Identification of genes involved in salt adaptation in the archaeon Methanosarcina mazei Gö1 using genome-wide gene expression profiling

Methanosarcina mazei is a nonhalophilic methanogen that can adapt to 800 mM NaCl. Microarray studies have been used to examine the effect of elevated salinities on the regulation of gene expression in M. mazei. Eighty-four genes of different functional categories, such as solute transport and biosynthesis, Na(+) export, stress response, ion, protein and phosphate transport, metabolic enzymes, regulatory proteins, DNA-modification systems, and cell-surface modulators, were found to be stronger expressed at high salinities. Moreover, 10 genes encoding different metabolic functions including potassium uptake and ATP synthesis were reduced in expression under high salt. The overall expression profiles suggest that M. mazei is able to adapt to high salinities by multiple upregulation of many different cellular functions including protective pathways such as solute transport and biosynthesis, import of phosphate, export of Na(+), and upregulation of pathways for modification of DNA and cell surface architecture.     

Phorbol Ester-Enhanced Noradrenaline Secretion Correlates with the Presence and Activity of Protein Kinase C-α in Human SH-SY5Y Neuroblastoma Cells

Abstract: The effect of inhibition and down-regulation of protein kinase C (PKC) subtypes α, ε, and ζ on noradrenaline (NA) secretion from human SH-SY5Y neuroblastoma cells was investigated. The PKC inhibitor Ro 31-7549 inhibited carbachol-evoked NA release (IC₅₀ 0.6 µ M ) but not 100 m M K⁺-evoked release. In addition, Ro 31-7549 inhibited the enhancement of carbachol- and K⁺-evoked release after pretreatment with 12- O -tetradecanoylphorbol 13-acetate (TPA; 100 n M ) for 8 min, with IC₅₀ values of 0.7 and 2.4 µ M , respectively. Immunoblotting studies showed that prolonged exposure (48 h) of SH-SY5Y cells to phorbol 12,13-dibutyrate (PDBu) or bryostatin-1 caused down-regulation of PKC-α and PKC-ε but not PKC-ζ. Under these conditions, the acute TPA enhancement of NA release was inhibited. Moreover, the inhibition of TPA-enhanced secretion was also apparent after only 2-h exposure to either PDBu or bryostatin-1, conditions that caused down-regulation of PKC-α, but not PKC-ε or ζ. The PKC inhibitor Gö-6976 (2 µ M ), which has been shown to inhibit selectively PKC-α and β in vitro, also inhibited the TPA enhancement of carbachol- and K⁺-evoked NA release by >50%. These data suggest that in SH-SY5Y cells, the ability of TPA to enhance carbachol- and K⁺-evoked NA secretion is due to activation of PKC-\ga.     

Sodium and Chloride Ion-Dependent Transport of β-Alanine Across the Blood-Brain Barrier

Abstract: The characteristics of β-alanine transport at the blood-brain barrier were studied by using primary cultured bovine brain capillary endothelial cells. Kinetic analysis of the β-[³H]alanine transport indicated that the transporter for β-alanine functions with K_t of 25.3 ± 2.5 µ M and J _max of 6.90 ± 0.48 nmol/30 min/mg of protein in the brain capillary endothelial cells. β-[³H]Alanine uptake is mediated by an active transporter, because metabolic inhibitors (2,4-dinitrophenol and NaN₃) and low temperature reduced the uptake significantly. Furthermore, the uptake of β-[³H]alanine required Na⁺ and Cl⁻ in the external medium. Stoichiometric analysis of the transport demonstrated that two sodium ions and one chloride ion are associated with one β-alanine molecule. The Na⁺ and Cl⁻-dependent uptake of β-[³H]alanine was stimulated by a valinomycin-induced inside-negative K⁺-diffusion potential. β-Amino acids (β-alanine, taurine, and hypotaurine) inhibited strongly the uptake of β-[³H]alanine, whereas α- and γ-amino acids had little or no inhibitory effect. In ATP-depleted cells, the uptake of β-[³H]alanine was stimulated by preloading of β-alanine or taurine but not l -leucine. These results show that β-alanine is taken up by brain capillary endothelial cells, via the secondary active transport mechanism that is common to β-amino acids.     

STUDIES OF THE UPTAKE AND RELEASE OF [3H]β-ALANINE BY FROG SPINAL SLICES

Abstract— [³H]β-Alanine was accumulated by frog spinal cord slices by two transport components with estimated K_m values of 31 M ('high-affinity') and 11 HIM ('low affinity') respectively. The high affinity uptake exhibited sodium ion and energy dependence, temperature sensitivity, had a very low V_max (10.4 nmol/g/min) compared to GABA and glycine, was competitively inhibited by GABA (K_t 2 M), and was significantly reduced by the presence of glycine and of taurine in the incubating medium.
When slices preloaded with [³H]β-alanine were superfused with medium containing depolarizing concentrations of potassium ions, there was a small, but consistent, increase in [³H]β-alanine efflux: 1.4 times prestimulation rates in 40 mM potassium. When the superfusate was altered by omission of calcium and addition of concentrations of magnesium (10 mm), manganese (1 mM), and cobalt (1 mM) ions sufficient to block reflex transmission in the isolated in vitro frog cord, the potassium-evoked release was not blocked. Release was decreased by lanthanum ions (1 mM). Release of [³H]GABA and [³H]glycine in parallel experiments was inhibited by magnesium, manganese, cobalt and lanthanum. Veratridine significantly increased the release of [³H]GABA and [³H]glycine but not of [³H]β-alanine.
These observations demonstrate the non-specificity of β-alanine uptake and the unconventional nature of the calcium-dependence of β-alanine release and therefore do not lend support to the hypothesis that β-alanine functions as a neurotransmitter in frog spinal cord.     

Rescue of Aβ1–42-induced memory impairment in day-old chick by facilitation of astrocytic oxidative metabolism: implications for Alzheimer's disease

Administration of small oligomeric β-amyloid (Aβ)_1–42 45 min before one-trial bead discrimination learning in day-old chicks abolishes consolidation of learning 30 min post-training (Gibbs et al. Neurobiol. Aging , in press). Administration of the β₃-adrenergic agonist CL316243, which specifically stimulates astrocytic but not neuronal glucose uptake, rescues Aβ impaired memory. Weakly reinforced training can be consolidated by various metabolic substrates and we have demonstrated neuronal dependence on oxidative metabolism of glucose soon after training versus astrocytic glucose dependence 20 min later. Based on these findings we examined whether different metabolic substrates were able to counteract memory inhibition by Aβ_1–42. Although lactate, the medium-chain fatty acid octanoate, and the ketone body β-hydroxybutyrate consolidated weakly reinforced training when injected close to learning, none of them were able to salvage Aβ-impaired memory; at this early time. All three metabolites and the astrocytic-specific acetate consolidated weak learning and rescued Aβ-impaired memory when injected 10–20 min post-training. However, neither glucose nor insulin rescued memory when injected at 20 min. Rescue of memory by providing astrocytes with alternative substrates for oxidative metabolism suggests that Aβ_1–42 exerts its amnestic effects specifically by impairing astrocytic glycolysis.     

Differential Effects of Two Protein Kinase C Inhibitors, Calphostin C and Gö6976, on Pineal Cyclic Nucleotide Accumulation

Abstract: In rat pinealocytes, protein kinase C (PKC) is involved in the α₁-adrenergic-mediated potentiation of β-adrenergic-stimulated cyclic nucleotide responses; however, the specific PKC isozyme(s) involved in the potentiation mechanism remain unknown. In the present study, we compared the effects of two PKC inhibitors, calphostin C, a specific inhibitor of PKC, and Gö6976, a selective inhibitor of PKCα and PKCβ₁, on the adrenergic-stimulated cyclic nucleotide accumulation in rat pinealocytes. Surprisingly, Gö6976 was found to have an enhancing effect on basal cyclic GMP and isoproterenol-stimulated cyclic AMP and cyclic GMP accumulation, an effect not shared by calphostin C. Gö6976 also increased the norepinephrine- and ionomycin-induced potentiation of isoproterenol-stimulated cyclic AMP and cyclic GMP accumulation, whereas the effect of calphostin C was inhibitory. The enhancing effect of Gö6976 was abolished in the presence of isobutylmethylxanthine or zaprinast, but not rolipram, suggesting that this effect of Gö6976 may be mediated through type V or the retinal type of phosphodiesterase. Based on these observations, we propose that some of the PKC isozyme(s) inhibited by calphostin C are involved in the potentiation of β-adrenergic-stimulated cyclic nucleotide responses and that they act by enhancing synthesis. However, PKC isozymes inhibited by Gö6976 appear to be basally active and tonically inhibit cyclic nucleotide accumulation through their stimulatory action on phosphodiesterase.     

Stimulation of [3H]GABA and β-[3H]Alanine Release from Rat Brain Slices by cis-4-Aminocrotonic Acid

Abstract: cis -4-Aminocrotonic acid (CACA; 100 µ M ), an analogue of GABA in a folded conformation, stimulated the passive release of [³H]GABA from slices of rat cerebellum, cerebral cortex, retina, and spinal cord and of β-[³H]alanine from slices of cerebellum and spinal cord without influencing potassium-evoked release. In contrast, CACA (100 µ M ) did not stimulate the passive release of [³H]taurine from slices of cerebellum and spinal cord or of d -[³H]aspartate from slices of cerebellum and did not influence potassium-evoked release of [³H]taurine from the cerebellum and spinal cord and d -[³H]aspartate from the cerebellum. These results suggest that the effects of CACA on GABA and β-alanine release are due to CACA acting as a substrate for a β-alanine-sensitive GABA transport system, consistent with CACA inhibiting the uptake of β-[³H]alanine into slices of rat cerebellum and cerebral cortex. The observed K _i for CACA against β-[³H]alanine uptake in the cerebellum was 750 ± 60 µ M . CACA appears to be 10-fold weaker as a substrate for the transporter system than as an agonist for the GABA_c receptor. The effects of CACA on GABA and β-alanine release provide indirect evidence for a GABA transporter in cerebellum, cerebral cortex, retina, and spinal cord that transports GABA, β-alanine, CACA, and nipecotic acid that has a similar pharmacological profile to that of the GABA transporter, GAT-3, cloned from rat CNS. The structural similarities of GABA, β-alanine, CACA, and nipecotic acid are demonstrated by computer-aided molecular modeling, providing information on the possible conformations of these substances being transported by a common carrier protein.     

Structural stability of Sclerotium rolfsii ATCC 201126 β-glucan with fermentation time: a chemical, infrared spectroscopic and enzymatic approach

Aims:  Sclerotium rolfsii ATCC 201126 exopolysaccharides (EPSs) recovered at 48 h (EPS I) and 72 h (EPS II) of fermentation, with differences in rheological parameters, hydrogel topography, salt tolerance, antisyneresis, emulsifying and suspending properties, were subjected to a polyphasic characterization in order to detect structural divergences.
Methods and Results:  Fermenter-scale production led to productivity ( P _r) and yield ( Y _P/C) values higher at 48 h ( P _r = 0·542 g l⁻¹ h⁻¹; Y _P/C = 0·74) than at 72 h ( P _r = 0·336 g l⁻¹ h⁻¹; Y _P/C = 0·50). Both EPSs were neutral glucose-homopolysaccharides with a β-(1,3)-glycosidic backbone and single β-(1,6)-glucopyranosyl sidechains regularly attached every three residues in the main chain, as revealed by chemical analyses. The infra-red diagnostic peak at 890 cm⁻¹ confirmed β-glycosidic linkages, while gentiobiose released by β-(1,3)-glucanases confirmed single β-1,6-glycosidic branching for both EPSs.
Conclusions:  The true modular repeating unit of S. rolfsii ATCC 201126 scleroglucan could be resolved. Structural stability was corroborated and no structural differences could be detected as to account for the variations in EPSs behaviour.
Significance and Impact of the Study:  Recovery of S. rolfsii ATCC 201126 scleroglucan at 48 h might be considered based on better fermentation kinetic parameters and no detrimental effects on EPS structural features.     

The density dependence of plant responses to elevated CO2

1 Stands of the annual Brassica kaber were grown at a range of six densities in both ambient and elevated CO₂ environments, and measurements of shoot growth were made from seedling emergence through to reproduction.
2 Early in stand development (21 days following emergence), CO₂ enhancement (β) for above-ground biomass was highly density-dependent, ranging from 1.41 at the lowest density (20 plants m−2) to 0.59 at the highest density (652 plants m−2).
3 As stands matured and total biomass exceeded a relatively low threshold level (<10.0 g m^{−2; c.}  20% of final yield), the density-dependence of β disappeared. Above this shoot biomass threshold, β-values remained remarkably stable (β = 0.34) across a broad range of stand biomass, independent of a stand's initial density or age.
4 Average stand-level reproductive β-values at a final harvest were very similar to biomass values (β = 0.38) and, as with biomass values at later stages, showed no apparent density-dependence.
5 These results highlight the importance of considering density and the time-course of stand development simultaneously when assessing the potential for CO₂-induced growth enhancements in plants.     

α, βI, βII, δ, and ε Protein Kinase C Isoforms and Compound Activity in the Sciatic Nerve of Normal and Diabetic Rats

Abstract: Defective protein kinase C (PKC) has been implicated in impaired Na⁺,K⁺-ATPase activity in the sciatic nerve of streptozotocin-induced diabetic rats. In the present study, α, βI, βII, γ, δ, and ε isoform-specific antibodies were used in parallel to the measurement of compound PKC activity for the characterization of PKC distribution and isoform expression in sciatic nerves of normal and diabetic rats. To distinguish isoform expression between the axonal and glial compartments, PKC isoforms were evaluated in nerves subjected to Wallerian degeneration and in a pure primary Schwann cell culture. α, βI, βII, δ, and ε but no γ isoforms were detected in sciatic nerve. Similar immunoreactivity was observed in degenerated nerves 3–4 days after transection except for diminished βI and ε species; in Schwann cell cultures, only α, βII, δ, and ε were detected. In normal nerves, two-thirds of PKC compound activity was found in the cytosol and 50% of total enzyme activity translocated to the Na⁺,K⁺-ATPase-enriched membrane fraction with phorbol myristate acetate. Similar redistribution patterns were observed for the immunoreactivity of all isoforms with the exception of δ, which did not translocate to the membrane with phorbol myristate acetate. No abnormality in compound PKC activity, in the immunoreactive intensity, or in the distribution of PKC isoforms could be detected in rat sciatic nerve after 6–12 weeks of diabetes. Thus, defective activation rather than decreased intrinsic PKC activity may occur in diabetic neuropathy.     

A β-(1→4)-xylosyltransferase involved in the synthesis of arabinoxylans in developing barley endosperms

A β-(1→4)-xylosyltransferase (XylTase; EC 2.4.2.24) participating in the synthesis of arabinoxylans was investigated using microsomal membranes prepared from developing barley ( Hordeum vulgare L.) endosperms. The microsomal fraction transferred Xyl from uridine 5'-diphosphoxylose (UDP-Xyl) into exogenous β-(1→4)-xylooligosaccharides derivatized at their reducing ends with 2-aminopyridine. HPLC analysis showed chain elongation of pyridylaminated β-(1→4)-xylotriose (Xyl₃-PA) by repeated attachment of one to five single xylosyl residues depending on the reaction time, leading to the formation of Xyl₄₋₈-PA. Methylation analysis and enzymatic digestions with β-xylosidase (EC 3.2.1.37) and endo -β-(1→4)-xylanase (EC 3.2.1.8) confirmed that the transfer of xylosyl residues into the newly synthesized products occurred through β-(1→4)-linkages. The activity of the XylTase was maximal at pH 6.8 and 20°C and most enhanced in the presence of 0.5% Triton X-100 and 5 m M MnCl₂. The apparent Michaelis constant and maximal velocity of the enzyme for Xyl₃-PA were 2.1 m M and 25 400 pmol min⁻¹ mg protein⁻¹, respectively. The enzyme also transferred [¹⁴C]Xyl from UDP-[¹⁴C]Xyl into higher β-(1→4)-xylooligosaccharides and birchwood xylans through β-(1→4)-linkages. The enzyme activity varied according to the stage of development (7–35 days after flowering) of the endosperms. Maximal activity occurred at 13–16 days; no activity was detectable in mature seeds. A comparison of endosperms from 10 different cultivars of barley harvested 11–22 days after flowering showed no correlation between enzyme activity and the amount of Xyl in the cell walls.     

Functional Rescue of β1-Adrenoceptor Dimerization and Trafficking by Pharmacological Chaperones

Site-directed mutagenesis guided by evolutionary trace analysis revealed that substitution of V179 and W183 within a cluster of evolutionarily important residues on the surface of the fourth transmembrane domain of the β₁-adrenergic receptor (β₁AR) significantly reduced the propensity of the receptor to self-assemble into homodimers as assessed by bioluminescence resonance energy transfer in living cells. These results suggest that mutation of V179 and W183 result in conformational changes that reduce homodimerization either directly by interfering with the dimerization interface or indirectly by causing local misfolding that result in reduced self-assembly. However, the mutations did not cause a general misfolding of the β₁AR as they did not prevent heterodimerization with the β₂AR. The homodimerization-compromised mutants were significantly retained in the endoplasmic reticulum (ER) and could not be properly matured and trafficked to the cell surface. Lipophilic β-adrenergic ligands acted as pharmacological chaperones by restoring both dimerization and plasma membrane trafficking of the ER-retained dimerization-compromised β₁AR mutants. These results clearly indicate that homodimerization occurs early in the biosynthetic process in the ER and that pharmacological chaperones can promote both dimerization and cell surface targeting, most likely by stabilizing receptor conformations compatible with the two processes.     

H2 and CO2 production from methanol or formaldehyde by the methanogenic bacterium strain Gö1 treated with 2-bromoethanesulfonic acid

Abstract In cell suspensions of the methanogenic bacterium strain Gö1 or Methanosarcina barkeri H₂ formation from methanol in the presence of 2-bromoethanesulfonic acid (BES) was strictly dependent on sodium ions; apparent K _S for Na⁺, 1.3±0.3 mM.H₂ formation was inhibited by the uncoupler tetrachlorosalicylanilide (TCS), but this inhibition could be temporarily overcome, when a sodium pulse (100 mM) was given to the cell suspension. On the other hand, H₂ formation from formaldehyde in the presence of BES (rate: 300 nmol H₂/h·mg protein as compared to 25 nmol H₂/h·mg protein from methanol) was not sodium-dependent, not TCS-sensitive and not inhibited by addition of monensin. H₂ formation was accompanied by CO₂ formation in stoichiometric amounts, 3 H₂:1 CO₂ for methanol and 2 H₂:1 CO₂ for formaldehyde oxidation.     

Borrelia burgdorferi BBB07 interaction with integrin alpha3beta1 stimulates production of pro-inflammatory mediators in primary human chondrocytes

Borrelia burgdorferi , the causative agent of Lyme disease, activates multiple signalling pathways leading to induction of pro-inflammatory mediators at sites of inflammation. Binding of B. burgdorferi to integrin α₃β₁ on human chondrocytes activates signalling leading to release of several pro-inflammatory mediators, but the B. burgdorferi protein that binds integrin α₃β₁ and elicits this response has remained unknown. A search of the B. burgdorferi genome for a canonical integrin binding motif, the RGD (Arg–Gly–Asp) tripeptide, revealed several candidate ligands for integrins. In this study we show that one of these candidates, BBB07, binds to integrin α₃β₁ and inhibits attachment of intact B. burgdorferi to the same integrin. BBB07 is expressed during murine infection as demonstrated by recognition by infected mouse sera. Recombinant purified BBB07 induces pro-inflammatory mediators in primary human chondrocyte cells by interaction with integrin α₃β₁. This interaction is specific, as P66, another integrin ligand of B. burgdorferi , does not activate signalling through α₃β₁. In summary, we have identified a B. burgdorferi protein, BBB07, that interacts with integrin α₃β₁ and stimulates production of pro-inflammatory mediators in primary human chondrocyte cells.     

Rat Frontal Cortex β1-Adrenoceptors Are Activated by the β3-Adrenoceptor Agonists SR 58611A and SR 58878A but Not by BRL 37344 or ICI 215,001

Abstract: SR 58611A, a selective agonist of gut and brown adipose tissue β₃-adrenoceptors (β₃ARs), has been reported to have antidepressant-like activity in rodents by indicating brain β₃ARs as the sites of this property. SR 58611A and its acid metabolite SR 58878A, as opposed to BRL 37344, ICI 215,001, and CGP 12177, increased cyclic AMP levels in rat frontal cortex. ICI 215,001, differently from BRL 37344, at concentrations in the millimolar range antagonized norepinephrine- or (−)-isoproterenol-stimulated adenylyl cyclase partially. The increase of cyclic AMP levels induced by SR 58878A was blocked selectively by β₁AR antagonist CGP 20712A but not by β₂AR antagonist ICI 118,551. In addition, PCR analysis did not reveal β₃AR mRNA, and no specific β₃AR binding sites were detected by [³H]CGP 12177 in rat frontal cortex. When down-regulation of the β₁AR ligand binding and mRNA levels had been induced in frontal cortex by chronic administration of imipramine, SR 58878A as well as norepinephrine and (−)-isoproterenol increased the cyclic AMP production less markedly. Our findings indicate that β₃ARs are absent in the adult rat frontal cortex, and that various β₃AR agonists differently affect the frontal cortex β₁ARs, indicating that SR 58611A may exert its putative antidepressant effect acting on the frontal cortex β₁ARs.     

Shiga toxin-producing Escherichia coli and atypical enteropathogenic Escherichia coli strains isolated from healthy sheep of different populations in São Paulo, Brazil

Aims:  Sheep are important carriers of Shiga toxin-producing Escherichia coli (STEC) in several countries. However, there are a few reports about ovine STEC in American continent.
Methods and Results:  About 86 E. coli strains previously isolated from 172 healthy sheep from different farms were studied. PCR was used for detection of stx ₁, stx ₂, eae, ehxA and saa genes and for the identification of intimin subtypes. Restriction fragment length polymorphism (RFLP)–PCR was performed to investigate the variants of stx ₁ and stx ₂, and the flagellar antigen ( fli C) genes in nonmotile isolates. Five isolates were eae ⁺ and stx ⁻, and belonged to serotypes O128:H2/β-intimin (2), O145:H2/γ, O153:H7/β and O178:H7/ε. Eighty-one STEC isolates were recovered, and the stx genotypes identified were stx _1c stx _2d-O118 (46·9%), stx _1c (27·2%), stx _2d-O118 (23·4%), and stx _1c stx _2dOX3a (2·5%). Pulsed-field gel electrophoresis (PFGE) revealed 27 profiles among 53 STEC and atypical enteropathogenic Escherichia coli (EPEC) isolates.
Conclusions:  This study demonstrated that healthy sheep in São Paulo, Brazil, can be carriers of potential human pathogenic STEC and atypical EPEC.
Significance and Impact of the Study:  As some of the STEC serotypes presently found have been involved with haemolytic uraemic syndrome (HUS) in other countries, the important role of sheep as sources of STEC infection in our settings should not be disregarded.     

Developmental Characterization of Thymosin β4 and β10 Expression in Enriched Neuronal Cultures from Rat Cerebella

Abstract: The β₄ and β₁₀ thymosins are G-actin binding proteins that exhibit complex patterns of expression during rat cerebellar development. Their expression in vivo is initially high in immature granule cells and diminishes as they migrate and differentiate, ceasing altogether by postnatal day 21. Thymosin β₄ is present in a subset of glia throughout postnatal development, and its synthesis is also induced in maturing Bergmann glia. In contrast, thymosin β₁₀ is only present at very low levels in a very small subpopulation of glia in the adult cerebellum. To study the factors differentially regulating expression of the β-thymosins, we characterized their patterns of expression in primary cultures of rat cerebellum. Both β-thymosins were initially expressed in granule cells, although expression, especially of thymosin β₄, was truncated compared with the in vivo time course. As in vivo, thymosin β₄ was synthesized at much higher levels in astrocytes and microglia in cultures from postnatal cerebellum than was thymosin β₁₀. Unlike in vivo, the latter was expressed in glia cultured from fetal cerebellum. The similarities between the in vivo and in vitro expression of the β-thymosins show that modulation of tissue culture conditions could be used to identify factors regulating β-thymosin expression in vivo. The differences would identify regulatory mechanisms that are not evident from the in vivo studies alone.     

Effects of feeding and induction strategy on the production of BmR1 antigen in recombinant E. coli

Aim:  To investigate the effects of feeding and induction strategies on the production of Bm R1 recombinant antigen.
Methods and Results:  Fed-batch fermentation was studied with respect to the specific growth rate and mode of induction to assess the growth potential of the bacteria in a bioreactor and to produce high yield of Bm R1 recombinant antigen. Cells were grown at a controlled specific growth rate (μ_set) during pre-induction, followed by constant feeding postinduction. The highest biomass (24·3 g l⁻¹) was obtained during fed-batch process operated at μ_set of 0·15 h⁻¹, whereby lower μ_set (0·075 h⁻¹) gave the highest protein production (9·82 mg l⁻¹). The yield of Bm R1 was increased by 1·2-fold upon induction with 1 mmol l⁻¹ IPTG (isopropyl-β- d -thiogalactoside) compared to using 5 mmol l⁻¹ and showed a further 3·5-fold increase when the culture was induced twice at the late log phase.
Conclusions:  Combination of feeding at a lower μ_set and twice induction with 1 mmol l⁻¹ IPTG yielded the best result of all variables tested, promising an improved method for Bm R1 production .
Significance and Impact of the Study:  This method can be used to increase the production scale of the Bm R1 recombinant antigen to meet the increasing demand for Brugia Rapid^™, a commercial diagnostic test for detection of brugian filariasis.     

Platelet activation by a relapsing fever spirochaete results in enhanced bacterium–platelet interaction via integrin αIIbβ3 activation

Borrelia hermsii , a spirochaete responsible for relapsing fever in humans, grows to high density in the bloodstream and causes thrombocytopenia. We show here that B. hermsii binds to human platelets. Extended culture in bacteriological medium resulted in both diminished infectivity in vivo and diminished platelet binding in vitro . Platelet binding was promoted by the platelet integrin α_IIbβ₃: the bacterium bound to purified integrin α_IIbβ₃, and bacterial binding to platelets was diminished by α_IIbβ₃ antagonists or by a genetic defect in this integrin. Integrin α_IIbβ₃ undergoes a conformational change upon platelet activation, and bacteria bound more efficiently to activated rather than resting platelets. Nevertheless, B. hermsii bound at detectable levels to preparations of resting platelets. The bacterium did not recognize a point mutant of α_IIbβ₃ that cannot acquire an active conformation. Rather, B. hermsii was capable of triggering platelet and integrin α_IIbβ₃ activation, as indicated by the expression of the platelet activation marker P-selectin and integrin α_IIbβ₃ in its active conformation. The degree of platelet activation varied depending upon bacterial strain and growth conditions. Prostacyclin I₂, an inhibitor of platelet activation, diminished bacterial attachment, indicating that activation enhanced bacterial binding. Thus, B. hermsii signals the host cell to activate a critical receptor for the bacterium, thereby promoting high-level bacterial attachment.