Axoplasmic flow of adrenaline and monoamine oxidase in amphibian sympathetic nerves

Summary The accumulation of both A and MAO proximal to a ligature on toad spinal nerves has been shown to occur at a slower rate than in mammals. As in mammals, there are two components of axonal transport in amphibian nerves, with the accumulation of A reaching a peak at between 4 and 7 days (cf. 2–4 days for NA in mammals), while MAO accumulation does not reach its maximum before 9 days (cf. 7 days in mammals). No accumulation occurs after sympathectomy, providing evidence for localization of MAO within amphibian sympathetic adrenergic nerves. Distal accumulation of MAO occurs in toad sympathetic nerves; this has not been reported to occur in mammalian nerves. Distal accumulation reaches a peak at 2–4 days, which suggests either a fast retrograde flow of MAO or that induction of MAO is occurring. These results are discussed in relation to differences between mammalian and amphibian sympathetic nerves and to the events occurring following ligation of these nerves.We wish to thank Judy Lenk, Vivienne Einhorn and Barbara Peachey for their assistance with the initial MAO histochemical work. This work was supported by grants from the National Heart Foundation of Australia and the Australian Research Grants Committee.     

Expression of ornithine decarboxylase in pancreatic development

We examined the relationship between ornithine decarboxylase (ODC) and growth and differentiation in the developing rat exocrine pancreas. The ODC activity profile showed 2 distinct stages of increases with the first occurred at 14–16 days of age, and a second at 21–23 days of age. Growth parameters evaluated as gains in tissue mass, protein and DNA content in the pancreas indicated a low growth rate soon after birth with a transition to a much more rapid growth rate around the age of 20–21 days, a time corresponded to the second rise in ODC activity. Differentiation parameters evaluated as the accumulation of trypsinogen, amylase and lipase showed different temporal changes. While the rate of accumulation of all three enzymes was relatively low following birth, a rapid rate of accumulation of trypsinogen and amylase started around 15–16 days, a time corresponding to the first rise in ODC activity. Lipase, however, did not show an increase in its accumulation until around age 20 days. These results indicate that a rise in ODC activity is closely associated with growth and differentiation in the developing rat pancreas. To further examine this issue, the steady state levels of ODC mRNA in developing rats were evaluated by Northern blots probed with an ODC cDNA. The developmental profile of ODC mRNA showed a broad peak with a pronounced shoulder occurring at 10 days of age. A higher peak was reached around 20 days of age, then dropped precipitously to a very low level at the age of 24 days. This temporal changes in the level of ODC mRNA show good relationship to the changes in ODC activity suggesting that the control of ODC expression occurs at least in part at the pre-translational level.     

Short-term fasting induces intra-hepatic lipid accumulation and decreases intestinal mass without reduced brush-border enzyme activity in mink (<Emphasis Type="Italic">Mustela vison</Emphasis>) small intestine

For many mammalian species short-term fasting is associated with intestinal atrophy and decreased digestive capacity. Under natural conditions, strictly carnivorous animals often experience prey scarcity during winter, and they may therefore be particularly well adapted to short-term food deprivation. To examine how the carnivorous gastrointestinal tract is affected by fasting, small-intestinal structure, brush-border enzyme activities and hepatic structure and function were examined in fed mink (controls) and mink that had been fasted for 1–10 days. During the first 1–2 days of fasting, intestinal mass decreased more rapidly than total body mass and villus heights were reduced 25–40%. In contrast, tissue-specific activity of the brush-border enzymes sucrase, maltase, lactase, aminopeptidase A and dipeptidylpeptidase IV increased 0.5- to1.5-fold at this time, but returned to prefasting levels after 6 days of fasting. After 6–10 days of fasting there was a marked increase in the activity of hepatic enzymes and accumulation of intra-hepatic lipid vacuoles. Thus, mink may be a useful model for studying fasting-induced intestinal atrophy and adaptation as well as mechanisms involved in accumulation of intra-hepatic lipids following food deprivation in strictly carnivorous domestic mammals, such as cats and ferrets.Communicated by I.D. Hume     

Ultracytochemical identification of catecholamine-containing vesicles in the ligated sciatic nerve of the rat. Comparison with sympathetic nerve terminals

Summary Using the fixation procedure of Tranzer, three kinds of granular vesicles were identified in certain unmyelinated fibres of rat sciatic nerves proximal to a ligature: (1) small vesicles (SGV: 30–60 nm in diameter), (2) large vesicles (LGV: 60–100nm in diameter), and (3) large elongated vesicles (LEV: 60–100nm in diameter). A comparative study concerning the distribution of these granular vesicles was carried out using a cytopharmacological method (reserpine) and employing different fixatives (aldehydes + OsO₄, or OsO₄ alone) in periarterial nerve plexus of the femoral artery, vas deferens and the pineal organ.Use of Tranzer's method allows preservation in almost all granular vesicles of a strongly electron-dense core, while with the other fixatives mainly small, eccentric dense cores occur in the vesicles. Two main features were observed in ligated sciatic nerves: (i) a clear increase in the number of LGV, and (ii) the presence of LEV, considered as a variety of LGV rather than a new population of granular vesicles. Reserpine caused the cores of SGV to disappear almost completely, while LGV and LEV remained only partly depleted. The original method combining Tranzer's fixation procedure with radioautography revealed radioautographic labelling only in the unmyelinated fibres of ligated sciatic nerves and mainly superimposed over SGV, LGV and LEV. It is suggested that (i) SGV, LGV and also LEV represent possible storage sites of catecholamines, and (ii) a local morphogenesis of SGV from the large vesicles occurs in ligated sympathetic nerve fibres.     

Adrenergic innervation of the gut musculature in vertebrates

Summary The adrenergic innervation of the gut musculature has been compared in various vertebrates (two teleost fish, an amphibian, a reptile and a mammal) by the fluorescent histochemical localization of certain monoamines. Very few, if any, adrenergic nerves occur within the longitudinal gut muscle of any of these animals, except for the taenia coli of the guinea-pig caecum. In contrast, the circular smooth muscle coat is supplied by varicose adrenergic nerves. These nerve fibres are particularly numerous in the toad large intestine, guinea-pig caecum, and throughout the eel gut, but are generally sparse or absent from the musculature of the stomach and small intestine of the trout, toad, lizard and guinea-pig. The extent of adrenergic innervation of the muscle has been discussed in relation to the physiology of the different muscle coats and to the general structure of the enteric plexuses in the vertebrate gut.     

Conduction velocity and excitability of A and C fibers of cat mesenteric nerves

The conduction velocity and excitability of fibers running from the mesenteric into the splanchnic nerves were studied in experiments on cats. Among the A fibers of these nerves there were shown to be: 1) fibers with an excitation threshold of 0.06–0.10 V (stimulus duration 0.1 msec) and a maximal conduction velocity of 48–85 m/sec; 2) fibers with an excitation threshold of 0.3–0.7 V, impulses of which form up to five waves in the composition of the action potential, with maximal conduction velocities of between 8–10 and 33–39 m/sec; 3) fibers with an excitation threshold of over 1 V and a conduction velocity of between 1.8 and 7 m/sec. The excitation threshold of the group C fibers was 6–8 V. Impulses of these fibers form a low-amplitude wave in the composition of the action potential of the mesenteric and splanchnic nerves with a conduction velocity of 1.0–1.8 m/sec, several waves of higher amplitude with a conduction velocity of 0.5–1.2 m/sec, and several low-amplitude waves with a conduction velocity of 0.35–0.55 m/sec. The results of experiments with different combinations of arrangement of the stimulating and recording electrodes on the mesenteric and splanchnic nerves indicate that sympathetic postganglionic C fibers of the mesenteric nerves occur only in the second group, whereas afferent C fibers occur in all three of the groups distinguished.Institute of Normal and Pathological Physiology, Academy of Medical Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 7, No. 3, pp. 272–278, May–June, 1975.     

Amino acid sequence of the major form of toad liver glutathione transferase

To investigate structural relationship between amphibian and mammalian GSTs the complete amino acid sequence of the major form of glutathione transferase present in toad liver (Bufo bufo) was determined. The enzyme subunit is composed of 210 amino acid residues corresponding to a molecular mass of 24,178 Da. In comparison with the primary structure of amphibian bbGSTP1-1, toad liver GST showed 54% sequence identity. On the other hand, toad liver GST showed about 45-55% sequence identity when compared with other pi class GST and less then 25% identity with GST of other classes. Amino acid residues involved in the H site and in the key and lock structure of the toad enzyme are significantly different from those of bbGSTP1-1 and other mammalian pi class GST. On the basis of its structural and immunological properties the toad liver GST, indicated as bbGSTP2-2, could represent the prototype of a subset of the pi family.     

Nitric oxide control of large veins in the toad <Emphasis Type="Italic">Bufo marinus</Emphasis>

This study examined the nitric oxide (NO) control of the vascular smooth muscle of the ventral abdominal vein and vena cava of the toad, Bufo marinus, by using anatomical and physiological approaches. Nicotinamide adenine di-nucleotide phosphate-diaphorase histochemistry and immunohistochemistry using endothelial nitric oxide synthase (NOS) and neural NOS antibodies produced no evidence for endothelial NOS in the veins, but, neural NOS-immunoreactive perivascular nerves were present. Acetylcholine (10^–5 M) caused a vasodilation in both veins that was endothelium-independent, and which was blocked by the soluble guanylyl cyclase inhibitor, ODQ (10^–5 M). The NOS inhibitors, L-NNA (10^–4 M) and L-NAME (10^–4 M), did not significantly reduce the vasodilatory effect of acetylcholine in the veins; this suggested that the vasodilation was not due to NO. However, in the presence of phenoxybenzamine (10^–7–10^–8 M), L-NNA significantly reduced the vasodilatory effect of acetylcholine in the veins. This unusual response is due to phenoxybenzamine partially inactivating the muscarinic receptor pool in the veins. In addition, the neural NOS inhibitor, vinyl-L-NIO (10^–5 M), significantly reduced the acetylcholine-mediated vasodilation in the presence of phenoxybenzamine. The results show that in toad veins, nitrergic nerves rather than an endothelial NO system are involved in NO-mediated vasodilation.     

Identification and characterization of integrin-binding sialoprotein (IBSP) genes in reptile and amphibian

Integrin-binding sialoprotein (IBSP) is a member of the small integrin-binding ligand N-linked glycoprotein (SIBLING) family; and the whole SIBLING family is further included in a larger secretory calcium-binding phosphoprotein (SCPP) family. SIBLING proteins are known to construct a part of the non-collagenous extracellular matrices of calcified tissues, and considered to have arisen by duplication and subsequent divergent evolution of a single ancient gene. To understand the alterations of SIBLING molecules associated with the evolution of calcified tissues in vertebrates, we initiated a search for lower vertebrate orthologs of SIBLING genes. In the present study, an IBSP ortholog from a reptile (caiman) and two distinct orthologs from an amphibian (African clawed toad) were identified and characterized. As expected, the toad IBSP genes were transcribed only in calcified tissue (jaw and tibia), as also seen in mammals. The caiman, toad, avian, and mammalian IBSPs share several unique features specific for IBSP and apparently have similar properties. Furthermore, analysis of the sequences suggested that the IBSP molecule might have gradually intensified its functions related to calcification during its evolutionary process through tetrapods.     

Comparison of the capsaicin- and amino acid-sensitivity of dorsal root C fibres in the rat and the toad.

1. The C elevation of the compound action potential (CAP) was recorded with suction electrodes from dorsal roots of rats at 25 degrees C and toads (Bufo bufo) at 10 degrees C. The C fibre CAP had a conduction velocity of 0.5 +/- 0.07 SE M per sec (N = 10) and 0.25 +/- 0.04 M per sec (N = 8) in the rat and toad nerves respectively. 2. The depressant effect of applied drugs on the amplitude of the C fibres CAP was measured. Nerves from both species had similar sensitivities to GABA. EC50 5.0 microM +/- 0.5 SEM (N = 3) and 5.5 microM +/- 1.4 (N = 3) for the rat and toad respectively. Maximum depressant effects of GABA produced in rat and toad nerves were 35% +/- 5 SEM and 17% +/- 2.5 respectively. 3. In five out of ten of the rat nerves tested kainate had a clear depressant effect (maximum 36% +/- 4.3 SEM, EC50 6.8 microM +/- 0.9 SEM, N = 3) on the C fibre CAP. Kainate, at concentrations from 100 to 500 microM, had no effect on seven toad nerves. 4. Toad nerves were about 100 times less sensitive, than rat nerves, to capsaicin (ED50 values 430 microM +/- 190 SEM and 0.7 microM +/- 0.2 respectively, N = 4). 5. The similar sensitivity of nerves in both species to GABA and differing sensitivities to kainate and capsaicin suggests that amphibian C fibres specifically lack sensitivity to capsaicin and kainate.     

Epilithozoan fauna associated with ferromanganese crustgrounds on the continental slope segment between Capri and Li Galli Islands (Bay of Salerno, Northern Tyrrhenian Sea, Italy)

The epilithozoan fauna associated with Quaternary Fe–Mn crustgrounds sampled off Capri and Li Galli Islands is described. During the Quaternary, the interplay among the tectonically induced topography, sea-current patterns, and the changing physical-chemical properties of the water column promoted conditions favouring Fe–Mn oxide accumulation. In the samples dredged between 510–263 m depth (DRA 7), 207–201 m depth (DRA 5) and 358–65 m depth (DRA 4), where the Fe–Mn coating covers all rock surfaces, the distribution of the epilithozoan taxa is polarized: on the upper smooth surface of the crustgrounds the most abundant inhabitants are foraminifers, while on the lower rough surface corals, bivalves, bryozoans and brachiopods occur. Sponges are mainly able to bioerode the rough lower surfaces. Samples are riddled by boring ichnogenera including Entobia and Maeandropolydora. Fe–Mn oxide precipitation is still active today as shown by the frontal shield preservation of the bryozoan Puellina cf. pseudoradiata Harmelin and Aristegui, 1988, where it is possible to identify different stages of accretion. Botryoidal ongoing accretion is evident only in some taxa, namely Bryozoa and Polychaeta species, and Foraminifera morphotypes, which appear to keep pace with precipitation when it occurs.     

Electrophysiological investigation of pathways in the middle cervical sympathetic ganglion of the turtle

Single unit responses in the middle cervical sympathetic ganglion ofEmys orbicularis to stimulation of other nerves and changes in these responses during the action of sympathetic blocking agents on the ganglion were investigated. The results showed that some fibers of the cervical sympathetic trunk of the turtle are interrupted in this ganglion. Postganglionic fibers pass out of the ganglion and enter the lateral branch and the sympathetic trunk. Other fibers pass through the ganglion without interruption and, together with postganglionic fibers, leave the ganglion in the cervical sympathetic trunk in a cranial direction. The velocity of conduction of excitation along the preganglionic fibers is between 4–3 and 2–1.5 m/sec and along the postganglionic fibers between 4–2.6 and 0.7–0.5 m/sec (fibers of types B₂ and C). Synaptic delay in the fast-conducting fibers averages 6.6 msec. Preganglionic fast-conducting fibers form synaptic contacts on neurons with type B₂ axons, while preganglionic slow-conducting fibers form contacts on neurons with type C axons. Terminals of two preganglionic fibers differing very slightly in their threshold of excitability, and probably constituting the same group, converge on some neurons.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukranian SSR, Kiev. Translated from Neirofiziologiya, Vol. 4, No. 1, pp. 83–89, January–February, 1972.     

Studies on esterase histochemistry of amphibian kidney

Summary In the hope that the histochemical picture of the kidney may help to understand its role in excretion and osmoregulation, an effort is here made to study the distribution of esterases in amphibian kidney.The kidneys of adults and tadpoles of the frog, Rana tigrina and the toad, Bufo melanostictus were used for this study. Some of these animals were subjected to dehydration for 3–4 days and to the effect of 150 mM NaCl for 8–12 days before their kidneys were used. The esterases were visualised using tweens, naphthol esters and 5-bromoindoxyl acetate as substrates. These were accompanied by activator/inhibitor studies.Very interesting results were obtained in the distribution of the esterases. Tween esterase and -naphthyl acetate esterase were found in the proximal tubules of the adult frog kidney only while 5-bromoindoxyl acetate esterase was found to be present in all the animals tested. On the other hand, naphthol AS acetate esterase was absent in the tadpole stages of the frog and toad. Further 5-bromoindoxyl acetate esterase and naphthol AS acetate esterase were demonstrated in the glomeruli of frogs and toads subjected to NaCl solution. Activator/ inhibitor studies helped in characteristically differentiating these different esterases.There seems to be a relationship between the distribution of the different esterases and the excretory and osmoregulatory adaptations of these animals which differ in the adult and tadpole stages and in the experimental conditions mentioned. The possible implications of the esterase distribution is discussed in considerable details.U.G.C. Research Scholar.     

EFFECT OF OESTRADIOL ON TURNOVER OF TYPE A MONOAMINE OXIDASE IN BRAIN

Abstract— Administration of oestrogen (oestradiol-17β or oestradiol-17β-benzoate) to ovariectomized (OVX) rats for 1–4 weeks results in an approx 30% decrease in the activity of monoamine oxidase (MAO) in the basomedial-hypothalamus (BM-Hyp) and corticomedial-amygdala (CM-Amy) but not in cerebral cortex. Further investigation shows that (1) decreased MAO activity in the BM-Hyp and CM-Amy occurs only in Type A MAO (serotonin as substrate) and does not occur in Type B MAO (phenylethylamine as substrate); (2) decreased MAO activity does not occur when a single large dose of oestrogen is given i. v. or when homogenates from oestrogen treated rats are mixed with homogenates from OVX rats suggesting that direct enzyme inhibition is not responsible for the change in activity; (3) oestrogen administration to OVX rats increases the rate constant of degradation for MAO in BM-Hyp and CM-Amy but not in cerebral cortex as determined in turnover studies using pargyline, an irreversible inhibitor of MAO. The increased rate of degradation results in shorter half lives ( t 1/2) for MAO in the BM-Hyp and CM-Amy of oestrogen treated rats. In OVX rats the t 1/2 is 9.8 days in BM-Hyp and 12.7 days in CM-Amy. Oestrogen administration results in a t 1/2 of 7.6 days in BM-Hyp and 7.8 days in CM-Amy. The possible relationship between oestrogen dependent decreased MAO activity and estrogen dependent lordosis behavior is discussed.     

Effects of broad-spectrum monoamine oxidase inhibitors on the structure and ratio of stages in in the cat sleep-wake cycle

Monoamine oxidase (MAO) inhibitors disturb the structure of the sleep-wake cycle and its ultradian rhythms by extending total slow-wave sleep, completely suppressing paradoxical sleep, and reducing total waking period considerably. Once the synchrony induced by MAO inhibitors has stopped, a rebound effect of increased waking occurs preceding and during partial restoral of paradoxical sleep. This fact is viewed as an indication of a waking requirement accumulating during the aforementioned partial deprivation under the effects of MAO inhibitors. Especially marked effects are exerted by MAO inhibitors on paradoxical sleep, in which they produce long-term suppression of tonic and phasic components. It is suggested that inhibition of paradoxical sleep is brought about by selective impairment of functional state of its neurophysiological trigger mechanisms.I. S. Beritashvili Institute of Physiology, Academy of Sciences of the Georgian SSR, Tbilisi. Translated from Neirofiziologiya, Vol. 20, No. 4, July–August, 1988, pp. 463–470.     

Early Effects of Neonatal Rat Desympathization on Secondary Heart Rhythms

Neonatal Wistar rats for the first 3 weeks of life were injected intraperitoneally with isobarine every other day. The single doze was 40 mg/kg. Control animals were injected with saline. Degenerative changes in sympathetic ganglia were evident as early as in the 10-day old animals and increased by 18–19 days. The heart rate in the desympathized animals was lower than in control from 10–11 to 18–19 days, but by the end of the 3rd week the differences were eliminated. The same occurred with respiration rate. At same terms there was an essential decrease of amplitude of the heart rate high-frequency fluctuations synchronous with respiration and of the periodogram slow waves with the period about 1 min. Using the method of fast Fourier transform, the power spectra of heart rate fluctuations (secondary heart rhythms) in 5 frequency ranges (0–0.01, 0.01–0.03, 0.03–0.1, 0.1–1.0, and 1.0–2.5 Hz) were calculated. Desympathization leads to a decrease of the fluctuation power in all ranges, but in the ultralow-frequency range this decrease is the least pronounced, which suggests the presence of non- sympathetic mechanisms in their genesis. The greatest changes occur in the middle-frequency area. In all cases, differences from control values increase from the 10–11th to the 18–19th days, after which a tendency for restoration is observed, in spite of an enhancement of processes of degeneration of sympathetic neurons. This indicates an activation of the compensatory mechanisms, due to which consequences of desympathization are partially smoothed at distant terms of studies.     

Conducting pathways of the superior cervical sympathetic ganglion of the cat

Individual nerves of the superior cervical sympathetic ganglion were stimulated in acute experiments on cats, and action potentials (AP) were recorded from other nerves of the ganglion in order to clarify whether or not there is transmission of excitation through the ganglion from one nerve to another and to establish whether this transmission is continuous or synaptic. The method of intracellular recording from neurons of the ganglion was also used. It is established that stimulation of the cervical sympathetic nerve evokes AP in all of the peripheral nerves of the ganglion, a circumstance that is the result of synaptic transmission of excitation. There is no transmission of excitation in the reverse direction or between any of the 12 peripheral nerves of the ganglion (including the four branches of the internal carotid nerve). Orthodromic excitation is recorded intracellularly from neurons of the ganglion during stimulation of the cervical sympathetic nerve, and antidromic excitation is recorded during stimulation of a peripheral nerve (the internal carotid nerve). It follows that the pathways through the ganglion which conduct excitation from the cervical sympathetic nerve into all of the remaining nerves of the ganglion are synaptic. Analysis of EPSP latent periods indicated that preganglionic fibers that differ sharply with respect to threshold and conduction rate (groups S₂ and S₄) converge on one and the same neurons of the ganglion.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 2, No. 2, pp. 216–224, March–April, 1970.     

Expression of cytochrome P450 3A in amphibian, rat, and human kidney.

Family 3A mammalian liver cytochromes P450 (3A1, rat; 3A3/4, human) catalyze the 6 beta-hydroxylation of endogenous steroids and are steroid inducible. Our recent finding that A6 cells (a toad kidney epithelial cell line) contain corticosterone 6 beta-hydroxylase activity as a steroid-inducible microsomal cytochrome P450 raised the possibility that corticosterone 6 beta-hydroxylase activity in the A6 cells is catalyzed by a member of the 3A family. We found that incubation of A6 cell microsomes from dexamethasone-induced cells with antibodies against family 3A proteins specifically inhibited corticosterone 6 beta-hydroxylase activity. Microsomes from A6 cells analyzed on immunoblots developed with family 3A specific antibodies revealed immunoreactive proteins and treatment of A6 with corticosterone or dexamethasone increased the amounts of 3A immunoreactive protein(s). Furthermore, A6 RNA hybridized with 3A cDNAs on Northern blots and genomic DNA from A6 cells hybridized with a 3A cDNA on a Southern blot. Thus, toad kidney A6 cells express a family 3A P450 that is immunochemically, functionally, and genetically related to the mammalian liver 3A proteins. Prompted by these findings in amphibian kidney, we examined mammalian kidney for evidence of family 3A proteins. Immunocytochemical studies of frozen cryostat sections of normal adult rat kidney incubated with 3A1 antibody showed immunoreactivity only with collecting duct. Immunoblot analysis of human kidney microsomes found three protein bands representing 3A3/4, 3A5, and a 53-kDa Mr protein immunoreactive with human 3A antibody. An unexpected finding was the polymorphic expression of 3A3/4 in human kidney with only one of seven (14%) adult human kidneys tested expressing this protein while 3A5, a protein which is polymorphically expressed in adult human livers, was routinely present in the adult human kidney samples tested. Since human fetal liver contains a family 3A P450 we examined human fetal kidney microsomes by immunoblot analysis with human liver 3A antibody and found expression of a protein tentatively identified as 3A7. Thus, like A6 amphibian cells, family 3A P450 proteins and mRNAs are prominent, functional components in the kidney of mammals, including man.     

The effect of decentralisation or chronic hypogastric nerve stimulation in vivo on the innervation and responses of the guinea-pig vas deferens

Summary The physiological, pharmacological and morphological characteristics of guinea-pig vas deferens supplied by hypogastric nerves rendered inactive by decentralisation were compared with those of vas deferens in which the nerve supply had been chronically stimulated for 3–9 days using implanted electrodes. No change was seen in decentralised preparations prior to 7 days, but from 8–15 days, increased sensitivity to application of noradrenaline in vitro was observed, which was shown to be related to reduced transmitter uptake by nerve terminals as well as to an increase in postjunctional sensitivity; there was also increased fatigability 7–14 days following decentralisation. Continuous stimulation of hypogastric nerves at 2 Hz for 4–8 h daily for 4–8 days resulted in enhanced transmitter uptake and reduced responses to noradrenaline; this was associated with a slight increase in noradrenaline content and a faster adrenergic neuromuscular response with a shorter latency. No appreciable changes in nerve or muscle structure studied by electron microscopy were observed following decentralisation, but there was an increase of between 12.5 and 29.6% in the number of close (< 100 nm) neuromuscular junctions following chronic stimulation for 8 days.     

The mammalian myotome: a muscle with no innervation

SUMMARY The segmented muscular myotome is the first muscle to form in all vertebrates. In fish and amphibian embryos, the myotome becomes innervated very early and is essential for larval swimming. Its role in birds and mammals, however, is not clear. Using immunohistochemistry on sections and whole mounts of rat embryos, we demonstrate that the mammalian myotome differentiates and develops over a period of 3 days without being invaded by the outgrowing spinal nerves. In contrast, the limb muscle masses become filled with fine nerve branches from the first time that myocyte differentiation can be detected. Additionally, we show that the mammalian myotome does not express clustered acetylcholine receptors until after embryonic day 13.5, which corresponds to the beginning of its transformation into the adult epaxial muscles, showing that there are no functional myotomal neuromuscular junctions before this age. We suggest that the mammalian myotome has entirely lost the function of neurally controlled muscular contraction: its remaining functions are likely to be as a signaling tissue, as a structural scaffold, and as an incubator for myogenic precursors of the deep back, abdominal, and intercostal muscles.