Tissue distribution of neutral endopeptidase 24.11 (‘enkephalinase’) activity in guinea pig trachea

The distribution of neutral endopeptidase 24.11 (NEP; 'enkephalinase') activity was studied on tissue sections of the guinea pig trachea using a histochemical method based on the catalytic activity of the enzyme. The specificity for NEP of the histochemical reaction was verified by application of an array of peptidase inhibitors. NEP activity was most prominent on the respiratory epithelium, but occurred also in submucous glands, connective tissue of the lamina propria, perichondrium and chondrocytes. The findings suggest that NEP in the trachea is involved in various functions, cleavage of neurally released peptides being only one of them.     

Differential response of neutral endopeptidase 24.11 (“enkephalinase”), and cholinergic and opioidergic markers to hypoglossal axotomy

Neutral endopeptidase 24.11 (NEP; “enkephalinase”) may inactivate a number of centrally active neuropeptides including the enkephalins and substance P. In most areas of the central nervous system, the cell types which express NEP activity are not known. The hypoglossal nucleus (N. XII) was selected as a model system to characterize the cytochemical localization of NEP. The effect of hypoglossal nerve axotomy upon the distribution of NEP activity in the hypoglossal nucleus was compared to the effect upon cholinergic markers, the muopiate receptor, and the enkephalins. By use of a fluorescence histochemical method, NEP was localized at all levels of N.XII to the soma and proximal processes of the majority of the apparent motor neurons in the nucleus. Fluorescent double-labeling studies revealed the presence of numerous enkephalinergic varicosities which localized to the neuropil surrounding NEP-stained motor neurons. To determine whether NEP was synthesized by these motor neurons, 18 rats received a unilateral transection of the hypoglossal nerve. A pronounced decrease in NEP staining in N.XII was observed on the operated side as early as 3 days following axotomy. This decrease persisted at all levels of the nucleus for about 5 weeks. By 7 weeks, the staining between the control and operated sides was indistinguishable. By contrast, there was no apparent change in the density or distribution of enkephalin-immunoreactive varicosities in five animals examined 6 to 32 days following axotomy. Radioligand binding of [³H]DAMGO to the μ-opiate receptor in N.XII was studied in 20 animals by quantitative autoradiography at 2, 6, and 11 days after axotomy. No significant changes in the level of radioligand binding to the μ-receptor were detected in response to axotomy. In contrast to the opiate system, the cholinergic enzymes choline acetyltransferase, acetylcholinesterase, and pseudocholinesterase showed a coordinate decrease in motor neuron-associated staining on the operated side of N.XII at 3 ,6 , and 11 days following axotomy which paralleled the decrease in NEP staining. By contrast, the lysosomal enzyme marker, acid phosphatase, showed a pronounced increase in staining on the operated side. The results of this study are consistent with the synthesis of NEP by cholinergic N.XII motor neurons and indicates that the enkephalins and NEP in N.XII are closely associated, but derive from separate neuronal populations. The widespread overlap in the distribution of NEP-stained motor neurons and enkephalinergic varicosities in N.XII provides additional anatomical support for a potential role for NEP in the inactivation of centrally active enkephalins. The apparently stable levels of the enkephalins and μ-opiate receptor after axotomy, in contrast to the coordinate decrease in cholinergic enzyme staining, suggest a differential regulation of the opiate and cholinergic systems in response to axotomy. © 1994 Wiley-Liss, Inc.     

Fluorescent histochemical localization of neutral endopeptidase-24.11 (enkephalinase) in the rat brainstem.

Characterization of the distribution of the peptide-degrading enzyme neutral endopeptidase-24.11 (E.C. 3.4.24.11; NEP; enkephalinase) in the rat brainstem was examined by means of a unique fluorescent histochemical method. Enzyme staining was completely blocked by three potent NEP inhibitors (thiorphan, phosphoramidon, and JHF-26) at a concentration of 50 nM, supporting the specificity of this method to visualize sites of NEP activity selectively. At all levels of the brainstem, NEP was localized to cell bodies, cell processes or terminal-like fields and was localized to more than 90 distinct nuclei or subnuclei. In the mesencephalon these included the central gray, cuneiform n., dorsal and lateral tegmental n., inferior colliculus, interpeduncular n., lateral and medial geniculate n., central linear raphe n., mesencephalic n. of the trigeminal nerve, mammillary nuclei, occulomotor n., red n., superior colliculus, ventral n. of the lateral lemniscus, substantia nigra-ventral tegmental area, and the zona incerta. In the pons, NEP staining was restricted to fewer regions or nuclei, including the dorsal and ventral cochlear n., facial n., motor trigeminal n., principal sensory trigeminal n., parabrachial nuclei, pontine n., the oral and caudal pontine reticular n., pontine olivary nuclei, several pontine tegmental nuclei, pontine raphe nuclei, and the trapezoid n. In the cerebellum, staining was localized largely to the granule cell layer of the cerebellar cortex. Scattered staining was observed in the molecular cell layer. The medulla contained extensive NEP staining localized to nuclei that included the ambiguous n., dorsal motor n. of the vagus, hypoglossal n., inferior olivary n., prepositus hypoglossus n., solitary tract n., nuclei of the spinal tract of the trigeminal n., and the lateral, medial, and superior vestibular nuclei. Nuclei of the medullary reticular formation that were also richly stained for NEP included the raphe magnus n., raphe obscurus n., raphe pallidus n., dorsal, lateral, and ventral reticular nuclei of the medulla, and the gigantocellular, lateral paragigantocellular, linear, paramedian and parvicellular reticular nuclei. The widespread distribution of NEP in the brainstem suggests the existence of a number of functional systems, including the pathways involved in the mechanisms of pain and analgesia, which are potential targets of NEP inhibitors. In most regions, the distribution of NEP closely overlapped with that reported for the enkephalins, and showed a more restricted overlap with the reported distribution of substance P.     

Fluorescent histochemical localization of neutral endopeptidase-24.11 (enkephalinase) in the rat spinal cord

The localization of neutral endopeptidase-24.11 (E.C. 3.4.24.11; enkephalinase) in rat spinal cord was investigated by a novel fluorescent histochemical method. Enkephalinase was localized by using a coupled enzyme assay based upon the sequential cleavage of the synthetic peptide substrate glutaryl-ala-ala-phe-4-methoxy-2-naphthylamide by enkephalinase and exogenous aminopeptidase M. Enzyme distribution was examined in segments from cervical, thoracic, lumbar, and sacral cord. At all spinal cord levels, enkephalinase was localized to discrete regions of the gray matter. The substantia gelatinosa displayed rich enkephalinase staining which overlapped the inner and outer zones of lamina II. A staining pattern similar to that observed in lamina II was observed in the spinal trigeminal nucleus in the medulla. In lamina III the enzyme was associated with small and medium-sized cells. Lamina IV showed staining associated with medium-sized and large cell bodies. The medial boundary of the dorsal gray of laminae IV and V had medium-sized fusiform cells which stained for enkephalinase. In the lateral reticulated areas of lamina V, enkephalinase reaction product was localized to scattered medium-sized and large cells compressed against the white matter of axon bundles. Staining in lamina VI was similar in appearance to lamina V. Enkephalinase reaction product was widely distributed in the ventral horn. Numerous ventral horn motor neurons of varied size and morphology in laminae VIII and XI stained richly for the enzyme. The enzyme was also localized to medium-sized and large cells in lamina X and to cells of the central cervical nucleus. The size and morphology of the cell types associated with the enzyme supported a neuronal association for enkephalinase. The regional distribution of the enzyme overlapped that of enkephalin- and substance-P rich regions of the spinal cord. These findings support a role for enkephalinase in the metabolic regulation of centrally acting neuropeptides.     

Immunocytochemical investigations of murine leukodystrophies. A study of the mutants ‘jimpy’ (jp) and ‘myelin deficient’ (mld)

Opioid peptides have been purified from large pooled samples of human cerebrospinal fluid. The purification steps involved chromatography on Sephadex G-10 and electrophoresis in agarose suspension. The purified material was further characterized by HPLC and radioimmunoassay. All procedures were guided by a specific radioreceptor assay. The Sephadex G10 fractionation yielded receptor activity in two discrete fractions, Fraction I (FI) and Fraction II (FII). A second Sephadex run of FII gave a partial resolution of two components, one of which was larger (FIIA). Electrophoresis resolved these fractions into several components, most of which showed a more basic behaviour than the enkephalins. Thus, FI separated into at least 4 components and FIIB into two components while FIIA remained a single peak. These components appeared to migrate as distinct peaks and some of them also chromatographed on a HPLC-column as single components. Considering their behaviour in electrophoresis and on HPLC, two components are suggested to represent known endorphin structures. The predominant FII component (FIIA) was thus indistinguishable from Met-enkephalin-Lys6 in all chromatographic systems and one of the most basic FI components showed close similarity with dynorphin. Each of these components occurs at a higher concentration than Met- or Leu-enkephalin, dynorphin or beta-endorphin.     

The intermediolateral nucleus: an ‘open’ or ‘closed’ nucleus?

The sympathetic preganglionic neurons located in the intermediolateral nucleus (IML) that project to the superior cervical ganglion of the rabbit were observed to have two major dendritic orientations after retrograde labeling with horseradish peroxidase. One projection extends longitudinally within IML. The second projection courses medially and presents a triangular shape in horizontal sections. The labeled processes that project medially arise from cells in IML and project through the intercalated nucleus towards the central autonomic area and follow the contour of the central canal. Medially oriented dendrites intruding into other areas of the intermediate grey matter show that IML is an ‘open’ rather than a ‘closed’ nucleus as has been recently suggested. The location and distribution of the sympathetic preganglionic neurons projecting to the superior cervical ganglion in the rabbit are compared with those reported for other species.     

Assessment of progression and prognosis in ‘possible’ and ‘probable’ Alzheimer's disease

Objective. The objective of this study was to assess the rate of progression and clinical predictors of decline in subjects with ‘possible’ and ‘probable’ Alzheimer's disease (AD). Design/setting. The annual rate of change (ARC) for cognitive/functional scales was calculated for 95 subjects with AD attending a memory clinic. Two consecutive ARCs were calculated for a subgroup of 39 subjects. Results. The ARCs were relatively normally distributed; however, there was a large degree of variability. Neither age nor duration of symptoms at presentations were predictive of the rate of decline. However, the data suggested an effect of gender, with males having a greater rate of decline in cognition (p=0·02). Finally, the rate of progression over the first year did not predict the subsequent ARC (p=0·25). Conclusions. The high variability in ARCs observed in this study and poor correlation between consecutive ARCs suggest that neither mean ARC values nor the previous rate of decline can be used to aid clinicians in the assessment of response to acetylcholinesterase inhibitors or other specific treatments for AD. © 1998 John Wiley & Sons, Ltd.     

Distribution of endopeptidase-24.15 in rat brain nuclei using a novel fluorogenic substrate: comparison with endopeptidase-24.11

A novel fluorogenic substrate for the neutral metalloendopeptidase-24.15 (E.C.3.4.24.15; EP-24.15) was synthesized which allowed continuous assay of the enzyme. The substrate, Glutaryl-Phe-Ala-Ala-Phe-4-methoxynaphthylamide (G-FAAF-4MN) is cleaved at the Phe-Ala bond by EP-24.15 (Km = 0.026 mM). The product, AAF-4MN is subsequently hydrolyzed to its constituent amino acids and the potent fluorophore 4MN by aminopeptidase M. This method has allowed the measurement of the specific activity EP-24.15 within microdissected nuclei of rat brain. The enzyme was found to have a relatively broad distribution within brain nuclei, and the activity ranged from 15-80 nmol 4MN/mg prot/h in all areas examined. The activity of EP-24.15 was relatively high in the medial and lateral pre-optic nuclei, where potential substrates include the dynorphin-like peptides and LHRH. The activity of EP-24.15 was compared with that of endopeptidase-24.11 (E.C.3.4.24.11, 'enkephalinase', EP-24.11), another peptide-cleaving metalloenzyme. EP-24.11 appeared to have a much more narrow distribution, with very high specific activity in basal ganglia as well as in the supraoptic and suprachiasmatic nuclei.     

Tobacco smoking: From ‘glamour’ to ‘stigma’. A comprehensive review

In this narrative review, we explore the history of tobacco smoking, its associations and portrayal of its use with luxury and glamour in the past, and intriguingly, its subsequent transformation into a mass consumption industrialized product encouraged by advertising and film. Then, we describe the next phase where tobacco in parts of the world has become an unwanted product. However, the number of smokers is still increasing, especially in new markets, and increasingly younger individuals are being attracted to it, despite the well‐known health consequences of tobacco use. We also explore current smoking behaviors, looking at trends in the prevalence of consumption throughout the world, discrimination against smokers, light and/or intermittent smokers, and the electronic cigarette (e‐cigarette). We place these changes in the context of neuroscience, which may help explain why the cognitive effects of smoking can be important reinforcers for its consumption despite strong anti‐smoking pressure in Western countries.     

Neutral endopeptidase-24.11, μ and δ opioid receptors after selective brain lesions: an autoradiographic study

The cellular localization of the rat brain neutral endopeptidase (NEP, EC 3.4.24.11) was investigated by quantitative autoradiography of the enzyme inhibitor [3H]N-[(2RS)-3-hydroxyaminocarbonyl-2-benzyl-1-oxopropyl]glycine ([3H]HACBO-Gly) after lesions of the striatum, nigrostriatal and corticostriatal pathways. The effect of these lesions on NEP levels was compared with that on delta and mu opioid receptors, selectively labeled with [3H]Tyr-D-Thr-Gly-Leu-Thr ([3H]DTLET) and [3H]Tyr-D-Ala-Gly-MePhe-Glycinol ([3H]DAGO), respectively. Twenty-one days after injection of kainate in the caudate putamen (CP), the NEP level was locally decreased (52%) but the time course of this decrease was different from that of mu and delta opioid receptors: [3H]DAGO binding was diminished by 40% from day 2 whereas that of [3H]DTLET was reduced by 51% from day 7. Kainic acid injection in the CP induced in the globus pallidus (GP) and substantia nigra (SN) a distant reduction of the 3 opioid markers. Likewise after injection of colchicine in the CP, [3H]HACBO-Gly binding was decreased in the GP (60%) and SN (58%), [3H]DTLET binding was reduced by 54 and 55% in the GP and SN, respectively and [3H]DAGO labeling was diminished by 49% in the GP, and 58% in the SN. Finally, lesion of the nigrostriatal dopamine pathway by 6-hydroxydopamine did not induce any change of NEP level in the CP and GP whereas delta and mu opioid receptor levels were diminished respectively by 25 and 29% in the CP, and 45 and 39% in the GP, a new finding of the present study. Taken together these data suggest that NEP is in part associated with striatal intrinsic neurons. In the GP and SN, a large part of NEP seems to be presynaptically associated with nerve terminals endowed with mu and delta opioid receptors, which originate from efferent striatal neurons. In contrast to opioid receptors in the CP, the NEP appears not to be associated with dopaminergic nerve terminals originating from the SN. Cortical ablation did not affect any of the opioid markers.     

Involvement of endopeptidase-24.11 in degradation of substance P by glioma cells

C6 of rat glioma cells and their plasma membranes degrade substance P (SP). The degradation, occurring mainly through the cleavage of the Gln6-Phe7, Phe7-Phe8, and Gly9-Leu10 bonds, was strongly inhibited by phosphoramidon. Endopeptidase-24.11 (EC 3.4.24.11) purified from C6 cell membranes also cleaved SP at the same three peptide bonds in a manner sensitive to phosphoramidon. Thus, the degradation of SP by glioma cells and their membranes seems to be mediated by the action of endopeptidase-24.11.