Extraction and Partial Characterization of Enkephalin-Like Peptides from Splanchnic Nerve

A method is described for the extraction of enkephalin-like peptides from peripheral nerve using chloroform and acidic methanol to facilitate a differential extraction of peptides and lipid. Porcine splanchnic nerve contains enkephalin-like peptides in low amounts compared to porcine adrenal medulla and striatum. Gel filtration chromatography reveals the presence of enkephalin-like peptides in both processed and cryptic forms. This is the first reported isolation and partial characterization of these peptides in splanchnic nerve. The presence of these peptides in this nerve provides support for the contention that the splanchnic nerve can modulate catecholamine release from the adrenal medulla through an effect on opiate receptors located on chromaffin cells.     

NADH-dehydrogenase reaction in combination with immunoperoxidase (PAP) staining for light microscopic observation on the interneuronal relations of the enteric nervous system of the pig

A novel procedure for a simultaneous demonstration of particular enteric nerve cell types and peptidergic nerve fibres has been developed by combining the histochemical reaction for NADH-dependent dehydrogenase and the unlabelled antibody peroxidase-antiperoxidase (PAP) method described by Sternberger. Whole-mount spreads were successively incubated in a NADH: nitroblue tetrazolium solution, fixed with a picric acid/formaldehyde mixture, dehydrated, cleared and rehydrated before processing for immunocytochemical localization of the neuropeptide by the PAP method. The nerve cells appear heavily stained by deposits of dark blue formazan, whereas the peptide-containing nerves appear bright brown. In the myenteric and submucous plexuses of the porcine small intestine the devised method allows an appropriate identification of Dogiel's type I, type II and type III neurons surrounded by varicose enkephalin-like immunoreactive fibre baskets with button-like twigs to the very surface of the ganglionic cells, suggestive of synaptic connections.     

Localization of substance P- and enkephalin-like immunoreactivity in the human paravertebral sympathetic ganglia

The presence of substance P- and enkephalin-like immunoreactive nerve fibers and terminals is demonstrated in the human paravertebral sympathetic ganglia by an indirect immunofluorescence technique. Substance P-positive nerve structures appear in the form of fiber bundles, isolated varicose filaments and dot-like and basket-like nerve terminals around the neuronal cell bodies. Their density shows a remarkable individual variability. Enkephalin-positive nerve structures appear as isolated varicose filaments and dot-like nerve terminals, forming densely innervated patchy areas. No substance P- or enkephalin-containing cell bodies were detected. No overlapping seems to exist among the areas innervated by the two types of neuropeptides.     

Chromatographic identification of Met- and Leu-enkephalin in the human fetal spinal cord

Using the indirect immunofluorescence method, enkephalin-like immunoreactivity was visualized on human fetus spinal cord sections (gestational age from 17 to 25 weeks). Immunolabeled varicose fibers and terminal-like structures were seen through the whole length fetal spinal cord principally in the dorsal gray, in the intermediate gray and in the lateral funiculus. A few enkephalin-like immunoreactive cells were sometimes detected in the intermediate gray. Finally, some immunolabeled fibers were also visible in the ventral spinal cord especially proximate to the motor nuclei areas at the sacral level. Fetal spinal cord tissue extracts from the cervical thoracic and lumbosacral region were chromatographically analyzed using high pressure liquid chromatography in combination with the radioimmunoassay. This biochemical analysis indicates that authentic pentapeptides Met- and Leu-enkephalin may account for a large part (more than 90%) of the enkephalin-like immunoreactivity detected in the fetal spinal cord investigated. Taken together our results suggest that the biosynthetic processing of Met- and Leu-enkephalin in this tissue might be functional early before birth.     

Mapping of enkephalin-related peptides in the nervous system of the blowfly,Calliphora vomitoria,and their co-localization with cholecystokinin (CCK)- and pancreatic polypeptide (PP)-like peptides

Summary The distribution of enkephalin-like immunoreactive material has been studied in the CNS of C. vomitoria. The presence of both Met- and Leu-enkephalin-related peptides is suggested by differential immunostaining with a variety of antisera. Comparisons made between certain of the enkephalin-immunoreactive perikarya, nerve fibres and terminals with cells in corresponding positions as evidenced in previously published neuroanatomical studies of the dipteran brain have suggested specific enkephalinergic pathways. As examples, one Met-enkephalin-immunoreactive neuron appears to link the lobula with the dorsal protocerebrum, and a group of Leu-enkephalin cells in the pars intercerebralis appear to have arborisations in both the central body (fan-shaped body) and the tritocerebral neuropil around the oesophageal foramen. Neuronal pathways of this type indicate that the enkephalin-like peptides of the fly brain are functioning as neurotransmitters and/or neuromodulators. In the thoracic ganglia, symmetrically arranged cells, immunoreactive to both Met- and Leu-enkephalin antisera, are positioned ventrally in pairs on either side of the mid-line in a sagittal plane. Very little immunoreactive material is observed in the neuropil, however, and the source of the accumulation of Leu-enkephalin-immunoreactivity in the dorsal neural sheath is not certain. It is suggested that this material, in contrast to that present in areas of the brain, acts as a neurohormone and that it may have a physiological role following its release into the haemolymph. The enkephalin-like immunoreactive material of certain neurons identified within the brain and thoracic ganglion shows a complex pattern of co-existence with pancreatic polypeptide- and gastrin/cholecystokinin-like peptides.     

Opioid peptides in adrenal gland

Enkephalin-like immunoreactive peptides have been observed in adrenal glands of all species studied with the highest contents found in dogs and cows, and the lowest in rats. These peptides are located both in gland cells and in afferent nerve terminals. Bovine adrenal glands contain opioid peptides in many molecular forms. The peptides include a group of low molecular weight forms (M.W. <1000) which are capable of binding to the opiate receptor, and a group of high molecular weight forms (M.W. >1000) which contain enkephalin within their peptide sequence, but are devoid of opioid activity unless treated with trypsin. The physiological role(s) of the adrenal enkephalin-like material is not clear at present. However, it has been observed that nicotine-stimulated release of catecholamine from isolated chromaffin cells can be reduced by opiate agonists, suggesting that enkephalin-like peptide in nerve terminals may act on chromaffin cells. Several lines of evidence suggest that enkephalin-like peptides in gland cells can be released into the bloodstream.     

Evidence for the presence of nerve growth factor (NGF) and NGF receptors in human testis

Summary The co-localization of arginine vasopressin-and enkephalin-like immunoreactivities in nerve cells of the rat paraventricular hypothalamic nucleus and adjacent areas was investigated by the simultaneous application of immuno--galactosidase staining and the peroxidase-antiperoxidase method to sections. Arginine vasopressin-like immunoreactive cells were stained blue with immuno--galactosidase staining and enkephalin-like immunoreactive cells brown with the peroxidase-antiperoxidase method. Double-labeled cells with overlap of blue and brown immunoreaction products were identified in the anterior, medial, and lateral parvocellular parts of the paraventricular hypothalamic nucleus as well as in the previously indicated posterior magnocellular part. Other regions that contained double-labeled cells were the lateral hypothalamic area, anterior hypothalamic nucleus, area between the lateral hypothalamic area and anterior hypothalamic nucleus, suprachiasmatic nucleus, and bed nucleus of the stria terminalis, medial division, posterolateral part. These findings suggest that nerve cells with both arginine vasopressin- and enkephalin-like immunoreactivities may be more actively involved in neuroendocrine regulation and neural transmission than previously considered. They may provide a morphological basis for an increase in enkephalin-like immunoreactivity within the anterior pituitary in cases of hemorrhagic shock which is presumably accompanied by arginine vasopressin hypersecretion.Abbreviations AH anterior hypothalamic nucleus - ap anterior parvocellular part of the paraventricular hypothalamic nucleus - BSTMPL bed nucleus of the stria terminalis, medial division, posterolateral part - dp dorsal parvocellular part of the paraventricular hypothalamic nucleus - f fornix - LH lateral hypothalamic area - lp lateral paryocellular part of the paraventricular hypothalamic nuclcus - mp medial parvocellular part of the paraventricular hypothalamic nucleus - MPA medial preoptic area - pm posterior magnocellular part of the paraventricular hypothalamic nucleus - pv periventricular part of the paraventricular hypothalamic nucleus - SC suprachiasmatic nucleus - Zi zona incerta     

Met5]-enkephalin-like peptides of the adrenal medulla: release by nerve stimulation and functional implications

In adrenal chromaffin cells, various molecular forms of polypeptides cross-reacting with [met5]-enkephalin antisera are stored in granules together with catecholamines and soluble proteins. Splanchnic nerve stimulation increases the release of enkephalin-like peptides from the adrenal gland into the adrenal vein. The release of these peptides appears to be mediated by a cholinergic nicotinic receptor. Fractionation of plasma extracts on Bio-gel P-2 shows the presence of only low molecular weight peptides in the resting condition. The low molecular weight fraction contains mainly [met5]-enkephalin and [leu5]-enkephalin. When the splanchnic nerve is stimulated high and low molecular weight peptides are released and the amount of low molecular weight peptides in plasma is increased. The content of enkephalin-like peptides in adrenal venous plasma was similar in control and reserpinized dogs. Splanchnic nerve stimulation increased the peptide content but not the epinephrine content of plasma in reserpinized dogs. This also caused a fall of arterial blood pressure which could be prevented by pretreatment with naloxone. A decrease in blood pressure was also directly elicited by the injection of [met5]-enkephalin-[arg6-phe7]. The duration of the hypotensive effect of this peptide was prolonged by prior injection of captopril.     

Appearance of enkephalin-immunoreactivity in rat adrenal medulla following treatment with nicotinic antagonists or reserpine

Various neuroendocrine factors known to be important in the regulation of adrenal catecholamine biosynthesis were investigated for possible effects on enkephalin-like immunoreactivity (Enk-IR) in the adrenal medulla of the rat. In normal rats, the adrenal chromaffin cells were not stained for either methionine (met-) or leucine (leu-) Enk-IR. Staining for Enk-IR appeared in many chromaffin cells following denervation of the adrenal or treatment of rats with the nicotinic receptor antagonists chlorisondamine or pempidine. These observations suggest that splanchnic nerve activity normally depresses the levels of enkephalin-like peptides in chromaffin cells through a trans-synaptic mechanism involving acetylcholine release and nicotinic receptor stimulation. Paradoxically, treatment with reserpine also increased Enk-IR in chromaffin cells. However, this increase did not appear to result from the well known effect of reserpine to increase presynaptic nerve firing and tyrosine hydroxylase (TOH) activity, since no increase in Enk-IR was observed following treatment with phenoxybenzamine or 6-hydroxydopamine, drugs which also increase TOH activity through trans-synaptic mechanisms. The reserpine effect also did not appear to be mediated by a stress-induced increase in glucocorticoid hormones since glucocorticoid therapy alone did not increase adrenal Enk-IR. It is suggested that the increase in adrenal Enk-IR following reserpine may result from a direct action of reserpine on chromaffin cells.     

Enkephalin-like immunofluorescence in nerves of the rat iris following systemic capsaicin injection

A network of nerve fibers with an enkephalin-like immunoreactivity was demonstrated in rat iris whole mounts. Systemic administration of capsaicin in doses which caused partial (5 mg/kg) or complete (50 mg/kg) disappearance of substance P-containing fibers in the iris did not cause degeneration of enkephalin-positive nerve fibers. The enkephalin-immunoreactive network seemed intact also after a capsaicin dose of 250 mg/kg. In fact, the fluorescence intensity of the nerve fibers showing enkephalin-immunoreactivity was often increased three days after a capsaicin injection in a dose of 50 mg/kg. The mechanism behind this effect of capsaicin remains to be elucidated, but could be due either to a direct effect on the enkephalin-positive nerves or involve the disappearance of substance P nerves and/or a simultaneous inflammatory response. However, an increased fluorescence intensity of the enkephalin-immunoreactive fibers was sometimes seen also without capsaicin treatment.     

Enkephalin immunoreactivity in iris nerves: Distribution in normal and grafted irides,persistence and enhanced fluorescence after denervations

Summary The morphology and distribution of nerve fibers showing enkephalin-like immunoreactivity was studied in rat and mouse iris whole mounts. In adult rat, a relatively dense network of varicose fibers was seen throughout the iris. Individual, long, usually smooth fibers were observed running together with non-fluorescent fibers in bundles. Positive nerve fibers were also seen in the ciliary body and the choroid membrane. The fluorescence intensity was normally low. No enkephalin-positive fibers were detected in adult mouse iris.Extirpation or lesioning either one or all the three ganglia known to supply the rat iris with nerve fibers, the superior cervical, the ciliary and the trigeminal ganglia, caused no detectable decrease in amount of enkephalin-positive fibers. However, in irides grafted to the anterior eye chamber of adult recipients, no enkephalin-positive fibers could be observed 2–12 days postoperatively, strongly suggesting that degeneration of these fibers had occurred. When iris grafts were left longer in the eye, nerve fibers with enkephalin-like immunoreactivity reappeared. An increased fluorescence intensity was observed both in the ipsilateral and contralateral iris following extirpation or lesioning all three ganglia and in the ipsilateral iris after extirpation of the ciliary ganglion. Three days after a systemic injection of capsaicin, which causes a permanent disappearance of substance P fibers, the same phenomenon was often observed. This raises the possibility of an interaction between the enkephalin-positive and the substance P fiber systems in the iris.The present experiments thus demonstrate a rich network of enkephalin immunoreactive nerve fibers in the rat iris originating outside the iris but apparently not in the ciliary, trigeminal or superior cervical ganglion.     

Enkephalin immunoreactivity in iris nerves: distribution in normal and grafted irides, persistence and enhanced fluorescence after denervations

The morphology and distribution of nerve fibers showing enkephalin-like immunoreactivity was studied in rat and mouse iris whole mounts. In adult rat, a relatively dense network of varicose fibers was seen throughout the iris. Individual, long, usually smooth fibers were observed running together with non-fluorescent fibers in bundles. Positive nerve fibers were also seen in the ciliary body and the choroid membrane. The fluorescence intensity was normally low. No enkephalin-positive fibers were detected in adult mouse iris. Extirpation or lesioning either one or all the three ganglia known to supply the rat iris with nerve fibers, the superior cervical, the ciliary and the trigeminal ganglia, caused no detectable decrease in amount of enkephalin-positive fibers. However, in irides grafted to the anterior eye chamber of adult recipients, no enkephalin-positive fibers could be observed 2-12 days postoperatively, strongly suggesting that degeneration of these fibers had occurred. When iris grafts were left longer in the eye, nerve fibers with enkephalin-like immunoreactivity reappeared. An increased fluorescence intensity was observed both in the ipsilateral and contralateral iris following extirpation or lesioning all three ganglia and in the ipsilateral iris after extirpation of the ciliary ganglion. Three days after a systemic injection of capsaicin, which causes a permanent disappearance of substance P fibers, the same phenomenon was often observed. This raises the possibility of an interaction between the enkephalin-positive and the substance P fiber systems in the iris.(ABSTRACT TRUNCATED AT 250 WORDS)     

Light and electron microscopic immunocytochemistry of proenkephalin-derived peptides in septal neurons

Specific antibodies against different opioid peptides derived from proenkephalin were used in light and electron microscopic studies to locate septal enkephalin-containing cells. Immunoreactive neurons were demonstrated only after pretreatment of the animals with colchicine. They were found in all three subdivisions of the lateral septal nucleus and in the ventral limb of the nucleus of the diagonal band. The medial septal nucleus and the dorsal limb of the nucleus of the diagonal band were devoid of immunoreactive cells. Electron microscopy showed intracellular enkephalin-like immunoreactivity with all antisera used in this study. The reaction was found in the cytoplasm, sometimes associated with the rough endoplasmic reticulum. Numerous enkephalin-immunoreactive nerve terminals and fibres were detected in the lateral septal nucleus, but axon terminals making contacts with enkephalin-immunoreactive neurons did not contain enkephalin-like immunoreactivity. The results suggest that some septal neurons synthesise proenkephalin. These cells may be either local interneurons or output cells to areas which receive innervation from the septal complex.     

Distribution of substance p-like immunoreactivity in nerves of the gastrointestinal tract of the frog Rana esculenta L.

Summary Substance P-like immunoreactivity in the alimentary canal of the frogRana esculenta L. was studied by means of the indirect immunoperoxidase method. In all segments of the gastrointestinal tract, immunoreactivity was revealed in both the myenteric and the submucosa plexus. Stained nerve cells were observed in the myenteric plexus but not in the submucous plexus. The proximal part of the oesophagus and hindgut were free of immunoreactive perkarya. The stained nerve cells were of the Dogiel type I category in the foregut, and type II in the midgut. Both the musculature and gastrointestinal glands were supplied with immune-positive fibres. These results indicate that substance P may play similar roles in the frog gut, as described previously in mammals and fish.     

Enkephalin-like immunoreactivity in the pedal ganglion of Mytilus edulis (Bivalvia) and its proximity to dopamine-containing structures

The presence of enkephalin-like immunoreactivity in the pedal ganglion of the bivalve mollusc Mytilus edulis has been demonstrated. Enkephalin-like immunoreactivity is highly localized in those intraganglionic regions rich in dopamine-containing structures. In addition, FMRF-NH2-like (Phe-Met-Arg-Phe-HN2) immunoreactivity was found to occur in intraganglionic regions that are devoid of enkephalin-like immunoreactivity. The differential topographic distribution of these peptidergic immunoreactivities suggests involvement in separate functions. By contrast, the closeness of enkephalin-like immunoreactivity to dopamine histofluorescence supports previous data demonstrating biochemical and physiological links between these two systems.     

Immunohistochemical localization of the catecholamine-synthesizing enzymes,substance P and enkephalin in the human fetal sympathetic ganglion

Summary The human fetal sympathetic ganglia were studied using the indirect peroxidase-antiperoxidase PAP method for immunocytochemical demonstration of three catecholamine-synthesizing enzymes, tyrosine hydroxylase (TH), dopamine--hydroxylase (DBH) and phenylethanolamine-N-methyltransferase (PNMT) as well as the neuropeptides leucine (Leu⁵)-enkephalin and substance P. The neuroblasts of the ganglia showed intense peroxidase immunoreactivity for TH, moderate reaction to DBH, and no reaction to PNMT. The small intensely fluorescent (SIF) cells situated along the blood vessels also showed positive labelling for only two enzymes, TH and DBH. The immunocytochemical localization of these enzymes suggests that both neuroblasts and SIF cells synthesize noradrenalin. Neither the neuroblasts nor SIF cells showed a reaction to substance P, and only the SIF cells contained enkephalin-like immunoreactivity. The role of enkephalin in the noradrenalin-containing SIF cells is unknown, but may be related to neuromodulation of ganglionic transmission.     

The first branch of the lateral plantar nerve and heel pain

The course and ramification pattern of the lateral plantar nerve was studied in serial sections from 4 fetal feet and in dissections from 34 adult feet with special reference to the so called first branch. This branch was found in all of the observed fetal and adult specimen. From its originating point the nerve runs immediately distally to the medial process of the calcaneal tuberosity in a lateral direction to the proximal part of the abductor digiti minimi muscle. During its course the FB gives two branches. One of them penetrates sometimes the insertion of the quadratus plantae muscle, whereas in adult feet it always sends fibres to the periosteum around the medial process of the calcaneal tuberosity and the long plantar ligament. The other innervates the flexor digitorum brevis muscle. The site of a possible entrapment is located between the abductor hallucis muscle and the medial head of the quadratus plantae muscle. There is strong indirect evidence that the nerve is of a mixed type consisting of sensory fibres for the calcaneal periosteum and the medial head of the quadratus plantae muscle. There is strong indirect evidence that the nerve is of a mixed type consisting of sensory fibres for the calcaneal periosteum and the long plantar ligament as well as motor fibres for the quadratus plantae, flexor digitorum brevis and abductor digiti minimi muscles, which may explain the characteristic pain complaints of the heel pain syndrome. The occurrence of a stiff fascia perforated by the nerve branch or a bursa around the insertion of the plantar aponeurosis as has been described by several authors and which was put forward as a possible aetiological factor could not be confirmed in our material.     

Co-localization of vasoactive intestinal peptide (VIP) and enkephalins in chromaffin cells of the adrenal gland of amphibia. Stimulation of corticosteroid production by VIP

Recent studies have shown that biologically active peptides and monoaminergic neurotransmitters coexist in certain neuronal cell populations. Using the immunofluorescence technique, we have examined the localization of enkephalins, vasoactive intestinal peptide (VIP) and tyrosine hydroxylase in the adrenal gland of the frog Rana ridibunda. Most chromaffin cells which stained for tyrosine hydroxylase contained VIP-like immunoreactivity, whereas methionine- (Met-) and leucine- (Leu-) enkephalin-like immunoreactivity was detected in about 40% of the cells revealed by the anti-tyrosine hydroxylase serum. No VIP- or enkephalin-like immunoreactive nerve fibres were observed. Since in the frog, the chromaffin cells are in close contact with the adrenocortical (interrenal) tissue, a possible action of VIP and opiates on corticosteroidogenesis has been investigated. At doses 10(-6) and 10(-5) M, 20-min infusions of synthetic porcine or chicken VIP elicited a significant increase in corticosterone and aldosterone production by perifused frog adrenals, in a dose-dependent manner. As compared to ACTH, VIP was several orders of magnitude less effective in stimulating corticosteroid production. Morphine, Met- and Leu-enkephalins (10(-5) M) had no effect on spontaneous secretion of corticosteroids. In addition, Met- and Leu-enkephalins (10(-5) M) did not alter the production of corticosterone induced by ACTH. THese results suggest that VIP contained in the chromaffin cells of the frog adrenal gland may exert a local action in stimulating corticosteroid production by the interrenal tissue.     

Localization of enkephalins in adrenaline cells and the nerves innervating adrenaline cells in rat adrenal medulla

The coexistence of met5- and leu5-enkephalin-like immunoreactivities with catecholamines in the rat adrenal medulla was studied with combined fluorescence microscopy and immunocytochemistry. Both met5- and leu5-enkephalin-like immunoreactivities were localized in few heavily stained adrenaline cells and in a population of nerves innervating adrenaline cells and as well as ganglion cells among the adrenaline cells. Only occasionally single noradrenaline cells exhibited light immunostaining for both enkephalins but no positive fibers could be found around the noradrenaline cells. In electron microscope the immunoreaction was seen in the granules of the adrenaline cells and in the large synaptic vesicles of the nerve terminals around the adrenaline cells. The present findings suggest that enkephalin-like immunoreactivity coexists mainly with adrenaline in rat adrenal medulla and that the enkephalin immunoreactive terminals regulate secretion of adrenaline from rat adrenal medulla.     

Localization of enkephalins in adrenaline cells and the nerves innervating adrenaline cells in rat adrenal medulla

Summary The coexistence of met5- and leu5-enkephalinlike immunoreactivities with catecholamines in the rat adrenal medulla was studied with combined fluorescence microscopy and immunocytochemistry. Both met5- and leu5-enkephalin-like immunoreactivities were localized in few heavily stained adrenaline cells and in a population of nerves innervating adrenaline cells and as well as ganglion cells among the adrenaline cells. Only occasionally single noradrenaline cells exhibited light immunostaining for both enkephalins but no positive fibers could be found around the noradrenaline cells. In electron microscope the immunoreaction was seen in the granules of the adrenaline cells and in the large synaptic vesicles of the nerve terminals around the adrenaline cells. The present findings suggest that enkephalin-like immunoreactivity coexists mainly with adrenaline in rat adrenal medulla and that the enkephalin immunoreactive terminals regulate secretion of adrenaline from rat adrenal medulla.