Removal of the Schwann sheath from the giant nerve fiber of the squid: An electron-microscopic study of the axolemma and associated axoplasmic structures

Summary Surgical thyroidectomies were used as means of altering the thyroid state of adult recipients to study the possible influence of thyroid hormones on fibre formation in irides by immature noradrenaline neurons of the locus coeruleus grafted to the eye. Whole-mount preparations of irides were analysed using fluorescence histochemistry according to Falck-Hillarp, subjectively estimating on a blind basis the number of fibres, their pattern of distribution and individual morphology in the iris dilator plate. Neurones of the locus coeruleus formed nerve fibres in irides of thyroidectomized recipients to the same extent as in controls. Distribution and fine structure of these fibres, however, differed markedly. The numerous thick axon bundles from the attachment of the brain graft, normally seen to radiate out from locus coeruleus-neurones in oculo, were almost totally lacking in the thyroidectomized group. Also, the individual nerve fibres showed abundant peripheral accumulations of fluorescent material. This appearance of the outgrowth of fluorescent fibres in the experimental group, indicative of a disturbed formation of nerve fibres during development in oculo, was abolished by reversal of the thyroid hormone deficiency using daily injections of 1-thyroxin to the recipients throughout the experiment. This strongly indicates a role for thyroxin in the process of formation of nerve fibres originating from the neurones of the locus coeruleus during perinatal development. The present paper is supportive of recent reports claiming that during the development of the CNS thyroxin plays a crucial role in tubulin assembly, and thus presumably for the ability of neurones to form processes.     

Brain tissue transplanted to the anterior chamber of the eye

Summary Small pieces of fetal rat brain selected to contain a high number of noradrenaline (NA), dopamine (DA), or 5-hydroxytryptamine (5-HT) neuroblasts were transplanted to the anterior chamber of the eye of adult rats. The sympathetic ground plexus of the host iris was removed by superior cervical ganglionectomy so that transmitter mechanisms of the different central monoamine fibers innervating the iris could be selectively studied after intraocular maturation. Such irides, containing NA, DA, or 5-HT nerve terminals were incubated with radiolabelled transmitters and then stimulated by an electrical field while superfused, to investigate the spontaneous and stimulation-induced release of amine, both in drug-free buffer and buffer containing drugs acting on monoamine receptors.The central monoamine neurons of all three types were able to take up exogenous amines and release them upon stimulation by an electrical field, in much the same way as corresponding nerves in situ in slices of cerebral cortex (NA, 5-HT) or olfactory tubercle (DA).The -adrenergic receptor blocking agent phentolamine increased the stimulation-induced release of ³H-NA from central NA fibers on the iris significantly. The dopamine receptor stimulating agent apomorphine decreased the stimulation-induced release of ³H-DA from central DA fibers on the iris. Pimozide, a DA receptor blocking drug tended to increase the ³H-DA release. The 5-HT receptor stimulating agent ergocornine tended to reduce the stimulation-induced release of ³H-5-HT from central 5-HT fibers on the iris. It was concluded that all three types of central monoamine nerve fibers develop essentially normal transmitter storage and release mechanisms also in an environment completely devoid of normal postsynaptic receptors. The drug experiments add strong support to the view that there are presynaptic monoamine receptors (autoreceptors) able to modulate transmitter release present on the monoamine nerve terminals.Supported by the Swedish Medical Research Council (04X-3185 and 04X-2330) and by grants from Magnus Bergvalls Stiftelse and Karolinska Institutets Fonder, we thank Miss Ingrid Strömberg and Miss Ulla Enberg for skilful technical assistance.     

Brain tissue transplanted to the anterior chamber of the eye

Summary Knowing the ontogenesis of the central monoamine neurons of the rat it is possible to obtain, by free-hand dissection from embryos and newly born animals, pieces containing dopamine (DA), noradrenaline (NA), and 5-hydroxytryptamine (5-HT) neurons that are small enough to permit homologous transplantation to the anterior chamber of the eye of adult animals. With this technique it was established that all three types of immature monoamine neurons are able to survive in the anterior chamber. Fluorescence histochemical analysis of whole mount preparations of the sympathetically denervated host irides revealed that both the catecholamine- and the 5-HT-neurons are able to partly reinnervate the irides, forming networks of varicose nerve terminals similar to the normally present sympathetic adrenergic ground plexus.Monoamine nerve cell bodies are attached to the irides but the majority of fluorescent nerve cell bodies is located within the transplants. Serial sectioning of these transplants showed rather well organized brain tissue, containing groups of fluorescent and non-fluorescent cell bodies, many areas being innervated by monoamine nerve terminals. When brain tissue was transplanted before the normal appearance of fluorescent neuroblasts (embryos with a crown-rump length less than 8 mm) monoamine neurons developed and matured within the eye.The amount of newly formed nerves of central origin recovered on the irides increased with time between the 2nd and 4th postoperative week and persisted after 2 months. The yield of new fibers was better using transplants from embryos with a crown-rump length between 15 and 30 mm than using transplants from larger embryos and newly born animals.If embryonic brain tissue known to be devoid of monoamine nerve cell bodies but containing monoamine nerve terminals in the adult state (cortex cerebri and cerebelli, spinal cord) was transplanted to sympathetically non-denervated eyes, the sympathetic adrenergic fibers seemed to be able to innervate the transplants.This work was supported by grants from the Swedish Medical Research Council (14×–3185), Karolinska Institutets fonder, and Magnus Bergvalls Stiftelse. We thank Miss Monica Eliasson, Mrs. Ulla Flyger, Mrs. Barbro Norstedt and Miss Ingrid Strömberg for skilful technical assistance. The generous gifts of Nialamide, Pfizer, and Pargyline, Abbott are gratefully acknowledged.     

Fluorescence-microscopical demonstration of a population of gastro-intestinal nerve fibres with a selective affinity for Quinacrine

Summary A population of nerve fibres in the gastro-intestinal tract of mice showing a high affinity for quinacrine was revealed by fluorescence microscopy. Similar results were obtained in rats and guinea pigs. Whole-mounts of sheets of the smooth muscle layer following incubation in 10^-6-10^-7 M quinacrine for 15–60 min revealed fine fluorescent varicose nerve fibers in the myenteric plexus of Auerbach both around nerve cell bodies and in the interconnecting strands. Many fibers were also present between the strands of the plexus, especially running parallel to the circular muscle layer. Such fibers were not seen in similarly quinacrine-incubated irides. A proportion of the cell bodies in Auerbach's plexus also showed quinacrine accumulation. These cells were apparently smaller neurons, sometimes with fluorescent processes. Intraperitoneal injections of quinacrine failed to demonstrate nerve fibers, but some cell bodies in Auerbach's plexus were positive. Subsequent paraformaldehyde treatment for monoamine visualization showed persistent adrenergic nerve terminals in the intestine and iris. These nerves seemed to be fewer and had a more yellow fluorescence than normally. The identity of the quinacrine-positive fibers is discussed with respect to recent suggestions that purinergic, substance P, enkephalin, and somatosin-containing nerves, in addition to adrenergic and cholinergic nerves, are present in the gut wall.Supported by the Swedish Medical Research Council (04X-03185). Magnus Bergvalls Stiftelse and Karolinska Institutets Fonder. For generous gifts of Mepacrine we thank Winthrop, Skärholmen, Stockholm, Sweden. The skilful technical assistance of Miss Gerd Boetius and Miss Maud Eriksson is gratefully acknowledged     

Effect of selective noradrenergic denervation on noradrenaline content and [3H]dopamine release in rat nucleus accumbens slices

DSP4 (N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine) treatment (50 mg/kg i.p., 10 days previously) significantly decreased the noradrenaline (NA) content of the rostral part of the nucleus accumbens. The medial and caudal areas were not affected. The nucleus accumbens appears to receive noradrenergic innervation predominantly from subcoeruleus nuclei of the pons-medulla while the locus coeruleus neurons project to the rostral area. The isoproterenol-induced enhancement of the K⁺-evoked release of [³H]dopamine (DA) was not affected by DSP4 treatment. Noradrenergic denervation does not appear to have been sufficient to cause up-regulation of postsynaptic -adrenoceptors.     

Dopaminergic Modulation of Neurosecretory Cells in the Crayfish

The main aims of this paper are (a) to locate possible dopaminergic neurons in the eyestalk with anti-tyrosine hydroxylase antibodies, (b) to search for the presence of dopamine (DA) in the nervous structures of the eyestalk, (c) to explore its release, and (d) to test the effect of DA on neurosecretory cells in the eyestalk.Experiments were performed in adult crayfishes Procambarus clarkii, in isolated optic peduncle. Immunocytochemistry was made with the antibody against its precursor synthesizing enzyme tyrosine-hydroxylase. The content and release studies of DA were made using high performance liquid chromatography (HPLC). Extracellular and intracellular recordings were conducted with conventional recording techniques.A large number (2000) of immunopositive somata of different sizes and shapes were identified in various regions of the eyestalk. The majority of somata are of the smallest size (5–25 m diameter). DA content in the eyestalk was 5.6 ± 0.1 pmol per structure; the greatest content is in the MT (over 60%). A basal level release of DA was observed. Incubation of eyestalks in solution containing a high K⁺ concentration increased the DA release (79%). Two effects of DA on the excitability of X-organ neurons were observed; an excitatory effect on neurons of 25 m somata diameter and another inhibitory effect in the group of 35-m somata diameter neurons. The excitation occurs with a depolarization and decrement of membrane conductance in the cell soma while the inhibition occurs with a hyperpolarization and increment of membrane conductance in soma.We concluded the following: (1) Dopamine is present in each optic ganglia of the crayfish eyestalk. (2) There is a basal release of DA from the isolated eyestalk. (3) DA release is enhanced threefold by eyestalk incubation in 40 mM [K⁺] solution. (4) DA selectively excites a population of neurons with low-speed conduction axons, and small somata in the X-organ–sinus gland system, while inhibiting another population characterized by higher axonal conduction speed and large somata. (5) These observations support a role for DA as a neurotransmitter or neuromodulator in the X-organ neurons of the crayfish eyestalk.Dr. Hugo Aréchiga died on September 15th of 2003     

Tumor necrosis factor-α in macrophages of heart,liver, kidney,and in the pituitary gland

The relationship between myonuclear number, cellular size, succinate dehydrogenase activity, and myosin type was examined in single fiber segments (n=54; 9±3 mm long) mechanically dissected from soleus and plantaris muscles of adult rats. One end of each fiber segment was stained for DNA before quantitative photometric analysis of succinate dehydrogenase activity; the other end was double immunolabelled with fast and slow myosin heavy chain monoclonal antibodies. Mean±S.D. cytoplasmic volume/myonucleus ratio was higher in fast and slow plantaris fibers (112±69 vs. 34±21x10³ m³) than fast and slow soleus fibers (40±20 vs. 30±14x10³ m³), respectively. Slow fibers always had small volumes/myonucleus, regardless of fiber diameter, succinate dehydrogenase activity, or muscle of origin. In contrast, smaller diameter (<70 m) fast soleus and plantaris fibers with high succinate dehydrogenase activity appeared to have low volumes/myonucleus while larger diameter (>70 m) fast fibers with low succinate dehydrogenase activity always had large volume/myonucleus. Slow soleus fibers had significantly greater numbers of myonuclei/mm than did either fast soleus or fast plantaris fibers (116±51 vs. 55±22 and 44±23), respectively. These data suggest that the myonuclear domain is more limited in slow than fast fibers and in the fibers with a high, compared to a low, oxidative metabolic capability.     

Peculiarities of L-DOPA treatment of Parkinson’s disease

Summary. L-Dihydroxyphenylalanine (L-DOPA), the anti-parkinsonian drug affording the greatest symptomatic relief of parkinsonian symptoms, is still misunderstood in terms of its neurotoxic potential and the mechanism by which generated dopamine (DA) is able to exert an effect despite the absence of DA innervation of target sites in basal ganglia. This review summaries important aspects and new developments on these themes. On the basis of L-DOPA therapy in animal models of Parkinsons disease, it appears that L-DOPA is actually neuroprotective, not neurotoxic, as indicated by L-DOPAs reducing striatal tissue content of the reactive oxygen species, hydroxyl radical (HO), and by leaving unaltered the extraneuronal in vivo microdialysate level of HO. In addition, the potential beneficial anti-parkinsonian effect of L-DOPA is actually increased because of the fact that the basal ganglia are largely DA-denervated. That is, from in vivo microdialysis studies it can be clearly demonstrated that extraneuronal in vivo microdialysate DA levels are actually higher in the DA-denervated vs. the intact striatum of rats – owing to the absence of DA transporter (i.e., uptake sites) on the absent DA nerve terminal fibers in parkinsonian brain. In essence, there are fewer pumps removing DA from the extraneuronal pool. Finally, the undesired motor dyskinesias that commonly accompany long-term L-DOPA therapy, can be viewed as an outcome of L-DOPAs sensitizing DA receptors (D₁–D₅), an effect easily replicated by repeated DA agonist treatments (especially agonist of the D₂ class) in animals, even if the brain is not DA-denervated. The newest findings demonstrate that L-DOPA induces BDNF release from corticostriatal fibers, which in-turn enhances the expression of D₃ receptors; and that this effect is associated with motor dyskinesias (and it is blocked by D₃ antagonists). The recent evidence on mechanisms and effects of L-DOPA increases our understanding of this benefical anti-parkinsonian drug, and can lead to improvements in L-DOPA effects while providing avenues for reducing or eliminating L-DOPAs deleterious effects.     

Normal pharmacological and morphometric parameters in the noradrenergic hyperinnervated mutant mouse, “tottering”

Summary Pharmacological and anatomical analyses of central monoaminergic and cholinergic neurons were performed in the tottering mouse, an autosomal recessive neurologic gene mutation that results in an overproduction of axons of the locus coeruleus and an increase in norepinephrine content in specific terminal fields. Except for the previously reported increase in norepinephrine content, all pharmacological parameters measured, including tyrosine hydroxylase activity, norepinephrine turnover, serotonin content, and choline acetyltransferase activity, in targets hyperinnervated by the locus coeruleus were normal. Immunocytochemical staining for tyrosine hydroxylase demonstrated the pronounced hyperinnervation in the tottering brain, whereas both serotonin and choline acetyltransferase immunostaining were similar between tottering and wild type. The volume of 3 target areas that are hyperinnervated by the locus coeruleus in the tottering mouse, the hippocampus, cerebellum, and cochlear nuclei, were normal. In addition, neuronal number and somal size in the locus coeruleus were found to be unchanged in the mutant genotype. These data demonstrate several features of the effects of the tottering gene: 1) compensatory changes in several adrenergic pharmacological parameters do not occur in response to the hyperinnervation of targets by locus coeruleus axons; 2) neither direct effects of the tottering gene on, nor compensatory changes in, the extent of cholinergic or serotonergic innervation of several targets of the locus coeruleus appear to occur; and 3) the lack of changes in size of the targets of the locus coeruleus suggest that the hyperinnervation in the tottering mouse is due to a direct genetic alteration of axonal growth by the locus coeruleus neurons, rather than to selective shrinkage of targets in the presence of normal terminal arbors.     

Caffeine inhibition of calcium accumulation by the sarcoplasmic reticulum in mammalian skinned fibers

Summary Oxalate-supported Ca accumulation by the sarcoplasmic reticulum (SR) of chemically skinned mammalian skeletal muscle fibers is activated by MgATP and Ca²⁺ and partially inhibited by caffeine. Inhibition by caffeine is greatest when Ca²⁺ exceeds 0.3 to 0.4 m, when free ATP exceeds 0.8 to 1mm, and when the inhibitor is present from the beginning of the loading period rather than when it is added after Ca oxalate has already begun to precipitate within the SR. Under the most favorable combination of these conditions, this effect of caffeine is maximal at 2.5 to 5mm and is half-maximal at approximately 0.5mm. For a given concentration of caffeine, inhibition decreases to one-half of its maximum value when free ATP is reduced to 0.2 to 0.3mm. Varying free Mg²⁺ (0.1 to 2mm) or MgATP (0.03 to 10mm) has no effect on inhibition. Average residual uptake rates in the presence of 5mm caffeine atpCa 6.4 range from 32 to 70% of the control rates in fibers from different animals. The extent of inhibition in whole-muscle homogenates is similar to that observed in skinned fibers, but further purification of SR membranes by differential centrifugation reduces their ability to respond to caffeine. In skinned fibers, caffeine does not alter the Ca²⁺ concentration dependence of Ca uptake (K _0.5, 0.5 to 0.8 m; Hilln, 1.5 to 2.1). Reductions in rate due to caffeine are accompanied by proportional reductions in maximum capacity of the fibers, and this configuration can be mimicked by treating fibers with the ionophore A23187. Caffeine induces a sustained release of Ca from fibers loaded with Ca oxalate. However, caffeine-induced Ca release is transient when fibers are loaded without oxalate. The effects of caffeine on rate and capacity of Ca uptake as well as the sustained and transient effects on uptake and release observed under different conditions can be accounted for by a single mode of action of caffeine: it increases Ca permeability in a limited population of SR membranes, and these membranes coexist with a population of caffeine-insensitive membranes within the same fiber.     

A coupled pacemaker-slave model for the insect photoperiodic clock: interpretation of ovarian diapause data in Drosophila melanogaster

A coupled circadian oscillator model for the insect photoperiodic clock is described which consists of a hierarchically arranged pacemaker and slave. The pacemaker is self-sustained, temperature compensated, and entrainable by the light cycle; the slave is a damping oscillation receiving entrainment from two sources, from the pacemaker via a coupling factor, and also directly from the light. The damping slave oscillation is seen as the photoperiodic oscillator, equivalent to that proposed earlier by Lewis and Saunders (1987). The present simulations describe the effect of the strength of the coupling factor between hypothetical short- and long-period pacemaker oscillations (modelled on the clock mutants per ^sand per ^L2in Drosophila melanogaster) and a slave oscillation with a period of about 24 hours. The output is presented in terms of photoperiodic response curves and Nanda-Hamner, or resonance, plots. With a high coupling strength, the pacemakers strongly entrain the slave, but with a low coupling strength the slave's properties are more evident. The model is presented as a possible explanation for recent ovarian diapause data in D. melanogaster clock mutants (Saunders 1990), but also as a more general model for the role of the insect circadian system in seasonal time measurement.     

Fate of intraocular chromaffin cell suspensions: role of initial nerve growth factor support

Summary Adrenal medullary tissue from adult rats was dissociated into cell suspensions and injected into the anterior chamber of the eye, where the cells were made to attach to the previously sympathectomized irides with the use of fibronectin. Short- and long-term survival of the chromaffin cells was examined in whole mounts of irides using Falck-Hillarp fluorescence histochemistry or indirect immunohistochemistry with antibodies against adrenaline and dopamine--hydroxylase (DBH). After 6 days in oculo all cells were immunoreactive for adrenaline; almost none displayed processes even if -nerve growth factor (NGF) was given at grafting. One month after weekly intraocular injections of NGF, many cells were surrounded by nerve fiber net-works and all cells were DBH-immunoreactive. Eight months postgrafting and 7 months after the last injection of NGF almost the entire iris was reinnervated and resembled a normal, sympathetically innervated iris. Both at 1 and 8 months, chromaffin cells, ganglion cells and transitional cell forms (chromaffin cells transforming towards ganglion-like cells) were found in irides from the NGF-treated eyes. The number of ganglion cells was remarkably increased with time by NGF, while the number of chromaffin cells decreased compared to controls. A single treatment with NGF at grafting had no marked effects as examined up to 3 months; at this time there was a certain outgrowth of nerve terminals, which, however, was not as pronounced as 1 month after repeated NGF injections. In conclusion, it is shown that some cells in a chromaffin cell suspension attach to the iris, transform to ganglion cells after an induction with exogenous NGF, and reinnervate the sympathically denervated iris. Such cells remain ganglion-like in character and continue to form processes even after cessation of exogenous NGF treatment.     

GABA-Dopamine Receptor-Receptor Interactions in Neostriatal Membranes of the Rat

Recent evidence has shown in membrane preparations that the binding of one ligand to its receptor is able to modify the binding parameters of a second receptor (receptor-receptor interactions), allowing the modulation of incoming signals onto a neuron. To further understand the -amino-butyric acid (GABA)-dopamine (DA) interactions in the neostriatum we have carried out experiments to explore whether an activation of the GABA_A receptor could affect the binding characteristics of the D₂ DA receptor in membrane preparations of the rat neostriatum. The results show that GABA (30–100 nM) significantly increases the dissociation constant of the high affinity (K_H) D₂ DA binding site (labelled with the selective D₂ DA receptor antagonist [³H]raclopride and that such an effect is fully counteracted by the GABA_A receptor antagonist bicuculline (1 M). It is suggested that such putative GABA_A/D₂ receptor-receptor interactions may take place in the somato-dendritic membrane of the striato-pallidal GABA neurons and that it may modulate the inhibitory effects of DA on these neurons, mediated via D₂ receptors.     

Similarities of adenosine uptake systems in astrocytes and neurons in primary cultures

Uptake of extracellular adenosine was studied in primary cultures of astrocytes or neurons. Both cell types showed a high affinity uptake. TheK _m values were not significantly different (6.5±3.75 M in astrocytes and 6.1±1.86 M in neurons), but the intensity of the uptake was higher in astrocytes than in neurons (V _max values of 0.16±0.030 and 0.105±0.010 nmol×min^–1×mg^–1 protein, respectively). The temperature sensitivity was similar in the two cell types. Adenosine uptake inhibitors and benzodiazepines inhibited the adenosine uptake systems in both astrocytes and neurons with IC₅₀ values in the high nanomolar or the micromolar range and the rank order of potency was similar in the two cell types. In both cell types the (–) isomers of two sets of benzodiazepine stereoisomers were more potent than the (+) isomers. Dixon analysis showed that dipyridamole, papaverine, hexobendine and chlordiazepoxide inhibited the adenosine uptake competitively and clonazepam noncompetitively in both cell types.     

The innervation pattern of crustacean skeletal muscle

Summary The innervation pattern of distal muscle fibers of the opener muscle of walking legs of crayfish (Astacus leptodactylus) was investigated using methylene-blue staining, cobalt infiltration, and electron microscopy. A quantitative analysis of the entire innervation of single muscle fibers was attempted.It was found that instead of the generally assumed parallel array of numerous excitatory and inhibitory terminals, innervation consists of only a few branched terminals. The branches of excitatory and inhibitory terminals lie side-by-side. Both types are characterized by numerous varicosities (see Fig. 9B). The aggregate length of excitatory as well as inhibitory terminals on one muscle fiber is, on the average, about 1,500 m with a total of 152 varicosities spaced about 10 m apart. The average diameter of the varicosities is 4.26 m, that of the connecting thin segments about 0.5 m. Total terminal surface of motor or inhibitory terminals amounts to about 10,000 m² per muscle fiber. There are approximately 2,000 motor synapses on each muscle fiber, but their average total area is only about 6% of the terminal membrane area, or 0.06% of the (idealized) muscle fiber surface.There are conspicuous differences in the postsynaptic specializations associated with excitatory and inhibitory terminals; these are described in detail.The results are discussed in a functional context and with regard to design and results of electrophysiological experiments.Supported by Sonderforschungsbereich 138 of the Deutsche Forschungsgemeinschaft     

Effects of δ-aminolaevulinic acid,porphobilinogen and structurally related amino acids on 2-deoxyglucose uptake in cultured neurons

The effects of -aminolaevulinic acid (ALA), porphobilinogen (PBG), -aminobutyric acid (GABA), muscimol, glutamic acid and kainic acid on [³H]2-deoxy-d-glucose uptake by cultured neurons were investigated. Exposure of the cultures for 4 days, to ALA at concentrations as low as 10 M caused a significant, dose-dependent decrease in [³H]2-deoxy-d-glucose uptake. Neither ALA nor PBG appeared to interfere directly with glucose transport into the neuron but 1 mM ALA caused an initial stimulation of [³H]2-deoxy-d-glucose uptake which increased to a maximum after 4 hr and fell to below control values after 19 hr exposure. GABA and muscimol caused similar increases in [³H]2-deoxy-d-glucose uptake but these values remained above control levels after 19 hr exposure. Glutamic acid and kainic acid caused an immediate increase in [³H]2-deoxy-d-glucose uptake which declined to mininum values after 4 hr exposure. The effect of ALA on glucose utilization in neurons may be of particular relevance to patients with acute porphyria where a genetic lesion in neural haem and haemoprotein biosynthesis is postulated to occur. ALA appeared to be more toxic to the neurons than any of the other compounds tested, possibly causing a critical depletion of energy reserves and cell death.     

Chromosomal unit fibers in Drosophila

Chromosomal unit fibers consisting of long, regular fibers of about 0.40 m diameter were obtained from disintegrated, isolated chromosomes of two Drosophila melanogaster cell lines. In one cell line with an essentially normal karyotype, three clearly defined size classes of 15, 13, and 11 m length were observed corresponding to the three larger chromosomes of Drosophila. In a cell line carrying an additional translocation between the two largest chromosomes a 19 m fiber derived from the translocation chromosome was observed. Direct determinations of the DNA content per m length of Drosophila unit fibers show that DNA is contracted by a factor of about 1400x in agreement with calculations based on the length of the unit fibers and the known DNA content of the individual Drosophila chromosomes. These findings support our previously proposed model for the unit fiber sub-structure of chromosomes as being derived by a hierarchy of coiling with the corresponding contraction ratios being 7 (100 Å string of nucleosomes), 5 to 6 (250–300 Å thick nucleohistone fiber), and about 40 (unit fiber), resulting in a total contraction of DNA in unit fibers in the order of 1400x.     

The effect of selective noradrenergic denervation on thyrotropin secretion in the rat

The effect of DSP₄ [N-(2-chloroethyl)-N-ethyl-2 bromobenzylamine], a neurotoxin which selectively lesions noradrenergic projections from the locus coeruleus, on thyrotropin (TSH) secretion was investigated in the rat. DSP₄ treatment (60 mg/kg injected i.p. 10 days prior to experimentation) significantly decreased the noradrenaline (NA) content of the hippocampus, frontal cortex and hypothalamus of the rat brain. DSP₄ treatment did not affect the clonidine (250 g/kg, i.p.) or TSH-releasing-hormone (TRH 5 g/kg i.v.) induced stimulation or the isoproterenol induced inhibition of TSH secretion in the rat. These results suggest that the noradrenergic projection from the locus coeruleus to the hypothalamus does not play a significant role in the regulation of TSH secretion. Furthermore, the noradrenergic deficiency did not give rise to the development of the abnormal TSH response to TRH administration which is frequently observed in depression.     

Molecular flexibility of extended and compacted polynucleosomes

We have studied the effects of Na⁺ (5–120 mM) and Mg²⁺ (0–6 mM) on the internal and overall flexibility of polynucleosome fragments from nucleasesolubilized chromatin from Ehrlich ascites cells. The mobility was monitored by the steady-state fluorescence polarization of the intercalated ethidium cation. The internal polynucleosome flexibility decreases continuously as the extended chromatin fragments are being compacted at increasing salt concentrations, and it can be further suppressed at ionic strengths above those where the 30 nm fiber is formed. The effect may be visualized as an initial formation of a loose 30 nm fiber that is further compacted at increasing ionic strengths. We observe several differences in the effects of Na⁺ and Mg²⁺ upon chromatin compaction. First, chromatin compacted by Mg²⁺ is less flexible than that compacted by Na⁺, suggesting a tighter chromatin structure with Mg²⁺. Second, Mg²⁺ affects the internal mobility in polynucleosome fragments shorter than 6–7 nucleosomes, which are too short to be compacted with Na⁺. Third, Mg²⁺ causes extensive macroscopic aggregation at concentrations above 0.2–0.3 mM, but the aggregation is uncorrelated with the intramolecular compaction. A quantitative evaluation of the overall polynucleosome tumbling mobility indicates that the compacted fragments possess more internal flexibility than do corresponding high molecular weight chromatin fibers. Finally, we note a correlation between the ethidium binding constant and the internal chromatin flexibility, possibly arising from lower torsional and unwinding flexibility of the linker DNA segments of compacted chromatin fibers.Abbreviations FPA fluorescence polarization anisotropy - CT calf thymus - HMW high molecular weight - ARF amplitude reduction factor - kbp kilobasepairs This project is supported by the Swedish Natural Research Council. P.E.N. is the recipient of a Hallas-Mølle Fellowship through the NOVO Foundataion