Publications (2)15.15 Total impact
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Article: ER quality control can lead to retrograde transport from the ER lumen to the cytosol and the nucleoplasm in plants.
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ABSTRACT: Quality control in the secretory pathway is a fundamental step in preventing deleterious effects that may arise by the release of malfolded proteins into the cell or apoplast. Our aims were to visualise and analyse the disposal route followed by aberrant proteins within a plant cell in vivo using fluorescent protein technology. A green fluorescent protein (GFP) fusion was detected in the cytosol and the nucleoplasm in spite of the presence of an N-terminal secretory signal peptide. In contrast to secreted GFP, the fusion protein was retained in the cells where it was degraded slowly, albeit at a rate much higher than that of the endoplasmic reticulum (ER)-retained derivative GFP-HDEL. The fusion protein could not be stabilised by inhibitors of transport or the cytosolic proteasome. However, the protein is a strong lumenal binding protein (BiP) ligand. Complete signal peptide processing even after long-term expression in virus-infected leaves rules out the possibility that the documented accumulation in the cytosol and nucleoplasm is because of the bypassing of the translocation pores. The data are consistent with the hypothesis that the fusion protein is disposed off from the ER via a retrograde translocation back to the cytosol. Moreover, accumulation in the nucleoplasm was shown to be microtubule dependent unlike the well-documented diffusion of cytosolically expressed GFP into the nucleoplasm. The apparent active transport of the GFP fusion into the nucleoplasm may indicate an as yet undiscovered feature of the ER-associated degradation (ERAD) pathway and explain the insensitivity to degradation by proteasome inhibitors.The Plant Journal 06/2003; 34(3):269-81. · 6.16 Impact Factor -
Article: The GTPase ARF1p controls the sequence-specific vacuolar sorting route to the lytic vacuole.
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ABSTRACT: We have studied the transport of soluble cargo molecules by inhibiting specific transport steps to and from the Golgi apparatus. Inhibition of export from the Golgi via coexpression of a dominant-negative GTP-restricted ARF1 mutant (Q71L) inhibits the secretion of alpha-amylase and simultaneously induces the secretion of the vacuolar protein phytepsin to the culture medium. By contrast, specific inhibition of endoplasmic reticulum export via overexpression of Sec12p or coexpression of a GTP-restricted form of Sar1p inhibits the anterograde transport of either cargo molecule in a similar manner. Increased secretion of the vacuolar protein was not observed after incubation with the drug brefeldin A or after coexpression of the GDP-restricted mutant of ARF1 (T31N). Therefore, the differential effect of inducing the secretion of one cargo molecule while inhibiting the secretion of another is dependent on the GTP hydrolysis by ARF1p and is not caused by a general inhibition of Golgi-derived COPI vesicle traffic. Moreover, we demonstrate that GTP-restricted ARF1-stimulated secretion is observed only for cargo molecules that are expected to be sorted in a BP80-dependent manner, exhibiting sequence-specific, context-independent, vacuolar sorting signals. Induced secretion of proteins carrying C-terminal vacuolar sorting signals was not observed. This finding suggests that ARF1p influences the BP80-mediated transport route to the vacuole in addition to transport steps of the default secretory pathway to the cell surface.The Plant Cell 06/2003; 15(5):1242-56. · 8.99 Impact Factor
