Expanded Glucose Import Capability Affords Staphylococcus aureus Optimized Glycolytic Flux during Infection.

UNLABELLED: Acquisition of numerous virulence determinants affords Staphylococcus aureus greater pathogenicity than other skin-colonizing staphylococci in humans. Additionally, the metabolic adaptation of S. aureus to nonrespiratory conditions encountered during infection (e.g., hypoxia, nitric oxide, iron chelation) has been implicated as contributing to S. aureus virulence. Specifically, S. aureus has been shown to ferment glycolytic substrates in nonrespiratory environments encountered within the host. Here, we show that S. aureus has acquired unique carbohydrate transporters that facilitate the maximal uptake of host sugars and serve to support nonrespiratory growth in inflamed tissue. The carbohydrate substrates of 11 S. aureus transporters were identified, and at least four of their genes encode S. aureus glucose transporters (glcA, glcB, glcC, and glcU). Moreover, two transporter genes (glcA and glcC) are unique to S. aureus and contribute disproportionately to the nonrespiratory growth of S. aureus on glucose. Targeted inactivation of sugar transporters reduced glucose uptake and attenuated S. aureus in a murine model of skin and soft tissue infections. These data expand the evidence for metabolic adaptation of S. aureus to invasive infection and demonstrate the specific requirement for the fermentation of glucose over all other available carbohydrates. Ultimately, acquisition of foreign genes allows S. aureus to adopt a metabolic strategy resembling that of infiltrating host immune cells: high glycolytic flux coupled to lactate excretion. IMPORTANCE: The bacterial pathogen Staphylococcus aureus causes a wide range of human infections that are costly and difficult to treat. S. aureus differs from closely related commensal staphylococci in its ability to flourish following the invasion of deeper tissue from the skin surface. There, S. aureus primarily uses glucose to grow under respiration-limiting conditions imposed by the immune system. It was previously unclear how S. aureus thrives in this environment when other Staphylococcus species cannot. Our results provide evidence that S. aureus has acquired an expanded repertoire of carbohydrate transporters. In particular, four glucose transporters contribute to efficient S. aureus growth during infection. Thus, S. aureus has evolved to maximize its glucose uptake abilities for enhanced glycolytic flux during tissue invasion. This dependence on glucose acquisition for S. aureus virulence may also explain links between serious infectious complications associated with diabetic patients exhibiting elevated blood glucose levels.

Risk of zinc, iodine and other micronutrient deficiencies among school children in North East Thailand.

INTRODUCTION: Micronutrient deficiencies during childhood can contribute to impairments in growth, immune competence, and mental and physical development, and the coexistence of several such deficiencies can adversely affect the efficacy of single micronutrient interventions. OBJECTIVE: To assess the prevalence of zinc and iodine deficiency and their interrelationships with vitamin A deficiency and anemia and associations with socio-economic status, hemoglobin type, and anthropometry in a cross-sectional study. SETTING: A total of 10 primary schools in North East Thailand. METHODS: Non-fasting venipuncture blood samples and casual urine samples were collected from 567 children aged 6-13 years. Anthropometric measures and serum zinc, albumin, C-reactive protein and urinary iodine, are reported here and integrated with published data on vitamin A, anemia, and socio-economic status. RESULTS: Of the children, 57% had low serum zinc and 83% had urinary iodine levels below the 100 microg/l cutoff. Suboptimal serum zinc and urinary iodine concentrations may result from low intakes of zinc and iodized salt. Significant risk factors for low serum zinc were serum retinol <1.05 micromol/l and being male. Those for urinary iodine <100 microg/l were height-for-age score>median and being female. For serum retinol <1.05 micromol/l, risk factors were low hemoglobin, low serum zinc, and <9 years, and for low hemoglobin indicative of anemia risk factors were <9 years, AE hemoglobinopathy, and serum retinol <1.05 micromol/l. Of the children, 60% were at risk of two or more coexisting micronutrient deficiencies, most commonly suboptimal urinary iodine and low serum zinc. CONCLUSION: The findings emphasize the need for multimicronutrient interventions in North East Thailand.

Children's and adults' memory for television stories: the role of causal factors, story-grammar categories, and hierarchical level.

What events from televised stories do preschool children and adults remember? In this study, we examined the extent to which 4-year-old and 6-year-old children's and adults' free recall of events from "Sesame Street" stories is determined by the role the events play in the story structure. Events varied with respect to 4 structural properties: number of causal connections, status on or off the story's causal chain, story-grammar category, and position in the story's hierarchical structure. There were systematic developmental differences in the effects of these properties on recall. First, memory at all ages was strongly influenced by the 2 causal factors, but effects of these factors increased with age. Second, children emphasized actions in their recall, whereas adults most frequently recalled protagonists' goals and events that initiated these goals. Third, children's recall increased as the hierarchical level of events increased, whereas adults most frequently recalled (causally more important) events at intermediate levels. These findings demonstrate that preschool children are already sensitive to structural features of televised narratives but that utilization of the causal-motivational structure of narratives increases systematically with age.

Potent antagonism by BIM-23056 at the human recombinant somatostatin sst5 receptor.

We have investigated the effects of somatostatin (SRIF) and the linear octapeptide BIM-23056 on changes in intracellular calcium ion concentration ([Ca2+]i) and on the formation of inositol-1,4,5-trisphosphate (Ins(1,4,5)P3) in CHO-K1 cells transfected with the human recombinant SRIF sst5 receptor. SRIF elicited concentration-dependent increases in [Ca2+]i, with a pEC50 of 7.02 +/- 0.06, while BIM-23056 (1 x 10(-7) M) behaved not as an agonist but as a potent, surmountable antagonist of these increases in [Ca2+]i. The SRIF concentration-effect curve for increases in [Ca2+]i was shifted rightward producing an estimated pKB for the antagonist of 8.0. BIM-23056 (1 x 10(-7) M) also significantly attenuated Ins(1,4,5)P3 increases due to SRIF, but had no effect on either basal or uridine 5'-triphosphate (UTP) (1 x 10(-4) M) stimulated increases in the levels of [Ca2+]i or Ins(1,4,5)P3.

Comparison of the uptake of [3H]-gabapentin with the uptake of L-[3H]-leucine into rat brain synaptosomes.

1. Gabapentin is a novel anticonvulsant with an unknown mechanism of action. Homogenate binding studies described elsewhere have suggested that [3H]-gabapentin binds to a site in brain similar to the large neutral amino acid (LNAA) uptake site, termed system-L. 2. This study describes an investigation into the uptake of [3H]-gabapentin into a crude synaptosomal preparation from cerebral cortex of rat brain. Characterization studies showed that [3H]-gabapentin is taken up into synaptosomes by a system that is similar to that responsible for the uptake of L-[3H]-leucine. This system is sodium-independent, temperature-sensitive and requires ATP for function. 3. Kinetic studies of [3H]-gabapentin uptake produced a Michaelis constant (KM = 160 microM) similar to that observed for L-[3H]-leucine (KM = 110.3 microM). Vmax values were 837.1 pmol mg-1 protein min-1 and 2.192 nmol mg-1 protein min-1 respectively. 4. Gabapentin and L-leucine mutually inhibit their uptake. Lineweaver-Burke plots of these data demonstrate that inhibition occurs by a competitive mechanism. Further to this the Dixon transformation of the data illustrates that these two substrates share a common uptake site by the similarity between their calculated Ki and KM values (gabapentin inhibition of L-[3H]-leucine uptake: Ki = 160 microM; L-leucine inhibition of [3H]-gabapentin uptake: Ki = 262 microM). 5. Studies into the effect of gabapentin, the system-L-specific ligand 2-(-)-endoamino-bicycloheptane-2-carboxylic acid (BCH), and the system-A-specific ligand alpha-(methyl-amino)-isobutyric acid (MeAIB), on the initial rate of uptake of [3H]-glycine, L-[3H]-glutamate, L-[3H]-glutamine, and L-[3H]-leucine were performed. At 100 microM, gabapentin significantly inhibited initial rate of uptake of [3H]-glycine (29%), L-[3H]-glutamate (22%) and L-[3H]-leucine (40%). 6. Gabapentin is taken up into synaptosomes by a system similar to system-L, responsible for the uptake of large neutral amino acids. Gabapentin will also inhibit the uptake of certain excitatory amino acids in this synaptosomal preparation. The implications of these findings for the mechanism of action for gabapentin are unclear. The data presented here may suggest an intracellular site for mechanism of action for this compound. Similarly changes in levels of amino acid pools may be involved in the mechanism of gabapentin's anticonvulsant action.

Comparison of the autoradiographic binding distribution of [3H]-gabapentin with excitatory amino acid receptor and amino acid uptake site distributions in rat brain.

1. Gabapentin is a novel anticonvulsant with an unknown mechanism of action. Recent homogenate binding studies with [3H]-gabapentin have suggested a structure-activity relationship similar to that shown for the amino acid transport system responsible for the uptake of large neutral amino acids (LNAA). 2. The autoradiographic binding distribution of [3H]-gabapentin in rat brain was compared with the distributions for excitatory amino acid receptor subtypes and the uptake sites for excitatory and large neutral amino acids in consecutive rat brain sections. 3. Densitometric measurement of the autoradiographic images followed by normalisation with respect to the hippocampus CA1 stratum radiatum, was carried out before comparison of each binding distribution with that of [3H]-gabapentin by linear regression analysis. The correlation coefficients observed showed no absolute correlation was observed between the binding distributions of [3H]-gabapentin and those of the excitatory amino acid receptor subtypes. The acidic and large neutral amino acid uptake site distributions demonstrated a much closer correlation to the [3H]-gabapentin binding site distribution. The correlation coefficients for D-[3H]-aspartate, L-[3H]-leucine and L-[3H]-isoleucine binding site distributions were 0.76, 0.90 and 0.88 respectively. 4. Concentration-dependent inhibition by unlabelled gabapentin of autoradiographic binding of L-[3H]-leucine and L-[3H]-isoleucine was observed, with non-specific binding levels being reached at concentrations between 10 and 100 microM. 5. Excitotoxic quinolinic acid lesion studies in rat brain caudate putamen and autoradiography were carried out for the amino acid uptake sites mentioned above. The resulting glial infiltration of the lesioned areas was visualized by autoradiography using the peripheral benzodiazepine receptor specific ligand [3H]-PK11195. A significant decrease in binding density in the lesioned area compared with sham-operated animals was observed for D-[3H]-aspartate, L-[3H]-leucine, L-[3H]-isoleucine and [3H]-gabapentin, whilst [3H]-PK11195 showed a significant increase in binding density indicative of glial infiltration into the lesioned area. These results suggest that the gabapentin binding site and the acidic and LNAA uptake site may be present on cell bodies of a neuronal population of cells. 6. From these studies it appears that [3H]-gabapentin, L-[3H]-leucine and L-[3H]-isoleucine bind to the same site in rat brain. The inhibition of [3H]-gabapentin binding by the LNAA uptake system-specific ligand, BCH, suggests that [3H]-gabapentin may label this uptake site, termed system-L. Conversely these ligands could be labelling a novel site that coincidentally has a similar structure-activity relationship to this uptake site. These results suggest a novel mechanistically relevant site of action for gabapentin and may enable further anti-epileptic agents of this type to be developed.

The novel anticonvulsant drug, gabapentin (Neurontin), binds to the alpha2delta subunit of a calcium channel.

Gabapentin (1-(aminomethyl)cyclohexane acetic acid; Neurontin) is a novel anticonvulsant drug, with a mechanism of action apparently dissimilar to that of other antiepileptic agents. We report here the isolation and characterization of a [3H]gabapentin-binding protein from pig cerebral cortex membranes. The detergent-solubilized binding protein was purified 1022-fold, in a six-step column-chromatographic procedure, with a yield of 3.9%. The purified protein had an apparent subunit Mr of 130,000, and was heavily glycosylated. The partial N-terminal amino acid sequence of the Mr 130,000 polypeptide, EPFPSAVTIK, was identical to that reported for the alpha2delta subunit of the L-type Ca2+ channel from rabbit skeletal muscle (Hamilton, S. L., Hawkes, M. J., Brush, K., Cook, R., Chang, R. J., and Smilowitz, H. M. (1989) Biochemistry 28, 7820-7828). High levels of [3H]gabapentin binding sites were found in membranes prepared from rat brain, heart and skeletal muscle. Binding of [3H]gabapentin to COS-7 cells transfected with alpha2delta cDNA was elevated >10-fold over controls, consistent with the expression of alpha2 delta protein, as measured by Western blotting. Finally, purified L-type Ca2+ channel complexes were fractionated, under dissociating conditions, on an ion-exchange column; [3H]gabapentin binding activity closely followed the elution of the alpha2 delta subunit. [3H]Gabapentin is the first pharmacological agent described that interacts with an alpha2delta subunit of a voltage-dependent Ca2+ channel.

[3H]gabapentin may label a system-L-like neutral amino acid carrier in brain.

The ability of large neutral amino acids to interact with a site in mouse and pig brain labelled by [3H]gabapentin was examined. As previously described for rat tissue, [3H]gabapentin bound to synaptic plasma membranes prepared from mouse or pig cerebral cortex with high affinity (Kinetically derived KD = 14 and 17 nM for mouse and pig, respectively). Equilibrium binding in each species was inhibited by gabapentin and a range of large neutral amino acids. L-leucine (IC50 = 80 nM), L-isoleucine (IC50 = 72 nM), L-norleucine (IC50 = 40 nM) and L-methionine (IC50 = 50 nM) were the most potent of those tested. Binding was also inhibited by L-phenylalanine (IC50 = 380 nM), L-valine (IC50 = 310 nM) and the selective system-L substrate 2-amino-2-carboxy-bicycloheptane (IC50 = 420 nM) but not by the sodium-dependent System-A substrate methylaminoisobutyric acid. The presence of a submaximal concentration of leucine reduced [3H]gabapentin binding affinity but did not affect the maximum number of binding sites, suggesting a competitive interaction between leucine and the binding protein. The results suggest [3H]gabapentin may label a site in brain that resembles the large neutral amino acid transporter described in other tissues.