RESUMEN
Penium margaritaceum, a unicellular zygnematophyte (Streptophyta), was employed to elucidate changes in cell expansion when cells were challenged with the fungal pectinolytic enzyme, pectate lyase, and/or the microtubule disrupting agent, amiprophos-methyl (APM). Microtubule disruption by APM results in significant swelling at expansion zones. These swollen zones provide an easy marker for the location of expansion zones, particularly in cells with altered cell wall pectin. Short term treatment with pectate lyase shows pectin degradation primarily at the isthmus expansion zone and two satellite bands, corresponding with the location of future expansion in daughter cells. When the homogalacturonan lattice of the cell wall is removed by treatment with pectate lyase during long treatments, cell division is maintained, but daughter cell products are considerably smaller. Treatment of cells with a mixture of both pectate lyase and APM results in a distinct phenotype, consisting of "dumbbell"-shaped cells, as APM-induced swelling occurs at the novel expansion centers exposed by pectate lyase treatment. These cells also possess other curious alterations including an extensive, chloroplast-free cytoplasmic zone at the center of the cell, a septum containing ß-glycan, arabinogalactan and homogalacturonan epitopes, unique stacks of ER, displaced Golgi bodies and an extensive network of vacuoles. These results provide insight into the importance of cell wall integrity in defining the location of cell growth and division in P. margaritaceum. Understanding these processes in a unicellular zygnematophyte may provide insights into steps involved in the evolution of land plants.
RESUMEN
BACKGROUND AND AIMS: Endosidins are a group of low-molecular-weight compounds, first identified by 'chemical biology' screening assays, that have been used to target specific components of the endomembrane system. In this study, we employed multiple microscopy-based screening techniques to elucidate the effects of endosidin 5 (ES5) on the Golgi apparatus and the secretion of extracellular matrix (ECM) components in Penium margaritaceum. These effects were compared with those caused by treatments with brefeldin A and concanamycin A. Penium margaritaceum's extensive Golgi apparatus and endomembrane system make it an outstanding model organism for screening changes to the endomembrane system. Here we detail changes to the Golgi apparatus and secretion of ECM material caused by ES5. METHODS: Changes to extracellular polymeric substance (EPS) secretion and cell wall expansion were screened using fluorescence microscopy. Confocal laser scanning microscopy and transmission electron microscopy were used to assess changes to the Golgi apparatus, the cell wall and the vesicular network. Electron tomography was also performed to detail the changes to the Golgi apparatus. KEY RESULTS: While other endosidins were able to impact EPS secretion and cell wall expansion, only ES5 completely inhibited EPS secretion and cell wall expansion over 24 h. Short treatments of ES5 resulted in displacement of the Golgi bodies from their typical linear alignment. The number of cisternae decreased per Golgi stack and trans face cisternae in-curled to form distinct elongate circular profiles. Longer treatment resulted in a transformation of the Golgi body to an irregular aggregate of cisternae. These alterations could be reversed by removal of ES5 and returning cells to culture. CONCLUSIONS: ES5 alters secretion of ECM material in Penium by affecting the Golgi apparatus and does so in a markedly different way from other endomembrane inhibitors such as brefeldin A and concanamycin A.