Prolonged Signal Research Articles

Behavioral significance of phasic changes in mesolimbic dopamine-dependent electrochemical signal associated with heroin self-injections.

High-speed chronoamperometry with monoamine-selective carbon fiber electrodes was used in rats to monitor, during 5-6 consecutive daily sessions, changes in DA-dependent electrochemical signal in the nucleus accumbens (NAcc) during intravenous heroin (0.1 mg/kg) self-administration (SA) behavior and passive repeated drug injections performed with a temporal scheme similar to that in the SA experiment. In trained animals, biphasic signal fluctuations time-locked to the individual lever-presses were found to accompany all but the first daily SAs. The signal gradually increased by 30-40 nM for the 10 minutes preceding the SA, reached a peak at the moment of lever-press and decreased abruptly by approximately 40 nM for 3-4 min after heroin SA. The cycle then repeated, reaching a new peak at the moment of the next lever-press. Rapid bi-directional fluctuations in signal associated with individual heroin SAs were superimposed on substantial tonic increase in signal baseline (400-500 nM). This increase quickly developed after presentation of heroin-related light cue and the first SA, was relatively stable during all subsequent SAs and decreased towards the baseline after the last SA of a session. Changes in signal baseline induced by repeated heroin SAs depended strongly upon the signal's basal level (r = -0.787); that signal preferentially increased when its basal values were low (0-300 nM), and decreased when signal was tonically elevated (> 600 nM). Repeated passive heroin injections also induced biphasic signal fluctuations and a similar tonic increase in signal baseline. Although a transient signal decrease (25 nM for 2-4 minutes) followed by a prolonged signal increase occurred after each but not the first passive injection, the gradual pre-injection signal acceleration was absent. Although DOPAC, a principal DA metabolite, may significantly contribute to the tonic increase in electrochemical signal seen during SA session, the changes in extracellular DA may be the main contributor to both the rapid signal increases preceding drug-taking and the transient signal decreases following heroin SA. If so, the present findings suggest that activation of mesolimbic DA cells and increase in DA transmission may be involved in the mediation of motivational and/or activational components of drug-seeking and drug-taking behavior. An acute termination of previous drug- and behavior-associated DA activation with a transient inhibition of DA release, immediately following heroin SA may correlate with the drug's rewarding action, representing a part of a mechanism regulating drug-taking behavior.

Gadolinium-Ethoxybenzyl-DTPA, a New Liver-Specific Magnetic Resonance Contrast Agent: Kinetic and Enhancement Patterns in Normal and Cholestatic Rats

Gadolinium-ethoxybenzyl-DTPA (Gd-EOB-DTPA) is a new hepatobiliary magnetic resonance imaging (MRI) contrast agent with a dual elimination: 70% via the liver and bile and 30% via the kidney in normal rats. The abdominal enhancement patterns of this new compound and the uptake mechanism by the liver were studied in rats using tissue relaxometry and MRI. Twelve normal rats, 33 rats treated with agents designed to inhibit biliary excretion of the agent, and 6 rats with surgically ligated common bile ducts received Gd-EOB-DTPA intravenously. Distribution and excretion were measured by MR relaxometry. MR signal intensity was measured over time for liver, kidney, and bowel. In normal animals, 0.1 mmol/kg Gd-EOB-DTPA induced a significantly greater (200%) and more prolonged liver signal enhancement (100% at 30 minutes) than Gd-DTPA at the same dose. Either hyperbilirubinemia, induced by common bile duct ligation, or bromosulfophtalein (BSP) infusion inhibited liver uptake of Gd-EOB-DTPA, resulting in a preferential elimination via the kidney. Taurocholate (TC), an inhibitor of the bile acid transporter, was unable to block the liver uptake of Gd-EOB-DTPA. Blood half-lives of Gd-EOB-DTPA in rats were 2.4 minutes for the first component and 8.2 minutes for the second. Data indicate that transport of Gd-EOB-DTPA through the liver into bile is driven by the organic anion transporter. The relation between enhancement of liver and kidney may be diagnostically useful to indirectly evaluate liver excretory function. Yet, persistent enhancement of liver, even in the presence of severe hyperbilirubinemia, should be sufficient to identify focal mass lesions.

Enhanced chemiluminescent immunoassay for aldosterone

A solid phase immunoassay for aldosterone using enhanced chemiluminescent detection has been developed. Monoclonal antibodies against aldosterone were used for the immune reaction and compared with polyclonal antibodies. Uniform Protein A coated polystyrene tubes were used as solid phase for the monoclonal antibody and second (anti-rabbit) antibody coated tubes for the polyclonal antibody. Horseradish peroxidase was covalently linked to aldosterone as enzyme label. Optimum conditions were established for the generation and measurement of the luminescent reactions using luminol, p-iodophenol as enhancer and hydrogen peroxide. The advantages of this assay are the high sensitivity with a detection limit of 100 fg/tube, the prolonged luminescence signal with a simplification of the measurement (simpler detectors, external start pipetting) and the short measure time with the possibility of repeated measurement. The coefficients of variation were 4.2%-7.3% in the concentration range 140-1180 pmol/l. The assay showed a significant correlation (r = 0.91) with the ELISA. The aldosterone concentrations in plasma and saliva of patients with Conn's syndrome were significantly increased, and in patients with Addison's disease were found near the detection limit.

Leukocyte function-associated antigen 1 is an activation molecule for human T cells.

The leukocyte function-associated antigen 1 (LFA-1) molecule is well established as a surface protein involved in cellular adhesion and interaction, but there has been little information about whether engagement of this molecule can also directly modify cellular activation. These studies demonstrate that crosslinking the LFA-1 molecule on human T cell clones transmits a unique signal to the cell. Crosslinking LFA-1 alone did not increase intracellular calcium ([ CA2+]i), nor did crosslinking LFA-1 activate the cells as measured by IL-2 production or [3H]thymidine incorporation. However, when CD3 and LFA-1 were crosslinked, a more prolonged calcium signal was observed than when CD3 alone was crosslinked. Moreover, IL-2 production and DNA synthesis were greatly augmented. These responses could be demonstrated when LFA-1 was crosslinked via either the alpha or the beta chain, and required surface expression of the LFA-1 molecule as no enhancement was observed in T cell clones from a child with leukocyte adhesion deficiency. The enhancement of cellular activation by LFA-1 did not require that it be directly crosslinked to the CD3 complex. Thus, crosslinking LFA-1 alone with isotype-specific secondary antibodies on cells also pretreated with an anti-CD3 mAb of a different Ig isotype stimulated the cells as effectively as crosslinking both surface antigens with GaMIg. Similarly, a delayed, but sustained increase in [Ca2+]i was elicited. This increase in [Ca2+]i and the enhanced functional responses required engagement of CD3 with an intact bivalent anti-CD3 mAb, as crosslinking LFA-1 on cells also reacted with Fab fragments of an anti-CD3 mAb did not increase [Ca2+]i, nor activate the cells. These data indicate that LFA-1 can convey activation signals to T cells. Synergism in signaling can be observed upon crosslinking of LFA-1 and independently crosslinking CD3. In the physiologic interaction between T cells and accessory cells, the interaction of LFA-1 with its ligand, intercellular adhesion molecule 1, may therefore not only facilitate cellular adhesion, but also may amplify T cell activation by delivering costimulatory signals.

Structural studies of a folding intermediate of bovine pancreatic ribonuclease A by continuous recycled flow

A new technique, continuous recycled flow (CRF) spectroscopy, has been developed for observing intermediates of any thermally induced, reversible reaction with a half-life of 10 s or longer. The structure can be probed by any spectroscopic method which does not perturb the system. Prolonged signal acquisitions of 8 h for ribonuclease A are possible. CRF was used to investigate the structure of the slow-folding intermediates of chemically intact ribonuclease A (RNase A) during thermal unfolding/folding under acidic conditions. The following conclusions were reached on the basis of the proton nuclear magnetic resonance and far-ultraviolet circular dichroism spectra of a folding intermediate(s): (A) The conformation of the detected folding intermediate(s) is similar to that of the heat-denatured protein. There is only limited formation of new structures. (B) The N-terminal alpha-helix is partially stable under these conditions and is in rapid (less than 10 ms) equilibrium with the denatured conformation. (C) There are long-range interactions between the hydrophobic residues of the N-terminal alpha-helix and the rest of the protein. These interactions persist well above the melting point. (D) An aliphatic methyl group reports on the formation of a new structure(s) that lie(s) outside of the N-terminal region. (E) The structures detected in chemically modified, nonfolding forms of the RNase A are also present in the folding intermediate(s). There are, however, additional interactions that are unique to chemically intact RNase A.

Covalent linking of photoreactive insulin to adipocytes produces a prolonged signal.

The first step of insulin's many cellular functions is specific binding to receptors on the plasma membrane of target cells. The subsequent molecular basis of insulin action, particularly the coupling mechanism(s) involved in transmitting the biological message, remains largely unknown. Our approach to the problem centres on the application of a series of well characterized photo-insulins carrying an aryl-azido or nitro-aryl-azido group in positions A1, B1, B2 or B29 (refs 2--4). Specific binding to membrane components could be demonstrated with B1-, B29- (ref. 5) and A1-photo-insulins as well as a B2-derivative. We now report that lipogenesis is increased to, and maintained at, near-maximal levels for several hours after photoinduced covalent binding of B2- (2-nitro,4-azidophenylacetyl)-des-PheB1-insulin (Napa-DP-insulin) to living adipocytes.

Bladder and Urethral Innervation in Multiple Sclerosis

Bladder and urethral innervation was studied in 52 patients with multiple sclerosis using a signal tracing technique (evoked reflex latency measurement). The majority of the patients showed prolonged signal transit times indicative of demyelinating plaques localised to the lumbosacral spinal cord. Futhermore, impairment of the corticospinal innervation of the pudendal nucleus was found in 29 patients indicating lesions of the pyramidal tract.

Bladder and Urethral Innervation in Multiple Sclerosis

SummaryBladder and urethral innervation was studied in 52 patients with multiple sclerosis using a signal tracing technique (evoked reflex latency measurement).The majority of the patients showed prolonged signal transit times indicative of demyelinating plaques localised to the lumbosacral spinal cord. Furthermore, impairment of the corticospinal innervation of the pudendal nucleus was found in 29 patients indicating lesions of the pyramidal tract.

Techniques for Data Compression in the Recording and Analysis of Prolonged EEG And Other Electrophysiological Signals

Techniques for Data Compression in the Recording and Analysis of Prolonged EEG And Other Electrophysiological Signals