Exocyst SEC3 and Phosphoinositides Define Sites of Exocytosis in Pollen Tube Initiation and Growth

Polarized exocytosis is critical for pollen tube growth, but its localization and function are still under debate. The exocyst vesicle-tethering complex functions in polarized exocytosis. Here, we show that a sec3a exocyst subunit null mutant cannot be transmitted through the male gametophyte due to a defect in pollen tube growth. The green fluorescent protein (GFP)-SEC3a fusion protein is functional and accumulates at or proximal to the pollen tube tip plasma membrane. Partial complementation of sec3a resulted in the development of pollen with multiple tips, indicating that SEC3 is required to determine the site of pollen germination pore formation. Time-lapse imaging demonstrated that SEC3a and SEC8 were highly dynamic and that SEC3a localization on the apical plasma membrane predicts the direction of growth. At the tip, polar SEC3a domains coincided with cell wall deposition. Labeling of GFP-SEC3a-expressing pollen with the endocytic marker FM4-64 revealed the presence of subdomains on the apical membrane characterized by extensive exocytosis. In steady-state growing tobacco (Nicotiana tabacum) pollen tubes, SEC3a displayed amino-terminal Pleckstrin homology-like domain (SEC3a-N)-dependent subapical membrane localization. In agreement, SEC3a-N interacted with phosphoinositides in vitro and colocalized with a phosphatidylinositol 4,5-bisphosphate (PIP₂) marker in pollen tubes. Correspondingly, molecular dynamics simulations indicated that SEC3a-N associates with the membrane by interacting with PIP₂. However, the interaction with PIP₂ is not required for polar localization and the function of SEC3a in Arabidopsis (Arabidopsis thaliana). Taken together, our findings indicate that SEC3a is a critical determinant of polar exocytosis during tip growth and suggest differential regulation of the exocytotic machinery depending on pollen tube growth modes.Pollen tube growth provides a unique model system for studying the role of exocytosis in cell morphogenesis. Pollen tubes are characterized by a highly rapid polarized unidirectional tip growth. Given the relative simplicity of their structure, fast growth rates, haploid genome content, and ability to grow under in vitro culture conditions, pollen tubes provide an extremely attractive system for studying cell morphogenesis. Furthermore, the growth characteristics of pollen tubes resemble those of root hairs, moss protonema, and fungal hyphae and to some extent can be paralleled to neurite growth (Chebli and Geitmann, 2007; Cheung and Wu, 2008; Guan et al., 2013; Hepler and Winship, 2015).It is well established that oscillating polarized exocytosis is fundamental for pollen tube development and determines growth rate (Bove et al., 2008; McKenna et al., 2009; Chebli et al., 2013). Exocytosis is required for the delivery of membrane and cell wall components to the growing tip. Yet, the exact location where exocytosis takes place is under debate. Ultrastructural studies showing the accumulation of vesicles at the tip suggested that exocytosis takes place at the tip (Lancelle et al., 1987; Lancelle and Hepler, 1992; Derksen et al., 1995), which was further supported by studies on the dynamics of cell wall thickness (Rojas et al., 2011), secretion of pectin methyl esterase (PME) and PME inhibitor, and staining of pectin by propidium iodide (PI; Röckel et al., 2008; Rounds et al., 2014). Conversely, based on colabeling with FM1-43 and FM4-64, it was concluded that exocytosis takes place in a subapical collar located in the transition zone between the tip and the shank, as well as at the shank, but not at the tip (Bove et al., 2008; Zonia and Munnik, 2008). In agreement, the pollen tube-specific syntaxin GFP-SYP124 was observed in the inverted cone, 10 to 25 μm away from the tip (Silva et al., 2010), and fluorescence recovery after photobleaching experiments with FM dyes also have indicated that exocytosis takes place at the subapical region (Bove et al., 2008; Moscatelli et al., 2012; Idilli et al., 2013). Yet, based on pollen tube reorientation experiments in a microfluidics device, it was concluded that growth takes place at the tip rather than at a subapical collar located in the transition zone between the apex and the shank (Sanati Nezhad et al., 2014). The tip-based growth is in agreement with exocytosis taking place at the tip. Presumably, part of the disagreement regarding the site of exocytosis resulted from the lack of intracellular markers for exocytosis (Cheung and Wu, 2008; Hepler and Winship, 2015), and as a result, the relationship between the FM dye-labeled inverted cone and exocytotic events during pollen tube growth is not fully understood.In many cell types, the process of secretory vesicles tethering and docking prior to fusion with the plasma membrane is initially mediated by an evolutionarily conserved tethering complex known as the exocyst. The exocyst is a heterooligomeric protein complex composed of eight subunits, SEC3, SEC5, SEC6, SEC8, SEC10, SEC15, EXO70, and EXO84 (TerBush et al., 1996; Guo et al., 1999). Studies originally based on budding yeast (Saccharomyces cerevisiae) have shown that the exocyst functions as an effector of Rab and Rho small GTPases that specifies the sites of vesicle docking and fusion at the plasma membrane in both space and time (Guo et al., 2001; Zhang et al., 2001). Support for the function of the exocyst in vesicle tethering was demonstrated recently by ectopic Sec3p-dependent vesicle recruitment to the mitochondria (Luo et al., 2014).Land plants contain all subunits of the exocyst complex, which were shown to form the functional complex (Elias et al., 2003; Cole et al., 2005; Synek et al., 2006; Hála et al., 2008). Studies in Arabidopsis (Arabidopsis thaliana) and maize (Zea mays) have implicated the exocyst in the regulation of pollen tube and root hair growth, seed coat deposition, response to pathogens, cytokinesis, and meristem and stigma function (Cole et al., 2005; Synek et al., 2006; Hála et al., 2008; Fendrych et al., 2010; Kulich et al., 2010; Pecenková et al., 2011; Safavian and Goring, 2013; Wu et al., 2013; Safavian et al., 2015; Zhang et al., 2016). The growth arrest of pollen tubes in sec8, sec6, sec15a, and sec5a/sec5b single and double mutants (Cole et al., 2005; Hála et al., 2008) or following treatment with the EXO70 inhibitor ENDOSIDIN2 (Zhang et al., 2016), and of root hairs in maize root hairless1 (rth1) SEC3 mutant (Wen et al., 2005), the inhibition of seed coat deposition in the sec8 and exo70A1 mutants (Kulich et al., 2010), and stigmatic papillae function in exo70A1 mutant plants (Safavian and Goring, 2013; Safavian et al., 2015) have implicated the exocyst in polarized exocytosis in plants. Given their function, it was likely that exocyst subunits could be used as markers for polarized exocytosis. Furthermore, it could also be hypothesized that, by studying the mechanisms that underlie the association of the exocyst complex with the plasma membrane, it should be possible to identify mechanisms underlying the regulation of polarized exocytosis (Guan et al., 2013). Moreover, since the interaction of exocytotic vesicles with the exocyst is transient and marks the site(s) of active exocytosis in the membrane, fluorescently labeled exocyst subunits could be used as markers for exocytosis while avoiding potential imaging artifacts stemming from pollen tube tips densely populated with vesicles.We have shown previously that the ROP effector ICR1 can interact with SEC3a and that ROPs can recruit SEC3a-ICR1 complexes to the plasma membrane (Lavy et al., 2007). However, ICR1 is not expressed in pollen tubes, suggesting that SEC3a membrane binding in these cells is likely dependent on other factors. In yeast, the interaction of Sec3p and Exo70p subunits with the plasma membrane is critical for exocyst function (He and Guo, 2009). It has been shown that the membrane binding of both Sec3p and Exo70p is facilitated by their interaction with phosphatidylinositol 4,5-bisphosphate (PIP₂; He et al., 2007; Zhang et al., 2008). The yeast Exo70p interacts with PIP₂ via a number of positively charged residues distributed along the protein, with the highest number located at the C-terminal end (Pleskot et al., 2015). It has been suggested that yeast Sec3p interacts with PIP₂ through N-terminal basic residues (Zhang et al., 2008). These data were further corroborated by x-ray crystallography studies, which showed that the yeast Sec3p N-terminal region forms a Pleckstrin homology (PH) domain fold (Baek et al., 2010; Yamashita et al., 2010), a PIP₂ interaction motif (Lemmon, 2008).The localization of the exocyst subunits has been addressed in several studies. In Arabidopsis root hairs and root epidermis cells, SEC3a-GFP was observed in puncta distributed throughout the cell (Zhang et al., 2013). Studies on the Arabidopsis EXO70 subunits EXO70E2, EXO70A1, and EXO70B1 revealed them to be localized in distinct compartments that were termed exocyst-positive organelles (Wang et al., 2010). The exocyst-positive organelles, visualized mostly by ectopic expression, were shown to be cytoplasmic double membrane organelles that can fuse with the plasma membrane and secrete their contents to the apoplast in an exosome-like manner. It is not yet known whether other exocyst subunits also are localized to the same organelles and what might be the biological function of this putative compartment (Wang et al., 2010; Lin et al., 2015). In differentiating xylem cells, two coiled-coil proteins termed VESICLE TETHERING1 and VESICLE TETHERING2 recruit EXO70A1-positive puncta to microtubules via the GOLGI COMPLEX2 protein (Oda et al., 2015). Importantly, the functionality of the XFP fusion proteins used for the localization studies described above was not tested, and in most cases, the fusion proteins were overexpressed. Therefore, the functional localization of the exocyst is still unclear.Here, we studied the function and subcellular localization of the Arabidopsis exocyst SEC3a subunit using a combination of genetics, cell biology, biochemistry, and structural modeling approaches. Our results show that SEC3a is essential for the determination of pollen tube tip germination site and growth. Partial complementation of sec3a resulted in the formation of pollen with multiple pollen tube tips. In Arabidopsis growing pollen tubes, SEC3a localization is dynamic, and it accumulates in domains of polarized secretion, at or close to the tip plasma membrane (PM). Labeling of GFP-SEC3-expressing pollen with FM4-64 revealed the spatial correlation between polarized exocytosis and endocytic recycling. Furthermore, the association of SEC3a with PM at the tip marks the direction of tube elongation and positively correlates with the deposition of PI-labeled pectins and specific anti-esterified pectin antibodies in the cell wall. In tobacco (Nicotiana tabacum), the mechanisms underlying SEC3a interaction with the PM and its subcellular distribution depend on pollen tube growth mode and involve the interaction with PIP2 through the N-terminal PH domain. Collectively, our results highlight the function of SEC3a as a polarity determinant that links between polarized exocytosis and cell morphogenesis. The correlation between exocyst function and distribution in pollen tubes provides an explanation for some of the current discrepancies regarding the localization of exocytosis.     

Population structure of the Monocelis lineata (Proseriata, Monocelididae) species complex assessed by phylogenetic analysis of the mitochondrial Cytochrome c Oxidase subunit I (COI) gene

Monocelis lineata consists of a complex of sibling species, widespread in the Mediterranean and Atlantic Ocean. Previous genetic analysis placed in evidence at least four sibling species. Nevertheless, this research was not conclusive enough to fully resolve the complex or to infer the phylogeny/phylogeography of the group. We designed specific primers aiming at obtaining partial sequences of the mtDNA gene Cytochrome c Oxidase subunit I (COI) of M. lineata, and have identified 25 different haplotypes in 32 analyzed individuals. The dendrogram generated by Neighbor-Joining analysis confirmed the differentiation between Atlantic and Mediterranean siblings, as well as the occurrence of at least two Mediterranean sibling species. Thus validated, the method here presented appears as a valuable tool in population genetics and biodiversity surveys on the Monocelis lineata complex.     

Rapidly growing mycobacteria in TB/HIV co-infection: a report of two cases focusing on difficulties in diagnosis and management

Recent reports indicate an increase in rates of infection and disease due to rapidly growing mycobacteria (RGM) in patients with pre-existing chronic lung disease. Studies have described difficulties in correctly identifying closely related species, even when proper methodologies are adopted, and several different gene targets have been proposed. We describe two cases of RGM infection in a 29-year-old HIV-1 positive Congolese man and a 19-year-old HIV-1 positive Liberian woman, respectively, both with bronchiectasis due to previous Mycobacterium tuberculosis (MTB) infection. Mycobacterium porcinum and Mycobacterium bolletii were identified in bronchoalveolar lavage fluid and sputum, respectively. After starting the patients on antiretroviral treatment and primary prophylaxis against non-tuberculous mycobacteria (NTM), and ensuring that they adhered to their prescribed regimen, we observed an improvement in their clinical condition and mycobacteria cleared from their respiratory specimens. Management of RGM respiratory infection in immunocompromised patients has to be evaluated on a case-by-case basis, taking into account the patient's pulmonary sequelae, adherence to multiple treatments and immune profile.     

Reflux of Endoplasmic Reticulum proteins to the cytosol inactivates tumor suppressors

In the past decades, many studies reported the presence of endoplasmic reticulum (ER)‐resident proteins in the cytosol. However, the mechanisms by which these proteins relocate and whether they exert cytosolic functions remain unknown. We find that a subset of ER luminal proteins accumulates in the cytosol of glioblastoma cells isolated from mouse and human tumors. In cultured cells, ER protein reflux to the cytosol occurs upon ER proteostasis perturbation. Using the ER luminal protein anterior gradient 2 (AGR2) as a proof of concept, we tested whether the refluxed proteins gain new functions in the cytosol. We find that refluxed, cytosolic AGR2 binds and inhibits the tumor suppressor p53. These data suggest that ER reflux constitutes an ER surveillance mechanism to relieve the ER from its contents upon stress, providing a selective advantage to tumor cells through gain‐of‐cytosolic functions—a phenomenon we name ER to Cytosol Signaling (ERCYS).     

Completion total thyroidectomy in children with differentiated thyroid cancer

INTRODUCTION: The optimal surgical treatment of children with differentiated thyroid cancer remains an important point of discussion. Especially the need for completion operation is questioned in young patients. Our objective was to examine the rate of residual neoplastic disease after non radical initial operation. MATERIAL AND METHODS: From the 235 children diagnosed with differentiated thyroid cancer, 131 (56%) needed completion operation due to incomplete primary surgery. Completion operation involved thyroid bed, lymph nodes or both respectively in 91 (39%), 13 (6%) and 27 (11%) cases. Risk factors responsible for residual disease were evaluated by means of logistic regression analysis. RESULTS: Residual disease was detected in 46 (35%) of reoperated children (25% in thyroid bed and 85% in lymph node of lateral neck compartment). Sex and age did not influence the risk of residual disease in thyroid bed or lymph nodes. Papillary type of cancer and multifocality increased risk of residual disease in thyroid bed respectively by the factor of 15 (95% CI: 2-125) and 2.3 (95% CI: 1.2-4.4). Infiltration of thyroid capsule did not correlate with the risk of residual disease. Lymph node metastases in primary operation increased risk of residual disease by the factor of 16 (95% CI: 1.2-245). Histopathology, multifocality of primary tumour or infiltration of lymph node capsule did not influence the risk of residual disease in lymph nodes of lateral neck compartment. CONCLUSIONS: In children with differentiated thyroid cancer residual disease is diagnosed in about 1/3 of non radically operated cases. This high incidence justifies completion operations. The risk of residual disease is significantly increased in papillary thyroid cancer, multifocal tumours and cases with lymph node metastases.     

Adaptation of sympatric Achromatium spp. to different redox conditions as a mechanism for coexistence of functionally similar sulphur bacteria

Changes in the abundance of sympatric Achromatium spp. in response to the artificial manipulation of redox conditions in sediment microcosms was determined by fluorescence in situ hybridization (FISH). Adaptation to different redox conditions was shown to be one mechanism that supported the coexistence of functionally similar Achromatium spp. In sediment microcosms, in which the overlying water was oxygenated, Achromatium community size and composition remained unchanged over time. However, imposition of anoxic conditions induced changes in community structure. Anoxia caused a reduction in the relative abundance of Achromatium sp. RY8 (72 +/- 4% to 49 +/- 2%) and an increase in Achromatium sp. RY5 (19 +/- 5% to 32 +/- 3%) and a newly identified Achromatium sp., RYKS (14 +/- 4% to 27 +/- 2%). In anoxic microcosms supplemented with a single addition of nitrate at different initial concentrations the relative decline in Achromatium sp. RY8 was dependent on the initial nitrate concentration. In these experiments nitrate was rapidly removed. In contrast, when high levels of nitrate were maintained by periodic replacement of the overlying water with nitrate supplemented anoxic water, the composition of the Achromatium community remained stable over time. This suggested that all of the coexisting Achromatium spp. are obligate or facultative anaerobes, but, Achromatium sp. RY8 was more sensitive to sediment redox conditions than the other Achromatium species. Given the heterogeneous nature of sedimentary environments, redox-related niche differentiation may promote coexistence of sympatric Achromatium spp.     

Swimming response of goldfish,Carassius auratus,and the tetra,Hemigrammus caudovittatus,larvae to individual food items and patches

Synopsis Swimming speed and swimming path of goldfish and tetra larvae were studied in aquaria containing food patches composed of decapsulated cysts and immobilized nauplii of Artemia salina or sparsely distributed prey. The mean swimming speed of starved larvae in the medium without food was about four times higher than the speed of larvae feeding in a patch. Satiated larvae swam about 1.5 times slower than hungry fish. Consumption of single prey items by starved larvae caused the following sequence of swimming responses: handling pause (cessation of swimming), slow swimming in a restricted area, and fast swimming (approximately twice as fast as hungry larvae before encountering food) accompanied by a widening of the area searched (area increased searching). Mean swimming speed was constant over a broad range (10¹–10³ ind·1^–1 of food density, although at extreme (high or low) values of food density it depended on swimming responses of the predator. Frequency of visits to the different parts of the aquarium strongly depended on encounters of hungry fish with food particles or patches.