Implications of central obesity-related variants in LYPLAL1, NRXN3, MSRA, and TFAP2B on quantitative metabolic traits in adult Danes

BACKGROUND

Two meta-analyses of genome-wide association studies (GWAS) have suggested that four variants: rs2605100 in lysophospholipase-like 1 (LYPLAL1), rs10146997 in neuroxin 3 (NRXN3), rs545854 in methionine sulfoxide reductase A (MSRA), and rs987237 in transcription factor activating enhancer-binding protein 2 beta (TFAP2B) associate with measures of central obesity. To elucidate potential underlying phenotypes we aimed to investigate whether these variants associated with: 1) quantitative metabolic traits, 2) anthropometric measures (waist circumference (WC), waist-hip ratio, and BMI), or 3) type 2 diabetes, and central and general overweight and obesity.

METHODOLOGY/PRINCIPAL FINDINGS

The four variants were genotyped in Danish individuals using KASPar®. Quantitative metabolic traits were examined in a population-based sample (n = 6,038) and WC and BMI were furthermore analyzed in a combined study sample (n = 13,507). Case-control studies of diabetes and adiposity included 15,326 individuals. The major G-allele of LYPLAL1 rs2605100 associated with increased fasting serum triglyceride concentrations (per allele effect (β) = 3%(1;5(95%CI)), p(additive) = 2.7×10(-3)), an association driven by the male gender (p(interaction) = 0.02). The same allele associated with increased fasting serum insulin concentrations (β = 3%(1;5), p(additive) = 2.5×10(-3)) and increased insulin resistance (HOMA-IR) (β = 4%(1;6), p(additive) = 1.5×10(-3)). The minor G-allele of rs10146997 in NRXN3 associated with increased WC among women (β = 0.55cm (0.20;0.89), p(additive) = 1.7×10(-3), p(interaction) = 1.0×10(-3)), but showed no associations with obesity related metabolic traits. The MSRA rs545854 and TFAP2B rs987237 showed nominal associations with central obesity; however, no underlying metabolic phenotypes became obvious, when investigating quantitative metabolic traits. None of the variants influenced the prevalence of type 2 diabetes.

CONCLUSION/SIGNIFICANCE

We demonstrate that several of the central obesity-associated variants in LYPLAL1, NRXN3, MSRA, and TFAP2B associate with metabolic and anthropometric traits in Danish adults. However, analyses were made without adjusting for multiple testing, and further studies are needed to confirm the putative role of LYPLAL1, NRXN3, MSRA, and TFAP2B in the pathophysiology of obesity.

Acyl-protein thioesterase 2 catalyzes the deacylation of peripheral membrane-associated GAP-43

An acylation/deacylation cycle is necessary to maintain the steady-state subcellular distribution and biological activity of S-acylated peripheral proteins. Despite the progress that has been made in identifying and characterizing palmitoyltransferases (PATs), much less is known about the thioesterases involved in protein deacylation. In this work, we investigated the deacylation of growth-associated protein-43 (GAP-43), a dually acylated protein at cysteine residues 3 and 4. Using fluorescent fusion constructs, we measured in vivo the rate of deacylation of GAP-43 and its single acylated mutants in Chinese hamster ovary (CHO)-K1 and human HeLa cells. Biochemical and live cell imaging experiments demonstrated that single acylated mutants were completely deacylated with similar kinetic in both cell types. By RT-PCR we observed that acyl-protein thioesterase 1 (APT-1), the only bona fide thioesterase shown to mediate deacylation in vivo, is expressed in HeLa cells, but not in CHO-K1 cells. However, APT-1 overexpression neither increased the deacylation rate of single acylated GAP-43 nor affected the steady-state subcellular distribution of dually acylated GAP-43 both in CHO-K1 and HeLa cells, indicating that GAP-43 deacylation is not mediated by APT-1. Accordingly, we performed a bioinformatic search to identify putative candidates with acyl-protein thioesterase activity. Among several candidates, we found that APT-2 is expressed both in CHO-K1 and HeLa cells and its overexpression increased the deacylation rate of single acylated GAP-43 and affected the steady-state localization of diacylated GAP-43 and H-Ras. Thus, the results demonstrate that APT-2 is the protein thioesterase involved in the acylation/deacylation cycle operating in GAP-43 subcellular distribution.

Acyl-CoA-binding protein 2 binds lysophospholipase 2 and lysoPC to promote tolerance to cadmium-induced oxidative stress in transgenic Arabidopsis

Lysophospholipids are intermediates of phospholipid metabolism resulting from stress and lysophospholipases detoxify lysophosphatidylcholine (lysoPC). Many lysophospholipases have been characterized in mammals and bacteria, but few have been reported from plants. Arabidopsis thaliana lysophospholipase 2 (lysoPL2) (At1g52760) was identified as a protein interactor of acyl-CoA-binding protein 2 (ACBP2) in yeast two-hybrid analysis and co-immunoprecipitation assays. BLASTP analysis indicated that lysoPL2 showed approximately 35% amino acid identity to the lysoPL1 family. Co-localization of autofluorescence-tagged lysoPL2 and ACBP2 by confocal microscopy in agroinfiltrated tobacco suggests the plasma membrane as a site for their subcellular interaction. LysoPL2 mRNA was induced by zinc (Zn) and hydrogen peroxide (H(2)O(2)), and lysoPL2 knockout mutants showed enhanced sensitivity to Zn and H(2)O(2) in comparison to wild type. LysoPL2-overexpressing Arabidopsis was more tolerant to H(2)O(2) and cadmium (Cd) than wild type, suggesting involvement of lysoPL2 in phospholipid repair following lipid peroxidation arising from metal-induced stress. Lipid hydroperoxide (LOOH) contents in ACBP2-overexpressors and lysoPL2-overexpressors after Cd-treatment were lower than wild type, indicating that ACBP2 and lysoPL2 confer protection during oxidative stress. A role for lysoPL2 in lysoPC detoxification was demonstrated when recombinant lysoPL2 was observed to degrade lysoPC in vitro. Filter-binding assays and Lipidex competition assays showed that (His)(6)-ACBP2 binds lysoPC in vitro. Binding was disrupted in a (His)(6)-ACBP2 derivative lacking the acyl-CoA-binding domain, confirming that this domain confers lysoPC binding. These results suggest that ACBP2 can bind both lysoPC and lysoPL2 to promote the degradation of lysoPC in response to Cd-induced oxidative stress.

CLC- a novel susceptibility gene for allergic rhinitis?

BACKGROUND

Studies of the nasal lavage fluid proteome have previously identified proteins differently expressed in patients with symptomatic allergic rhinitis, e.g. S100A7, prolactin-inducible protein (PIP), wingless-type MMTV integration site family, member 2B (WNT2B), Charcot-Leyden crystal protein (CLC) and palate lung nasal epithelial clone (PLUNC). The aim of the present study was to investigate if genetic variation associated with allergic rhinitis can be found in these genes.

METHODS

Peripheral blood was collected from 251 patients with birch and/or grass pollen-induced allergic rhinitis and 386 nonatopic healthy controls. A total of 39 single nucleotide polymorphisms (SNPs) distributed over the genes PIP, WNT2B, CLC and PLUNC were selected from dbSNP, genotyped and investigated for associations with allergic rhinitis. Twelve additional SNPs were subsequently analysed for CLC.

RESULTS

All 22 investigated SNPs in CLC were polymorphic. Ten SNPs yielded significant differences between cases and controls with respect to genotype frequencies. Homozygotes for the minor allele were more common in allergic individuals compared to healthy controls. The minor alleles of these SNPs were all located on the same haplotype. Furthermore, homozygotes for the minor allele of two of the promoter SNPs had higher average scores for birch in skin prick test. In contrast, for seven SNPs within the gene, heterozygotes and homozygotes for the major allele had higher average scores for grass. None of the other three genes showed association.

CONCLUSION

Genetic variation in CLC was found to be associated with allergic rhinitis. The pattern of variation is compatible with a recessive inheritance model and the previously observed altered protein levels detected in patients with allergic rhinitis.

Genome-wide association scan meta-analysis identifies three Loci influencing adiposity and fat distribution

To identify genetic loci influencing central obesity and fat distribution, we performed a meta-analysis of 16 genome-wide association studies (GWAS, N = 38,580) informative for adult waist circumference (WC) and waist-hip ratio (WHR). We selected 26 SNPs for follow-up, for which the evidence of association with measures of central adiposity (WC and/or WHR) was strong and disproportionate to that for overall adiposity or height. Follow-up studies in a maximum of 70,689 individuals identified two loci strongly associated with measures of central adiposity; these map near TFAP2B (WC, P = 1.9x10(-11)) and MSRA (WC, P = 8.9x10(-9)). A third locus, near LYPLAL1, was associated with WHR in women only (P = 2.6x10(-8)). The variants near TFAP2B appear to influence central adiposity through an effect on overall obesity/fat-mass, whereas LYPLAL1 displays a strong female-only association with fat distribution. By focusing on anthropometric measures of central obesity and fat distribution, we have identified three loci implicated in the regulation of human adiposity.

Maternal exposure to anti-androgenic compounds, vinclozolin, flutamide and procymidone, has no effects on spermatogenesis and DNA methylation in male rats of subsequent generations

To verify whether anti-androgens cause transgenerational effects on spermatogenesis and DNA methylation in rats, gravid Crl:CD(SD) female rats (4 or 5/group, gestational day (GD) 0=day sperm detected) were intraperitoneally treated with anti-androgenic compounds, such as vinclozolin (100 mg/kg/day), procymidone (100 mg/kg/day), or flutamide (10 mg/kg/day), from GD 8 to GD 15. Testes were collected from F1 male pups at postnatal day (PND) 6 for DNA methylation analysis of the region (210 bp including 7 CpG sites) within the lysophospholipase gene by bisulfite DNA sequencing method. F0 and F1 males underwent the sperm analysis (count, motility and morphology), followed by DNA methylation analysis of the sperm. Remaining F1 males were cohabited with untreated-females to obtain F2 male pups for subsequent DNA methylation analysis of the testes at PND 6. These analyses showed no effects on spermatogenesis and fertility in F1 males of any treatment group. DNA methylation status in testes (F1 and F2 pups at PND 6) or sperms (F1 males at 13 weeks old) of the treatment groups were comparable to the control at all observation points, although DNA methylation rates in testes were slightly lower than those in sperm. In F0 males, no abnormalities in the spermatogenesis, fertility and DNA methylation status of sperm were observed. No transgenerational abnormalities of spermatogenesis and DNA methylation status caused by anti-androgenic compounds were observed.

[The effects of Lysophospholipase from Clonorchis sinensis on the hepatic stellate cells and oval cells of rat]

AIM

To clarify the effects of the recombinant protein of Lysophospholipase from Clonorchis sinensis (CsLysoPLA) on the hepatic stellate cells (HSC) and oval cells of rat.

METHODS

Binding of the recombinant CslysoPLA protein to the membrane of HSC and oval cells was identified by immunofluorescent staining. The HSC and oval cells were cultured and treated with the recombinant protein at different doses, and proliferation was quantified by MTT method. Cell cycle analysis was performed by flow cytometry.

RESULTS

The recombinant CslysoPLA protein could bind to the membrane of HSC and oval cells. Compared to control, 2 mg/L and 20 mg/L the recombinant protein could promote HSC and oval cells growth (P<0.05), whereas 200 mg/L the recombinant protein could induce the cells necrosis, which associated with overt plasma membrane disruption. Oval cell number in G(2) phase of the recombinant protein 20 mg/L treated group was higher than that of control group.

CONCLUSION

In vitro, the recombinant protein could induce HSC and oval cells proliferation at low concentrations (2 mg/L and 20 mg/L), whereas it also could induce the cells necrosis at high concentration (200 mg/L). These results suggested that CslysoPLA might play a role in the pathogenicity of C. sinensis.

[Virulence of extracellular phospholipase B of Candida albicans in rabbit experimental keratomycosis]

OBJECTIVE

To determine the virulence of extracellular phospholipase B (PLB) of Candida albicans in experimental keratomycosis.

METHODS

It was an experimental study. The PLB-deficient mutant strain of Candida albicans and its isogenic parental strain were used in this study. The effects of these two strains on the model of experimental keratomycosis in 48 New Zealand albino rabbits covered with contact lens was compared by observing the dynamic changes clinically and histopathologically. In vitro, these two strains were incubated with the corneal stromal cells separately (37 degrees C, 5% CO2). The influence of these two strains on monolayer keratocytes were detected by scanning electron microscopy (SEM), enzyme linked immunosorbent assay (ELISA), and flow cytometry with Annexin V/propidium iodide.

RESULTS

The hyphae of these two strains grew perpendicularly to the corneal stromal lamellae. The difference of the hyphal invasion inoculated for 2 days by these two isogenic strains was statistically significant (P = 0.002), but at other intervals, no significant difference was found. The severity of the inflammation in parental keratomycosis was the same as that in PLB null strain at any time points (P > 0.05). Under SEM, the morphogenesis and the number of adherent germ tubes of these two isogenic strains appeared similarly (P > 0.05), but the number of germ tubes penetrating cell monolayer was significantly different (P = 0.009). Obviously more prostaglandin E2 (PGE2) was detected in the culture supernatants of parental strain group (65,466 +/- 5773) pg/ml than that of the null strain group (18,025 +/- 5232) pg/ml. The percentages of the cells with damaged cellular membrane in the parental group, the PLB null group and the control group, were 3.02%, 2.04% and 0.12%, respectively. The percentages of apoptosis cells in these three groups were 33.17%, 27.56% and 1.46%, respectively. The percentages of living cells were 63.81%, 70.40% and 98.41%, respectively.

CONCLUSIONS

PLB shows virulent effects in triggering fungal invasion in cornea immediately following fungal adherence by decomposing membrane phospholipids and leading to cell lysis. However, its virulent effect does not appear to be critical as in the hematogenous model of disseminated candidiasis.

Characterization of an exported monoglyceride lipase from Mycobacterium tuberculosis possibly involved in the metabolism of host cell membrane lipids

The Rv0183 gene of the Mycobacterium tuberculosis H37Rv strain, which has been implicated as a lysophospholipase, was cloned and expressed in Escherichia coli. The purified Rv0183 protein did not show any activity when lysophospholipid substrates were used, but preferentially hydrolysed monoacylglycerol substrates with a specific activity of 290 units x mg(-1) at 37 degrees C. Rv0183 hydrolyses both long chain di- and triacylglycerols, as determined using the monomolecular film technique, although the turnover was lower than with MAG (monoacyl-glycerol). The enzyme shows an optimum activity at pH values ranging from 7.5 to 9.0 using mono-olein as substrate and is inactivated by serine esterase inhibitors such as E600, PMSF and tetrahydrolipstatin. The catalytic triad is composed of Ser110, Asp226 and His256 residues, as confirmed by the results of site-directed mutagenesis. Rv0183 shows 35% sequence identity with the human and mouse monoglyceride lipases and well below 15% with the other bacterial lipases characterized so far. Homologues of Rv0183 can be identified in other mycobacterial genomes such as Mycobacterium bovis, Mycobacterium smegmatis, and even Mycobacterium leprae, which is known to contain a low number of genes involved in the replication process within the host cells. The results of immunolocalization studies performed with polyclonal antibodies raised against the purified recombinant Rv0183 suggested that the enzyme was present only in the cell wall and culture medium of M. tuberculosis. Our results identify Rv0183 as the first exported lipolytic enzyme to be characterized in M. tuberculosis and suggest that Rv0183 may be involved in the degradation of the host cell lipids.

Expression, purification and characterization of recombinant phospholipase B from Moraxella bovis with anomalous electrophoretic behavior

Moraxella bovis is the causative agent of infectious bovine keratoconjunctivitis (IBK) also known as pinkeye, a highly contagious and painful eye disease that is common in cattle throughout the world. Vaccination appears to be a reasonable and cost-effective means of control of pinkeye. Identification of genes encoding novel secreted antigens have been reported, and these antigens are being assessed for use in a vaccine. One of the genes encodes phospholipase B, which can be expressed with high purity and yield in recombinant Escherichia coli as a secreted, soluble, non-tagged, mature construct (less signal peptide with predicted mass 63 kDa). The recombinant phospholipase B exhibited anomalous electrophoretic mobility that was dependent on the temperature of the denaturing process, with bands observed at either 52 or 63 kDa. Analysis by in-gel digestion and liquid chromatography-mass spectrometry revealed these two distinct forms most likely had identical sequences. Phospholipase B is a compact, globular protein with a predicted structure typical of a conventional autotransporter. It is suggested that high temperature is required to unfold the protein (to denature the beta-barrel-rich transporter domain) and to ensure accessibility of the reducing agent. Interestingly, the two forms of the enzyme, differing in size and isoelectric points, were also detected in cell-free supernatants of M. bovis cultures, indicating that native phospholipase B may exist in two differentially folded states possibly also differing in oxidation status of cysteine residues.

Lysophospholipase from the human blood fluke, Schistosoma japonicum

BACKGROUND

Given the unusual nature of the schistosome surface (a highly unusual lipid bi-layer) and the central role of the schistosome tegument in host-parasite relations, an enhanced understanding of the lipid biochemistry of the schistosome surface can be expected to provide new insights into schistosome pathogenesis and lead to new interventions.

METHODS

Bioinformatics approaches including three-dimensional homology modeling, along with recombinant expression, dimensional gel electrophoresis, immunoblotting, and Southern hybridizations were employed to characterize a novel lysophospholipase gene transcript from Schistosoma japonicum.

RESULTS

A transcript encoding a small form lysophospholipase from the egg stage of S. japonicum was isolated as an expressed sequence tag (EST). The deduced polypeptide included 227 amino acid residues, shared identity with lysophospholipases of Schistosoma mansoni and Rattus norvegicus, and esterase A of Pseudomonas fluorescens, appeared to belong to the abhydrolase_2 family of phospholipases and carboxylesterases, and was structurally related to the alpha/beta-hydrolases (pfam00561). The S. japonicum enzyme exhibited the GXSXG consensus active site characteristic of serine proteases, esterases, and lipases, and included the catalytic triad motif of Ser-Asp-His residues characteristic of serine hydrolases. Three-dimensional structural predictions accomplished using the coordinates of human acyl protein thioesterase and P. fluorescens esterase indicated that the putative catalytic triad formed by these three residues was located at the alpha/beta-hydrolase fold characteristic of the lipases and esterases. Soluble S. japonicum lysophospholipase was expressed in Escherichia coli as a recombinant enzyme of approximately 26kDa and employed to raise a mono-specific antiserum. Immunoblot analysis revealed a single 23-kDa band in both membrane-associated and soluble tissue fractions of adult schistosomes. Southern hybridization and bioinformatics analyses indicated the likely presence of allelic-specific polymorphisms and/or two copies of the lysophospholipase gene in the S. japonicum genome.

CONCLUSIONS

A small form lysophospholipase has been characterized from the human schistosome, S. japonicum. The availability of the recombinant S. japonicum lysophospholipase should facilitate further characterization of the enzyme, including its substrate and inhibition profiles and its potential as an interventional target. Schistosome lysophospholipase may represent a new target for anti-schistosomal chemotherapy given that metrifonate, which targets the related enzyme acetylcholinesterase, is an effective and safe medicine for treatment of urinary schistosomiasis.

Role of Conserved Active Site Residues in Catalysis by Phospholipase B1 from Cryptococcus neoformans

Phospholipase B1 (PLB1), secreted by the pathogenic yeast Cryptococcus neoformans, has an established role in virulence. Although the mechanism of its phospholipase B, lysophospholipase, and lysophospholipase transacylase activities is unknown, it possesses lipase, subtilisin protease aspartate, and phospholipase motifs containing putative catalytic residues S146, D392, and R108, respectively, conserved in fungal PLBs and essential for human cytosolic phospholipase A2 (cPLA2) catalysis. To determine the role of these residues in PLB1 catalysis, each was substituted with alanine, and the mutant cDNAs were expressed in Saccharomyces cerevisiae. The mutant PLB1s were deficient in all three enzymatic activities. As the active site structure of PLB1 is unknown, a homology model was developed, based on the X-ray structure of the cPLA2 catalytic domain. This shows that the two proteins share a closely related fold, with the three catalytic residues located in identical positions as part of a single active site, with S146 and D392 forming a catalytic dyad. The model suggests that PLB1 lacks the "lid" region which occludes the cPLA2 active site and provides a mechanism of interfacial activation. In silico substrate docking studies with cPLA2 reveal the binding mode of the lipid headgroup, confirming the catalytic dyad mechanism for the cleavage of the sn-2 ester bond within one of two separate binding tracts for the lipid acyl chains. Residues specific for binding arachidonic and palmitic acids, preferred substrates for cPLA2 and PLB1, respectively, are identified. These results provide an explanation for differences in substrate specificity between lipases sharing the cPLA2 catalytic domain fold and for the differential effect of inhibitors on PLB1 enzymatic activities.

Enhanced preference for pi-bond containing substrates is correlated to Pro110 in the substrate-binding tunnel of Escherichia coli thioesterase I/protease I/lysophospholipase L(1)

Escherichia coli thioesterase I/protease I/lysophospholipase L(1) (TAP) possesses multifunctional enzyme with thioesterase, esterase, arylesterase, protease, and lysophospholipase activities. Leu109, located at the substrate-binding tunnel, when substituted with proline (Pro) in TAP, shifted the substrate-preference from medium-to-long acyl chains to shorter acyl chains of triglyceride and p-nitrophenyl ester, and increased the preference for aromatic-amino acid-derived esters. In the three-dimensional TAP structures, the only noticeable alteration of backbone and side chain conformation was located at the downstream Pro110-Ala123 region rather than at Pro109 itself. The residue Pro110, adjacent to Leu109 or Pro109, was found to contribute to the substrate preference of TAP enzymes for esters containing acyl groups with pi bond(s) or aromatic group(s). Some of the interactions between the enzyme protein and the substrate may be contributed by an attractive force between the Pro110 C-H donor and the substrate pi-acceptor.

Molecular characterization and serodiagnosis analysis of a novel lysophospholipase from Clonorchis sinensis

A cDNA clone encoding a novel lysophospholipase with a predicted molecular weight of 25.2 kDa was isolated from a Clonorchis sinensis adult cDNA library. The enzyme activity of the recombinant protein expressed in Escherichia coli was determined using phosphatidylcholine and lysophosphatidylcholine as substrates. Western blotting analysis indicated that it belonged to excretory/secretory proteins of the adults. The sensitivity and specificity of the recombinant antigen for serodiagnosis were evaluated with immunoglobulin enzyme-linked immunosorbent assay using serum samples from 20 patients with clonorchiasis and 20 patients with schistosomiasis. The sensitivity (75%) and specificity (80%) of the recombinant protein were comparable to those of crude extracts, at 65 and 82.5%, respectively. The sensitivity of the recombinant protein was 77% using 100 serum samples of clonorchiasis patients with various parasite burden. The results suggested that the recombinant lysophospholipase protein was not a satisfactory candidate for diagnosis of clonorchiasis, although it might be an excretory/secretory protein.

A conserved carboxylesterase is a SUPPRESSOR OF AVRBST-ELICITED RESISTANCE in Arabidopsis

AvrBsT is a type III effector from Xanthomonas campestris pv vesicatoria that is translocated into plant cells during infection. AvrBsT is predicted to encode a Cys protease that targets intracellular host proteins. To dissect AvrBsT function and recognition in Arabidopsis thaliana, 71 ecotypes were screened to identify lines that elicit an AvrBsT-dependent hypersensitive response (HR) after Xanthomonas campestris pv campestris (Xcc) infection. The HR was observed only in the Pi-0 ecotype infected with Xcc strain 8004 expressing AvrBsT. To create a robust pathosystem to study AvrBsT immunity in Arabidopsis, the foliar pathogen Pseudomonas syringae pv tomato (Pst) strain DC3000 was engineered to translocate AvrBsT into Arabidopsis by the Pseudomonas type III secretion (T3S) system. Pi-0 leaves infected with Pst DC3000 expressing a Pst T3S signal fused to AvrBsT-HA (AvrBsTHYB-HA) elicited HR and limited pathogen growth, confirming that the HR leads to defense. Resistance in Pi-0 is caused by a recessive mutation predicted to inactivate a carboxylesterase known to hydrolyze lysophospholipids and acylated proteins in eukaryotes. Transgenic Pi-0 plants expressing the wild-type Columbia allele are susceptible to Pst DC3000 AvrBsTHYB-HA infection. Furthermore, wild-type recombinant protein cleaves synthetic p-nitrophenyl ester substrates in vitro. These data indicate that the carboxylesterase inhibits AvrBsT-triggered phenotypes in Arabidopsis. Here, we present the cloning and characterization of the SUPPRESSOR OF AVRBST-ELICITED RESISTANCE1.

Genetic evidence for a SPO1-dependent signaling pathway controlling meiotic progression in yeast

The yeast spindle pole body (SPB) plays a unique role in meiosis, initiating both spindle assembly and prospore membrane synthesis. SPO1, induced early in development, encodes a meiosis-specific phospholipase B (PLB) homolog required at three stages of SPB morphogenesis: MI, MII, and spore formation. Here we report in-depth analysis of the SPO1 gene including its transcriptional control by regulators of early gene expression, protein localization to the ER lumen and periplasmic space, and molecular genetic studies of its role in meiosis. Evidence is presented that multiple arrest points in spo1Delta occur independently, demonstrating that Spo1 acts at distinct steps. Loss of Spo1 is suppressed by high-copy glycosylphosphatidylinositol (GPI) proteins, dependent on sequence, timing, and strength of induction in meiosis. Since phosphatidylinositol (PI) serves as both an anchor component and a lipase substrate, we hypothesized that GPI-protein expression might substitute for Spo1 by decreasing levels of its potential substrates, PI and phosphatidylinositol phosphates (PIPs). Partial spo1Delta complementation by PLB3 (encoding a unique PLB capable of cleaving PI) and relatively strong Spo1 binding to PI(4)P derivatives (via a novel N-terminal lysine-rich fragment essential for Spo1 function) are consistent with this view. Epistasis of SPO1 mutations to those in SPO14 (encoding a PLD involved in signaling) and physical interaction of Spo1 with Spo23, a protein regulating PI synthesis required for wild-type sporulation, further support this notion. Taken together these findings implicate PI and/or PIPs in Spo1 function and suggest the existence of a novel Spo1-dependent meiosis-specific signaling pathway required for progression of MI, MII, and spore formation via regulation of the SPB.

Whole blood gene expression in infants with respiratory syncytial virus bronchiolitis

Background

Respiratory syncytial virus (RSV) is a major cause of viral bronchiolitis in infants worldwide, and environmental, viral and host factors are all of importance for disease susceptibility and severity. To study the systemic host response to this disease we used the microarray technology to measure mRNA gene expression levels in whole blood of five male infants hospitalised with acute RSV, subtype B, bronchiolitis versus five one year old male controls exposed to RSV during infancy without bronchiolitis. The gene expression levels were further evaluated in a new experiment using quantitative real-time polymerase chain reaction (QRT-PCR) both in the five infants selected for microarray and in 13 other infants hospitalised with the same disease.

Results

Among the 30 genes most differentially expressed by microarray nearly 50% were involved in immunological processes. We found the highly upregulated interferon, alpha-inducible protein 27 (IFI27) and the highly downregulated gene Charcot-Leyden crystal protein (CLC) to be the two most differentially expressed genes in the microarray study. When performing QRT-PCR on these genes IFI27 was upregulated in all but one infant, and CLC was downregulated in all 18 infants, and similar to that given by microarray.

Conclusion

The gene IFI27 is upregulated and the gene CLC is downregulated in whole blood of infants hospitalised with RSV, subtype B, bronchiolitis and is not reported before. More studies are needed to elucidate the specificity of these gene expressions in association with host response to this virus in bronchiolitis of moderate severity.

Phospholipase A2 and phospholipase B activities in fungi

As saprophytes or disease causing microorganisms, fungi acquire nutrients from dead organic material or living host organisms. Lipids as structural components of cell membranes and storage compartments play an important role as energy-rich food source. In recent years, it also has become clear that lipids have a wide range of bioactive properties including signal transduction and cell to cell communication. Thus, it is not surprising that fungi possess a broad range of hydrolytic enzymes that attack neutral lipids and phospholipids. Especially during infection of a mammalian host, phospholipase A(2) (PLA(2)) enzymes released by fungi could play important roles not only for nutrient acquisition and tissue invasion, but for intricate modulation of the host's immune response. Sequencing of fungal genomes has revealed a wide range of genes encoding PLA(2) activities in fungi. We are just beginning to become aware of the significance these enzymes could have for the fungal cells and their interaction with the host.

G protein beta2 subunit interacts directly with neuropathy target esterase and regulates its activity

Neuropathy target esterase (NTE) was identified as the primary target of organophosphate compounds that cause a delayed neuropathy with degeneration of nerve axons. NTE is a novel phospholipase B anchored to the cytoplasmic face of endoplasmic reticulum and essential for embryonic and nervous development. However, little is known about the regulation of NTE. A human fetal brain cDNA library was screened for proteins that interact with NTE, Gbeta2 and Gbeta2-like I subunits were found to be able to bind the C-terminal of NTE in yeast. The interaction of Gbeta2 and NTE was confirmed by in vivo co-immunoprecipitation analysis in COS7 cells. Furthermore, depletion of Gbeta2 by RNA interference down regulated the activity of NTE but not its expression level. In addition, the activity of NTE was down regulated by the G protein signal pathway influencing factor, pertussis toxin, treatment in vivo. These findings suggest that Gbeta2 may play a significant role in maintaining the activity of NTE.

Maintenance and polarization of human TH2 central memory T cells by thymic stromal lymphopoietin-activated dendritic cells

The identity of TH2 memory cells and the mechanism regulating their maintenance during allergic inflammation remain elusive. We report that circulated human CD4+ T cells expressing the prostaglandin D2 receptor (CRTH2) are TH2 central memory T cells, characterized by their phenotype, TH2 cytokine production, gene-expression profile, and the ability to respond to allergens. Only dendritic cells (DCs) activated by thymic stromal lymphopoietin (TSLP) can induce a robust expansion of CRTH2+CD4+ TH2 memory cells, while maintaining their central memory phenotype and TH2 commitments. CRTH2+CD4+ TH2 memory cells activated by TSLP-DCs undergo further TH2 polarization and express cystatin A, Charcot-Leydon crystal protein, and prostaglandin D2 synthase, implying their broader roles in allergic inflammation. Infiltrated CRTH2+CD4+ TH2 effector memory T cells in skin lesion of atopic dermatitis were associated with activated DCs, suggesting that TSLP-DCs play important roles not only in TH2 priming, but also in the maintenance and further polarization of TH2 central memory cells in allergic diseases.

Inactivation of the phospholipase B gene PLB5 in wild-type Candida albicans reduces cell-associated phospholipase A2 activity and attenuates virulence

Phospholipases are critical for modification and redistribution of lipid substrates, membrane remodeling and microbial virulence. Among the many different classes of phospholipases, fungal phospholipase B (Plb) proteins show the broadest range of substrate specificity and hydrolytic activity, hydrolyzing acyl ester bonds in phospholipids and lysophospholipids and further catalyzing lysophospholipase-transacylase reactions. The genome of the opportunistic fungal pathogen Candida albicans encodes a PLB multigene family with five putative members; we present the first characterization of this group of potential virulence determinants. CaPLB5, the third member of this multigene family characterized herein is a putative secretory protein with a predicted GPI-anchor attachment site. Real-time RT-PCR gene expression analysis of CaPLB5 and the additional CaPLB gene family members revealed that filamentous growth and physiologically relevant environmental conditions are associated with increased PLB gene activity. The phenotypes expressed by null mutant and revertant strains of CaPLB5 indicate that this lipid hydrolase plays an important role for cell-associated phospholipase A(2) activity and in vivo organ colonization.

Substrate specificity of lipoprotein lipase and endothelial lipase: studies of lid chimeras

The triglyceride (TG) lipase gene subfamily, consisting of LPL, HL, and endothelial lipase (EL), plays a central role in plasma lipoprotein metabolism. Compared with LPL and HL, EL is relatively more active as a phospholipase than as a TG lipase. The amino acid loop or "lid" covering the catalytic site has been implicated as the basis for the difference in substrate specificity between HL and LPL. To determine the role of the lid in the substrate specificity of EL, we studied EL in comparison with LPL by mutating specific residues of the EL lid and exchanging their lids. Mutation studies showed that amphipathic properties of the lid contribute to substrate specificity. Exchanging lids between LPL and EL only partially shifted the substrate specificity of the enzymes. Studies of a double chimera possessing both the lid and the C-terminal domain (C-domain) of EL in the LPL backbone showed that the role of the lid in determining substrate specificity does not depend on the nature of the C-domain of the lipase. Using a kinetic assay, we showed an additive effect of the EL lid on the apparent affinity for HDL(3) in the presence of the EL C-domain.

Lipid rafts in Cryptococcus neoformans concentrate the virulence determinants phospholipase B1 and Cu/Zn superoxide dismutase

Lipid rafts have been identified in the membranes of mammalian cells, the yeast Saccharomyces cerevisiae, and the pathogenic fungus Candida albicans. Formed by a lateral association of sphingolipids and sterols, rafts concentrate proteins carrying a glycosylphosphatidylinositol (GPI) anchor. We report the isolation of membranes with the characteristics of rafts from the fungal pathogen Cryptococcus neoformans. These characteristics include insolubility in Triton X-100 (TX100) at 4 degrees C, more-buoyant density within a sucrose gradient than the remaining membranes, and threefold enrichment with sterols. The virulence determinant phospholipase B1 (PLB1), a GPI-anchored protein, was highly concentrated in raft membranes and could be displaced from them by treatment with the sterol-sequestering agent methyl-beta-cyclodextrin (MbetaCD). Phospholipase B enzyme activity was inhibited in the raft environment and increased 15-fold following disruption of rafts with TX100 at 37 degrees C. Treatment of viable cryptococcal cells in suspension with MbetaCD also released PLB1 protein and enzyme activity, consistent with localization of PLB1 in plasma membrane rafts prior to secretion. The antioxidant virulence factor Cu/Zn superoxide dismutase (SOD1) was concentrated six- to ninefold in raft membrane fractions compared with nonraft membranes, whereas the cell wall-associated virulence factor laccase was not detected in membranes. We hypothesize that raft membranes function to cluster certain virulence factors at the cell surface to allow efficient access to enzyme substrate and/or to provide rapid release to the external environment.

Phospholipase B activity enhances adhesion of Cryptococcus neoformans to a human lung epithelial cell line

Secreted phospholipase B (PLB1), which contains three enzyme activities in the one protein, is necessary for the initiation of pulmonary infection by Cryptococcus neoformans and for dissemination from the lung via the lymphatics and blood. Adhesion to lung epithelium is the first step in this process, therefore we investigated the role of PLB1 in adhesion to a human lung epithelial cell line, A549, using C. neoformans var. grubii wild-type strain H99, a PLB1 deletion mutant (deltaplb1), and a reconstituted strain (deltaplb1rec). Adhesion of H99 and deltaplb1rec was approximately 69% greater than deltaplb1 at 4 h. Adhesion of deltaplb1 significantly increased after killing by chemicals or heat, and Fourier-transformed analysis by FTIR spectroscopy indicated this was due to changes in capsular and/or cell wall polysaccharides and proteins. Inhibition by specific PLB1 antibodies, or inhibitors of phospholipase B (PLB), but not lysophospholipase (LPL) or lysophospholipase transacylase (LPTA) activities decreased the adhesion of H99 and deltaplb1rec by 33-58%. Growth under conditions of osmotic stress and high glucose concentration increased both PLB secretion and subsequent cryptococcal adhesion. Dose-dependent increases (to 67%) in adhesion of live deltaplb1 were observed in the presence of 0.1-2 mM palmitic acid. We conclude that PLB1 plays a role in the binding of C. neoformans to host lung epithelial cells, possibly due to production of fatty acids from plasma membranes and/or surfactant by PLB activity.

Production of poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) from gluconate and glucose by recombinant Aeromonas hydrophila and Pseudomonas putida

Aeromonas hydrophila 4AK4 and Pseudomonas putida GPp104 were genetically engineered to synthesize poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) (PHBHHx) using gluconate and glucose rather than fatty acids. A truncated tesA gene, encoding cytosolic thioesterase I of Escherichia coli which catalyzes the conversion of acyl-ACP into free fatty acids, was introduced into A. hydrophila 4AK4. When grown in gluconate, the recombinant A. hydrophila 4AK4 synthesized 10% (w/w) PHBHHx containing 14% (mol/mol) 3-hydroxyhexanoate. If additional PHBHHx synthesis genes, phaPCJ, were over-expressed with the truncated tesA in A. hydrophila 4AK4, the PHBHHx content increased to 15% (w/w) and contained 19% (mol/mol) 3-hydroxyhexanoate. Recombinant P. putida GPp104 harboring phaC encoding PHBHHx synthase of A. hydrophila, phaB encoding acetoacetyl-CoA reductase of Wautersia eutropha and phaG encoding 3-hydroxyacyl-ACP-CoA transferase of P. putida, synthesized 19% (w/w) PHBHHx containing 5% (mol/mol) 3-hydroxyhexanoate from glucose. The results suggest that the engineered pathways were applicable to synthesize PHBHHx from unrelated carbon sources such as gluconate and glucose.