Video-microscopic analysis of dye coupling in the salamander olfactory bulb.

Cells in the mitral cell (MCL) and granule cell (GCL) layers of the olfactory bulb shape the representation of odor information in the brain. After intracellular Lucifer Yellow (LY) injections into lightly fixed olfactory bulb slices, clusters of dye coupled cells were previously observed in the MCL and GCL, but the relative extent of coupling in the two layers was unknown in adults. In the present study, the time course of LY coupling in the adult salamander olfactory bulb was quantified using video-microscopic methods. Analysis of fluorescent cell body counts showed that the incidence and the extent of LY coupling are greater in the GCL than in the MCL. With optimal low-current injection procedures, 97% of the injections into the GCL exhibited at least one coupled cell, and on average groups of six to eight cells were counted. Fewer injections into the MCL exhibited only one to three coupled cells. Some of these coupled cells were clearly mitral cells. No staining of cells was observed after extracellular LY injections, and intracellular injections of dextran dyes stained single cells, providing evidence that the LY coupled cells were stained through an intercellular route, presumably gap junctions. In live intact preparations, rapid LY staining of cell clusters was also observed using patch pipettes. Together, these results provide evidence that robust coupling occurs among olfactory bulb neurons in adults, which could have functional significance.

Cardiac excitation-contraction coupling in the portal hypertensive rat.

Basal contractility and responses to beta-adrenoceptor activation are compromised in hearts from rats with chronic portal vein stenosis. Here we report the effect of partial ligation of the portal vein on myocardial G protein expression, beta-adrenoceptor-G protein coupling, and excitation-contraction coupling (ECC). Contractility (dT/dt) was reduced 30-50% in right and left ventricles, but the rate of relaxation (-dT/dt) was unaffected. Isoproterenol-induced positive inotropism was diminished, but there was no difference in ED(50). The concentration-dependent increase in -dT/dt was unaffected. G(s)alpha and G(i)alpha expression, cholera toxin- and pertussis toxin-induced ADP-ribosylation, and formation of the agonist-receptor-G(s) complex were unaffected by portal vein stenosis. Of the components of ECC examined, the caffeine-sensitive sarcoplasmic reticulum Ca(2+) pool was reduced 35%, although the Ca(2+) uptake and release processes were unchanged; the apparent density of L-type Ca(2+) channels decreased 60% with no change in affinity; the dihydropyridine Ca(2+) channel agonist BAY K 8644 produced relative changes in dT/dt that were similar in both groups, suggesting normal function in the remaining Ca(2+) channels; and Na(+)/Ca(2+) exchange was reduced 50% in the portal vein stenosis group. These data suggest that the effect of portal vein stenosis on the myocardium is the result of alterations to ECC.

Cardiac impairment and nitric oxide synthase activity in the chronic portal vein-stenosed rat.

Decreased cardiac contractility and beta-adrenergic responses have been observed in the chronic portal vein-stenosed (PVS) rat. Because nitric oxide (NO) may be increased in PVS and has been recognized as a negative inotropic agent, we investigated the induction of NO synthase (NOS2) and/or changes in constitutive NOS (NOS3) as factors in the cardiac dysfunction of the PVS rat. Ten to twelve days after portal vein stenosis or sham operation, cardiac function was evaluated in paced left ventricular papillary muscles (LVPM) and right ventricular strips (RV). To determine if NO modulation of contractile function was altered in PVS, we examined the increase in developed tension produced by the effect of Nomega-nitro-L-arginine (L-NNA) on the myocardial force-frequency relationship. Cardiac tissue NOS2 and NOS3 activities were assayed, Western blot analyses of NOS2 and NOS3 expression were performed, and circulating nitrate-nitrite (NOX) levels (an indicator of in vivo NOS activity) were assayed. Basal LVPM and RV contractile indexes were significantly reduced in PVS (30-50%), without a change in the relaxation rate. No between-group differences in the cardiac NOS2 or NOS3 enzymatic activities of PVS and sham-operated (SO) rats were observed. Western blots revealed no cardiac NOS2 expression in either SO or PVS rats. In contrast, NOS3 was expressed in both SO and PVS rats, but there was no quantitative difference in expression between the two groups. Changes in the cardiac force-frequency relationship (staircase effect) after L-NNA were consistent with NOS3 modulation of contractile function in both SO and PVS rats, but there was no between-group difference in the modulation. Circulating NOX concentrations did not differ between SO and PVS rats. In conclusion, protein expression data, enzymatic assays, end-product assays, and functional data indicate that between-group differences in NOS2 and NOS3 activity are not responsible for the cardiac impairment that has been observed in the chronic PVS rat.

Microdialysis studies of basal levels and stimulus-evoked overflow of dopamine and metabolites in the striatum of young and aged Fischer 344 rats.

The technique of intracranial microdialysis was used to investigate the effects of aging on the striatal dopaminergic system of the anesthetized Fischer 344 rat. Microdialysis probes were implanted into the striatum of young (2-8 months) and aged (24-28 months) urethane anesthetized rats. Striatal dialysate levels were analyzed for dopamine (DA), dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA), 5-hydroxyindoleacetic acid (5-HIAA), and serotonin (5-HT) by high performance liquid chromatography with electrochemical detection. As compared to the young animals, basal extracellular levels of DA and DOPAC were significantly decreased in two groups of aged animals. Stimulation with excess potassium added through the microdialysis probe produced a robust overflow of DA in the young and aged rat striatum, but the evoked overflow of DA was not diminished in the aged rat striatum as compared to young animals. In contrast, d-amphetamine-evoked overflow of DA was again robust in young and aged animals, but was greatly decreased in the aged rat striatum as compared to the signals recorded in the young rats. Taken together with previous reports, these data support the hypothesis that a major change in the regulation of DA release that occurs in aging involves changes in the function of the neuronal uptake of DA, which may be a compensatory property of DA neurons in senescence.

A new method for intraoperative recurrent laryngeal nerve monitoring.

The recurrent laryngeal nerve is at risk of iatrogenic injury during surgical procedures in which its anatomical location is exposed. Borrowing from biotechnology currently available for facial nerve monitoring, we have developed a method of electrophysiologically assessing the function of the recurrent laryngeal nerve during technically difficult neck surgeries. Electromyographic as well as nerve action potential recordings are monitored using the Xomed-Treace Nerve Integrity Monitor-2 (NIM-2). This method differs from those previously published in that it is much less cumbersome and time-consuming. The technique as well as an illustrative case are reported.

Can ACTH analogs support discriminative learning in rats?

Ten rats were trained to discriminate between the stimulus properties of subcutaneously (SC) administered MSH/ACTH4-10 and saline in a two-lever, food-motivated operant task. After 12 weeks of discriminative training with 100 micrograms/kg MSH/ACTH4-10, half the rats received 200 micrograms/kg MSH/ATCH4-10, whereas the other half were administered 400 micrograms/kg, for 6 additional weeks. Subsequently, all rats continued training on 50 micrograms/kg ORG 2766 (SC) and, after 12 weeks of training, were randomly assigned to receive either 100 or 200 micrograms/kg ORG 2766. The results of this extensive 36 week training schedule indicate that only 1 of the 10 rats learned to discriminate the interoceptive cues produced by the ACTH analogs. However, this rat's performance was so sustained and errorless that the possibility exists that it was relatively more sensitive to the effects of MSH/ACTH4-10 and its analogs and that these substances may support discriminative learning in the rat.