keyword(s):  
Secretory Granules ◽  
Author Response ◽  
Actin Cortex ◽  
Myosin Viia

scholarly journals The Role of Rab27a in the Regulation of Melanosome Distribution within Retinal Pigment Epithelial Cells

2004 ◽  
Vol 15 (5) ◽  
pp. 2264-2275 ◽  
Author(s):  
Clare E. Futter ◽  
José S. Ramalho ◽  
Gesine B. Jaissle ◽  
Mathias W. Seeliger ◽  
Miguel C. Seabra
Keyword(s):  
Actin Cytoskeleton ◽  
Pigment Epithelium ◽  
Retinal Pigment ◽  
Adherens Junction ◽  
Retinal Pigment Epithelial Cells ◽  
Cell Periphery ◽  
Light Cycle ◽  
Cortical Actin ◽  
Myosin Va ◽  
Myosin Viia

Melanosomes within the retinal pigment epithelium (RPE) of mammals have long been thought to exhibit no movement in response to light, unlike fish and amphibian RPE. Here we show that the distribution of melanosomes within the mouse RPE undergoes modest but significant changes with the light cycle. Two hours after light onset, there is a threefold increase in the number of melanosomes in the apical processes that surround adjacent photoreceptors. In skin melanocytes, melanosomes are motile and evenly distributed throughout the cell periphery. This distribution is due to the interaction with the cortical actin cytoskeleton mediated by a tripartite complex of Rab27a, melanophilin, and myosin Va. In ashen (Rab27a null) mice RPE, melanosomes are unable to move beyond the adherens junction axis and do not enter apical processes, suggesting that Rab27a regulates melanosome distribution in the RPE. Unlike skin melanocytes, the effects of Rab27a are mediated through myosin VIIa in the RPE, as evidenced by the similar melanosome distribution phenotype observed in shaker-1 mice, defective in myosin VIIa. Rab27a and myosin VIIa are likely to be required for association with and movement through the apical actin cytoskeleton, which is a prerequisite for entry into the apical processes.

Ultrastructural studies of the relationship between actin filaments and secretory granules

1990 ◽  
Vol 48 (3) ◽  
pp. 458-459
Author(s):  
Ellen Holm Nielsen
Keyword(s):  
Electron Microscopy ◽  
Colloidal Gold ◽  
Actin Filaments ◽  
Secretory Granules ◽  
Secretory Cells ◽  
Ultrastructural Studies ◽  
Transmission Electron ◽  
Granule Membrane ◽  
Ultrathin Sections ◽  
Lowicryl K4m

In secretory cells a dense and complex network of actin filaments is seen in the subplasmalemmal space attached to the cell membrane. During exocytosis this network is undergoing a rearrangement facilitating access of granules to plasma membrane in order that fusion of the membranes can take place. A filamentous network related to secretory granules has been reported, but its structural organization and composition have not been examined, although this network may be important for exocytosis.Samples of peritoneal mast cells were frozen at -70°C and thawed at 4°C in order to rupture the cells in such a gentle way that the granule membrane is still intact. Unruptured and ruptured cells were fixed in 2% paraformaldehyde and 0.075% glutaraldehyde, dehydrated in ethanol. For TEM (transmission electron microscopy) cells were embedded in Lowicryl K4M at -35°C and for SEM (scanning electron microscopy) they were placed on copper blocks, critical point dried and coated. For immunoelectron microscopy ultrathin sections were incubated with monoclonal anti-actin and colloidal gold labelled IgM. Ruptured cells were also placed on cover glasses, prefixed, and incubated with anti-actin and colloidal gold labelled IgM.

The adrenal paraneurone: tubulin organization

1984 ◽  
Vol 62 (5) ◽  
pp. 502-511 ◽  
Author(s):  
M. F. Bader ◽  
F. Bernier-Valentin ◽  
B. Rousset ◽  
D. Aunis
Keyword(s):  
Cell Body ◽  
Intracellular Transport ◽  
Cultured Cells ◽  
Specific Binding ◽  
Secretory Granules ◽  
Immunofluorescent Staining ◽  
Chromaffin Granules ◽  
Two Dimensional Gel Electrophoresis ◽  
Granule Membrane

When chromaffin cells from the bovine adrenal medulla are maintained in culture, they develop neuritelike processes which end with growth-cone-like structures. Chromaffin granules were found to migrate from the cell body to the neurite endings. Thus, the intracellular transport of secretory granules, existing in vivo, seems to occur in an exaggerated way in the cultured cells. These cells offer an excellent model for studying the mechanism of transport, particularly the role of microtubules. By immunofluorescent staining, we observed that tubulin antibodies decorate a complex network visible along the neurites. Colchicine treatment induced the disappearance of this network followed by a return of granules in the cell body and a retraction of neurites. To test the presence of tubulin in the chromaffin granule membrane, we used two-dimensional gel electrophoresis and a radioimmunoassay. Our results indicate that tubulin is not a significant component of chromaffin granules. However, binding experiments show that granule membranes are able to bind tubulin through high affinity binding sites. These results show that microtubules appear involved in neurite formation and probably in granule transport. Tubulin is not an integral constituent of the granule membrane, but is present as a result of a reversible specific binding. This insertion of tubulin into the membrane might represent a step in the association between microtubules and secretory granules.

scholarly journals An actin network is present in the cytoplasm throughout the cell cycle of carrot cells and associates with the dividing nucleus.

1987 ◽  
Vol 105 (1) ◽  
pp. 387-395 ◽  
Author(s):  
J A Traas ◽  
J H Doonan ◽  
D J Rawlins ◽  
P J Shaw ◽  
J Watts ◽  
...  
Keyword(s):  
Mitotic Spindle ◽  
Three Dimensional ◽  
Preprophase Band ◽  
Alternative Methods ◽  
Cell Periphery ◽  
Actin Network ◽  
Suspension Cells ◽  
Daucus Carota L ◽  
Culture Cells ◽  
Transvacuolar Strands

We have studied the F-actin network in cycling suspension culture cells of carrot (Daucus carota L.) using rhodaminyl lysine phallotoxin (RLP). In addition to conventional fixation with formaldehyde, we have used two different nonfixation methods before adding RLP: extracting cells in a stabilizing buffer; inducing transient pores in the plasma membrane with pulses of direct current (electroporation). These alternative methods for introducing RLP revealed additional features of the actin network not seen in aldehyde-fixed cells. The three-dimensional organization of this network in nonflattened cells was demonstrated by projecting stereopairs derived from through-focal series of computer-enhanced images. F-actin is present in interphase cells in four interconnected configurations: a meshwork surrounding the nucleus; thick cables in transvacuolar strands and deep in the cytoplasm; a finer network of bundles within the cortical cytoplasm; even finer filaments that run in ordered transverse array around the cell periphery. The actin network is organized differently during division but it does not disappear as do the cortical microtubules. RLP stains a central filamentous cortical band as the chromatin begins to condense (preprophase); it stains the mitotic spindle (as recently shown by Seagull et al. [Seagull, R. W., M. Falconer, and C. A. Weerdenburg, 1987, J. Cell Biol., 104:995-1004] for aldehyde fixed suspension cells) and the cytokinetic apparatus (as shown by Clayton, L., and C. W. Lloyd, 1985, Exp. Cell Res., 156:231-238). However, it is now shown that an additional network of F-actin persists in the cytoplasm throughout division associating in turn with the preprophase band, the mitotic spindle, and the cytokinetic phragmoplast.

scholarly journals MyRIP interaction with MyoVa on secretory granules is controlled by the cAMP-PKA pathway

2012 ◽  
Vol 23 (22) ◽  
pp. 4444-4455 ◽  
Author(s):  
Flora Brozzi ◽  
Sophie Lajus ◽  
Frederique Diraison ◽  
Shavanthi Rajatileka ◽  
Katy Hayward ◽  
...  
Keyword(s):  
Beta Cells ◽  
Pancreatic Beta Cells ◽  
Secretory Granules ◽  
Hormone Secretion ◽  
Motor Protein ◽  
Functional Protein ◽  
Interacting Protein ◽  
Myosin Va ◽  
Glucose Stimulated Insulin Secretion

Myosin- and Rab-interacting protein (MyRIP), which belongs to the protein kinase A (PKA)–anchoring family, is implicated in hormone secretion. However, its mechanism of action is not fully elucidated. Here we investigate the role of MyRIP in myosin Va (MyoVa)-dependent secretory granule (SG) transport and secretion in pancreatic beta cells. These cells solely express the brain isoform of MyoVa (BR-MyoVa), which is a key motor protein in SG transport. In vitro pull-down, coimmunoprecipitation, and colocalization studies revealed that MyRIP does not interact with BR-MyoVa in glucose-stimulated pancreatic beta cells, suggesting that, contrary to previous notions, MyRIP does not link this motor protein to SGs. Glucose-stimulated insulin secretion is augmented by incretin hormones, which increase cAMP levels and leads to MyRIP phosphorylation, its interaction with BR-MyoVa, and phosphorylation of the BR-MyoVa receptor rabphilin-3A (Rph-3A). Rph-3A phosphorylation on Ser-234 was inhibited by small interfering RNA knockdown of MyRIP, which also reduced cAMP-mediated hormone secretion. Demonstrating the importance of this phosphorylation, nonphosphorylatable and phosphomimic Rph-3A mutants significantly altered hormone release when PKA was activated. These data suggest that MyRIP only forms a functional protein complex with BR-MyoVa on SGs when cAMP is elevated and under this condition facilitates phosphorylation of SG-associated proteins, which in turn can enhance secretion.

scholarly journals Sorting and storage during secretory granule biogenesis: looking backward and looking forward

1998 ◽  
Vol 332 (3) ◽  
pp. 593-610 ◽  
Author(s):  
Peter ARVAN ◽  
David CASTLE
Keyword(s):  
Secretory Pathway ◽  
Molecular Mechanisms ◽  
Secretory Granules ◽  
Secretory Proteins ◽  
Membrane Composition ◽  
Granule Formation ◽  
Granule Membrane ◽  
Regulated Secretory Pathway ◽  
Secretory Products

Secretory granules are specialized intracellular organelles that serve as a storage pool for selected secretory products. The exocytosis of secretory granules is markedly amplified under physiologically stimulated conditions. While granules have been recognized as post-Golgi carriers for almost 40 years, the molecular mechanisms involved in their formation from the trans-Golgi network are only beginning to be defined. This review summarizes and evaluates current information about how secretory proteins are thought to be sorted for the regulated secretory pathway and how these activities are positioned with respect to other post-Golgi sorting events that must occur in parallel. In the first half of the review, the emerging role of immature secretory granules in protein sorting is highlighted. The second half of the review summarizes what is known about the composition of granule membranes. The numerous similarities and relatively limited differences identified between granule membranes and other vesicular carriers that convey products to and from the plasmalemma, serve as a basis for examining how granule membrane composition might be established and how its unique functions interface with general post-Golgi membrane traffic. Studies of granule formation in vitro offer additional new insights, but also important challenges for future efforts to understand how regulated secretory pathways are constructed and maintained.

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