Recombination and clonal propagation in different populations of the lichen Lobaria pulmonaria.

Propagation, dispersal, and establishment are fundamental population processes, and are critical stages in the life cycle of an organism. In symbiotic organisms such as lichens, consisting of a fungus and a population of photobionts, reproduction is a complex process. Although many lichens are able to reproduce both sexually and asexually, the extent of vegetative propagation within local populations is unknown. We used six polymorphic microsatellite loci to investigate whether recombination is common in natural populations, and to assess if and how clonal reproduction influences the spatial genetic structure within populations of the epiphytic lichen species Lobaria pulmonaria. High genetic diversity within all 12 investigated populations and evidence of recombination, from various tests, indicated that L. pulmonaria is a predominantly outcrossing species. Nevertheless, clonality occurred in all populations, but the presence of recurring multilocus genotypes influenced the spatial genetic structure only within low-density populations. This could be interpreted as indicative of genetic bottlenecks owing to increased habitat loss and disturbance. Consequently, for a predominantly outcrossing lichen species, exogenous factors might be substantially altering population processes and hence genetic structure.

T-Cell immune activation in children with vertically transmitted hepatitis C virus infection.

Little is known concerning the clinical features, the histological outcome, and the effects on the maturation of immune system of children with vertically-transmitted hepatitis C virus (HCV) infection. Specifically, no data are available on the peripheral distribution of T-cell subsets. The frequency of naive and memory cells, activated T cells, and cytokine-producing T cells was analyzed in nine HCV-infected children born to HCV-positive mothers. In HCV-infected children, the distribution of naive and memory cells was not significantly altered in the CD4 subset whereas within the CD8 subset, an increase of memory and a decrease of naive cells was observed. The frequency of HLA-DR-positive and Fas-positive T cells was increased in HCV-infected children in both CD4 and CD8 subsets. The distribution of Fas-expressing T cells was directly related to that of HLA-DR cells and inversely related to the frequency of naive T cells. In regard with cytokine production we found increased levels of both CD4 and CD8 interferon-gamma (IFN-gamma)-producing cells whereas no difference in the percentage of interleukin-2 (IL-2)-producing T cells was observed. No meaningful correlation was observed between individual T cell subsets and ALT levels or HCV viral load. In conclusion, our results indicate an increased T-cell activation and a shift to a T(H)1 pattern of cytokine production in children with vertically transmitted HCV infection. The cause of this kind of immune response could reside in the persistent antigenic stimulation by chronic HCV infection.

T cell responses to highly active antiretroviral therapy defined by chemokine receptors expression, cytokine production, T cell receptor repertoire and anti-HIV T-lymphocyte activity.

The immunological correlates of highly active antiretroviral therapy (HAART)-induced suppression of human immunodeficiency virus type 1 (HIV-1) replication have been investigated. 20 HIV-1-infected patients with mean CD4+ T cell count of 298/microl, plasma viral load of 4.7 log10 copies/ml and naive for protease inhibitors (PI) were studied during12 months of HAART. An increased number of both CD4+ and CD8+ naive T cells and a normalization of the frequency of CCR5- and CXCR4-expressing CD4+ T cells were readily observed after starting therapy. Single cell analysis of cytokine production after 12 months of HAART showed an increased number of interleukin (IL)-2-, but not IL-4- and (IFN)-gamma-, producing T cells and a decreased percentage of CD8+ IFN-gamma + cells. A correlation between the frequency of IFN-gamma-producing T cells and that of memory, CCR5+ and CD95+ T cells was demonstrated in both CD4+ and CD8+ subsets. The diversity of T cell receptor (TCR) variable beta (BV) chain repertoire significantly increased after 12 months of HAART within the CD4+ but not the CD8+ T cell subset. However, the level of perturbation of the third complementarity-determining region (CDR3), was not significantly modified by effective therapy. The number of anti-HIV Gag and Pol cytotoxic T lymphocytes precursors (CTLp) decreased during HAART and highly correlated with the CD8 IFN-gamma response. Ameliorated clinical conditions were observed in all patients in absence of any opportunistic infections during all the study period. These observations indicate that a better restoration of immunity may be obtained in patients starting HAART at less advanced stages of the disease.

Subtype-selective positive cooperative interactions between brucine analogues and acetylcholine at muscarinic receptors: radioligand binding studies.

We studied the interactions of strychnine, brucine, and three of the N-substituted analogues of brucine with [3H]N-methylscopolamine (NMS) and unlabeled acetylcholine at m1-m5 muscarinic receptors using equilibrium and nonequilibrium radioligand binding studies. The results were consistent with a ternary allosteric model in which both the primary and allosteric ligands bind simultaneously to the receptor and modify the affinities of each other. The compounds had Kd values in the submillimolar range, inhibited [3H]NMS dissociation, and showed various patterns of positive, neutral, and negative cooperativity with [3H]NMS and acetylcholine, but there was no predictive relationship between the effects. Acetylcholine affinity was increased approximately 2-fold by brucine at m1 receptors, approximately 3-fold by N-chloromethyl brucine at m3 receptors, and approximately 1.5-fold by brucine-N-oxide at m4 receptors. The existence of neutral cooperativity, in which the compound bound to the receptor but did not modify the affinity of acetylcholine, provides the opportunity for a novel form of drug selectivity that we refer to as absolute subtype selectivity: an agent showing positive or negative cooperativity with the endogenous ligand at one receptor subtype and neutral cooperativity at the other subtypes would exert functional effects at only the one subtype, regardless of the concentration of agent or its affinities for the subtypes. Our results demonstrate the potential for developing allosteric enhancers of acetylcholine affinity at individual subtypes of muscarinic receptor and suggest that minor modification of a compound showing positive, neutral, or low negative cooperativity with acetylcholine may yield compounds with various patterns of cooperativity across the receptor subtypes.

Selective allosteric enhancement of the binding and actions of acetylcholine at muscarinic receptor subtypes.

The ternary allosteric model predicts the possibility of discovering molecules with novel and highly subtype-selective modes of action. This approach has been applied to muscarinic receptors. The alkaloid brucine is capable of selectively enhancing by an allosteric mechanism the effects of low but not high concentrations of acetylcholine at only the m1 subtype of muscarinic receptors. A simple derivative of brucine, N-chloromethylbrucine, enhances acetylcholine actions selectively at only m3 receptors. In addition it binds to, but does not affect, the properties of m4 receptors, thereby demonstrating neutral cooperativity and an 'absolute' selectivity of action at m3 receptors over m4 receptors. Brucine N-oxide enhances acetylcholine binding at m3 and m4 receptors and is neutral at m1 and m5 receptors. These findings allow the possibility of developing muscarinic agents that have a novel and highly targeted mode of action; they may act only on a single muscarinic receptor subtype which is functioning sub-optimally and therefore be of use therapeutically in the early stages of Alzheimer's Disease.

Rat brain NADPH-dependent diaphorase. A possible relationship to cytochrome P450 reductase.

An enzyme (NADPH-dependent diaphorase) present in rat brain microsomes has been solubilised and shown to utilise both nitrobluetetrazolium and cytochrome c as electron acceptors, when reduced by NADPH. The kinetics of the enzyme have been determined using cytochrome c (Km = 1.3 microM), NADPH (Km = 1.4 microM) and the Vmax (4.7 nmol/min/mg solubilised microsome protein). The subunit Mr is approximately 73,000 D and that of the native enzyme is 170,000-180,000 D, indicating that the enzyme is probably a dimer. Evidence is also provided to show that the enzyme is a flavoprotein, and that it has equimolar amounts of FAD and FMN with respect to the subunit concentration. It seems a possibility that the rat brain diaphorase enzyme may be cytochrome P450 reductase, EC 1.6.2.4.

Demonstration and biochemical characterisation of rat brain NADPH-dependent diaphorase.

An enzyme responsible for the NADPH-dependent reduction of nitroblue tetrazolium HCl (NBT) has been isolated from rat brain. Although other tetrazolium salts could be utilised, NBT was the preferred substrate, and the enzyme had an absolute requirement for NADPH. An in vitro assay was developed and used to determine the kinetic constants: Km NBT = 17.3 microM; Km NADPH = 1.9 microM, Vmax = 30.8 mumol product produced/min/mg protein. Substrate inhibition by NADPH was observed in some instances. Brain subcellular fractionation indicated highest enzyme activities in the microsomal fraction. Activity was present in all brain regions and in a variety of peripheral tissues. Relative molecular mass determinations of the native enzyme yielded an Mr = 170-180,000. It seems likely that the enzyme activity described in this study relates directly to the histochemical demonstration of brain NADPH-diaphorase-positive neurons. As yet, the natural substrate for the enzyme is unknown. However, the isolation and purification of NADPH-dependent diaphorase may be anticipated to assist in the elucidation of its function in the brain, and in the special characteristics of those neurons that contain the enzyme in abundance.

Solubilisation of a glutamate binding protein from rat brain.

Rat brain synaptic plasma membranes were solubilised in either 1% Triton X-100 or potassium cholate and subjected to batch affinity adsorption on L-glutamate/bovine serum albumin reticulated glass fibre. The fibre was extensively washed, and bound proteins eluted with 0.1 mM L-glutamate in 0.1% detergent, followed by repeated dialysis to remove the glutamate from the eluted proteins. Aliquots of the dialysed extracts were assayed for L-[3H]glutamate binding activity in the presence or absence of 0.1 mM unlabelled L-glutamate (to define displaceable binding). Incubations were conducted at room temperature and terminated by rapid filtration through nitrocellulose membranes. Binding to solubilised fractions could be detected only following affinity chromatography. Binding was saturable and of relatively low affinity: KD = 1.0 and 1.8 microM for Triton X-100 and cholate extracts, respectively. The density of binding sites was remarkably high: approximately 18 nmol/mg protein for Triton X-100-solubilised preparations, and usually double this when cholate was employed. Analysis of structural requirements for inhibition of binding revealed that only a very restricted number of compounds were effective, i.e., L-glutamate, L-aspartate, and sulphur-containing amino acids. Binding was not inhibited significantly by any of the selective excitatory amino acid receptor agonists--quisqualate, N-methyl-D-aspartate, or kainate. The implication from this study is that the glutamate binding protein is similar if not identical to one previously isolated and probably is not related to the pharmacologically defined postsynaptic receptor subtypes, unless solubilisation of synaptic membranes resulted in major alterations to binding site characteristics. Since solubilisation with Triton X-100 is known to preserve synaptic junctional complexes, it seems likely that the origin of the glutamate binding protein may be extrajunctional, although its functional role is unknown.

Purification and analysis of mitochondrial membrane proteins on nondenaturing gradient polyacrylamide gels.

A nondenaturing gradient polyacrylamide gel electrophoresis method is described for the resolution of membrane proteins. Bovine heart inner mitochondrial membranes were solubilized in Triton X-100 and individual complexes were identified by staining for activity and protein. Succinate dehydrogenase was isolated by band excision and shown by electrophoresis under denaturing conditions to be highly purified. In addition, the electrophoretic transfer of NADH dehydrogenase to nitrocellulose was demonstrated. The enzyme was identified on the resulting blot by activity staining and the binding of monospecific antibodies.

Characterization of normal and supersensitive dopamine receptors: effects of ergot drugs and neuropeptides.

Dopamine receptors have been characterized by the use of radiolabelled dopamine agonists and antagonists. Using ibotenic acid induced lesions of the striatum, evidence was obtained that 3H-N-propylnorapomorphine (3H-NPA) binding sites and 3H-bromocriptine binding sites are located both on intrastriatal nerve cells and on extrinsic nerve terminals probably mainly originating in the cerebral cortex. Development of dopamine receptor supersensitivity as evaluated in 6-hydroxydopamine lesioned rats was associated with an 50% increase in the number of 3H-NPA binding sites in the striatum. Furthermore, one year following the 6-hydroxydopamine induced lesion of the dopamine pathways two binding sites for 3H-NPA could be demonstrated in the striatum. However, at this time interval the total number of 3H-NPA binding sites was not increased. The functional significance of these two binding sites for 3H-NPA in the striatum is unknown, but they are probably coupled to the biological effector in view of the marked behavioural supersensitivity demonstrated in these old animals. The dopamine receptor agonists and especially the dopaminergic ergot derivatives have been characterized by studying their affinities for 3H-bromocriptine, 3H-spiperone, 3H-ADTN and 3H-NPA binding sites in vitro. It is suggested that the Ki ratios for agonist and antagonist radioligands may be one useful way to characterize the agonist-antagonist character of the drug. Another important method is to study the effects of dopamine receptor agonists on the specific in vivo binding of 3H-spiperone and 3H-NPA. The correlation analysis of DA agonist affinities for the four radioligands of DA receptors used in the present study give evidence for the existence of at least 3 types of DA receptors. Actions of dopaminergic ergot drugs have been evaluated at supersensitive dopamine receptors. The findings suggest that the shift to the left of the threshold dose to activate supersensitive dopamine receptors could be due to a lowering of the stereoselectivity of agonist interaction at the dopamine agonist sites of supersensitive dopamine receptors. Such a change may explain the highly preferential action of CF 25-397 at supersensitive dopamine receptors, since its affinity for 3H-NPA binding sites was not increased in the present experiments. In agreement with previous work, evidence have also been presented that prolonged treatment with a potent dopaminergic drug, pergolide, can produce a down regulation of normal dopamine receptors by reducing the density of such receptors. Evidence has also been presented that CCK-8 and the desulphated CCK-8 (10(-6) M) can in vitro reduce the number of 3H-NPA binding sites in the striatum. These results indicate that cholecystokinin peptides via activation of cholecystokinin receptors can regulate the movements of the 3H-NPA binding sites across the plane of the membrane in such a way as to make them less available to the external surface of the membrane...