Modulation of specific [3H]phenytoin binding by benzodiazepines

We have shown that diazepam (ED₅₀ 2.4 M), flunitrazepam (ED₅₀ 10.2 M) and Ro5-4864 (ED₅₀ 5 M) are able to enhance both total and specific [³H]phenytoin binding. Picrotoxin (IC₅₀ 1.43 M) and chloride, either NaCl or KCl (IC₅₀ 42.4 M) inhibit both the increase in total and specific binding of [³H]phenytoin, Ro 15-1788 does not. The optimum time for this enhancement was 3–4 hours. While the ED₅₀'s for the benzodiazepines are high their order of potency suggests that an involvement of both the peripheral type benzodiazepine receptor and the GABA-chloride ionophore complex is likely. Clonazepam (IC₅₀ 23 M), oxazepam (IC₅₀ 12 M) chlordiazepoxide (IC₅₀ 35 M) and Ro8682-10, a convulsant benzodiazepine (IC₅₀ 16 M) all inhibit both total and specific [³H]phenytoin binding. These effects were not blocked by chloride ions, picrotoxin or Ro 15-1788, and reached equilibrium within 45 minutes. This order of potency also parallels that for the peripheral benzodiazepine receptor in rat brain. These data suggest the presence of a micromolar benzodiazepine receptor site which may play a role in the control of CNS excitability. Nitrazepam, medazepam, bromazepam and the tetralobenzodiazepines U38335, U42794, U43434, and U37834 had no effect on total or specific [³H]phenytoin binding nor on the actions of the other benzodiazepines described in concentrations up to 50 M.     

Histrionicotoxins: Effects on binding of radioligands for sodium,potassium, and calcium channels in brain membranes

A series of eight histrionicotoxins and two synthetic analogs inhibit binding of [³H]batrachotoxinin B to sites on voltage dependent sodium channels in brain membranes. Perhydrohistrionicotoxin (IC₅₀ 0.33 M) and octahydrohistrionicotoxin (IC₅₀ 1.2 M) are comparable in activities to potent local anesthetics. Histrionicotoxin (IC₅₀ 17 M) and the other histrionicotoxins are much less potent. The histrionicotoxins also inhibit binding of [³H]phencyclidine to putative potassium channels in brain membranes. Histrionicotoxin (IC₅₀ 15 M) and the other histrionicotoxins are much more potent than perhydrohistrionicotoxin (IC₅₀ 200 M), but are at least 200-fold less potent than phencyclidine. The histrionicotoxins enhance binding of [³H]nitrendipine to sites on calcium channels in brain membranes, with the exception of perhydrohistrionicotoxin, which inhibits binding. Structure activity relationships at these channel sites and at the sites for noncompetitive blockers on the nicotinic acetylcholine receptor channel (AChR) complex differ. The histrionicotoxins are more potent at the sites on the AChR complex than at sites on other channels with the exception of perhydrohistrionicotoxin, which has comparable potency at the AChR complex and sodium channels.     

Reserpine: interactions with batrachotoxin and brevetoxin sites on voltage-dependent sodium channels

Reserpine inhibited batrachotoxin-elicited sodium influx in guinea pig brain synaptoneurosomes with an IC₅₀ of about 1 M. In the presence of brevetoxin the IC₅₀ increased to about 80 M. Reserpine inhibited binding of batrachotoxinin-A [³H]benzoate ([³H]BTX-B) binding in a complex manner causing a partial inhibition from 0.001 to 0.08 M, then a rebound stimulation from 0.1 to 0.8 M, followed by complete inhibition by 80 M. The stimulation was prevented by the presence of brevetoxin; reserpine then smoothly inhibited binding with an IC₅₀ of about 1 M. Reserpine at 1 M slightly reduced the off-rate of [³H]BTX-B binding measured in the presence of veratridine, while at a concentration of 50 M it enhanced the off-rate, presumably by an allosteric mechanism. Reserpine at 0.3–10 M elicited a partial inhibition of the binding of [³H]brevetoxin-3. The local anesthetic dibucaine had effects similar to reserpine: It partially inhibited binding of [³H]brevetoxin. The presence of brevetoxin reduced the potency of dibucaine as an inhibitor of batrachotoxin-elicited sodium influx from an IC₅₀ of about 2 M to an IC₅₀ of about 50 M. The results suggest that reserpine binds at both a local anesthetic site to cause allosteric inhibition of batrachotoxin-binding and action, but that it also binds to another site causing, like brevetoxin, an enhancement of batrachotoxin-binding and action. Local anesthetics also may bind to the brevetoxin site.     

Effects of GNA and other mannose binding lectins on development and fecundity of the peach-potato aphid Myzus persicae

Three mannose-binding lectins were assayed in artificial diets for their toxic and growth-inhibitory effects on nymphal development of the peach-potato aphid Myzus persicae. The snowdrop (Galanthus nivalis) lectin GNA was the most toxic, with an induced nymphal mortality of 42% at 1500 g ml^–1 (30 M) and an IC₅₀ (50% growth inhibition) of 630 g ml^–1 (13 M). The daffodil (Narcissus pseudonarcissus) lectin NPA and a garlic (Allium sativum) lectin ASA induced no significant mortality in the range 10–1500 g ml^–1, but did result in growth inhibition of 59% (NPA) and 26% (ASA) at 1500 g ml^–1 (40 M for NPA, 63 M for ASA). All three lectins were responsible for a slight but significant growth stimulation when ingested at 10 g ml^–1, reaching +26%, +18% and +11% over the control values for the garlic lectin, the daffodil lectin and the snowdrop lectin, respectively. GNA, as well as the glucose/mannose binding lectin Concanavalin A, were also provided at sublethal doses throughout the life cycle of the aphids, and effects on adult performance were monitored. Adult survival was not significantly altered, but both lectins adversely affected total fecundity and the dynamics of reproduction, resulting in significant reduction in calculated r _ms (population intrinsic rate of natural increase) on lectin-containing diets. These effects are discussed in relation to the use of transgenic plants expressing these toxic lectins for potential control of aphid populations.     

Differential maturation of μ and δ opioid receptors in the chick embryonic brain

The developmental profiles of the binding of and opiate receptors agonists was investigated using the chick embryo brain. Binding of opioids was performed at embryonic days 5, 6, 15, 18, and 20 in the developing chick embryo brain. [³H]dihyromorphine was used as a ligand and with 5×10^–7 M levorphanol for non-specific binding, and [³H](d-Ala²-d-Leu⁵)-enkephalin was used as a with 5×10^–7 M (d-Ser-Gly-Phe-Leu-Thr)-enkephalin for non-specific binding. Crude membranes were prepared from whole brain at days, 5, 6 and cerebral hemispheres at days 15, 18, and 20 of embryonic age. Both and opiate receptors were present during early embryogenesis and as early as day 5. Analysis of binding sites revealed high and low affinity sites during early embryogenesis but only one site. By 18 days of embryonic age, only one site remained. This developmental change is interpreted as a transitory state of the receptor to the adult pattern. The presence of only one site is constant throughout embryonic age; it is high during early embryogenesis reaching a lower level by 18 days. The presence of a dual binding site pattern for the receptor in early embryogenesis is implicated to have a functional significance in the pluripotential role of the endogenous opioids in early development.     

The contribution of size-fractionated plankton to biomass and primary production of phytoplankton in saline–alkaline ponds

Primary productivity, biomass and chlorophyll-a of size fractionated phytoplankton (<0.22 m, <3 m, <8 m, <10 m, <40 m, <64 m, <112 m and <200 m) were estimated in 6 ponds and 5 experimental enclosures. The results showed that the planktonic algae less than 10 m are important in the biomass and production of phytoplankton in saline–alkaline ponds. The production of size fractionated phytoplankton corresponding to <112 m, <10 m and <3 m in saline–alkaline ponds were 10.5 ± 6.6 , 8.6 ± 5.4 and 0.33 ± 0.1 mgC l^–1 d^–1, respectively. Mean community respiration rate was 1.80 ± 0.73, 1.69 ± 0.90 and 1.38 ± 1.12 mgC l^–1 d^–1, respectively. The average production of phytoplankton corresponding to micro- (10–112 m), nano- (3–10 m) and pico- (<3 m) were 1.61, 8.30 and 0.33 mgC l^–1 d^–1, respectively. The ratio of those to the total phytoplankton production was 15%, 79% and 3%, respectively. The mean respiration rate of the different size groups was 0.11, 0.31 and 1.38 mgC l^–1 d^–1; the ratio of those to total respiration of phytoplankton was 6%, 17% and 77%, respectively. The production of size-fractionated phytoplankton corresponding to <200 m, <10 m and <3 m in enclosures was 2.19 ± 1.63, 2.08 ± 1.75 and 0.22 ± 0.08 mgC l^–1 d^-1, respectively. Mean community respiration rates were 1.25 ± 1.55, 1.17 ± 1.42 and 0.47 ± 0.32 mgC l^–1 d^–1, respectively. The average production of phytoplankton corresponding to micro- (10–200 m), nano- (3–10 m) and pico- (<3 m) plankton was 0.11, 1.86 and 0.22 mgC l^–1 d^–1, respectively. The ratio of those to the total production of phytoplankton was 5%, 85% and 10%, respectively. The mean respiration rate of different size groups were 0.08, 0.72 and 0.46 mgC l^–1 d^–1, the ratio of those to total respiration of phytoplankton was 6%, 57% and 37%, respectively. The concentrations of chlorophyll-a of the phytoplankton in the corresponding size of micro- (10–112 m), nano- (3–10 m) and pico- (<3 m) plankton in the experimental ponds were 19.3, 98.2 and 11. 9 g l^–1, respectively. The ratio of those to the total chlorophyll-a was 15%, 76% and 9%, respectively. The concentrations of chlorophyll-a of phytoplankton micro- (10–200 m), nano- (3–10 m) and pico- (<3 m) plankton in enclosures were 1.7, 34.3 and 3.0 g l^–1, respectively. The ratio of those to the total chlorophyll-a was 4%, 88% and 8%, respectively.     

Reciprocal Innervation between Serotonergic and GABAergic Neurons in Raphe Nuclei of the Rat

Midbrain slices containing the dorsal and medial raphe nuclei were prepared from rat brain in order to study serotonergic-GABAergic interaction. The slices were loaded with either [³H] serotonin or [³H]GABA, superfused and the electrically induced efflux of radioactivity was determined. The GABA_A receptor agonist muscimol (3 to 30 M) and the GABA_B receptor agonist baclofen (30 and 100 M) inhibited [³H]serotonin and [³H]GABA release. These effects of muscimol were reversed by the GABA_A antagonists bicuculline (100 M). The GABA_B antagonist phaclofen (100 M) also antagonized the baclofen-induced inhibition of [³H]serotonin and [³H]GABA release. Phaclofen by itself increased [³H]serotonin release but it did not alter [³H]GABA overflow. Muscimol (10 M) and baclofen (100 M) also inhibited [³H]serotonin release after depletion of GABAergic neurons by isoniazid pretreatment. These findings indicate the presence of postsynaptic GABA_A and GABA_B receptors located on serotonergic neurons. The 5-HT_1A receptor agonist 8-OH-DPAT (0.01 to 1 M) and the 5-HT_1B receptor agonist CGS-12066A (0.01 to 1 M) inhibited the electrically stimulated [³H]serotonin and [³H]GABA release. The 5-HT_1A antagonist WAY-100135 (1 M) was without effect on [³H]serotonin and [³H]GABA efflux by itself but it reversed the 8-OH-DPAT-induced transmitter release inhibition. During KCl (22 mM)-induced depolarization, tetrodotoxin (1 M) did not alter the inhibitory effect of CGS-12066A (1 M) on [³H]GABA release, it did blocked, however, the ability of 8-OH-DPAT (1 M) to reduce [³H]GABA efflux. After depletion of raphe serotonin neurons by p-chlorophenylalanine pretreatment, CGS-12066A (1 M) still inhibited [³H]GABA release whereas in serotonin-depleted slices, 8-OH-DPAT (1 M) was without effect on the release. We conclude that reciprocal influence exists between serotonergic projection neurons and the GABAergic interneurons or afferents in the raphe nuclei and these interactions may be mediated by 5-HT_1A/B and GABA_A/B receptors. Both synaptic and non-synaptic neurotransmission may be operative in the 5-HTergic-GABAergic reciprocal interaction which may serve as a local tuning in the neural connection between cerebral cortex and midbrain raphe nuclei.     

Binding of [3H]muscimol to calf cerebrocortical synaptic membranes and the effects of sulphur-containing convulsant and non-convulsant compounds

Endogenous and xenobiotic sulphur-containing convulsant and non-convulsant compounds containing structural moieties of, or bearing a structural resemblance to, GABA and homocysteine were tested in binding studies for their potency in displacing the GABA-mimetic [³H]muscimol from specific, high-affinity sites (K _d=3.6 nM;B _max=3.94 pmol/mg protein) on freeze-thawed, Triton-treated calf-brain synaptic membranes. The xenobiotic convulsants, 4-mercaptobutyric acid (MBA), 3-mercaptopropionic acid (3-MPA) and 2-mercaptopropionic acid (2-MPA) were found to be two-site competitive inhibitors exhibiting apparent inhibition affinity constants (K _i ^app ) of 5000 M, 3750 M, and 4800 M, respectively; while homocysteic acid (K _i ^app =4800 M) was shown to be a one-site partial competitive inhibitor. Intermediary metabolites of methionine: S-adenosyl-l-homocysteine,l-cysteine, the convulsantl-homocysteine, and its non-convulsant disulphide oxidation product, homocystine, were found to be one-site partial competitive inhibitors exhibitingK _i ^app values of 5750 M, 8350 M, 5000 M, and 510 M, respectively. The endogenous anticonvulsant neuroeffector, taurine, and the tripeptide, reduced glutathione (GSH) were shown to be, respectively, one-site (K _i=20 M) and two-site (K _i ^app =4300 M) competitive inhibitors of [³H]muscimol binding. These findings are discussed with regard to a previously proposed mechanism for the convulsant action of homocysteine.     

Artemisia annua L.: dedifferentiated and differentiated cultures

Dedifferentiated and differentiated tissue cultures ofArtemisia annua L. for artemisinin production were carried out. The calluses were initiated on MS medium supplemented with sucrose (30 g l^-1), myoinositol (100 mg l^-1) and RT vitamins. The auxins used were naphtaleneacetic acid (NAA), indoleacetic acid (IAA), indolebutyric acid (IBA) and 2,4-dichlorophenoxyacetic acid (2,4-d). These were added to the basal medium either singly or in combination. The best results were obtained with 2.4-d (4.5 M : 0.02 d^-1) and NAA (5.4 M : 0.06 d^-1). Cell suspensions were established on the same media without agar. Suspension cultures showed different morphological characteristics according to the plant growth regulator supplied. Organized cultures were initiated from callus obtained on 2,4-d (4.5 M) and from bud cultures. Medium containing 6-benzylaminepurine (BA) (8.9 M)+NAA (0.54 M); Zeatin (45.62 M)+NAA (5.37 M) or BA (8.9 M) stimulated both organogenesis in callus (frequency of induction =50%) and semi-organized tissue in shoot buds. BA (13.32 M)+NAA (1.08 M) or BA (13.32 M) only stimulated multiple shoot cultures (frequency of induction =80%). Regarding artemisinin content, while the values obtained were 1.13 and 0.78 mg gDW^-1 in primary callus, artemisinin was not detected in cell suspension and only traces of it were found in multiple shoot cultures.     

Problems in estimating growth rates of marine phytoplankton from short-term14C assays

Growth rate estimates () of phytoplankton populations that were sampled from nitrogen-limited continuous cultures and then incubated for short durations in batch culture with added¹⁴C-HCO₃ ^– were significantly different than steady-state growth rates () for 3 of 5 marine phytoplankton species. Two diatoms,Thalassiosira weissflogii andChaetoceros simplex, displayed virtually identical growth rates (=) over a wide range of, whereas for a third diatom,Phaeodactylum tricornutum, was overestimated by an average of 40% compared to. In contrast, was underestimated by the¹⁴C technique for the two remaining species: up to 40% at a steady-state of 1.0 day^–1 for the chlorophyteDunaliella tertiolecta and up to 100% at of 1.4 day^–1 for the haptophytePavlova lutheri. For the latter two species the divergence between and appeared to increase with increasing steady-state. A simple model of labeled and total carbon flow between the aqueous phase and cellular biomass was constructed to demonstrate that respiration was negligible when=, but was significant when>. In the cases in which<, a rapid physiological alteration presumably took place once the steady state was disturbed and cells were placed in the incubation chambers, which perhaps was related to the nutritional state of the cultures at the time of sampling. Questions thus are raised regarding our ability to measure accurately primary productivity from shipboard experiments with confined samples of phytoplankton from nutrient-impoverished waters that probably are less hardy than the laboratory cultures used in these studies.     

Inactivation of the Purified Bovine μ Opioid Receptor by Sulfhydryl Reagents

We have investigated the role of cysteine residues in a highly purified opioid receptor protein (ORP) by examining the effect of -SH reagents on the binding of opioid ligands. Treatment of ORP, which is devoid of additional proteins, eliminates complications that arise from reaction of -SH reagents with other components, such as G proteins. Reagents tested include N-ethylmaleimide, 5,5-dithiobis(2-nitrobenzoic) acid, and two derivatives of methanethiosulfonate. Specific opioid binding was inactivated by micromolar concentrations of all -SH reagents tested. Agonist binding ([³H]DAMGO) was much more sensitive to inactivation than antagonist binding ([³H]bremazocine). Prebinding ORP with 100 nM naloxone protected antagonist and agonist binding from inactivation by -SH reagents. The results of these experiments strongly suggest that at least one, and possibly more, reactive cysteine residue(s) is present on the opioid receptor protein molecule, positioned near the ligand binding site and accessible to -SH reagents.     

Transient state characteristics of adaptation to changes in light conditions for the cyanobacterium Oscillatoria agardhii

Transitions in growth irradiance level from 92 to 7 Em^-2 s^-1 and vice versa caused changes in the pigment contents and photosynthesis of Oscillatoria agardhii. The changes in chlorophyll a and C-phycocyanin contents during the transition from high to low irradiance (HL) were reflected in photosynthetic parameters. In the LH transition light utilization efficiencies of the cells changed faster than pigment contents. This appeared to be related to the lowering of light utilization efficiencies of photosynthesis. As a possible explanation it was hypothesized that excess photosynthate production led to feed back inhibition of photosynthesis. Time-scales of changes in the maximal rate of O₂ evolution were discussed as changes in the number of reaction centers of photosystem II in relation to photosynthetic electron transport. Parameters that were subject to change during irradiance transitions obeyed first order kinetics, but hysteresis occurred when comparing HL with LH transients. Interpretation of first order kinetic analysis was discussed in terms of adaptive response vs changes in growth rate.Non-standard abbreviations Chla chlorophyll a - CPC C-phycocyanin - PS II photosystem II - PS I photosystem I - RC II reaction center of photosystem II - P photosynthetic O₂-evolution - I irradiance, Em^-2 s^-1 - light utilization efficiency of cells, mmol O₂·mg dry wt^-1·h^-1/Em^-2 s^-1 - light utilization efficiency of photosynthetic apparatus, mol O₂·mol Chla ^-1·h^-1/Em^-2 s^-1 - P_max maximal rate of O₂ evolution by cells, mol O₂·mg dry wt^-1·h^-1 - P_max maximal rate of O₂ evolution by photosynthetic apparatus, mol O₂·mol·Chla ^-1·h^-1 - LL low light, E m^-2 s^-1 - HL high light, E m^-2 s^-1 - LH low to high light transition - HL high to low light transition - k specific rate of adaptation, h^-1 - specific growth rate, h^-1 - Q pool size of cell constituent, mol·mg dry wt^-1 - q net synthesis rate of cell constituent, mol·mg dry wt^-1·h^-1     

Three-dimensional organization of smooth muscle cells in blood vessels of laboratory rodents

Summary Three-dimensional aspects of smooth muscle cells of the microvas-culature were studied ultrastructurally in laboratory rodents by means of serial thin sections and reconstruction of muscle cell models. It was demonstrated that a muscle cell of an arteriole (luminal diameter (LD) 17 m) in hamster striated muscle was spindle-shaped, 70 m long, and wound twice round the vessel axis. The volume of the cell was calculated as 750 m³ and its surface area as 1330 m². A muscle cell in an arteriole (LD 6 m) in the rat retina was irregular in shape, about 22 m long, and had branched processes. The cell volume was calculated as 139 m³ and its surface area as 298 m².     

Effect of antagonists of ethylene action on binding of ethylene in cut carnations

Five hours after cut carnations had been treated with a pulse of 1 or 4 mM silver thiosulfate (STS), in vivo ethylene binding in petals was inhibited by 22 and 29%, respectively. When binding was measured 4 days after the 4-mM STS treatment, binding was inhibited by 81%. 2,5-Norbornadiene, which substantially delays carnation senescence, inhibited ethylene binding by 41% at a concentration of 1000 l/l. The Kd for ethylene binding in carnations was estimated to be 0.1 l/l in petals and 0.09 l/l in leaves. The concentration of binding sites was estimated to be 6.0×10^–9 mol/kg of petals and 2.0×10^–9 mol/kg of leaves     

Somatic embryogenesis in callus cultures of Rosa hybrida L. cv. Landora

Callus was initiated from immature leaf and stem segments of rose (Rosa hybrida cv. Landora) and subcultured every four weeks on a basal medium of half-strength Murashige & Skoog (1962) salts plus 30 g l^-1 sucrose (1/2 MS) and supplemented with 2.2 M BA, 5.4 M NAA and 2.2–9.0 M 2,4-D. Embryogenic callus and subsequently somatic embryos were obtained from 8-week-old callus culture on 1/2 MS+2.2 M BA+0.05 M NAA+0.3 M GA₃+200–800 mg l^-1 L-proline. Long-term cultures were established and maintained for up to 16 months by repeated subculture of embryogenic callus on L-proline deficient medium. About 12% of cotyledonary stage embryos taken from cultures cold-stored at 8±1°C for 4 days germinated on 1/2 MS+2.2 M BA+0.3 M GA₃+24.7 M adenine sulphate.Abbreviations BA benzyladenine - NAA -naphthaleneacetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid     

Influence of 2,3,5-triiodobenzoic acid on the transport and metabolism of IAA in lupin hypocotyls

The influence of 2,3,5-triiodobenzoic acid (TIBA) on the transport and metabolism of indolyl-3-acetic acid (IAA) was studied in etiolated lupin (Lupinus albus L) hypocotyls. Double isotope-labeled IAA [(5-³H)-IAA plus (1-¹⁴C)-IAA] was applied to the cut surface of decapitated seedlings. This confirmed that the species mobilized was unaltered IAA and permitted us to measure the in vivo decarboxylation of applied IAA. A pretreatment with TIBA applied to the cut surface produced a partial or drastic inhibition in the basipetal IAA movement at 0.5 or 100 M, respectively. Since TIBA inhibits auxin polar transport by interfering with the efflux carrier, the above results suggest that 100 M TIBA is sufficient to saturate the binding sites in the transporting cells. Compared to the control plants, in vivo decarboxylation of IAA was enhanced in 0.5 M TIBA-treated plants, while no decarboxylation was detected after treatment with 100 M TIBA. The in vitro decarboxylation of (1-¹⁴C)-IAA catalyzed by purified peroxidase was moderately activated by 100 M and unaffected by 0.5 M TIBA. The paradoxical effect of TIBA in vivo vs in vitro assays suggests that the in vivo effect of TIBA on IAA oxidation might be the consequence of the action of TIBA on the auxin transport system. Thus, transport reduction by 0.5 M TIBA caused a temporary accumulation of IAA in that apical region of the hypocotyl which has the highest capacity to decarboxylate IAA. In the presence of 100 M TIBA, a concentration which presumably saturates the efflux carriers, most of the added IAA can be expected to be located in the transporting cells where, according to the present data, IAA decarboxylation cannot take place.     

Procedures for the axenic isolation of conchocelis and monospores from the red seaweed Porphyra yezoensis

In order to maintain axenic seedstock cultures axenically of thecommercially important red seaweed, Porphyra yezoensis, aprocedure was developed for axenic isolation and culture of conchocelis andmonospores. For axenic isolation of the conchocelis, contaminated microalgaewere most effectively removed by filtering contaminated samples through a100-m mesh after sonication. Removal of bacteria and otheralgaewas accomplished using a mixture of 5 agents (0.02% chitosan, 100 gml^–1 GeO₂, 10 gml^–1 ampicillin, 40 gml^–1 kanamycin and 200 gml^–1 streptomycin). Axenic single colonies wereisolatedfrom a semi-solid medium prepared from 1% transfer gel. After collectingmonospores from the 40–50% density layer on a percoll-gradient, removalofbacteria and fungi from the monospores was accomplished using a mixture of 5antibiotics (3.5 g ml^–1 nystatin, 2 mgml^–1 ampicillin, 400 gml^–1 kanamycin, 50 gml^–1 neomycin and 800 gml^–1 streptomycin). Axenic single juvenile blades wereisolated from a semi-solid medium prepared from 0.5% transfer gel.     

Analogs of thyrotropin-releasing hormone (TRH): Receptor affinities in brains,spinal cords,and pituitaries of different species

[³H](3-Me-His²) thyrotropin-releasing hormone ([³H]MeTRH) bound to TRH receptors in rodent, rabbit and dog brain and spinal cord (SC), and in rat, sheep, bovine and dog anterior pituitary (PIT) glands, with high affinity (dissociation constants, K_ds=5–9 nM; n=3–4) but to different densities of these sites (B _max range 6–145 fmol/mg protein) (rabbit SC>sheep PITG.pig brain>dog brain>rat brain>bovine and dog PIT). Various TRH analogs competitively inhibited [³H]MeTRH binding in these tissues with a similar rank order of potency: MeTRH>TRH> CG3703RX77368MK-771>TRH Glycinamide>Glu¹-TRHCG3509NVal²-TRH>>>TRH free acid>>>and cyclo-His-Pro, indicating a pharmacological similarity of CNS and pituitary TRH receptors. While most TRH analogs displaced [³H]MeTRH binding with a similar potency in the different species, TRH exhibited a 2-fold lower affinity in the rat and G.pig brain than in other tissues of other species. Similarly, CG3703 was 2.4–4.5 times more active in the rabbit brain than in the rodent and dog brain, and also more potent in the rabbit brain as compared to the sheep PIT. However, MK-771 and RX77368 had a similar affinity for the brain TRH receptors in the different species but RX77368 was 2-fold more active in the SC preparations and 3–4-fold less active in the sheep PIT when compared to the brain homogenates. RX 77368 exhibited the highest affinity for the dog PIT TRH receptor. In contrast, MK-771 showed a similar affinity for the brain, SC and PIT TRH receptor apart from in the rat PIT where it had the highest affinity. Similarly, TRH glycinamide was more active in the dog brain than rodent and rabbit brain. These data suggest that while the rank order of potency of TRH analogs is similar in the species examined, certain analogs appear to be more potent in certain tissues of some species than in others. In addition, the current results have shown that CG3703 is almost equipotent with RX77368 and MK-771 in most species but is substantially more active than its related analog, CG3509 in the brain, SC and PIT. Taken together, these observations may have some relevance to the future clinical applications of these metabolically stabilized TRH analogs.     

A novel technique for the study of bacterial cell mechanical properties

A micromanipulation method is described for measuring the bursting forces of bacteria and relating them to cell size. At a compression speed of 6.2 m s^–1, bursting forces of three samples of rapidly growing Staphylococcus epidermis from a batch culture varied from 3 to 34 N with an average value of 13.8 N (standard error 0.8 N). Escherichia coli grown in continuous culture at a specific growth rate of 0.5 h^–1 had bursting forces varying from 1 to 9 N with an average value of 3.6 N (standard error 0.4 N). In squeeze-hold experiments, force relaxation was observed, which was attributed to water loss from the cells, or viscoelasticity, or both. At high compression speed, such as 6.2 m s^–1, this relaxation could be neglected. Micromanipulation strength measurements might be used in studies of cell mechanical disruption and of the dependence of cell strength on cell physiology.     

Clozapine and Several Other Antipsychotic/Antidepressant Drugs Preferentially Block the Same ‘Core’ Fraction of GABAA Receptors

Clozapine and several other antipsychotic/antidepressant drugs that fully or partially block GABA_A receptors were tested at concentrations that reversed the inhibitory effect of 1 M GABA on ³⁵S-t-butylbicyclophosphorothionate ([³⁵S]TBPS) binding to rat forebrain membranes only about 20–30%, here designated core fractions. Clozapine at 10 M reverses 1 M GABA 25 ± 4.0% (n = 23) (its core fraction). Fourty three compounds were tested alone, and pairwise together with 10 M Clozapine. The core fractions of some of the compounds yielded significant additive reversals together with 10 M Clozapine, while others did not. A group of 14 compounds of which 7 are clinically effective antipsychotic drugs, including Chlorprothixene, Clomacran, Clopipazan, Fluotracen, Sulforidazine, Thioproperazine, and cis-Thiothixene, were statistically non-additive with 10 M Clozapine, suggesting that all of these drugs selectively block the same core population of GABA_A receptors as Clozapine. These non-additivities also suggest that Clozapine at 10 M fully saturates a subset of GABA_A receptors blocked by 1 M GABA. Therefore, Clozapine probably blocks 2 or more types of GABA_A receptors, but only half of the receptors that are sensitive to 1 M GABA. A second group of 12 compounds of which 6 are clinically active antidepressant/antipsychotic drugs including Amoxapine, Clothiapine, Dibenzepine, Inkasan (Metralindole), Metiapine and Zimelidine were slightly, but significantly, additive with Clozapine suggesting that these compounds block most of Clozapine's core fraction, plus a small additional fraction. A third group consisted of ten compounds that yielded larger (R > 80) and statistically highly significant additivities with Clozapine. Complete additivity was obtained with Bathophenanthroline disulfonate, and Isocarboxazid, suggesting that they block GABA_A receptors other than those blocked by 10 M Clozapine. Seven classical GABA_A receptor blockers, also tested at concentrations yielding 21 to 33% reversal alone, were all significantly additive with 10 M Clozapine, but in no case was the additivity complete. The largest additivity was obtained with Pitrazepine (21%) and the smallest with Tubocurarine (9%). These results provide further support for the notion that selective blockade of the same subset of GABA_A receptors may contribute to the clinical antipsychotic/antidepressant effects of Clozapine. The B_opt values for Clozapine are 50 ± 1.7% and 26 ± 2.6% ( n = 3) in whole rat forebrain and cerebellum, respectively, confirming that clozapine-sensitive GABA_A receptors are unevenly distributed in the brain. The sedative and anxiolytic properties of Clozapine and other antipsychotic drugs may be due to selective blockade of GABergic disinhibition at certain interneurons.