Your search keyword '"Amillis, Sotiris"' showing total 8 results

1. Translocation of nutrient transporters to cell membrane via Golgi bypass in Aspergillus nidulans.

Author

Dimou, Sofia, Martzoukou, Olga, Dionysopoulou, Mariangela, Bouris, Vangelis, Amillis, Sotiris, and Diallinas, George

Abstract

Nutrient transporters, being polytopic membrane proteins, are believed, but not formally shown, to traffic from their site of synthesis, the ER, to the plasma membrane through Golgi‐dependent vesicular trafficking. Here, we develop a novel genetic system to investigate the trafficking of a neosynthesized model transporter, the well‐studied UapA purine transporter of Aspergillus nidulans. We show that sorting of neosynthesized UapA to the plasma membrane (PM) bypasses the Golgi and does not necessitate key Rab GTPases, AP adaptors, microtubules or endosomes. UapA PM localization is found to be dependent on functional COPII vesicles, actin polymerization, clathrin heavy chain and the PM t‐SNARE SsoA. Actin polymerization proved to primarily affect COPII vesicle formation, whereas the essential role of ClaH seems indirect and less clear. We provide evidence that other evolutionary and functionally distinct transporters of A. nidulans also follow the herein identified Golgi‐independent trafficking route of UapA. Importantly, our findings suggest that specific membrane cargoes drive the formation of distinct COPII subpopulations that bypass the Golgi to be sorted non‐polarly to the PM, and thus serving house‐keeping cell functions. Synopsis: Nutrient transporter translocation to the cell membrane operates via a novel trafficking route that does not involve functioning of the Golgi in fungi. Transporter translocation from the endoplasmic reticulum (ER) to the plasma membrane (PM) depends on COPII vesicle formation.Golgi and known post‐Golgi secretory routes are non‐essential for transporter biogenesis.The mechanisms regulating trafficking of nutrient transporters and apical cargoes are distinct. [ABSTRACT FROM AUTHOR]

Published

2020

2. Cryptic purine transporters in Aspergillus nidulans reveal the role of specific residues in the evolution of specificity in the NCS1 family.

Author

Sioupouli, Georgia, Lambrinidis, George, Mikros, Emmanuel, Amillis, Sotiris, and Diallinas, George

Subjects

PURINES, HETEROCYCLIC compounds, ASPERGILLUS nidulans, PROTEINS, HOMOLOGY (Biology)

Abstract

NCS1 proteins are H+ or Na+ symporters responsible for the uptake of purines, pyrimidines or related metabolites in bacteria, fungi and some plants. Fungal NCS1 are classified into two evolutionary and structurally distinct subfamilies, known as Fur- and Fcy-like transporters. These subfamilies have expanded and functionally diversified by gene duplications. The Fur subfamily of the model fungus Aspergillus nidulans includes both major and cryptic transporters specific for uracil, 5-fluorouracil, allantoin or/and uric acid. Here we functionally analyse all four A. nidulans Fcy transporters (FcyA, FcyC, FcyD and FcyE) with previously unknown function. Our analysis shows that FcyD is moderate-affinity, low-capacity, highly specific adenine transporter, whereas FcyE contributes to 8-azaguanine uptake. Mutational analysis of FcyD, supported by homology modelling and substrate docking, shows that two variably conserved residues (Leu356 and Ser359) in transmembrane segment 8 (TMS8) are critical for transport kinetics and specificity differences among Fcy transporters, while two conserved residues (Phe167 and Ser171) in TMS3 are also important for function. Importantly, mutation S359N converts FcyD to a promiscuous nucleobase transporter capable of recognizing adenine, xanthine and several nucleobase analogues. Our results reveal the importance of specific residues in the functional evolution of NCS1 transporters. [ABSTRACT FROM AUTHOR]

Published

2017

3. BsdABsd2-dependent vacuolar turnover of a misfolded version of the UapA transporter along the secretory pathway: prominent role of selective autophagy.

Author

Evangelinos, Minoas, Martzoukou, Olga, Chorozian, Koar, Amillis, Sotiris, and Diallinas, George

Subjects

MEMBRANE proteins, CELL membranes, CARRIER proteins, AUTOPHAGY, PROTEIN folding

Abstract

Transmembrane proteins translocate cotranslationally in the endoplasmic reticulum (ER) membrane and traffic as vesicular cargoes, via the Golgi, in their final membrane destination. Misfolding in the ER leads to protein degradation basically through the ERAD/proteasome system. Here, we use a mutant version of the purine transporter UapA (ΔR481) to show that specific misfolded versions of plasma membrane cargoes undergo vacuolar turnover prior to localization in the plasma membrane. We show that non-endocytic vacuolar turnover of ΔR481 is dependent on BsdABsd2, an ER transmembrane adaptor of HulARsp5 ubiquitin ligase. We obtain in vivo evidence that BsdABsd2 interacts with HulARsp5 and ΔR481, primarily in the ER. Importantly, accumulation of ΔR481 in the ER triggers delivery of the selective autophagy marker Atg8 in vacuoles along with ΔR481. Genetic block of autophagy ( atg9Δ, rabOts) reduces, but does not abolish, sorting of ΔR481 in the vacuoles, suggesting that a fraction of the misfolded transporter might be redirected for vacuolar degradation via the Golgi. Our results support that multiple routes along the secretory pathway operate for the detoxification of Aspergillus nidulans cells from misfolded membrane proteins and that BsdA is a key factor for marking specific misfolded cargoes. [ABSTRACT FROM AUTHOR]

Published

2016

4. The arrestin-like protein ArtA is essential for ubiquitination and endocytosis of the UapA transporter in response to both broad-range and specific signals.

Author

Karachaliou, Mayia, Amillis, Sotiris, Evangelinos, Minoas, Kokotos, Alexandros C., Yalelis, Vassilis, and Diallinas, George

Subjects

*ARRESTINS, *UBIQUITINATION, *ENDOCYTOSIS, *CARRIER proteins, *ASPERGILLUS nidulans, *PURINES

Abstract

We investigated the role of all arrestin-like proteins of Aspergillus nidulans in respect to growth, morphology, sensitivity to drugs and specifically for the endocytosis and turnover of the uric acid-xanthine transporter UapA. A single arrestin-like protein, ArtA, is essential for HulARsp5-dependent ubiquitination and endocytosis of UapA in response to ammonium or substrates. Mutational analysis showed that residues 545-563 of the UapA C-terminal region are required for efficient UapA endocytosis, whereas the N-terminal region (residues 2-123) and both PPxY motives are essential for ArtA function. We further show that ArtA undergoes HulA-dependent ubiquitination at residue Lys-343 and that this modification is critical for UapA ubiquitination and endocytosis. Lastly, we show that ArtA is essential for vacuolar turnover of transporters specific for purines ( AzgA) or l-proline ( PrnB), but not for an aspartate/glutamate transporter ( AgtA). Our results are discussed within the frame of recently proposed mechanisms on how arrestin-like proteins are activated and recruited for ubiquitination of transporters in response to broad range signals, but also put the basis for understanding how arrestin-like proteins, such as ArtA, regulate the turnover of a specific transporter in the presence of its substrates. [ABSTRACT FROM AUTHOR]

Published

2013

5. Aspergillus nidulans CkiA is an essential casein kinase I required for delivery of amino acid transporters to the plasma membrane.

Author

Apostolaki, Angeliki, Harispe, Laura, Calcagno-Pizarelli, Ana María, Vangelatos, Ioannis, Sophianopoulou, Vicky, Arst Jr, Herbert N., Peñalva, Miguel Angel, Amillis, Sotiris, and Scazzocchio, Claudio

Subjects

CASEIN kinase, EUKARYOTES, ASPERGILLUS nidulans, SACCHAROMYCES cerevisiae, CELL membranes, AMINO acid transport

Abstract

Type I casein kinases are highly conserved among Eukaryotes. Of the two Aspergillus nidulans casein kinases I, CkiA is related to the δ/ε mammalian kinases and to Saccharomyces cerevisiæ Hrr25p. CkiA is essential. Three recessive ckiA mutations leading to single residue substitutions, and downregulation using a repressible promoter, result in partial loss-of-function, which leads to a pleiotropic defect in amino acid utilization and resistance to toxic amino acid analogues. These phenotypes correlate with miss-routing of the YAT plasma membrane transporters AgtA (glutamate) and PrnB (proline) to the vacuole under conditions that, in the wild type, result in their delivery to the plasma membrane. Miss-routing to the vacuole and subsequent transporter degradation results in a major deficiency in the uptake of the corresponding amino acids that underlies the inability of the mutant strains to catabolize them. Our findings may have important implications for understanding how CkiA, Hrr25p and other fungal orthologues regulate the directionality of transport at the ER-Golgi interface. [ABSTRACT FROM AUTHOR]

Published

2012

6. Transport-dependent endocytosis and turnover of a uric acid-xanthine permease.

Author

Gournas, Christos, Amillis, Sotiris, Vlanti, Anna, and Diallinas, George

Subjects

*URIC acid, *XANTHINE, *ENDOCYTOSIS, *PROTEINS, *CELL membranes, *ENZYMES

Abstract

In this work we unmask a novel downregulation mechanism of the uric acid/xanthine transporter UapA, the prototype member of the ubiquitous Nucleobase-Ascorbate Transporter family, directly related to its function. In the presence of substrates, UapA is endocytosed, sorted into the multivesicular body pathway and degraded in vacuoles. Substrate-induced endocytosis, unlike ammonium-induced turnover, is absolutely dependent on UapA activity and several lines of evidence showed that the signal for increased endocytosis is the actual translocation of substrates through the UapA protein. The use of several UapA functional mutants with altered kinetics and specificity has further shown that transport-dependent UapA endocytosis occurs through a mechanism, which senses subtle conformational changes associated with the transport cycle. We also show that distinct mechanisms of UapA endocytosis necessitate ubiquitination of a single Lys residue (K572) by HulARsp5. Finally, we demonstrate that in the presence of substrates, non-functional UapA versions can be endocytosed in trans if expressed in the simultaneous presence of active UapA versions, even if the latter cannot be endocytosed themselves. [ABSTRACT FROM AUTHOR]

Published

2010

7. Convergent evolution and orphan genes in the Fur4p-like family and characterization of a general nucleoside transporter in Aspergillus nidulans.

Author

Hamari, Zsuzsanna, Amillis, Sotiris, Drevet, Christine, Apostolaki, Angeliki, Vágvölgyi, Csaba, Diallinas, George, and Scazzocchio, Claudio

Subjects

*PHYLOGENY, *SACCHAROMYCES cerevisiae, *ASPERGILLUS nidulans, *NITROGEN, *VITAMIN B6, *ASCOMYCETES, *URACIL, *ALLANTOIN

Abstract

The function of seven paralogues phylogenetically related to the Saccharomyces cerevisiae Fur4p together with a number of functionally related transporters present in Aspergillus nidulans has been investigated. After deletion of the cognate genes we checked the incorporation of radiolabelled substrates, utilization of nitrogen sources, resistance to toxic analogues and supplementation of auxotrophies. FurA and FurD encode allantoin and uracil transporters respectively. No function was found for FurB, FurC, FurE, FurF and FurG. As we failed to identify Fur-related transporters for uridine, pyridoxine or thiamine, we deleted other possible candidates for these functions. A FCY2-like gene carrying in its 5′ UTR a putative thiamine pyrophosphate riboswitch, and which encodes a protein similar to the pyridoxine transporter of yeast (Tpn1p), does not encode either a major thiamine or a pyridoxine transporter. CntA, a member of the concentrative nucleoside transporter family, is a general nucleoside permease, while no function was found for PnpA, a member of the equilibrative transporter family. Phylogenetic analysis shows that within the ascomycetes, the same transport activity could be catalysed by totally unrelated proteins and that within the Fur subfamily convergent evolution towards uracil and allantoin transport activity has occurred at least three and two independent times respectively. [ABSTRACT FROM AUTHOR]

Published

2009

8. Transcription of purine transporter genes is activated during the isotropic growth phase of Aspergillus nidulans conidia.

Author

Amillis, Sotiris, Cecchetto, Gianna, Sophianopoulou, Vicky, Koukaki, Marina, Scazzocchio, Claudio, and Diallinas, George

Subjects

*ASPERGILLUS nidulans, *MICROORGANISMS, *MICROBIOLOGY, *GENETIC mutation, *GENETICS, *BOTANY, *BIOLOGY

Abstract

Aspergillus nidulans possesses three well-characterized purine transporters encoded by the genes uapA, uapC and azgA. Expression of these genes in mycelium is induced by purines and repressed by ammonium or glutamine through the action of the pathway-specific UaY regulator and the general GATA factor AreA respectively. Here, we describe the regulation of expression of purine transporters during conidiospore germination and the onset of mycelium development. In resting conidiospores, mRNA steady-state levels of purine transporter genes and purine uptake activities are undetectable or very low. Both mRNA steady-state levels and purine transport activities increase substantially during the isotropic growth phase of conidial germination. Both processes occur in the absence of purine induction and independently of the nitrogen source present in the medium. The transcriptional activator UaY is dispensable for the germination-induced expression of the three transporter genes. AreA, on the other hand, is essential for the expression of uapA, but not for that of azgA or uapC, during germination. Transcriptional activation of uapA, uapC and azgA during germination is also independent of the presence of a carbon source in the medium. This work establishes the presence of a novel system triggering purine transporter transcription during germination. Similar results have been found in studies on the expression of other transporters in A. nidulans, suggesting that global expression of transporters might operate as a general system for sensing solute availability. [ABSTRACT FROM AUTHOR]

Published

2004