Trehalose and maltose metabolism in yeast transformed by a MAL4 regulatory gene cloned from a constitutive donor strain

Summary A 6.8 kb fragment of DNA containing the regulatory sequence MAL4p has been cloned from a genomic library prepared from Saccharomyces cerevisiae strain 1403-7A which ferments maltose constitutively. The library was prepared by ligation of 5–20 kb Sau3AI restriction fragments of total yeast DNA into the BamH1 restriction site of shuttle vector YEp13. A restriction map of the cloned fragment indicates that it encompasses a 2.6 kb segment which closely resembles the regulatory MAL6 gene previously identified (Needleman et al. 1984). The hybrid plasmid, p(MAL4p)4, could transform maltose-nonfermenting strains which contain cryptic -glucosidase and maltose permease genes (malp MALg), but could not transform strains containing a functional regulatory sequence and a defective maltase-permease region (MAlp malg). A correlated absence of maltase and permease DNA from the cloned fragment was indicated by the restriction map. Although the cloned DNA fragment was derived from a constitutive strain, maltose fermentation and -glucosidase formation by yeast transformed with p(MAL4p)4 was largely inducible by maltose and sensitive to catabolite repression. Moreover, the active trehalose accumulation pattern (TAC(+) phenotype) linked to the complete MAL4 locus in strain 1403-7A and other constitutive MAL strains (Oliveira et al. 1981b) was not found in p(MAL4p)4 transformants. It may be concluded that constitutivity of maltose fermentation and the associated active trehalose accumulation are not merely consequences of a cis-dominant mutation causing constitutive formation of the MALp regulatory product. Moreover, constitutivity may not be caused solely by a mutation within the structural region of the MALp gene.     

Further evidence for the alternative pathway of trehalose synthesis linked to maltose utilization in Saccharomyces

Summary Yeast strains bearing a deficiency in trehalose-6-phosphate synthase activity are unable to accumulate trehalose on any carbon source unless they contain one of the MAL genes. If the gene is inducible then synthesis of trehalose occurs specifically during growth on maltose when the MAL gene is constitutive then trehalose accumulation can also be seen when cells are grown on glucose. Different systems for trehalose synthesis were suggested: one of them would require the UDPG-linked trehalose synthase whereas the second would utilize an alternative pathway. We proposed a mechanism by which the gene-product of a MAL gene would serve as a common positive regulator for the expression of the genes coding for maltose permease, -glucosidase and some component of the trehalose accumulation system. In order to elucidate this novel pathway a strain lacking UDPG-linked trehalose synthase activity and harboring a defect in maltose uptake was constructed. Excessive maltose uptake resulted in accumulation of intracellular maltose, and twice as much trehalose as in a control strain. Partial inhibition of hexokinase by xylose affected the ratio between internal maltose and trehalose and significantly reduced glycogen synthesis. Sodium fluoride also blocked glycogen synthesis but allowed for trehalose accumulation. Moreover, a mutant which lacks hexokinase I and II was unable to accumulate trehalose when grown on glucose in spite of the presence of a constitutive MAL2 gene. These results suggest that trehalose synthesis would require G-6-P formation derived from maltose. Such a deviation would allow for slowing down the glycolytic flux which, in turn, would favour efficient maltose utilization. Therefore, trehalose synthesis during growth in media containing glucose serves as an additional parameter for assessing constitutivity of MAL genes.     

Insertion of non-homologous DNA sequences into a regulatory gene cause a constitutive maltase synthesis in yeast

Summary Two maltase constitutive alleles MAL1-1 ^c and MAL1-2 ^c were obtained as revertants from a defective mall-1 mutant allele not promoting maltose fermentation. Classical genetical analysis showed that the mutations were linked or allelic to the MAL1 locus. Dominance relations were established by testing -glucosidase activities in diploids containing various allele combinations.The maltose regulatory genes belonging to the MAL1, MAL1-1 ^c and MAL1-2 ^c alleles were cloned. Differences in restriction sites were found between the wild type MAL1 and the derived MAL1-constitutive alleles. The MAL1 regulatory gene was located in a 1.15 kb EcoRI fragment (Rodicio and Zimmermann 1985a, b). An EcoRI fragment of this size was found in plasmids containing the MAL1 regulatory wild type allele but was absent from plasmids carrying the constitutive alleles.The genomic organization of the MAL loci in the constitutive mutants was confirmed by Southern analysis. Various fragments containing sequences of the different MAL1 alleles were used to probe genomic digests of MAL1, MAL1-1 ^c and MAL1-2 ^c strains. The results obtained support the conclusion that the constitutive mutations had arisen by a rearrangement between the original mal1-1 mutant allele and sequences with different location in the genome.Dedicated to Prof. Dr. Fritz Kaudewitz on the occasion of his 65th birthday     

Relationships between trehalose metabolism and maltose utilization in Saccharomyces cerevisiae

Summary A specific deficiency in UDPG-linked trehalose-6-phosphate synthase in the yeast, Saccharomyces cerevisiae has been associated with a single nuclear gene, sst1. Strains bearing this abnormal allele lacked the capacity to accumulate trehalose during growth on glucose or galactose medium or when incubated with glucose in nonproliferating conditions. However, sst1 strains still exhibited trehalose accumulation during growth on maltose medium, provided they contained a gene for maltose fermentation (MAL gene). Introduction of a constitutive MAL ^c gene into an sst1 strain rendered the strain capable of accumulating trehalose during growth on glucose medium, but did not restore the normal capacity to convert glucose to trehalose in nonproliferating conditions. Different systems, I and II, of trehalose accumulation are proposed. System I would require the UPDG-linked synthase, whereas system II, which is normally specific for maltose, would utilize a different enzyme. It is unlikely that system II produces trehalose by trans-glucosylation, since it converted glucose to trehalose in MAL ^c sst1 strains. The results indicate that maltose specifically induces the production of the MAL gene-product, which, in turn, would stimulate the formation (or activation) of system II.     

Genetic characterization of an α-specific gene responsible for sexual agglutinability in Saccharomyces cerevisiae: mapping and gene dose effect

Summary A recessive ag1 mutation leads to specific defect in sexual agglutinability specifically in cells of the yeast Saccharomyces cerevisiae. The cryptopleurine resistance gene cry^R 1, closely linked to the mating type locus, was used to select / strains which emerged from / strains by mitotic nonreciprocal recombination, to genetically analyse ag1, since ag1 is expressed only in mating type. The ag1 gene was found to be linked to the centromere tightly, to met3 at 4.4 cM, and to ilv3 at 12 cM on chromosome X. Sexual agglutinability of cells was shown to be dependent on the dose of the AG1 gene, using / isogenic strains carrying AG1/AG1, AG1/ag1 or ag1/ag1. The sst2-1 mutation did not suppress the ag1 mutation. Based on these results, function of the AG1 gene is discussed.Abbreviations cM centimorgan - FDS first division segregation - NPD nonparental ditype - PD parental ditype - SDS second division segregation - TT tetratype     

An α-mating-type-specific mutation causing specific defect in sexual agglutinability in the yeast Saccharomyces cerevisiae

We have identified a recessive -mating-type-specific gene agl causing agglutinability defect without significant effects on other sexual activities. a cells carrying agl showed sexual agglutination with cells but cells carrying agl showed sexual agglutination with neither cells nor a cells. cells carrying agl produced pheromone and responded to a pheromone just like wild cells. cells carrying agl showed a little decreased but significant mating ability when tested on solid media or membrane filter. The agl mutant is different from any -specific ste mutants found so far in many sexual activities. The agl gene is recessive, and unlinked to the mating type locus. Biological significance of the mating type agglutinability is discussed based on the results obtained with the mutant.     

α 2-Adrenoceptors activate dihydropyridine-sensitive calcium channels via Gi-proteins and protein kinase C in rat portal vein myocytes

The presence of functional ₂-adrenoceptors was investigated in isolated smooth muscle cells from rat portal vein using the nystatin-perforated patch-clamp technique. The free cytoplasmic calcium concentration ([Ca²⁺]_i) was estimated using emission from the dye Fura-2. Activation of ₂-adrenoceptors by clonidine (an ₂-adrenoceptor agonist) or noradrenaline (a non-selective -adrenoceptor agonist), both in the presence of 0.1 M prazosin to block ₁-adrenoceptors, caused a slow and sustained increase in [Ca²⁺]_i which was inhibited by 0.1 M rauwolscine (an ₂-adrenoceptor antagonist). A similar Ca²⁺ response was obtained with oxymetazoline (a selective _2A-adrenoceptor agonist) suggesting that the increase in [Ca²⁺]_i resulted from activation of the _2A-adrenoceptor subtype. The increase in [Ca²⁺]_i did not occur in calcium-free solution or in the presence of oxodipine (a voltage-dependent calcium channel blocker), indicating that it depended on a calcium influx. The _2A-adrenoceptor-activated calcium influx was unchanged after complete release of the stored calcium induced by applications of ryanodine and caffeine. In addition, no accumulation of inositol trisphosphate was detected in the presence of 0.1 M prazosin. Taken together, these results indicate that _2A-adrenoceptor activation does not stimulate phosphoinositide turnover and subsequent calcium release from intracellular stores. Wholecell patch-clamp experiments showed that _2A-adrenoceptor activation promoted calcium influx through voltage-dependent L-type channels. Concomitant with calcium influx, _2A-adrenoceptor activation induced a 10- to 15-mV depolarization. Similar effects on both calcium channel current and [Ca²⁺]_i were obtained with mastoparan, an activator of Gi-proteins. Activation of calcium influx by both _2A-adrenoceptors and mastoparan was reduced by treatment with pertussis toxin and GF 109203X (a protein kinase C inhibitor). These data suggest that activation of protein kinase C through a transduction pathway involving Gi-proteins phosphorylates voltage-activated L-type calcium channels and thus, increases their opening probability.     

Identification of regulatory genes of riboflavin permease and α-glucosidase in the yeast Pichia guilliermondii

Summary The method for a positive selection of Pichia guilliermondii yeast mutants which constitutively synthesize riboflavin (RF) permease has been developed. A genetic analysis revealed two regulatory genes of negative action (RFP80, RFP81) and one gene of positive action (RFP82); mutations in these loci determined the ability to synthesize RF permease in the medium without an inducer (-glucosides). The constitutive mutants with cold-sensitive products of RFP80 and RFP81 genes were isolated. Interafelic complementation within RFP80 locus as well as restoration of the wild (inducible) phenotype in some hybrids between recessive rfp80 mutants and dominant RFP82 ^c mutants were observed. These data suggest a protein structure of products of identified regulatory loci and a direct interaction of the products of RFP80 and RFP82 genes.A meiotic segregants unable to synthesize RF permease in the inducer-containing media (genotype rfp82) were isolated by means of intragenic recombination in RFP82 locus. Epistasis-hypostasis test showed that gene RFP82 acted after gene RFP80. RFP80, RFP81 and RFP82 loci are involved in regulation of biosynthesis of both RF permease and -glucosidase. The model for action of RFP80 and RFP82 gene products in the expression of RF permease and -glucosidase structural genes of P. gulliermondii is presented.     

Molecular cloning and characterization of a Candida tsukubaensis α-glucosidase gene in the yeast Saccharomyces cerevisiae

Summary The molecular cloning of an -glucosidase gene isolated from a Candida tsukubaensis (CBS 6389) genomic library in Saccharomyces cerevisiae is reported. The cloned gene is contained within a 6.2 kb Sau3A DNA fragment and directs the synthesis and secretion of an amylolytic enzyme into the extracellular medium of the recombinant host, S. cerevisiae. The cloned enzyme was found to have an unusually broad substrate specificity and is capable of hydrolysing -1,2, -1,3, -1,4 and 1,6 linked, as well as aryl and alkyl, d-glucosides. On the basis of its substrate specificity profile, the cloned enzyme was classified as an -glucosidase (E.C. 3.2.1.20). It has a pH optimum in the range 4.2–4.6, a temperature optimum of 58°C and is readily inactivated at pasteurization temperature (60°C). Southern blot analysis failed to reveal any homology between the cloned gene and genomic DNA isolated from other well characterized amylolytic yeasts. A rapid plate-assay, based on the utilization of a chromogenic substrate X--d-glucoside to detect the expression of the cloned -glucosidase in S. cerevisiae transformants, was developed.     

Neuronal nicotinic acetylcholine receptors expressed in Xenopus oocytes: role of the α subunit in agonist sensitivity and desensitization

Neuronal nicotinic acetylcholine receptors (nAChRs) were expressed in Xenopus laevis oocytes after nuclear injection of complementary deoxyribonucleic acid (cDNA) expression vectors. The two receptor subtypes 4/n1 and 3/n1 were readily distinguishable from one another by ACh sensitivity and desensitization. 3/n1 receptors showed lower ACh sensitivity and stronger desensitization than 4/n1 receptors. Furthermore, although the current/voltage relationship was very similar in both receptor subtypes, the voltage dependence of desensitization was found to be strikingly different. As the n1 subunit was unchanged, the subunits must be responsible for these functional differences. Symmetric hybrid cDNAs, 43 and 34, were constructed and functional receptors were obtained by co-injection with n1. These hybrid receptors displayed an ACh sensitivity that was mainly defined by the extracellular sequence of the subunit. In contrast, no part of the subunit was found fully to determine desensitization.     

Site of pheromone action and secretion pathway of a sexual agglutination substance during its induction by pheromone a in α cells of Saccharomyces cerevisiae

Summary In Saccharomyces cerevisiae mating-type strains carrying the sec1, sec7 and sec18 genes, pheromone a induces agglutination ability at 24 °C, but not at 36 °C. Even when cells were treated at 36 °C, a biologically active agglutination substance was found in cytoplasm although this activity was not detected in the cell surface fraction. These 36 °C-treated cells became agglutinable with a concomitant appearance of agglutination substance activity in the cell surface fraction. The cells remained agglutinable even when the treatment temperature was dropped to 24 °C under conditions where no de novo synthesis of the agglutination substance occurred. These results indicate that the agglutination substance is transported through the yeast secretory pathway and that pheromone a acts at the step of synthesis of the precursor molecule of the a agglutination substance, similar to the case ofthe -pheromone-induction of the a agglutination substance. Differences in the action of the sex pheromones between agglutination ability induction and induction of G₁ arrest or shmooing is discussed.     

The Aα mating-type locus ofSchizophyflum commune: Structure and function of geneX

GeneX maps immediately right of geneY at the A mating-type locus inSchizophyllum commune. AllelesX1, X3 andX4 were isolated, subcloned, and sequenced. The structure of the alleles and their relationship to the A locus is described. The deducedX isoforms possess no recognized motifs common to other polypeptides and no significant similarity to any sequences in the protein databases.X alleles do not activate A-regulated development when transformed into recipient strains possessing different A mating types or when these transformants are mated with tester strains. AnX1-disrupted construction yielded a high frequency (33%) of homologous gene replacements.X-disrupted mutants have wild-type phenotypes and mate normally. Both the functional analyses and sequence data forX1,X3, andX4 suggest that the right boundary of the A mating-type locus falls betweenAY andX. We propose that theZ andY genes constitute the Aoc locus in its entirety.     

Transmission,recombination and conversion of mitochondrial markers in relation to the mobility of a group I intron in Chlamydomonas

Mitochondrial DNA transmission has been analyzed in diploids produced from sexual crosses or artificial fusions between Chlamydomonas strains which differ by several genetic markers: a group I intron (Cs cob.1 or intron), three restriction sites (Nh, Nc and H markers) located 0.5–5 kb from the insertion site of the intron, and a MUD2 point mutation (27 bp from the insertion site) conferring resistance to myxothiazol. Recombination between mitochondrial markers is a general property of all crosses and fusions analyzed. In crosses between two intron-containing (⁺) strains or two intron-less (^–) strains, the transmission is preferentially paternal (mt ^-), with a preoponderance depending on the nature of the parental genomes. In crosses between (⁺) and (^–) strains, the conversion of intron-less molecules into intron⁺ is frequent when the (⁺) parent is maternal (mt ⁺) and nearly absolute when the (⁺) parent is paternal (mt ^-). In 94% of cases, the conversion is accompanied by the co-conversion of the MUD2 marker. In both crosses and artificial fusions, the conversion of (^–) into (⁺) also influences the transmission of the more distant Nh, Nc and H markers. It is hypothesized that the more frequent transmission of the genome containing the intron results from the elimination of (^–) molecules, as a result of a double-strand cut which is induced by an endonuclease encoded by the intron.     

Proteinase — Antiproteinase imbalance in meningitis: Determination of α 1 proteinase inhibitor (α 1PI), elastase — α-1PI complex,and elastase inhibition capacity in cerebrospinal fluid

Summary Mortality and long-term neurologic sequelae are still frequent complications of meningitis despite effective antibiotic treatment. This suggests that pathogen-independent inflammatory mechanisms may play an important role in the course of this illness.Neutrophil granulocytes form the primary immune defense in meningitis. Once activated, these cells release elastase into the cerebrospinal fluid (CSF). Elastase may induce tissue damage if local antiproteinase capacity is low as under normal conditions.To define the relevance of this mechanism we studied 22 patients with meningitis. Concentrations of elastase in complex with the main antiproteinase 1-proteinase inhibitor (elastase- 1PI), 1-proteinase inhibitor ( 1PI), and elastase inhibition capacity (EIC) were measured in CSF of 9 patients with bacterial meningitis (BM), aged 1 month-214 years; 13 patients with non-bacterial meningitis (NBM), aged 1 month–15 years; and 20 patients in whom meningitis was excluded after spinal tap (control group), aged 6 months–15 years. The concentration of elastase- 1PI in the BM group (median 552 g/l) was significantly higher than in either the NBM group (median 30 g/l,p<0.01) or the control group (median 30 g/l,p<0.01). Similarly, the 1PI-concentration in the BM group was significantly higher (median 113 mg/l) than either the NBM group (median 13.7 mg/l,p<0.025) or the control group (median 6.3 mg/l,p<0.001). The concentration of elastase- 1PI shows a significant correlation with the duration of the infectious symptoms before admission to the hospital (r=0.51,p<0.02), but not with the number of neutrophil granulocytesr=0.23, p=0.21).Free elastolytic capacity in CSF could be demonstrated in 4 patients: 1 with BM, 2 with NBM, and 1 with pertussis pneumonia and enzephalitis.The measured insufficiency of the proteinase-antiproteinase system may indicate high-risk patients in need of additional anti-inflammatory therapy, e.g., with corticosteroids, during the initial phase of meningitis.Abbreviations 1PI 1-proteinase inhibitor, 1-antitrypsin - elastase- 1PI complex elastase- 1-proteinase inhibitor complex - EIC elastase inhibition capacity - BM group: bacterial meningitis - NBM group: non-bacterial meningitis - CSF cerebrospinal fluid     

MAL64 c is a global regulator of α-glucoside fermentation: identification of a new gene involved in melezitose fermentation

Summary Maltase constitutive mutants at the MAL6 locus have been mapped to the newly identified regulatory gene MAL64 ^c. We show here that MAL64 ^c has in addition pleiotropic effects on sugar fermentation: MAL64 ^c strains constitutively synthesize an -methylglucosidase and can complement a new gene, MTP1, for the fermentation of melezitose and -methylglucoside. MTP1, maps near MAL1, and either encodes a permease which transports melezitose, -methylglucoside, and maltose or regulates the activity of such a permease. This work shows that MAL64 ^c, a trans-acting regulatory gene, is a global regulatory gene affecting several different pathways of -glucoside metabolism.     

Presence,activities, and molecular forms of cathepsin G,elastase,α 1-antitrypsin,andα 1-antichymotrypsin in bronchiectasis

The presence, activities, and molecular forms of the serine proteinases, elastase, and cathepsin G, and their endogenous inhibitors, ₁-antitrypsin and ₁-antichymotrypsin, were investigated in bronchoalveolar lavage (BAL) fluid of bronchiectasis patients divided into mild, moderate, and severe disease subgroups and compared to BAL fluid from healthy controls. Immunochemical characterization and quantitation were performed by Western immunoblot. The activities of elastase and cathepsin G were recorded spectrophotometrically using synthetic substrates. The results showed a significant difference in elastase and cathepsin G activities in BAL fluid of the three subgroups, revealing the following data—mild subgroup, 0.21±0.09 mU/g and 57.35±20.9 U/g; moderate subgroup, 1.87±1.12 mU/g and 89.24±31.4 U/g; and severe subgroup, 2.64±1.63 mU/g and 139.18±58.3 U/g, respectively—compared to those of the healthy control group, 0.09±0.03 mU/g and 50.96±16.5 U/g. Evidently, the protective shield of plasma-derived antiproteinases was sufficient in healthy subjects and, also, in mild cases of bronchiectasis, but not in cases of severe and moderate forms of bronchiectasis, in which free and catalytically active elastase and cathepsin G were detected. The serine proteinases inhibitors (serpins), ₁-antitrypsin and ₁-antichymotrypsin, have evidently been oxidized and/or proteolytically cleaved in the cases of moderate and severe bronchiectasis. The results indicate that insufficient endogenous downregulation of catalytically active elastase and cathepsin G in BALF leads to tissue injury, resulting in alterative and deformative processes in the bronchiectasis lung.Abbreviations used BAL bronchoalveolar lavage - BALF bronchoalveolar lavage fluid - BE bronchiectasis - ₁-AT ₁-antitrypsin - ₁-ACT ₁-antichymotrypsin - ECM extracellular matrix - CT computerized tomography - PMN polymorphonuclear leukocyte - NCM nitrocellulose membrane - SDS-PAGE sodium dodecyl sulfatepolyacrylamide gel electrophoresis - TBS Tris-buffered saline     

Differentiation of hematuria by quantitative determination of urinary marker proteins

Summary Hematuria caused by prerenal, glomerular, postglomerular, and postrenal causes is usually differentiated by a number of noninvasive and invasive diagnostic procedures. In the present study we have applied a new analytical strategy based on observations that the various forms of hematuria can be classified by their typical protein pattern. When analyzed by quantitative turbidimetric assays, urines from postrenal hematurias contained high-molecular-weight proteins ( ₂-macroglobulin and IgG) in proportions found in plasma. Relating excretion rates (mg/mg) of these proteins to those of albumin, ratios for ₂-macroglobulin/albumin and IgG/albumin were 2.0–31×10^–2 and 20.0 –180×10^–2, respectively. In contrast, glomerular hematurias exhibited ratios of 0.01–2.0×10^–2 ( ₂macroglobulin/albumin) and 2.0–20×10^–2 (IgG/albumin). Additional determination of ₁-microglobulin allowed us to differentiate postglomerular hematurias caused by interstitial nephropathies from glomerular and postrenal diseases. Critical evaluation of 93 cases diagnosed by independent clinical examination including histology, sonography, and cystoscopy revealed that the criteria derived from protein measurements resulted in correct classification when urine albumin exceeds 100 mg/l. This noninvasive procedure is expected to be of considerable help in the primary care of patients with unexplained hematuria.     

Isolation of the Bα and Bβ mating-type loci of Schizophyllum commune

The B mating type of the basidiomycete fungus, Schizophyllum commune is determined by two, tightly linked, multi-specificity (also called multi-allelic) loci: B and B. A plasmid library was used in DNA-mediated transformation to obtain transformants that displayed B-directed development. Plasmids that conferred B1 and B1 mating-type specificities were rescued from the transformants. Fragments of DNA from each plasmid hybridized to genomic DNA from the strain used to make the plasmid library; however, they did not hybridize, or hybridized only weakly, to genomic DNA from strains with mating-type specificities different from B1 or B1. The cloned fragments are presumed to correspond to active regions of each B mating-type locus.     

Molecular properties of the lys1 + gene and the regulation of α-aminoadipate reductase in Schizosaccharomyces pombe

The -aminoadipate pathway for the biosynthesis of lysine is unique to fungi. Molecular properties of the cloned lys1 ⁺ gene and the regulation of the encoded -aminoadipate reductase (AAR) were investigated in the fission yeast Schizosaccharomyces pombe. A 5.2-kb HindIII-EcoRI fragment of S. pombe DNA, containing a functional lys1 ⁺ gene and a promoter, was subcloned to make the 10.7-kb plasmid pLYS1H. A nested 1.778-kb HindIII-EcoRI DNA fragment that complemented the lys1-131 mutant phenotype was sequenced from the plasmid pLYS1D, and shown to contain an open reading frame (ORF) of 470 amino acids, preceded by putative POLII promoter elements (TATA and CCAAT box elements, and two potential yeast GCN4-binding motifs) within 368 bp upstream of the start codon. This ORF shared with the corresponding region of the isofunctional AAR of Saccharomyces cerevisiae 49% amino-acid identity (62% similarity) overall, within which were smaller regions of marked sequence conservation. One such region coincided (95% identity) with a putative AMP-binding domain motif identified in the AAR of S. cerevisiae. In wild-type S. pombe, AAR activity from cells grown in lysine-supplemented minimal or YEPD media was less than the activity of cells grown in minimal mediu. The AAR of S. pombe was more sensitive to feedback inhibition by lysine in vitro than the AAR of S. cerevisiae. These results show the effects of extensive evolutionary divergence on the structure and expression of a pivotal enzyme in the -aminoadipate pathway. Presumably, delineated regions of strong sequence conservation correspond to discrete domains essential to AAR function.     

Ketoconazole blocks cortisol secretion in man by inhibition of adrenal 11β-hydroxylase

Summary We investigated basal and ACTH stimulated levels of cortisol, corticosterone, 17-hydroxyprogesterone, 11-deoxycortisol and 11-deoxycorticosterone as well as plasma levels of ACTH before and during the oral administration of ketoconazole in five patients with Cushing's syndrome (3 with bilateral adrenal hyperplasia, 1 with adrenal adenoma and 1 with adrenal carcinoma) and in three controls. The influence of ketoconazole on the transformation of³H-17-hydroxyprogesterone to³H-11-deoxycortisol and³H-cortisol and of³H-11-deoxycortisol to³H-cortisol as well as of³H-11-deoxycorticosterone to³H-corticosterone was also examined in slices or homogenates of normal and hyperplastic adrenal tissue from four patients. Ketoconazole induced a rise of 11-deoxycortisol and 11-deoxycorticosterone, but not of cortisol and inconsistantly of corticosterone which were increased by ACTH. Thus the ratio 11-deoxycortisol/cortisol rose more after ketoconazole than after ACTH and the ratio 11-deoxycorticosterone/corticosterone rose after ketoconazole but fell after ACTH. Plasma ACTH levels were stimulated 2–50 fold by ketoconazole. Incubation studies of adrenal tissue slices with³H-17-hydroxyprogesterone showed that ketoconazole inhibited the transformation of³H-17-hydroxyprogesterone to³H-cortisol but not to³H-11-deoxycortisol so that the ratio³H-11-deoxycortisol/³H-cortisol increased 15–80 fold. After incubation of adrenal slices with³H-11-deoxycortisol or³H-11-deoxycorticosterone and ketoconazole, a 2–260 fold increase of the ratios³H-11-deoxycortisol/³H-cortisol and³H-11-deoxycorticosterone/³H-corticosterone were also found.In conclusion, the in vivo data indicate and the in vitro data confirm that ketoconazole inhibits cortisol and corticosterone secretion by blocking adrenal 11-hydroxylase activity in normal subjects as well as in patients with Cushing's syndrome, an effect which is compensated in vivo by high ACTH levels.Abbreviations ACTH Adrenocorticotropic hormone - B Corticosterone - DOC 11-Deoxycorticosterone - F Cortisol - K Ketoconazole - 17-OH-P 17-Hydroxyprogesterone - S 11-Deoxycortisol