Age-related changes of sodium-dependent D-[3H]aspartate and [3H]FK506 binding in rat brain

We investigated age-related changes in excitatory amino acid transport sites and FK506 binding protein (FKBP) in 3-week-, and 6-, 12-, 18- and 24-month-old Fischer 344 rat brains using receptor autoradiography. Sodium-dependent D-[3H]aspartate and [3H]FK506 were used to label excitatory amino acid transport sites and immunophilin (FKBP), respectively. In immature rats (3-week-old), sodium-dependent D-[3H]aspartate binding was lower in the frontal cortex, parietal cortex, striatum, nucleus accumbens, whole hippocampus, thalamus and cerebellum as compared to adult animals (6-month-old), whereas [3H]FK506 binding was significantly lower in only the hippocampus, thalamus and cerebellum. 3[H]FK506 binding exhibited no significant change in the brain regions examined during aging. However, sodium-dependent D-[3H]aspartate binding showed a conspicuous reduction in the substantia nigra in 18-month-old rats. Thereafter, a significant reduction in sodium-dependent D-[3H]aspartate binding was found in the thalamus, substantia nigra and cerebellum in 24-month-old rats. Other regions also showed about 10-25% reduction in sodium-dependent D-[3H]aspartate binding. The results indicate that excitatory amino acid transport sites are more susceptible to aging process than immunophilin. Further, our findings demonstrate the conspicuous differences in the developmental pattern between excitatory amino acid transport sites and immunophilin in immature rat brain.     

Autoradiographic study on [3H]-[D-Ala2]-deltorphin-I binding sites in the rat brain

Previous biochemical and pharmacological studies have shown that [D-Ala2]-deltorphin-I (DADTI) has a high affinity and selectivity for delta-opioid receptors. In this study, designed to provide morphological details, the distribution of DADTI binding sites was examined by autoradiography on coronal, sagittal and horizontal frozen sections of adult rat brain. The sections were incubated with tritiated DADTI solution and exposed for 12 weeks to a 3H-sensitive film. DADTI labelling clearly demonstrated selective and high affinity binding sites of delta-opioid type in several brain regions, including olfactory system, neostriatum, nucleus accumbens, and cortical layers I-II and V-VI.     

Effects of bradykinin on [3H]-norepinephrine release in rat hypothalamus

1. We examined the regulatory actions of bradykinin on norepinephrine release in the hypothalamus of rats. 2. Bradykinin increased the stimulation-evoked [3H]-norepinephrine release from hypothalamic slices of Sprague-Dawley rats in a dose-dependent manner (1 Hz: S2/S1 ratio, mean +/- s.e.m., control 0.868 +/- 0.016, n = 6; bradykinin 1 x 10(-6) mol/L 1.039 +/- 0.018, n = 6, P < 0.05; bradykinin 3.3 x 10(-6) mol/L 1.130 +/- 0.064, n = 6, P < 0.05). The basal release of [3H]-norepinephrine was not affected by the peptide. 3. Bay K 8644, a dihydropyridine-sensitive calcium channel agonist, significantly potentiated the facilitatory effect of bradykinin on norepinephrine release, although Bay K 8644 by itself had no significant effect. By contrast, nicardipine, a dihydropyridine-sensitive calcium channel blocker, reversed the increase in norepinephrine release induced by bradykinin and Bay K 8644. 4. These results indicate that bradykinin may increase norepinephrine release in rat hypothalamus, partially mediated by interactions with dihydropyridine-sensitive calcium channels.     

Effect of amygdaloid kindling on [3H]dopamine and [14C]acetylcholine release from rat prefrontal cortex and striatal slices

The involvement of the dopaminergic (DA) systems in the control of limbic kindled seizures is ill defined. The effects of kindling on DA activity may have been overlooked in the past, because of its subtle unilateral occurrence and/or the variance of the endogenous imbalance of DA activity in normal animals. In the present study rats were screened for their endogenous DA imbalance using amphetamine-induced rotational behaviour. Electrical or sham kindling was applied in the hemisphere with the higher endogenous DA activity. Sections of the bilateral prefrontal cortex and dorsal and ventral striatum were dissected either 2 hours or 21 days after the final seizure and the electrically stimulated release of [3H]DA and [14C]acetylcholine (ACh) determined. Release was also measured in the presence of quinpirole or sulpiride to assess the activity of pre- and postsynaptic DA D2-receptors. Long-term effects of kindling consisted of facilitation of ACh release in the ventral striatum contralateral to the kindled amygdala and bilateral depression of DA release in the prefrontal cortex. Kindling therefore produced area specific changes in neurotransmitter systems giving rise to increased pro-convulsive cholinergic activity in the ventral striatum and decreased anti-convulsive dopaminergic activity in the prefrontal cortex.     

Lobeline and nicotine evoke [3H]overflow from rat striatal slices preloaded with [3H]dopamine: differential inhibition of synaptosomal and vesicular [3H]dopamine uptake

Lobeline is currently being developed as a substitution therapy for tobacco smoking cessation. Activation of CNS dopamine (DA) systems results in the reinforcing properties of nicotine. The present study compared the effects of lobeline and nicotine on rat striatum. Both lobeline and nicotine evoked [3H]overflow from striatal slices superfused in the presence of pargyline and nomifensine in the buffer. Marked DA depletion (42-67%) and a concomitant 2-fold increase in dihydroxyphenylacetic acid (DOPAC) in slices superfused with high concentrations (30-100 microM) of lobeline were observed. The effect of nicotine (10 microM) was inhibited in a concentration-dependent manner by mecamylamine (1-100 microM). However, lobeline (0.1-100 microM)-evoked [3H]overflow was calcium-independent, and was not antagonized by mecamylamine (1-100 microM), suggesting a mechanism of action other than stimulation of nicotinic receptors. Lobeline inhibited [3H]DA uptake into synaptosomes (IC50 = 80 +/- 12 microM) and vesicles (IC50 = 0.88 +/- 0.001 microM), whereas nicotine (< or =100 microM) did not inhibit synaptosomal or vesicular [3H]DA uptake. In the absence of pargyline and nomifensine in the buffer, endogenous DA was detected in superfusate only in those slices exposed to the highest concentration (100 microM) of lobeline. However, endogenous DOPAC concentration was increased in a concentration-dependent manner, indicating that lobeline exposure resulted in increased cytosolic DA which was rapidly metabolized to DOPAC. Under these conditions, lobeline (10-100 microM) also significantly depleted (66-85%) DA content; however, no change in DOPAC content was observed. The results suggest that, unlike nicotine, lobeline increases DA release by potent inhibition of DA uptake into synaptic vesicles, and a subsequent alteration in presynaptic DA storage.     

Characterization of [3H]clozapine binding sites in rat brain

We examined the characteristics of [3H]clozapine binding sites in four rat brain regions (frontal cortex, limbic area, hippocampus and striatum) in order to elucidate the pharmacological profile of this unique atypical antipsychotic drug. The specific [3H]clozapine binding was found to be saturable and reversible in all these brain regions. Scatchard analysis of the saturation data indicated that the specific binding consisted of high- and low-affinity components. Displacement experiments showed that the muscarinic cholinergic receptor represented about 50% of [3H]clozapine binding in each brain area. Serotonin 5-HT2 and dopamine D4 receptor binding sites could also be detected by displacement experiments using ketanserin and nemonapride, respectively, in frontal cortex and limbic area, but not in hippocampus or striatum. Alpha-1, alpha-2, histamine H1, dopamine D1, D2, or D3 receptor components could not be determined within the high-affinity [3H]clozapine binding sites in any brain region. It is possible that the atypical property of clozapine may depend on the modulatory effect on dopaminergic function via 5-HT2 receptor blockade and/or may be mediated via D4 receptor blockade in the mesocortical and mesolimbic area.     

Uptake of [3H]glycine and [3H]GABA by amacrine cells in the cat retina

After intravitreal injection, [3H]glycine accumulates in 3 distinct subpopulations of amacrine cells in the cat retina whereas [3H]GABA accumulates in 4 different subpopulations. Each labeled cell type can be distinguished on the basis of size and cytologic features. The density of label associated with each subpopulation serves as an additional distinguishing characteristic. [3H]Glycine is concentrated within the outer two-thirds of the inner plexiform layer (IPL). [3H]GABA is localized in two narrow bands in the outer half of the IPL and in a wider band adjacent to the ganglion cell layer.     

Norepinephrine transporters in rat placenta labeled with [3H]nisoxetine

Succinyl-CoA ligase (succinyl-CoA synthetase) catalyzes the nucleotide-dependent conversion of succinyl-CoA to succinate. This enzyme functions in the tricarboxylic acid (TCA) cycle and is also involved in ketone-body breakdown in animals. The enzyme is composed of alpha and beta subunits that are required for catalytic activity. Two genes, LSC1 (YOR142W) and LSC2 (YGR244C), with high similarity to succinyl-CoA ligase subunits from other species were isolated from Saccharomyces cerevisiae. The expression of these genes was repressed by growth on glucose and was induced threefold to sixfold during growth on nonfermentable carbon sources. The LSC genes were deleted singly and in combination. Unlike other yeast strains with defects in TCA cycle genes, strains lacking either or both LSC genes were able to grow with acetate as a carbon source. However, growth on glycerol or pyruvate was impaired. An antiserum against both subunits of the Escherichia coli enzyme was capable of recognizing the yeast succinyl-CoA ligase alpha subunit, and this band was absent in delta lsc1 deletion strains. Succinyl-CoA ligase activity was absent in mitochondria isolated from strains deleted for one or both LSC genes, but activity was restored by the presence of the appropriate LSC gene on a plasmid. The yeast succinyl-CoA ligase was shown to utilize ATP but not GTP for succinyl-CoA synthesis.     

Plasma kinetics of vitamin A in humans after a single oral dose of [8,9,19-13C]retinyl palmitate

The kinetics of vitamin A and its major metabolites were investigated in humans. Eleven healthy male subjects ingested 105 mumol (100,000 IU) of [8,9,19-13C]retinyl palmitate in an oily solution. Twenty-seven blood samples were collected during the 1-week study. Plasma samples were analyzed for retinyl esters and for [12C]- and [8,9,19-13C]retinol. Retinol isotopes were quantified using a newly developed GC-MS method. Total retinyl esters peaked at about 4.45 mumol/L from 3.5 to 12 h after dosing. As a result of the perturbation of the tracee system, the plasma concentration of [12C]retinol increased and then decreased as the concentration of [8,9,19-13C]retinol increased, indicating rapid distribution kinetics. A broad single peak (1.16 +/- 0.32 mumol/L) was observed for [8,9,19-13C]retinol at about 10 to 24 h postdose; this likely reflects hepatic secretion of [8,9,19-13C]retinol associated with retinol-binding protein. Then, declining levels of the tracer and increasing levels of the tracee were observed. At its peak, the ingested [8,9,19-13C]retinol reached about 51% of the observed total plasma retinol concentration. This percentage dropped to 13.4% on day 7 indicating slow final elimination from plasma. Our data support the concept that the liver follows the principle "last in/first out' in maintaining vitamin A homeostasis.     

High affinity [3H]imipramine and [3H]paroxetine binding sites in suicide brains

Specific binding of [3H]imipramine and [3H]paroxetine was simultaneously examined in human brains (frontal cortex, temporal cortex, cingulate cortex, hypothalamus, hippocampus and amygdala) from 11 controls and 11 depressed suicide victims. A single saturable high affinity site was obtained for both radioligands. Age was not related to significant changes in [3H]imipramine and [3H]paroxetine binding parameters, which indicates the stability of the brain serotonergic system with increasing age. A major finding of the present study concerns the existence of a significant decrease in the maximum number (Bmax) of [3H]imipramine binding sites in hippocampus from depressed suicides as compared with the control group, without changes in the binding affinity (Kd). In contrast, when [3H]paroxetine was used as radioligand, no changes in either Bmax or Kd were detected in any of the brain regions studied. These findings suggest that [3H]imipramine may be a better marker than [3H]paroxetine when alterations in the presynaptic serotonergic uptake site are to be detected.     

Cations affect [3H]mazindol and [3H]WIN 35,428 binding to the human dopamine transporter in a similar fashion

The present study addresses the possibility that there are different cocaine-related and mazindol-related binding domains on the dopamine transporter (DAT) that show differential sensitivity to cations. The effects of Zn2+, Mg2+, Hg2+, Li+, K+, and Na+ were assessed on the binding of [3H]mazindol and [3H]WIN 35,428 to the human (h) DAT expressed in C6 glioma cells under identical conditions for intact cell and membrane assays. The latter were performed at both 0 and 21 degrees C. Zn2+ (30-100 microM) stimulated binding of both radioligands to membranes, with a relatively smaller effect for [3H]mazindol; Mg2+ (0.1-100 microM) had no effect; Hg2+ at approximately 3 microM stimulated binding to membranes, with a relatively smaller effect for [3H]mazindol than [3H]WIN 35,428 at 0 degrees C, and at 30-100 microM inhibited both intact cell and membrane binding; Li+ and K+ substitution (30-100 mM) inhibited binding to membranes more severely than to intact cells; and Na+ substitution was strongly stimulatory. With only a few exceptions, the patterns of ion effects were remarkably similar for both radioligands at both 0 and 21 degrees C, suggesting the involvement of common binding domains on the hDAT impacted similarly by cations. Therefore, if there are different binding domains for WIN 35,428 and mazindol, these are not affected differentially by the cations studied in the present experiments, except for the stimulatory effect of Zn2+ at 0 and 21 degrees C and Hg2+ at 0 degrees C.     

Pharmacological characterization of [3H]idazoxan, [3H]RX821002 and p-[125I]iodoclonidine binding to alpha 2-adrenoceptors in rat cerebral cortical membranes

Binding characteristics of alpha 2-adrenoceptors in rat cerebral cortical membranes were compared using the antagonist radioligands [3H]idazoxan, [3H]2-(2-methoxy-1,4-benzodioxan-2-yl)-2-imidazoline ([3H]RX821002), and the partial agonist radioligand [125I]2-[2,6-(dichloro-4-iodophenyl)imino]imidazoline ([125I]iodoclonidine). With [3H]RX821002 and alpha 2-adrenoceptor subtype-selective competitors, both alpha 2A/D- and alpha 2C-adrenoceptor subtypes were detected, suggesting rat cortical membranes contain approximately 90% alpha 2A/D-adrenoceptor subtype and 10% alpha 2C-adrenoceptor subtype. Only alpha 2A/D-adrenoceptors were detected with [3H]idazoxan and [125I]iodoclonidine. All three radioligands bound to a single high affinity site (Kd = 0.3-1.6 nM). However, the densities of sites labeled by [3H]idazoxan and [125I]iodoclonidine were 50% greater than the density labeled by [3H]RX821002, likely representing non-adrenoceptor binding sites. The density of [125I]iodoclonidine binding sites in glycylglycine buffer was similar to that labeled by [3H]RX821002. These results suggest that: (1) alpha 2A/D-adrenoceptors are the predominant subtype in rat cerebral cortex, (2) demonstrate that the small number of alpha 2C-adrenoceptors in this tissue can be detected using prazosin to displace [3H]RX821002 binding, and (3) non-adrenoceptor binding with [125I]iodoclonidine can be minimized with the use of glycylglycine buffer.     

Influence of aging on rolipram-sensitive phosphodiesterase activity and [3H]rolipram binding in the rat brain

Cytolytic T cells were generated in vitro by culturing purified Balb/c CD4+ T cells with irradiated C57Bl/6 (B6) splenocytes plus anti-IL-4 mAb. Matched, noncytotoxic T cells were similarly generated by culturing purified Balb/c CD4+ T cells with irradiated B6 splenocytes plus recombinant murine IL-4. The latter T cells displayed to cytolytic activity, even in lectin-mediated lysis assays, but produced characteristic cytokines upon contact with specific alloantigens. Transfusion of cytolytic T cell populations into Balb/c SCID mice bearing B6 cardiac allografts resulted in acute allograft rejection within 5 to 10 days. Transfusion of noncytolytic T cell populations into Balb/c SCID mice bearing B6 cardiac allografts also resulted in acute allograft rejection within 7 to 10 days. Limiting dilution analysis (LDA) of infiltrating cells recovered from rejected allografts after collagenase digestion demonstrated that the CD4+ T cells retained their cytolytic or noncytolytic functional phenotypes in vivo throughout the rejection process. These data demonstrate that isolated CD4+ T cell populations can promote rapid acute cardiac allograft rejection, and that cytolytic activity is not necessary for this acute rejection response.     

The distribution of [3H]synthanecine A bis-N-ethylcarbamate and its metabolites in the rat

Using long exposures of stripping film autoradiographs before processing, mixtures of weakly and strongly labelled nuclei were seen in different areas of the mouse spleen. Previous results (Harris et al., 1973) led to the conclusion that many cells, not in division cycle, were labelling with (3H) thymidine and that this process was important for the development of specific antibody-producing cells following stimulation with an antigen such as sheep red cells (SRC). The present data are an analysis of the (3H) thymidine labelling kinetics in the spleens of mice reared in conventional or germ-free conditions. The labelling seen in the 24 h following an injection of (3H) thymidine could best be interpreted on the basis of synthesis of unstable DNA. The changes in the pattern, and distribution of labelled nuclei as well as the intensity of their labelling was not compatible with cell division only, but was also the result of movement of labelled material between the lymphoid cells of the organ. Germ-free mice were followed for 24 days following a single injection of (3H) thymidine. The rate of uptake of label into the spleen was much slower than has been found previously in mice reared in conventional conditions. When SRC were injected 2 h after giving (3H) thymidine the labelling of lymphoid cells in the spleen and blood was quite different to controls given (3H) thymidine alone. Detailed analysis indicated that turnover of labelled material, presumably DNA, as well as cells was involved. This turnover of DNA could be considered to be metabolic in the sense that renewal, increase in amount, loss, and transfer to other cells were involved. These, and other studies, in vivo (Harris & Olsen, 1973) and in vitro (Harris et al. 1975) indicate that such processes, involving DNA, are highly relevant to the development of antibody-producing capacity by cells responding to antigenic challenge.     

Changes in apparent in vivo binding of [3H]raclopride and [3H]N-methylspiperone induced by oxotremorine

The effects of muscarinic agonist, oxotremorine (0.3 mg/kg), and antagonist, scopolamine (0.5 mg/kg), on in vivo [3H]raclopride (RAC) and [3H]N-methylspiperone (NMSP) binding were investigated. Following tracer administration to control or pretreated mice, binding potentials, and the rate constants k3 and k4 were determined by kinetic analysis. Oxotremorine resulted in a 70% increase in striatal RAC binding potential compared with controls. RAC and NMSP showed almost identical decreases in k3 (40%), whereas k4 for RAC was unexpectedly decreased by 64%. Scopolamine resulted in no significant changes in RAC or NMSP binding. These results, in combination with previous data obtained in reserpinized mice, show that 1) competition by endogenous ligand may not be the only factor influencing the magnitude of apparent in vivo receptor binding, and 2) interneuronal communication may be partly mediated by changes in the rates of ligand-receptor binding.