We propose a data storage and analysis method for using the US Congressional record as a policy analysis tool. We use Amazon Web Services and the Solr search engine to store and process Congressional ...record data from 1789 to the present, and then query Solr to find how frequently language related to tax increases and decreases appears. This frequency data is compared to six economic indicators. Our preliminary results indicate potential relationships between incidence of tax discussion and multiple indicators. We present our data storage and analysis procedures, as well as results from comparisons to all six indicators.
Depolarization of human neuroblastoma cells by high concentrations of extracellular potassium ions, leads to the activation of the voltage-gated potassium channels. The activity of such potassium ...channels can be effectively and rapidly monitored by tracking the efflux of 86Rb from pre-loaded target cells in response to the depolarizing stimulus. The inclusion of compounds with unknown activity in the assay medium, can result in the identification of novel blockers of the voltage-gated potassium channels. Since this functional assay is performed in 96-well microtitre plates, it represents a rapid and high-volume primary screening method for the detection and identification of the voltage-gated potassium-channel blockers, which may have therapeutic utility in several indications including memory degeneration and cardiac arrhythmias.
HPLC analysis of guanidinium hydrochloride extracts of neonatal and adult rat brain revealed a polypeptide that is present in high concentration in the immature nervous system, but whose levels ...decline dramatically in the adult. This polypeptide has been isolated and its complete amino acid sequence determined by gas-phase Edman degradation following specific chemical and enzymatic cleavages. The molecule is identified as thymosin beta 10, a member of a multigene family that encodes a structurally conserved series of small acidic polypeptides of uncertain function. Thymosin beta 10 is present in the developing nervous system as early as embryonic day 9. Levels subsequently increase to peak values between embryonic day 15 and postpartum day 3, before falling to adult values (about a 20-fold reduction) by postpartum day 14. The elevated levels of thymosin beta 10 in fetal and neonatal brain correlate with high levels of thymosin beta 10 mRNA, whereas the low values of the polypeptide in the adult and juvenile are mirrored by an approximate 15-fold reduction in specific mRNA. In comparison, the levels of thymosin beta 4 polypeptide, a homologue of thymosin beta 10, only decline by about 20% during the same developmental period. However, the mRNA encoding thymosin beta 4 is elevated in fetal brain, and its levels decrease approximately four-fold to a stable value around the time of birth. The reason for this discrepancy between thymosin beta 4 protein and mRNA levels is unknown. Thymosin beta 10 can also be detected by HPLC in fetal liver, where levels are approximately 5% of those in brain. In liver, thymosin beta 10 also declines following birth. It is concluded that beta-thymosin expression (as measured by steady-state mRNA and polypeptide levels) is both up- and down-regulated during different phases of maturation of the mammalian nervous system.
The 5-HT3-receptor antagonist, ondansetron, has been shown to have positive effects in selected in-vivo models of memory impairment and anxiety. The exact mechanisms underlying such bioactivities are ...unknown. In the present work, an 86Rb efflux bioassay was used to show that ondansetron has a unique ability to block voltage-gated potassium channels in TE671 human neuroblastoma cells. This intrinsic potassium-channel-blocking (KCB) property is relatively weak (IC50 20 microM), but is not shared by other 5-HT3-receptor ligands including zatosetron, MDL 72222, LY 278, 584, zacopride, 1-phenylbiguanide, and ICS 205-930 (tropisetron). Pre-incubation of the target neuroblastoma cells with several 5-HT-receptor ligands including 5-hydroxytryptamine, 8-OH-DPAT, ketanserin, 2-methyl-5-HT, as well as a number of potent 5-HT3 agonists and antagonists and two selective neurotoxins, failed to abolish the KCB action of ondansetron. A preliminary structure-activity relationship analysis indicates that the KCB activity of ondansetron is almost entirely attributable to its structural nucleus, 2,3-dihyro-9-methyl-4(1H)-carbazolone. It is hypothesized that the KCB action of ondansetron is mediated through receptors other than 5-HT3 receptors. The KCB activity of ondansetron may be a significant factor in the in-vivo cognition-enhancing activities of this compound, conceivably due to depolarization of the hippocampal synaptic membranes and a consequent augmentation of neurotransmission.