Forrest Foor scite author profile

1,3-␤-D-Glucan is a major structural polymer of yeast and fungal cell walls and is synthesized from UDP-glucose by the multisubunit enzyme 1,3-␤-D-glucan synthase. Previous work has shown that the FKS1 gene encodes a 215-kDa integral membrane protein (Fks1p) which mediates sensitivity to the echinocandin class of antifungal glucan synthase inhibitors and is a subunit of this enzyme. We have cloned and sequenced FKS2, a homolog of FKS1 encoding a 217-kDa integral membrane protein (Fks2p) which is 88% identical to Fks1p. The residual glucan synthase activity present in strains with deletions of fks1 is (i) immunodepleted by antibodies prepared against FKS2 peptides, demonstrating that Fks2p is also a component of the enzyme, and (ii) more sensitive to the echinocandin L-733,560, explaining the increased sensitivity of fks1 null mutants to this drug. Simultaneous disruption of FKS1 and FKS2 is lethal, suggesting that Fks1p and Fks2p are alternative subunits with essential overlapping function. Analysis of FKS1 and FKS2 expression reveals that transcription of FKS1 is regulated in the cell cycle and predominates during growth on glucose, while FKS2 is expressed in the absence of glucose. FKS2 is essential for sporulation, a process which occurs during nutritional starvation. FKS2 is induced by the addition of Ca 2؉ to the growth medium, and this induction is completely dependent on the Ca 2؉ /calmodulin-dependent phosphoprotein phosphatase calcineurin. We have previously shown that growth of fks1 null mutants is highly sensitive to the calcineurin inhibitors FK506 and cyclosporin A. Expression of FKS2 from the heterologous ADH1 promoter results in FK506-resistant growth. Thus, the sensitivity of fks1 mutants to these drugs can be explained by the calcineurin-dependent transcription of FKS2. Moreover, FKS2 is also highly induced in response to pheromone in a calcineurin-dependent manner, suggesting that FKS2 may also play a role in the remodeling of the cell wall during the mating process.The cell wall of Saccharomyces cerevisiae is essential for the integrity and shape of the cell and is a highly dynamic structure the composition and architecture of which vary widely depending upon the composition of the growth medium and the stage of the cell cycle (41). In addition, when haploid cells encounter pheromone of the opposite mating type, the cells transiently arrest in the G 1 phase of the cell cycle and develop an elongated projection requiring new cell wall synthesis (12). Furthermore, diploid cells which are nutritionally starved undergo meiosis and sporulation, a process requiring the formation of new cell wall around the developing spores (reviewed in reference 42).An important component of each of these cell wall types is the glucose polymer 1,3-␤-D-glucan (10, 38, 41). 1,3-␤-D-Glucan synthase (UDP-glucose:1,3-␤-D-glucan 3-␤-D-glucosyltransferase; EC 2.4.1.34) is a membrane enzyme activated by GTP which has been fractionated into soluble (GTP-binding) and membrane-bound (catalytic) components (39, 53). Members of...

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The Saccharomyces cerevisiae FKS1 (ETG1) gene encodes an integral membrane protein which is a subunit of 1,3-beta-D-glucan synthase.

Douglas

Foor²,

Marrinan³

et al. 1994

Proc. Natl. Acad. Sci. U.S.A.

374

395

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In Saccharomyces cerevisiae, mutations in FKSJ confer hypersensitivity to the immunosuppressants FK506 and cyclosporin A, while mutations in ETGI confer resistance to the cell-wall-active echinocandins (inhibitors of 1,3-J3D-glucan synthase) and, in some cases, concomitant hypersensitivity to the chitin synthase inhibitor nikkomycin Z.The FKS1 and ETGI genes were cloned by complementation of these phenotypes and were found to be identical. The immunosuppressants FK506 and cyclosporin A (CsA) also have antifungal activity. Although vegetative growth of yeast is not potently inhibited by these drugs, recovery from mating factor arrest is (8). The drugs inhibit yeast recovery and T-cell activation by similar mechanisms. Each binds to an intracellular receptor (FKBP12 for FK506 and cyclophilin for CsA), and the receptor-drug complex inhibits the Ca2+/ calmodulin-dependent protein phosphatase calcineurin (9, 10). We previously described a mutation (Jksl-l) which results in calcineurin-dependent growth and hypersensitivity to FK506 (FKs) and CsA (11). We cloned the hypersensitivity locus (FKSJ) to help identify targets of calcineurin.t To our surprise FKS1 and ETGI are identical.:MATERIALS AND METHODS Microbiological Methods and Strains. YPAD and drop-out (DO) media and procedures for mating, sporulation, tetrad analysis, transformation, gene disruption, and determination of antibiotic sensitivity have been described (6,12). Meiotic progeny of diploid YFK016 (12) were mated to produce the yeast a/a diploid YFK419 (homozygous for ade2-101 his3-A200 leu2-Al lys2-801 trpl-Al, and ura3-52). R560-1C (MATa ade2-1 canl his3-11,15 leu2-3,112 trpl-l ura3-1 etgl-l) and MS14 (MATa etgl4) are spontaneous L-733,560-resistant (EchR) mutants derived from W303-1A (6) and X2180-1A (7), respectively. EchR mutants are resistant to drug on uracil DO medium at 8 ,g/ml, whereas the wild type is sensitive at 0.25 ,ug/ml. Heterozygous (etgl-l/+) strains exhibited intermediate resistance (Echl phenotype) and were resistant at 1 pg/ml but sensitive at 4 ug/ml.Cloning. A plasmid (pFF119) complementing Jksl-l was selected from a yeast genomic library of strain GRF88 (13) on uracil DO medium containing FK506 at 1 pg/ml. A library of genomic DNA (provided by S. Parent) from strain YFK093 (12) was constructed as described (14) by partial Sau3A1 digestion, partial fill-in of overhangs, and insertion of the fragments into the partially filled-in Sal I site of plasmid YEp24. The YFK093 library was introduced into strain R560-1C by the spheroplast transformation method, uracil

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Rapid Identification of Subtype-Selective Agonists of the Somatostatin Receptor Through Combinatorial Chemistry

Rohrer

Birzin

Mosley

et al. 1998

Science

440

319

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Nonpeptide agonists of each of the five somatostatin receptors were identified in combinatorial libraries constructed on the basis of molecular modeling of known peptide agonists. In vitro experiments using these selective compounds demonstrated the role of the somatostatin subtype-2 receptor in inhibition of glucagon release from mouse pancreatic alpha cells and the somatostatin subtype-5 receptor as a mediator of insulin secretion from pancreatic beta cells. Both receptors regulated growth hormone release from the rat anterior pituitary gland. The availability of high-affinity, subtype-selective agonists for each of the somatostatin receptors provides a direct approach to defining their physiological functions.

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Biochemical parameters of glutamine synthetase from Klebsiella aerogenes

Bender¹,

Janssen²,

Resnick³

et al. 1977

J Bacteriol

339

114

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Regulation of synthesis of glutamine synthetase by adenylylated glutamine synthetase.

Foor¹,

Janssen²,

Magasanik³

1975

Proc. Natl. Acad. Sci. U.S.A.

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We have examined three mutants of Kiebsiella aerogenes whose genetic lesions (g&nB, ginD, and ginE) are in loci unlinked to the structural gene for glutamine synthetase (ginA) and in which the control of both the level and state of adenylylation of glutamine synthetase is altered. Each mutation alters a different component of the adenylylation system of glutamine synthetase [L-glutamate:ammonia ligase (ADP-forming), EC 6.3.1.2]. Inability of the cell to deadenylylate glutamine synthetase (glnB and ginD) greatly decreases its production, while inability to adenylylate glutamine synthetase (ginE) results in its constitutively high production. These results together with our previous results indicate that adenylylated glutamine synthetase inhibits the transcription of glnA.

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Forrest Foor

Differential Expression and Function of Two Homologous Subunits of Yeast 1,3-β-D-Glucan Synthase

The Saccharomyces cerevisiae FKS1 (ETG1) gene encodes an integral membrane protein which is a subunit of 1,3-beta-D-glucan synthase.

Rapid Identification of Subtype-Selective Agonists of the Somatostatin Receptor Through Combinatorial Chemistry

Biochemical parameters of glutamine synthetase from Klebsiella aerogenes

Regulation of synthesis of glutamine synthetase by adenylylated glutamine synthetase.

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