Identification and cloning of a cryptococcal deacetylase that produces protective immune responses

Cell-mediated immunity plays a crucial role in host defenses against Cryptococcus (Filobasidiella) neoformans. Therefore, the identification of cryptococcal antigens capable of producing T-cell-mediated responses, such as delayed-type hypersensitivity (DTH) reactions, may be useful in the development of immune-based strategies to control cryptococcosis. In order to characterize DTH-producing antigens, culture supernatants from the unencapsulated Cap-67 strain were separated by anion-exchange chromatography. After further fractionation by preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis, a purified protein with an apparent molecular mass of 25 kDa was found to produce DTH, as evidenced by increased footpad swelling in mice immunized with culture supernatants, relative to unimmunized mice. The 20-amino-acid N-terminal sequence of the 25-kDa protein was used to search data of the C. neoformans Genome Project. Based on the genomic DNA sequence, a DNA probe was used to screen a lambda cDNA library prepared from strain B3501. Clones were isolated containing the full-length gene (d25), which showed homology with a number of polysaccharide deacetylases from fungi and bacteria. The recombinant d25 protein expressed in Escherichia coli was similar to the natural one in DTH-producing activity. Moreover, immunization with either the natural or the recombinant protein prolonged survival and decreased fungal burden in mice challenged with the highly virulent C. neoformans strain H99. In conclusion, we have described the first cryptococcal gene whose product, a 25-kDa extracellular polysaccharide deacetylase, has been shown to induce protective immunity responses.

Monoclonal antibodies specific for hippurate hydrolase of Campylobacter jejuni

Eleven monoclonal antibodies raised against recombinant Campylobacter jejuni hippurate hydrolase were tested for binding to lysates from 19 C. jejuni strains, 12 other Campylobacter strains, and 21 non-Campylobacter strains. Several monoclonal antibodies bound to C. jejuni but not to other Campylobacter species and may be useful in a species-specific immunoassay.

A new type of allantoinase in amphibian liver

Allantoinase and allantoicase are known to form a complex in amphibian liver. In this study, a new type of allantoinase that did not form a complex with allantoicase was found in the amphibian liver. Purified enzyme had a molecular mass of about 44 kDa both in SDS-PAGE and gel-filtrations. The enzyme cross-reacted with anti-sardine allantoinase polyclonal antibody, and it weakly cross-reacted with anti-bullfrog allantoinase polyclonal antibody.

Molecular characterization of a mannoprotein with homology to chitin deacetylases that stimulates T cell responses to Cryptococcus neoformans

The fungus Cryptococcus neoformans is a major cause of morbidity and mortality in patients with impaired CD4(+) T cell function, particularly those with AIDS. To identify cryptococcal antigens that could serve as vaccine candidates by stimulating T cell responses, C. neoformans-reactive CD4(+) T cell hybridomas were generated by immunization of C57BL/6 mice and fusion of splenocytes with thymoma cells. The antigen that stimulated one of the hybridomas, designated P1D6, to produce IL-2 was purified to homogeneity by sequential anion exchange chromatography, hydrophobic interaction chromatography, and SDS/PAGE. Based on its apparent molecular mass of 98 kDa and mannosylation, the antigen of interest was named MP98. MP98 was N terminal-sequenced, and the gene encoding the protein was cloned and sequenced. Recombinant MP98, expressed in Saccharomyces cerevisiae, stimulated P1D6 to produce IL-2. Analysis of the derived 458-aa sequence of MP98 reveals an N-terminal cleavable signal sequence, a polysaccharide deacetylase domain found in fungal chitin deacetylases, and a serine/threonine-rich C-terminal region. Overall, there were 103 serine/threonine residues serving as potential O-linked glycosylation sites as well as 12 possible N-linked glycosylation sites. Thus, a C. neoformans mannoprotein has been characterized that stimulates T cell responses and has molecular properties of a chitin deacetylase.

A monoclonal antibody specific for Pseudomonas aeruginosa amidase

Amidase from Pseudomonas aeruginosa was purified by anionic exchange chromatography and used to immunise female Balb/c mice. Monoclonal antibodies (MAbs) were raised by hybridoma technology using Sp2/0 myeloma cells as fusion partner. A selected IgM subclass MAb was purified from in vitro hybridoma cell line supernatant by a two-step anionic exchange chromatography. The MAb was specific for amidase from P. aeruginosa as determined by Western blotting and recognized the native and denatured forms of the enzyme.

A novel anionic modification of N-glycans on mammalian endothelial cells is recognized by activated neutrophils and modulates acute inflammatory responses

We previously reported an unusual carboxylated modification on N:-glycans isolated from whole bovine lung. We have now raised IgG mAbs against the modification by immunization with biotinylated aminopyridine-derivatized glycans enriched for the anionic species and screening for Abs whose reactivities were abrogated by carboxylate neutralization of bovine lung glycopeptides. One such Ab (mAb GB3.1) was inhibited by carboxylated bovine lung glycopeptides and other multicarboxylated molecules, but not by glycopeptides in which the carboxylate groups were modified. The Ab recognized an epitope constitutively expressed on bovine, human, and other mammalian endothelial cells. Stimulated, but not resting, neutrophils bound to immobilized bovine lung glycopeptides in a carboxylate-dependent manner. The binding of activated neutrophils to immobilized bovine lung glycopeptides was inhibited both by mAb GB3.1 and by soluble glycopeptides in a carboxylate-dependent manner. The Ab also inhibited extravasation of neutrophils and monocytes in a murine model of peritoneal inflammation. This inhibition of cell trafficking correlated with the increased sequestration but reduced transmigration of leukocytes that were found to be adherent to the endothelium of the mesenteric microvasculature. Taken together, these results indicate that these novel carboxylated N:-glycans are constitutively expressed on vascular endothelium and participate in acute inflammatory responses by interaction with activated neutrophils.

Amidase and peptidase activities of polyclonal immunoglobulin G present in the sera of patients with rheumatoid arthritis

Polyclonal Immunoglobulin (Ig) G from patients with rheumatoid arthritis (RA) and healthy subjects hydrolyzed carbobenzoxy-Val-Gly-Arg p-nitroanilide and D-Pro-Phe-Arg p-nitroanilide. RA IgG exhibited higher activity against the former substrate, but not the latter. On the other hand, RA IgG showed reduced activity against D-Pro-Phe-Arg methylcoumarinamide, when compared with those of the healthy controls. These results suggest that RA IgGs differ from normal IgGs in the substrate specificity of amidase activity. Preliminary studies have shown that two out of three RA IgG samples cleaved a pentapeptide--Gln-Arg-Arg-Ala-Ala--which is assumed to be associated with the risk of developing RA (Gregersen, P. K. et al. (1987), Arthritis Rheum. 30, 1205-1213). By contrast, virtually no cleavage of the same peptide was observed with IgG from healthy controls. A peptide analog, Gln-Arg-Arg-Trp-Ala, was not cleaved at all by any IgGs examined either from RA patients or healthy controls.

FlCRhR/cyclic AMP signaling in myenteric ganglia and calbindin-D28 intrinsic primary afferent neurons involves adenylyl cyclases I, III and IV

The aims of this study were to improve insight into cAMP signaling in myenteric neurons and glia and identify the adenylyl cyclase (AC) isoforms expressed in myenteric ganglia of the guinea-pig small intestine. An increase in the intracellular cAMP levels was measured indirectly by an increase in the 520 nm/580 nm fluorescence emission ratio of the protein kinase A fluorosensor FlCRhR. Forskolin or pituitary adenylyl cyclase activating peptide caused an increase in cAMP levels in cell somas and neurites and elicited a slow EPSP-like response in myenteric AH/Type 2 neurons, whereas the inactive form of forskolin was without these effects. Glia displayed similar cAMP responses. Immunoblot analysis showed that AC I, III and IV were present in myenteric ganglia, with AC I being detected as two bands of 160 kDa and 185 kDa, AC III as two bands near 220 kDa, and AC IV as two bands of greater than 220 kDa. Pretreatment with N-ethylmaleimide and N-glycosidase F revealed an AC IV band at 115 kDa. Preabsorption with specific blocking peptides prevented detection of AC I or AC IV immunoreactive proteins. In ganglia which expressed strong AC IV immunoreactivity, no immunoreactive bands were detected for AC II, AC V/VI, AC VII or AC VIII. The amount of AC isoforms expressed in myenteric ganglia followed the order of AC IV&z.Gt;III>I. Immunofluorescent labeling studies revealed that AC I, AC III and AC IV were variably expressed in myenteric neurons and glia of the duodenum, jejunum and ileum. In the guinea-pig ileum, AC I, III and IV immunoreactivities were respectively present in 26%, 58% and 89% of calbindin-D28-colabeled myenteric neurons. These findings suggest that (1) AC I, AC III and AC IV variably contribute to cAMP signaling in myenteric ganglia, (2) AC I, AC III and AC IV may be differentially expressed in distinct subsets of calbindin-D28 neurons which may represent intrinsic primary afferent myenteric neurons. Our study also provides direct evidence for activation of cAMP-dependent protein kinase.

Mutation (Q456H) is the most common cause of profound biotinidase deficiency in children ascertained by newborn screening in the United States

Biotinidase deficiency is an autosomal recessive disorder that can result in neurologic and cutaneous symptoms if not treated with biotin supplementation. We have identified the most common cause of profound biotinidase deficiency in children ascertained by newborn screening in the United States. 1368A-->C results in a substitution of histidine for glutamine 456 (Q456H) in exon D of the biotinidase gene. This mutation was found in at least one allele in 14 unrelated children from 27 different families or 15 of 54 alleles studied (28%). This mutation was not identified in 41 normal adults using SSCA, nor was it found in 296 normal newborns using allele-specific oligonucleotide analysis, suggesting that this change is not a polymorphism. In addition, biochemical data from a child homozygous for Q456H suggest that the aberrant enzyme has very low biotinyl-hydrolase activity, lacks biotinyl-transferase activity, and is not recognized by antibody prepared to purified, normal human biotinidase. The ethnic backgrounds of the parents contributing the Q456H allele are varied but are generally northern European.

Arg538 to Cys mutation in a CpG dinucleotide of the human biotinidase gene is the second most common cause of profound biotinidase deficiency in symptomatic children

Biotinidase deficiency is an autosomal recessively inherited disorder in the recycling of the vitamin biotin. The most common mutation that causes profound biotinidase deficiency in symptomatic individuals is a deletion/insertion (G98:d7i3) that occurs in exon B of the biotinidase gene. We now report the second most common mutation, a C-to-T substitution (position 1612) in a CpG dinucleotide in exon D of the biotinidase gene. This mutation results in the substitution of a cysteine for arginine538 (designated R538C) and was found in 10 of 30 symptomatic children with profound biotinidase deficiency, 5 of whom also have the G98:d7i3 mutation. This mutation was not found in DNA samples from 32 individuals with normal biotinidase activity, but was found in one individual with enzyme activity in the heterozygous range. This mutation was not detected in 371 randomly selected, normal individuals using allele-specific oligonucleotide hybridization analysis. Aberrant biotinidase protein was not detectable in extracts of fibroblasts from a child who is homozygous for the R538C mutation, but was present in less than normal concentration in identical extracts treated with beta-mercaptoethanol. Because there is no detectable biotinidase protein in sera of children who are homozygous for the R538C mutation and in combination with the deletion/insertion mutation, the R538C mutation likely results in inappropriate intra- or intermolecular disulfide bond formation, more rapid degradation of the aberrant enzyme, and failure to secrete the residual aberrant enzyme from the cells into blood.

Two amino acid amidohydrolase genes encoding L-stereospecific carbamoylase and aminoacylase are organized in a common operon in Bacillus stearothermophilus

The L-carbamoylase gene (amaB) upstream of the previously detected L-aminoacylase gene (amaA) in the Bacillus stearothermophilus NCIB8224 strain was identified in this study. The amaB and amaA genes are cotranscribed as a single mRNA from the same transcriptional start. The two-ama-gene operon is conserved in B. stearothermophilus strains. A cross-activity of L-carbamoylase towards respective substrates for L-aminoacylase supports the hypothesis of a common ancestor for both amino acid amidohydrolase genes.

Physical, biochemical, and immunological characterization of a thermostable amidase from Klebsiella pneumoniae NCTR 1

An amidase capable of degrading acrylamide and aliphatic amides was purified to apparent homogeneity from Klebsiella pneumoniae NCTR 1. The enzyme is a monomer with an apparent molecular weight of 62,000. The pH and temperature optima of the enzyme were 7.0 and 65 degrees C, respectively. The purified amidase contained 11 5,5-dithiobis(2-nitrobenzoate) (DTNB)-titratable sulfhydryl (SH) groups. In the native enzyme 1.0 SH group readily reacted with DTNB with no detectable loss of activity. Titration of the next 3.0 SH groups with DTNB resulted in a loss of activity of more than 70%. The remaining seven inaccessible SH groups could be titrated only in the presence of 8 M guanidine hydrochloride. Titration of SH groups was strongly inhibited by carboxymethylation and KMnO4, suggesting the presence of SH groups at the active site(s). Inductively coupled plasma-atomic emission spectrometry analysis indicated that the native amidase contains 0.33 mol of cobalt and 0.33 mol of iron per mol of the native enzyme. Polyclonal antiserum against K. pneumoniae amidase was raised in rabbits, and immunochemical comparisons were made with amidases from Rhodococcus sp., Mycobacterium smegmatis, Pseudomonas chlororaphis B23, and Methylophilus methylotrophus. The antiserum immunoprecipitated and immunoreacted with the amidases of K. pneumoniae and P. chlororaphis B23. The antiserum failed to immunoreact or immunoprecipitate with other amidases.

Isolation and properties of an angiotensin II-cleaving peptidase from mesquite pollen

Biochemical studies of pollen proteins have been focused, primarily, in investigating their roles as allergens. These molecules, some of which have enzymatic activity, act as antigens and initiate the production of IgE antibodies, leading to allergic and/or asthmatic responses. Included in this mixture of proteins are proteinases which, although they may or may not be allergenic, could still be involved in airway dysfunction. We have isolated an arginine-specific endopeptidase to homogeneity from mesquite (Prosopis velutina) pollen, a known wind-borne allergen, which has a molecular mass near 84 kDa by NaDodSO4-gel electrophoresis, a pH optimum in the neutral to alkaline range, and a requirement for Ca2+ for stabilization. The enzyme is inhibited by diisopropyl fluorophosphate (DFP) and N-p-tosyl-L-lysine chloromethylketone but not by N-p-tosyl-L-phenylalanine chloromethylketone, EDTA, or iodoacetamide. It was also not inhibited by human plasma proteinase inhibitors nor several other naturally occurring plant and animal inhibitors. Cleavage by the endopeptidase was primarily on the carboxy-terminal side of arginine residues in peptides, whereas proteins such as kallikrein and prothrombin were only activated and/or degraded extremely slowly. Several bioactive peptides that may be involved in maintaining normal lung function were readily fragmented, including angiotensin II, a vasoconstrictor, and atrial natriuretic peptide, a modulator of vascular permeability, both of which were rapidly cleaved at low enzyme:substrate molar ratios. Thus, the pollen endopeptidase could be involved in exacerbating the development of asthma by inactivating bioactive peptides that have ameliorating effects in maintaining lung airway homeostasis.

The vitamin D3 hydroxylase-associated protein is a propionamide-metabolizing amidase enzyme

Previously we isolated a novel protein that coimmunoprecipitates with the 1,25-dihydroxyvitamin D3-24R-hydroxylase and 25-hydroxyvitamin D3-1 alpha-hydroxylase. This kidney-specific protein found in the inner membrane of mitochondria is named the vitamin D3 hydroxylase-associated protein (VDHAP). To determine a putative function for this protein, an extensive computer search of the deduced amino acid sequence of VDHAP was performed. A BLAST homology search identified amino acid residues 133 through 321 in acetamidase from Aspergillus nidulans that exhibit 38% amino acid identify and 65% amino acid similarity to VDHAP. A protein consensus sequence dictionary, MOTIFS, identified an amidase consensus sequence in VDHAP. This sequence, G-G-S-S-G-G-E-G-A-L-I-A-G-G-G-S-L-L-G-I-G-S-D-V-A-G-S-I-R-L-P-S, in VDHAP is located between amino acids 223 and 254. Propionamide, acetamide, and acrylamide were identified as substrates for an amidase activity in soluble chicken kidney mitochondria. Propionamide is the best substrate with a Vmax of 16.7 nmol NH4+/min/mg protein and an apparent Km of 7.9 mM in soluble chicken kidney mitochondria. A VDHAP monoclonal antibody, IVC2G8, immunoprecipitates 78% of the total propionamidase activity in soluble chicken kidney mitochondria. These results suggest that VDHAP is a propionamidase enzyme in soluble chicken kidney mitochondria and a member of the amidase signature gene family.

Purification of allantoinase from soybean seeds and production and characterization of anti-allantoinase antibodies

Allantoinase catalyzes the hydrolysis of allantoin to allantoic acid, a reaction important in both biogenesis and degradation of ureides. Ureide production in cotyledons of germinating soybean (Glycine max L.) seeds has not been studied extensively but may be important in mobilizing nitrogen reserves. Allantoinase was purified approximately 2500-fold from a crude extract of soybean seeds by differential centrifugation, heat treatment, ammonium sulfate fractionation, ethanol fractionation, and fast protein liquid chromatography (Pharmacia) with Mono-Q and Superose columns. The purified enzyme had a subunit size of 30 kD. Polyclonal antibodies produced against the purified protein titrated allantoinase activity in a crude extract of seed proteins. Antibodies recognized the 30-kD band in western blot analysis of crude seed extracts, indicating that they were specific for allantoinase.

Nucleotide sequence and expression in Escherichia coli of the Cephalosporin acylase gene of a Pseudomonas strain

The gene encoding cephalosporin acylase, which hydrolyzes 7-beta-(4-carboxybutanamido)-cephalosporanic acid (GL-7ACA) to 7-aminocephalosporanic acid (7ACA) and glutaric acid, was cloned from a Pseudomonas sp. strain V22 and expressed in Escherichia coli, in a two-cistron system, and the enzyme was purified and characterized. The purified enzyme was composed of two non-identical subunits, their molecular weights were estimated by SDS-PAGE to be 40,000 and 22,000, and had a pI of 4.6. The amino acid sequence of the enzyme, deduced from the nucleotide sequence, showed high similarity (97%) with that of a previously reported acyI-encoded cephalosporin acylase. Cephalosporin acylase also resembles the bacterial gamma-glutamyl transpeptidases (GGTs) with respect to their molecular organization and amino acid sequence, but differs from them with respect to catalytic and immunological properties. Purified enzyme exhibited not only cephalosporin acylase activity, but also GGT activity. The Km values of the enzyme for GL-7ACA and L-gamma-glutamyl-p-nitroanilide were 6.1 and 3.8 mM, respectively. Cephalosporin acylase was not recognized by antibodies prepared against bacterial GGTs.

Biochemical and immunologic characterization of serum biotinidase in partial biotinidase deficiency

Newborn screening for biotinidase deficiency has identified children with profound biotinidase deficiency (less than 10% of mean normal activity) and about an equal number of children with partial biotinidase deficiency (10 to 30% of mean normal activity). Partial biotinidase deficiency was initially considered a variant without clinical consequences until one child, during an episode of gastroenteritis, developed symptoms of biotinidase deficiency that resolved with biotin therapy. Biochemical and immunologic characterization of biotinidase was performed in sera from 23 children with partial biotinidase deficiency from 19 families and 18 of their parents. As expected, all patients had cross-reacting material in their serum. Patients with partial biotinidase deficiency can be classified into six distinct biochemical phenotypes on the basis of the number of isoforms and the distribution frequency of the isoforms. Kinetic studies were performed on samples from 17 of the patients and were found to be normal in all cases. The patient with partial deficiency who became symptomatic has an isoform profile that is not different from 10 other asymptomatic, partially deficient children. The parents had normal isoform patterns. The isoform patterns observed in the patients with partial biotinidase deficiency were not different from those of the profoundly deficient patients who had cross-reacting material.

Biochemical and immunological characterization of serum biotinidase in profound biotinidase deficiency

The biochemical and immunological characterization of biotinidase was performed in sera from 100 normal individuals, 68 children with profound biotinidase deficiency (less than 10% of mean normal activity) who were identified symptomatically and by newborn screening, and 63 of their parents. On isoelectric focusing, serum enzyme from normal individuals exhibits extensive microheterogeneity, consisting of at least four major and five minor isoforms at pH 4.15-4.35. Patients with profound biotinidase deficiency can be classified into at least nine distinct biochemical phenotypes, on the basis of (a) the presence or absence of cross-reacting material (CRM) to biotinidase, (b) the number of isoforms, and (c) the distribution frequency of the isoforms. None of the patients with CRM had an abnormal Km of the substrate for the enzyme. All of the parents had normal isoform patterns. The mean activities, CRM concentrations, and specific activities were not significantly different between parents of CRM-positive children and parents of CRM-negative children. There is no relationship between either the age at onset or the severity of symptoms and the isoform patterns or CRM status of the symptomatic children. The isoform patterns of children identified by newborn screening are not different from those of symptomatic children.

Plasmid dependence of Pseudomonas sp. strain NK87 enzymes that degrade 6-aminohexanoate-cyclic dimer

A bacterial strain, Pseudomonas sp. strain NK87, that can use 6-aminohexanoate-cyclic dimer as the sole source of carbon and nitrogen was newly isolated from wastewater of a factory which produces nylon-6. Two responsible enzymes, 6-aminohexanoate-cyclic-dimer hydrolase (P-EI) and 6-aminohexanoate-dimer hydrolase (P-EII), were found in the NK87 strain, as is the case with Flavobacterium sp. strain KI72, another 6-aminohexanoate-cyclic-dimer-metabolizing bacterium (H. Okada, S. Negoro, H. Kimura, and S. Nakamura, Nature [London] 306:203-206, 1983). The P-EI enzyme is immunologically identical to the 6-aminohexanoate-cyclic-dimer hydrolase of KI72 (F-EI). However, antiserum against the 6-aminohexanoate-dimer hydrolase purified from KI72 (F-EII) did not react with cell extracts of NK87, indicating that the F-EII and P-EII enzymes are immunologically different. Restriction endonuclease analyses show that the NK87 strain harbors at least six plasmids ranging in size from 20 to 80 kilobase pairs (kbp). The P-EI and P-EII genes were cloned in Escherichia coli. Both the P-EI and F-EI probes strongly hybridized with a 23-kbp plasmid in Southern hybridization analyses. The P-EII probe hybridized specifically with an 80-kbp plasmid, but the F-EII probe hybridized with none of the plasmids harbored in NK87. These results indicate that the P-EI gene and P-EII gene are encoded on the 23-kbp and 80-kbp plasmids, respectively.

Further characterization of porcine kidney aminoacylase I reveals close similarity to 'renal dipeptidase'

We present data indicating that aminoacylase I (EC 3.5.1.14) from porcine kidney and 'renal dipeptidase' (EC 3.4.13.11) are closely related. We show that, in situ, a considerable fraction of aminoacylase activity ist attached to membranes. Incubation of washed microsomal membranes with phospholipase C from B. cereus results in the rapid solubilization of aminoacylase I, suggesting that aminoacylase--as shown for renal dipeptidase before--bears a glycolipid 'membrane anchor'. In agreement with this assumption, purified aminoacylase was found to contain myo-inositol, a characteristic component of phosphatidylinositol-anchored membrane proteins. A reexamination of the molecular mass of purified aminoacylase yielded values (46,000 +/- 2,000 Da by SDS polyacrylamide electrophoresis, 98,000 +/- 5,000 Da by sedimentation equilibrium centrifugation) similar to those reported for renal dipeptidase. The enzymes coelute during most of the procedures applied in the purification of aminoacylase or renal dipeptidase, but can be separated by hydrophobic interaction chromatography. A survey of the literature revealed a series of additional features of aminoacylase I and renal dipeptidase (amino-acid composition, isoelectric points, metal dependence, and more) that are strikingly similar.

Properties of gamma-glutamyl arylamidase activity of the heavy subunit of gamma-glutamyl arylamidase from Bacillus sp. strain No. 12

gamma-Glutamyl arylamidase of Bacillus sp. strain No. 12, composed of two heavy (Mr 56,000) and two light (Mr 46,000) subunits, was dissociated and inactivated by mild SDS treatment. The activity was restored in the isolated heavy subunit but not in the light subunit when SDS was removed by dialysis. The restored activity of the heavy subunit was similar to that of the native enzyme with regard to substrate specificity and inhibition and activation by alpha- and gamma-glutamyl compounds, free amino acids, peptides, enzyme inhibitors, and anti-native enzyme antibody.

[Biological properties of glutamin-(asparagin-)ase from Pseudomonas boreopolis 526]

Glutamine(asparagine)ase from Ps. boreopolis 526 has an antineoplastic effect on lymphoid leukemia P-388. The enzyme half-life in the mouse serum is 8.5 hours. Glutamine(asparagine)ase has no cross-antigenicity with L-asparaginase from E. coli (Bayer, FRG). Specific antibodies against L-asparaginase (Bayer, FRG) do not influence the activity of glutamine(asparagine)ase.

[Comparison of the immunodepressive action of microbial deamidases from different sources]

The role of glutaminase activity of microbial deamidases in the immunodepressant action of these enzymes was studied. Escherichia coli asparaginase, asparagin and glutamin deamidases from Pseudomonas fluorescens and Mycobacterium album were found to have an inhibitory effect on the PHA-stimulated lymphocyte blast transformation. The inhibitory activity of deamidases with the asparaginase-glutaminase ratios 1 : 1.5 and 1 : 1.3 was one order of magnitude higher than that of Escherichia coli asparaginase with the ratio 1 : 0.02. It is assumed that glutaminase activity plays an essential role in the immunodepressant action of deamidases .

Immunological and genetic properties of Escherichia coli K12 argE mutants

CRM+ nonsense mutations, as described for E. coli K12 lacZ, in theory permit determination of the direction of transcription of an isolated gene. In the hope of utilising this approach to confirm that the E gene of the E. coli K12 argECBH cluster is transcribed in the opposite direction from the CBH unit, 30 argE mutations were investigated immunologically and genetically. Only three, E1, E25 and E26 (which map close together towards the left-hand end of the gene), were found to be CRM+. Co-suppression of each argE mutation with known strongly polar lacZ amber, ochre and UGA mutations was looked for to distinguish missfense from nonsense argE's, Arg+ revertants being screened for Lac+ and Mel+ phenotypes. Of 16 mutations not hitherto characterised as nonsense, frameshift or large deletions, only three, E1, E25 and E26, appeared to be missense. Three of the nonsense mutations were also streptomycin suppressible. It appears, therefore, that among argE mutants so far studied the correlation between CRM+ and missense is complete, so that the projected method for determining the direction of transcription of argE could not be applied.

Treatment of L5178Y tumor-bearing BDF1 mice with a nonimmunogenic L-glutaminase-L-asparaginase

An L-glutaminase-L-asparaginase from Achromobacter has been rendered nonimmunogenic by the covalent attachment of polyethylene glycol (PEG) to nonessential amine groups of the enzyme. PEG-L-glutaminase-L-asparaginase exhibits a greatly enhanced half-life in the bloodstream compared to the unmodified enzyme in normal mice, and is effective in prolonging the survival of BDF1 mice inoculated ip with L5178Y cells. PEG-L-glutaminase-L-asparaginase appears rapidly in the blood following ip injection.