Confocal Microscopy Studies of F-Actin Cytoskeleton Distribution and Dynamics Using Fluorescent LifeAct Constructs in Bovine Adrenal Chromaffin Cells.

Cultured bovine chromaffin cells have been characterized as a successful model to study changes in the cytoskeleton during the secretory process. In this sense, the distribution and dynamics of the F-actin cytoskeleton can be studied by confocal microscopy using appropriate molecular tools such as LifeAct, a peptide that stains the structures of F-actin. In this work, we describe some methodological protocols making possible to study, under controlled stimulus conditions, the local dynamic changes of F-actin in the cortical zone and also to detect the simultaneous displacements of chromaffin granules and organelles in active zones.

Vesicle Fusion as a Target Process for the Action of Sphingosine and Its Derived Drugs.

The fusion of membranes is a central part of the physiological processes involving the intracellular transport and maturation of vesicles and the final release of their contents, such as neurotransmitters and hormones, by exocytosis. Traditionally, in this process, proteins, such SNAREs have been considered the essential components of the fusion molecular machinery, while lipids have been seen as merely structural elements. Nevertheless, sphingosine, an intracellular signalling lipid, greatly increases the release of neurotransmitters in neuronal and neuroendocrine cells, affecting the exocytotic fusion mode through the direct interaction with SNAREs. Moreover, recent studies suggest that FTY-720 (Fingolimod), a sphingosine structural analogue used in the treatment of multiple sclerosis, simulates sphingosine in the promotion of exocytosis. Furthermore, this drug also induces the intracellular fusion of organelles such as dense vesicles and mitochondria causing cell death in neuroendocrine cells. Therefore, the effect of sphingosine and synthetic derivatives on the heterologous and homologous fusion of organelles can be considered as a new mechanism of action of sphingolipids influencing important physiological processes, which could underlie therapeutic uses of sphingosine derived lipids in the treatment of neurodegenerative disorders and cancers of neuronal origin such neuroblastoma.

Multiple sclerosis drug FTY-720 toxicity is mediated by the heterotypic fusion of organelles in neuroendocrine cells.

FTY-720 (Fingolimod) was one of the first compounds authorized for the treatment of multiple sclerosis. Among its other activities, this sphingosine analogue enhances exocytosis in neuroendocrine chromaffin cells, altering the quantal release of catecholamines. Surprisingly, the size of chromaffin granules is reduced within few minutes of treatment, a process that is paralleled by the homotypic fusion of granules and their heterotypic fusion with mitochondria, as witnessed by dynamic confocal and TIRF microscopy. Electron microscopy studies support these observations, revealing the fusion of several vesicles with individual mitochondria to form large, round mixed organelles. This cross-fusion is SNARE-dependent, being partially prevented by the expression of an inactive form of SNAP-25. Fused mitochondria exhibit an altered redox potential, which dramatically enhances cell death. Therefore, the cross-fusion of intracellular organelles appears to be a new mechanism to be borne in mind when considering the effect of FTY-720 on the survival of neuroendocrine cells.

Studies of the Secretory Machinery Dynamics by Total Internal Reflection Fluorescence Microscopy in Bovine Adrenal Chromaffin Cells.

Cultured bovine chromaffin cells have been tested as a successful neuroendocrine model to study the secretory process. Changes in the dynamics of the secretory vesicles and the exocytotic machinery microdomains could be studied in control and stimulated conditions using appropriate molecular tools such as fluorescent SNARE protein expression or fluorochrome vesicular labeling in these neuroendocrine cells. Since most of these changes occur in or near the plasma membrane, the use of the total internal reflection fluorescent microscopy (TIRFM) and the implement of particle motion analysis could be essential tools to study the structural and dynamic changes of secretory machinery related with its function in this exocytotic cell model.

Cuidado de transición de la adolescencia a la edad adulta / Transitional care from adolescence to adulthood

RESUMEN El cuidado de transición tiene como objetivo facilitar la transferencia efectiva de niños que padecen enfermedades crónicas al personal médico encargado de la atención del adulto, garantizando el apropiado manejo a largo plazo, la identificación temprana de posibles complicaciones, la reducción de la morbilidad y los costos en la prestación de los servicios de salud. En varios países, existen avances significativos acerca de este concepto, en los que se ha llegado incluso a establecer un consenso sobre los aspectos necesarios para el desarrollo del cuidado transicional, el cual comprende los principios generales desde la política hasta su implementación, alcanzando buenos resultados en los pacientes. A pesar de estos avances, en muchos países como Colombia, donde la población pediátrica que padece enfermedades crónicas que llegan a la adolescencia y que alcanzan la edad adulta viene en aumento, poco se conoce sobre el cuidado transicional, siendo necesario que se generen investigaciones y trabajos interdisciplinarios para atender las múltiples necesidades de esta población emergente, de sus familiares y cuidadores.(AU)

ABSTRACT Transitional care aims to facilitate the effective transfer of children suffering from chronic diseases to the medical staff in charge of adult care, ensuring appropriate long-term management, early identification of possible complications, and reduction of morbidity and costs associated with the provision of health services. In several countries, significant progress in this regard has been made, and even consensus on the aspects necessary for the development of transitional care has been reached, including the general principles from the policy to its implementation, with good results in the patients. Despite these advances, in many countries such as Colombia, where the pediatric population suffering from chronic diseases that reach adolescence and then adulthood Is on the rise, little is known about transitional care. It is necessary to generate research and interdisciplinary works to meet the multiple needs of this emerging population, their families and caregivers.(AU)

Multiple Mechanisms Driving F-actin-Dependent Transport of Organelles to and From Secretory Sites in Bovine Chromaffin Cells.

Neuroendocrine chromaffin cells represent an excellent model to study the molecular mechanisms associated with the exo-endocytotic cycle of neurotransmitter release. In this study, EGFP-Lifeact and confocal microscopy has been used to analyze the re-organization of the cortical F-actin cytoskeleton associated to organelle transport during secretion with unprecedented detail. In these cells secretory events accumulate in temperature-sensitive and myosin II-dependent F-actin expansions and retractions affecting specific regions of the sub-membrane space. Interestingly, not only vesicles but also mitochondria are transported toward the plasmalemma during these expansions. Simultaneously, we found F-actin cytoskeletal retraction withdraws vesicles from the sub-plasmalemmal space, forming novel empty internal spaces into which organelles can be transported. In addition to these well-coordinated, F-actin-myosin II dependent processes that drive the transport of the majority of vesicles, fast transport of chromaffin vesicles was observed, albeit less frequently, which used F-actin comet tails nucleated from the granular membrane. Thus, upon cell stimulation F-actin structures use diverse mechanisms to transport organelles to and from the membrane during the exo-endocytotic cycle taking place in specific areas of cell periphery.

Modeling the influence of co-localized intracellular calcium stores on the secretory response of bovine chromaffin cells.

Catecholamines secretion from chromaffin cells is mediated by a Ca2+-dependent process in the submembrane space where the exocytotic machinery is located and high-Ca2+ microdomains (HCMDs) are formed by the coordinated activity of a functional triad composed of Ca2+ channels, endoplasmic reticulum (ER) and mitochondria. It has been observed experimentally that subpopulations of cortical mitochondria and ER associate to secretory sites in bovine chromaffin cells. Here, we study the effect of the geometrical distribution of the co-localized cortical organelles both in the formation of HCMDs in the vicinity of Ca2+ channels and on the secretory activity of bovine chromaffin cells in response to a single voltage pulse. Our simulations indicate that co-localized organelles have a dual role in the formation of HCMDs, having, on the one hand, an amplification effect due to the Ca2+-induced Ca2+-release mechanism from the ER and, on the other, acting as physical barriers to Ca2+ diffusion. In addition, our simulations suggest that the increased levels of Ca2+ in the microdomain enhances the secretion of the vesicles co-localized to the Ca2+ channels. As a whole, our results support the idea that the functional triads formed by Ca2+ channels, subplasmalemma ER and mitochondria have a positive effect on the secretion of catecholamines in bovine chromaffin cells.

Emerging evidence for the modulation of exocytosis by signalling lipids.

Membrane fusion is a key event in exocytosis of neurotransmitters and hormones stored in intracellular vesicles. In this process, soluble N-ethylmaleimide sensitive factor attachment protein receptor (SNARE) proteins are essential components of the exocytotic molecular machinery, while lipids have been seen traditionally as structural elements. However, the so-called signalling lipids, such as sphingosine and arachidonic acid, interact with SNAREs and directly modulate the frequency and mode of fusion events. Interestingly, recent work has proved that the sphingosine analogue FTY-720, used in the treatment of multiple sclerosis, mimics the effects of signalling lipids. In the present Review, we discuss recent investigations suggesting that endogenous signalling lipids and synthetic analogues can modulate important physiological aspects of secretion, such as quantal release, vesicle recruitment into active sites, vesicle transport and even organelle fusion in the cytosol. Therefore, these compounds are far from being merely structural components of cellular membranes.

[Transitional care from adolescence to adulthood]. / Cuidado de transición de la adolescencia a la edad adulta.

Transitional care aims to facilitate the effective transfer of children suffering from chronic diseases to the medical staff in charge of adult care, ensuring appropriate long-term management, early identification of possible complications, and reduction of morbidity and costs associated with the provision of health services. In several countries, significant progress in this regard has been made, and even consensus on the aspects necessary for the development of transitional care has been reached, including the general principles from the policy to its implementation, with good results in the patients. Despite these advances, in many countries such as Colombia, where the pediatric population suffering from chronic diseases that reach adolescence and then adulthood Is on the rise, little is known about transitional care. It is necessary to generate research and interdisciplinary works to meet the multiple needs of this emerging population, their families and caregivers.

El cuidado de transición tiene como objetivo facilitar la transferencia efectiva de niños que padecen enfermedades crónicas al personal médico encargado de la atención del adulto, garantizando el apropiado manejo a largo plazo, la identificación temprana de posibles complicaciones, la reducción de la morbilidad y los costos en la prestación de los servicios de salud. En varios países, existen avances significativos acerca de este concepto, en los que se ha llegado incluso a establecer un consenso sobre los aspectos necesarios para el desarrollo del cuidado transicional, el cual comprende los principios generales desde la política hasta su implementación, alcanzando buenos resultados en los pacientes. A pesar de estos avances, en muchos países como Colombia, donde la población pediátrica que padece enfermedades crónicas que llegan a la adolescencia y que alcanzan la edad adulta viene en aumento, poco se conoce sobre el cuidado transicional, siendo necesario que se generen investigaciones y trabajos interdisciplinarios para atender las múltiples necesidades de esta población emergente, de sus familiares y cuidadores.

The role of F-actin in the transport and secretion of chromaffin granules: an historic perspective.

Actin is one of the most ubiquitous protein playing fundamental roles in a variety of cellular processes. Since early in the 1980s, it was evident that filamentous actin (F-actin) formed a peripheral cortical barrier that prevented vesicles to access secretory sites in chromaffin cells in culture. Later, around 2000, it was described that the F-actin structure accomplishes a dual role serving both vesicle transport and retentive purposes and undergoing dynamic transient changes during cell stimulation. The complex role of the F-actin cytoskeleton in neuroendocrine secretion was further evidenced when it has been proved to participate in the scaffold structure holding together the secretory machinery at active sites and participate in the generation of mechanical forces that drive the opening of the fusion pore, during the first decade of the present century. The complex vision of the multiple roles of F-actin in secretion we have acquired to date comes largely from studies performed on traditional 2D cultures of primary cells; however, recent evidences suggest that these may not accurately mimic the 3D in vivo environment, and thus, more work is now needed on adrenomedullary cells kept in a more "native" configuration to fully understand the role of F-actin in regulating chromaffin granule transport and secretion under physiological conditions.

Sphingomimetic multiple sclerosis drug FTY720 activates vesicular synaptobrevin and augments neuroendocrine secretion.

Neurotransmission and secretion of hormones involve a sequence of protein/lipid interactions with lipid turnover impacting on vesicle trafficking and ultimately fusion of secretory vesicles with the plasma membrane. We previously demonstrated that sphingosine, a sphingolipid metabolite, promotes formation of the SNARE complex required for membrane fusion and also increases the rate of exocytosis in isolated nerve terminals, neuromuscular junctions, neuroendocrine cells and in hippocampal neurons. Recently a fungi-derived sphingosine homologue, FTY720, has been approved for treatment of multiple sclerosis. In its non-phosphorylated form FTY720 accumulates in the central nervous system, reaching high levels which could affect neuronal function. Considering close structural similarity of sphingosine and FTY720 we investigated whether FTY720 has an effect on regulated exocytosis. Our data demonstrate that FTY720 can activate vesicular synaptobrevin for SNARE complex formation and enhance exocytosis in neuroendocrine cells and neurons.

The Differential Organization of F-Actin Alters the Distribution of Organelles in Cultured When Compared to Native Chromaffin Cells.

Cultured bovine chromaffin cells have been used extensively as a neuroendocrine model to study regulated secretion. In order to extend such experimental findings to the physiological situation, it is necessary to study mayor cellular structures affecting secretion in cultured cells with their counterparts present in the adrenomedullary tissue. F-actin concentrates in a peripheral ring in cultured cells, as witnessed by phalloidin-rodhamine labeling, while extends throughout the cytoplasm in native cells. This result is also confirmed when studying the localization of α-fodrin, a F-actin-associated protein. Furthermore, as a consequence of this redistribution of F-actin, we observed that chromaffin granules and mitochondria located into two different cortical and internal populations in cultured cells, whereas they are homogeneously distributed throughout the cytoplasm in the adrenomedullary tissue. Nevertheless, secretion from isolated cells and adrenal gland pieces is remarkably similar when measured by amperometry. Finally, we generate mathematical models to consider how the distribution of organelles affects the secretory kinetics of intact and cultured cells. Our results imply that we have to consider F-actin structural changes to interpret functional data obtained in cultured neuroendocrine cells.

Captivating New Roles of F-Actin Cortex in Exocytosis and Bulk Endocytosis in Neurosecretory Cells.

The cortical actin network is a tight array of filaments located beneath the plasma membrane. In neurosecretory cells, secretory vesicles are recruited on this network via a small insert isoform of myosin VI in a Ca(2+)-dependent manner. Upon secretagogue stimulation, myosin II mediates a relaxation of the actin network leading to synchronous translocation of bound or caged vesicles to the plasma membrane where they undergo exocytosis. F-actin is also recruited to secretory sites, where structural changes are detected immediately preceding and following exocytic events. Here we examine the mechanism underpinning the astonishing multifunctionality of this network in the various stages of vesicular exocytosis and compensatory bulk endocytosis. We propose a theoretical framework incorporating critical roles of the actin network in coupling these processes.

Revisión sistemática del schwannoma localizado en el suelo oral. A propósito de un caso / Oral floor schwannoma. Systematic review and case report

Objetivos. Revisar de manera sistemática el schwannoma localizado en el suelo oral. Presentar un caso tratado en nuestro departamento. Material y método. Mediante la utilización de motores de búsqueda se identificaron artículos sobre schwannoma localizado en el suelo oral. Los criterios de inclusión fueron: a) diagnóstico definitivo de schwannoma localizado en el suelo oral; b) casos publicados en inglés, español o alemán. Se analizaron variables relacionadas con las características clínicas, diagnósticas y de tratamiento. Resultados. Se identificaron 19 artículos que cumplían los criterios de inclusión. Edad media: 44,3 años (rango 17-77); 42,1% mujeres y 57,8% hombres; tiempo de evolución de 8,7 meses (rango 1-60); tumoración localizada en el lado izquierdo del suelo oral 52,6%, en el lado derecho 42,1%; diámetro mayor medio 38,3 mm (rango 10-70); afectación del nervio hipogloso 15,7%, nervio lingual 15,7%, nervio milohioideo 5,2%, no se identificó nervio de origen en el 21,1% de los casos; punción aspiración con aguja fina no diagnóstica en el 31,5% e identificación de tumoración benigna en el 21%. La exéresis quirúrgica se realizó en el 100% de los casos con un tiempo de seguimiento de 34,3 meses (rango 1-120). No se documentaron recurrencias. Conclusiones. Los schwannomas localizados en el suelo de la boca son infrecuentes. Se presentan en torno a los 40 años, con leve predominancia por el sexo masculino y del lado izquierdo del suelo oral. El tiempo de evolución se encuentra próximo a los 9 meses. Usualmente asintomático. Los nervios hipogloso y lingual se afectan por igual. En proporción similar, el nervio de origen no puede ser identificado. La punción aspiración con aguja fina no es efectiva. El tratamiento de elección consiste en la enucleación del tumor una vez diagnosticado. No se documentaron recidivas (AU)

Objective. Systematically review the oral floor schwannoma. Report of a case treated in our department. Material and method. Published articles about oral floor schwannoma were identified. The inclusion criteria were: a) Final diagnosis of schwannoma located in the oral floor. b) Articles published in English, Spanish or German. The variables were analysed regarding clinical features, diagnosis and treatment. Results. Nineteen articles that met the inclusion criteria. Average age: 44.3 years (range 17-77); 42.1% were females and 57.8% males; time of lesion development was 8.7 months (range 1-60); side of the oral floor location: left side 52.6%, right side 42.1%; average diameter: 38.3 mm (range 10-70); hypoglossal nerve involvement: 15.7%, lingual nerve: 15.7%, mylohyoid nerve: 5.2%, nerve not identified in 21.1% of cases; fine needle aspiration biopsy: non diagnostic in 31.5%, benign tumor identified 21%. Surgical excision was performed in 100% of the cases with a follow up of 34.3 months (rank 1-120). No recurrences were reported. Conclusions. Schwannomas located on the floor of the mouth are uncommon. Environment are presented at age 40 with a slight predominance for males and mainly the left. The time evolution is close to 9 months. The hypoglossal and lingual nerves are affected equally. In similar proportion the nerve of origin cannot be identified. Fine needle aspiration biopsy is not efficient. The treatment of choice is enucleation of the tumor 11 diagnosed. No recurrences were observed (AU)

F-actin cytoskeleton and the fate of organelles in chromaffin cells.

In addition to playing a fundamental structural role, the F-actin cytoskeleton in neuroendocrine chromaffin cells has a prominent influence on governing the molecular mechanism and regulating the secretory process. Performing such roles, the F-actin network might be essential to first transport, and later locate the cellular organelles participating in the secretory cycle. Chromaffin granules are transported from the internal cytosolic regions to the cell periphery along microtubular and F-actin structures. Once in the cortical region, they are embedded in the F-actin network where these vesicles experience restrictions in motility. Similarly, mitochondria transport is affected by both microtubule and F-actin inhibitors and suffers increasing motion restrictions when they are located in the cortical region. Therefore, the F-actin cortex is a key factor in defining the existence of two populations of cortical and perinuclear granules and mitochondria which could be distinguished by their different location and mobility. Interestingly, other important organelles for controlling intracellular calcium levels, such as the endoplasmic reticulum network, present clear differences in distribution and much lower mobility than chromaffin vesicles and mitochondria. Nevertheless, both mitochondria and the endoplasmic reticulum appear to distribute in the proximity of secretory sites to fulfill a pivotal role, forming triads with calcium channels ensuring the fine tuning of the secretory response. This review presents the contributions that provide the basis for our current view regarding the influence that F-actin has on the distribution of organelles participating in the release of catecholamines in chromaffin cells, and summarizes this knowledge in simple models. In chromaffin cells, organelles such as granules and mitochondria distribute forming cortical and perinuclear populations whereas others like the ER present homogenous distributions. In the present review we discuss the role of transport systems and the existence of an F-actin cortical structure as the main factors behind the formation of organelle subpopulations in this neuroendocrine cell model. This article is part of a mini review series on Chromaffin cells (ISCCB Meeting, 2015). Cover image for this issue: doi: 10.1111/jnc.13322.

The position of mitochondria and ER in relation to that of the secretory sites in chromaffin cells.

Knowledge of the distribution of mitochondria and endoplasmic reticulum (ER) in relation to the position of exocytotic sites is relevant to understanding the influence of these organelles in tuning Ca(2+) signals and secretion. Confocal images of probes tagged to mitochondria and the F-actin cytoskeleton revealed the existence of two populations of mitochondria, one that was cortical and one that was perinuclear. This mitochondrial distribution was also confirmed by using electron microscopy. In contrast, ER was sparse in the cortex and more abundant in deep cytoplasmic regions. The mitochondrial distribution might be due to organellar transport, which experiences increasing restrictions in the cell cortex. Further study of organelle distribution in relation to the position of SNARE microdomains and the granule fusion sites revealed that a third of the cortical mitochondria colocalized with exocytotic sites and another third located at a distance closer than two vesicle diameters. ER structures were also present in the vicinity of secretory sites but at a lower density. Therefore, mitochondria and ER have a spatial distribution that suggests a specialized role in modulation of exocytosis that fits with the role of cytosolic Ca(2+) microdomains described previously.

Role of protease-activated receptor 2 in lung injury development during acute pancreatitis in rats.

OBJECTIVE: The objective of this study was to evaluate whether an uncontrolled activation of mast cells and macrophages through protease-activated receptor-2 (PAR-2) during acute pancreatitis could develop lung injury. METHODS: Pancreatitis was induced in rats by intraductal infusion of sodium taurocholate. In a group of animals, PAR-2 antagonist or trypsin (TRP) inhibitor was intravenously administered before the pancreatitis induction. In additional groups, the animals were treated with PAR-2-activating peptide or pancreatic TRP. The myeloperoxidase (MPO) activity was measured to evaluate the progression of inflammation. RESULTS: Plasma from the animals with pancreatitis and pancreatic TRP induced the secretion of mast cells and alveolar macrophages as well as increased the density of PAR-2 in the plasma membrane. The treatment of alveolar macrophages with TRP, tryptase, as well as PAR-1- and PAR-2-activating peptide led to an increase in calcium-triggered exocytosis. Similar results were obtained in acinar cells. The intravenous injection of PAR-2-activating peptide and TRP induced an increase in MPO activity in the lung. The intravenous injection of PAR-2 antagonist or TRP inhibitor before the pancreatitis induction could prevent the increase in MPO activity in the pancreas and the lung. CONCLUSIONS: The TRP generated during acute pancreatitis could be involved in the progression of lung injury through the activation of PAR-2 in alveolar macrophages.

Lipid metabolites enhance secretion acting on SNARE microdomains and altering the extent and kinetics of single release events in bovine adrenal chromaffin cells.

Lipid molecules such as arachidonic acid (AA) and sphingolipid metabolites have been implicated in modulation of neuronal and endocrine secretion. Here we compare the effects of these lipids on secretion from cultured bovine chromaffin cells. First, we demonstrate that exogenous sphingosine and AA interact with the secretory apparatus as confirmed by FRET experiments. Examination of plasma membrane SNARE microdomains and chromaffin granule dynamics using total internal reflection fluorescent microscopy (TIRFM) suggests that sphingosine production promotes granule tethering while arachidonic acid promotes full docking. Our analysis of single granule release kinetics by amperometry demonstrated that both sphingomyelinase and AA treatments enhanced drastically the amount of catecholamines released per individual event by either altering the onset phase of or by prolonging the off phase of single granule catecholamine release kinetics. Together these results demonstrate that the kinetics and extent of the exocytotic fusion pore formation can be modulated by specific signalling lipids through related functional mechanisms.

Cortical F-actin affects the localization and dynamics of SNAP-25 membrane clusters in chromaffin cells.

It has been proposed recently that the F-actin cytoskeleton organizes the relative disposition of the SNARE proteins and calcium channels that form part of the secretory machinery in chromaffin cells, a neurosecretory model. To test this idea, we used confocal microscopy do determine if DsRed-SNAP-25 microdomains, which define the final sites of exocytosis along with syntaxin-1, preferentially remain in contact with F-actin cortical structures labelled by lifeact-EGFP. A quantitative analysis showed that in cells over-expressing these constructs there is a preferential colocalization, rather than a random distribution of SNAP-25 patches. To analyze the possible interactions between these proteins, we designed FRET experiments and tested whether treatment with agents that affect F-actin mobility would modify SNAP-25 movement. The significant FRET efficiencies detected suggest that direct molecular interactions occur, whereas dynamic experiments using TIRFM revealed that attenuation of cortical F-actin movement clearly diminishes the mobility of SNAP-25 clusters. Taken together, these data can be explained by a model that associates components of the secretory machinery to the F-actin cortex through flexible links.

F-actin-myosin II inhibitors affect chromaffin granule plasma membrane distance and fusion kinetics by retraction of the cytoskeletal cortex.

Chromaffin cell catecholamines are released when specialized secretory vesicles undergo exocytotic membrane fusion. Evidence indicates that vesicle supply and fusion are controlled by the activity of the cortical F-actin-myosin II network. To study in detail cell cortex and vesicle interactions, we use fluorescent labeling with GFP-lifeact and acidotropic dyes in confocal and evanescent wave microscopy. These techniques provide structural details and dynamic images of chromaffin granules caged in a complex cortical structure. Both the movement of cortical structures and granule motion appear to be linked, and this motion can be restricted by the myosin II-specific inhibitor, blebbistatin, and the F-actin stabilizer, jasplakinolide. These treatments also affect the position of the vesicles in relation to the plasma membrane, increasing the distance between them and the fusion sites. Consequently, we observed slower single vesicle fusion kinetics in treated cells after neutralization of acridine orange-loaded granules during exocytosis. Increasing the distance between the granules and the fusion sites appears to be linked to the retraction of the F-actin cytoskeleton when treated with jasplakinolide. Thus, F-actin-myosin II inhibitors appear to slow granule fusion kinetics by altering the position of vesicles after relaxation of the cortical network.