Occurrence of met-enkephalin,met-enkephalin-Arg6-Phe7 and met-enkephalin-Arg6-Gly7-Leu8 in gastrin cells of hog antral mucosa

Summary Region-specific antisera to three enkephalins: met-enkephalin, met-enkephalin-Arg⁶-Phe⁷ and met-enkephalin-Arg⁶-Gly⁷-Leu⁸, together with four region specific antisera to progastrin: C-terminal G17 specific, N-terminal G34 specific, cryptic peptides A- and B-specific, were used in immunohistochemical studies of hog antral mucosa. A sub-population (6–10%) of the gastrin-containing endocrine cells (G-cells) was found to react with antisera to met-enkephalin, met-enkephalin-Arg⁶-Phe⁷ and met-enkephalin-Arg⁶-Gly⁷-Leu⁸. About 30% of all the enkephalin-containing cells were identified as G-cells. The results indicate that a fraction of G-cells produces both enkephalin-like peptides and gastrin.     

Existence of Met-enkephalin-Arg6-Gly7-Leu8 with Met-enkephalin,Leu-enkephalin and Met-enkephalin-Arg6-Phe7 in the brain of guinea pig,rat and golden hamster

High performance liquid chromatography (HPLC) coupled with specific radioimmunoassays for methionine-enkephalin-Arg⁶-Gly⁷-Leu⁸ (Met-E-Arg⁶-Gly⁷-Leu⁸), methionine-enkephalin (Met-E), leucine-enkephalin (Leu-E) and methionine-enkephalin-Arg⁶-Phe⁷ (Met-E-Arg⁶-Phe⁷) has demonstrated that Met-E-Arg⁶-Gly⁷-Leu⁸ exists together with Met-E, Leu-E and Met-E-Arg⁶-Phe⁷ in the brain of guinea pig, rat and golden hamster. The content of Met-E-Arg⁶-Gly⁷-Leu⁸ was comparable to those of Leu-E and Met-E-Arg⁶-Phe⁷, whereas that of Met-E was the highest among the four opioid peptides. These results are compatible with the recent studies on the nucleotide sequence of cloned cDNA for preproenkephalin from bovine adrenal medulla, which reveal that this precursor molecule contains four copies of Met-E and one copy each of Leu-E, Met-E-Arg⁶-Phe⁷ and Met-E-Arg⁶-Gly⁷-Leu⁸. The co-existence of Met-E-Arg⁶-Gly⁷-Leu⁸ with Met-E, Leu-E and Met-E-Arg⁶-Phe⁷ suggests that their biosynthetic pathway in the brain is similar to that in the adrenal medulla.     

Distribution and functional significance of Met-enkephalin-Arg6-Phe7-and Met-enkephalin-Arg6-Gly7-Leu8-like peptides in the blowflyCalliphora vomitoria

Summary Neuronal pathways in the retrocerebral complex and thoracico-abdominal ganglionic mass of the blowflyCalliphora vomitoria have been identified immunocytochemically with antisera against the extended-enkephalins, Met-enkephalin-Arg⁶-Phe⁷ (Met-7) and Met-enkephalin-Arg⁶-Gly⁷-Leu⁸ (Met-8). Neurons of the hypocerebral ganglion, immunoreactive to Met-8, have axons in the crop duct nerve and terminals in muscles of the crop and its duct. Certain neurons of the hypocerebral ganglion are also immunoreactive to Met-7, and axons from these cells innervate the heart. Met-8 immunoreactive nerve terminals invest the cells of the corpus allatum. The source of this material is believed to ve a single pair of lateral neurosecretory cells in the brain. There is no Met-7 immunoreactive material in the corpus allatum. In the corpus cardiacum neither Met-7 nor Met-8 immunoreactivity is present in the cells. However, in the neuropil of the gland certain fibres, with their origins elsewhere, do contain Met-8 immunoreactivity. The most prominent neurons in the thoracic ganglion are the Met-7 immunoreactive ventral thoracic neurosecretory cells, axons from which project to neurohaemal areas in the dorsal neural sheath and also, via the ventral connective, to the brain. Co-localisation studies show that the perikarya of these cells are immunoreactive to antisera raised against several vertebrate-type peptides, such as Met-7, gastrin/cholecystokinin and pancreatic polypeptide. However, their axons and terminals show varying amounts of the peptides, suggesting differential transport and utilisation. Only a few cells in the thoracic ganglion are immunoreactive to Met-8 antisera. These lie close to the nerve bundles suppling the legs. In the abdominal ganglion, Met-8 immunoreactive neurons project to the muscles of the hindgut. This study suggests that the extended enkephalin-like peptides ofCalliphora may have a variety of different roles: as neurotransmitter or neuromodulator substances; in the direct innervation of effector organs; and as neurohormones.     

Distribution and functional significance of Met-enkephalin-Arg6-Phe7- and Met-enkephalin-Arg6-Gly7-Leu8-like peptides in the blowfly Calliphora vomitoria

Summary Neuronal pathways immunoreactive to antisera against the extended-enkephalins, Met-enkephalin-Arg⁶-Phe⁷ (Met-7) and Met-enkephalin-Arg⁶-Gly⁷-Leu⁸ (Met-8), have been identified in the brain of the blowfly Calliphora vomitoria. Co-localisation with other enkephalins in certain neurons suggests that a precursor similar to preproenkephalin A exists in insects and that differential enzymatic processing occurs as in vertebrates. Co-localisations of the extended-enkephalin-like peptides with other vertebrate-type peptides, including cholecystokinin and pancreatic polypeptide, also occur. The enkephalinergic pathways are specific, comprising a few groups of highly characteristic neurons and areas of neuropil. Of special interest is the finding that parts of the antennal chemosensory and the optic lobe visual systems contain Met-8 immunoreactive neurons. Within the median neurosecretory cell groups, some of the giant neurons show immunoreactivity to Met-8 and others to both Met-8 and Met-7. Fibres from these cells project to the corpus cardiacum and also to the suboesophageal ganglion, where arborisations occur in the tritocerebral neuropil. Co-localisation studies of these cells have shown that at certain terminals, one particular type of peptide is the dominant neuroregulator, whilst at other terminals, within the same cell, a different co-synthesised peptide predominates. Several groups of lateral neurosecretory cells show clearly defined enkephalinergic pathways, most of which have connections with the central body. The complex patterns of immunoreactivity seen in terminals in the different parts of the central body, suggest an important role for the enkephalin-like peptides in the integration of multimodal sensory inputs. The physiological functions of the extended-enkephalin-like peptides in the brain of Calliphora is still unknown, but the anatomical evidence suggests they may have a role similar to that in mammals, where they are thought to control aspects of feeding behaviour.     

Coexistence of catecholamine and methionine enkephalin-Arg6-Gly7-Leu8 in neurons of the rat ventrolateral medulla oblongata

Summary An overlapping distribution of catecholamine-containing cells and proenkephaline—A derived peptide-containing neurons have been identified in the rat medulla oblongata. However, it is not evident whether the coexistence of these bioactive substances occurs in the same neurons or not. Therefore, we examined the coexistence of catecholamine and methionine-enkephalin-Arg⁶-Gly⁷-Leu⁸ (MEAGL), a proenkephaline—A derived peptide, using a combination of histofluorescence and peroxidase-anti-peroxidase (PAP) immunohistochemical (modified formaldehyde-glutalaldehyde (Faglu)) methods on the same tissue sections. We found one third of A1/C1 catecholamine fluorescent cells show MEAGL-like immunoreactivity.     

Substance P degrading systems of rat parotid and hypothalamus

Inactivation of substance P and its C-terminal hexapeptide analog [p-Glu⁶]substance P6–11 was studied in rat parotid and hypothalamic slices. It was found that in the parotid slice system the decay of substance P induced K⁺ release occurs concurrently with a decrease in the biologically active concentration of the peptide in the medium. The inactivation was further studied using [p-Glu⁶]substance P6–11 as substrate in the parotid and in the hypothalamic slice systems. In both tissue preparations the hexapeptide is degraded to small peptide fragments by metalloendopeptidase. Separation of the peptide fragments by high performance liquid chromatography and determination of their amino acid composition showed that in the hypothalamic slice system the major cleavage of the hexapeptide analog occurs between Phe⁸-Gly⁹ with minor cleavage sites between Phe⁷-Phe⁸ and Gly⁹-Leu¹⁰. In the rat parotid slice system the major cleavage occurs between Gly⁹-Leu¹⁰ with a minor cleavage site between Phe⁷-Phe⁸. The degradation of the hexapeptide analog in the hypothalamic system was inhibited 77% and 67% by treatment with 1 mM p-chloromercuriphenylsulfonate and p-chloromercuribenzoate, respectively, whereas in the parotid system these reagents inhibited the degradation of the hexapeptide only by 15% and 8%. These results may indicate that different proteases in the parotid and hypothalamus are involved in degradation of substance P. Kinetic studies, including the use of various inhibitors as well as competition by the peptide hormones somatostatin, LHRH, TRH and Leu-enkephalin-NH₂, revealed that in both tissues the hexapeptide analog is a preferred substrate for degradation by protease of considerable specificity towards the C-terminal sequence of substance P. It is suggested that this metalloendopeptidase may be important in the termination of the substance P response.     

Occurrence of immunoreactive enkephalins in a neurohemal organ and other nervous structures in the eyestalk of the shore crab,Carcinus maenas L. (Crustacea,Decapoda)

Summary Light-microscopical observations with immunofluorescence and peroxidase staining procedures revealed leu-enkephalin-like immunoreactivity in axon profiles of the sinus gland (SG) and in single small neurons in the optic ganglia of the eyestalk of Carcinus maenas. Electron microscopy of the SG showed reactivity to be associated with neurosecretory granules 82±23 nm in diameter. High performance liquid chromatography of SG-extracts revealed radioimmunoreactive substances with the retention times of synthetic met- and leu-enkephalin and met-enkephalin-Arg⁶-Phe⁷, respectively.     

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.     

Substrate Specificity of a Novel Alcohol Resistant Metalloproteinase,Vimelysin, from Vibrio sp. T1800

Vimelysin is a novel alcohol resistant metalloproteinase from Vibrio sp. T1800. The substrate specificity of vimelysin was studied by using natural and furylacryloyl dipeptide substrates. Vimelysin cleaved mainly Pro⁷-Phe⁸ bond and slightly Tyr⁴-Ile⁵ bond in human angiotensin I. Vimelysin also cleaved mainly Phe²⁴-Phe²⁵ and Tyr¹⁶-Leu¹⁷ bonds, and slightly His⁵-Leu⁶, His¹⁰-Leu¹¹, Ala¹⁴-Leu¹⁵, and Gly²³-Phe²⁴ bonds in oxidized insulin B-chain. The substrate specificity of vimelysin, by using furylacryloyl (Fua) dipeptides were also studied. The ratio of k_cat/K_m for Fua-Gly-Phe-NH₂/Fua-Gly-Leu-NH₂, Fua-Phe-Leu-NH₂/Fua-Gly-Leu-NH₂, and Fua-Phe-Phe-NH₂/Fua-Gly-Leu-NH₂ were 15.9, 27.8, and 59.0, respectively. These results indicate that vimelysin easily recognizes phenylalanine in P1′ positions, which is different from thermolysin.     

Characterization of kappa1 and kappa2 opioid binding sites in frog (rana esculenta) brain membrane preparation

The distribution and properties of frog brain kappa-opioid receptor subtypes differ not only from those of the guinea pig brain, but also from that of the rat brain. In guinea pig cerebellum the kappa₁ is the dominat receptor subtype, frog brain contains mainly the kappa₂ subtype, and the distribution of the rat brain subtypes is intermediate between the two others. In competition experiments it has been established that ethylketocyclazocine and N-cyclopropylmethyl-norazidomorphine, which are nonselective kappa-ligands, have relatively high affinities to frog brain membranes. The kappa₂ ligands (Met⁵)enkephalin-Arg⁶-Phe⁷ and etorphine also show high affinities to the frog brain. Kappa₁ binding sites measured in the presence of 5 M /D-Ala²-Leu⁵/enkephalin represent 25–30% of [³H]ethylketocyclazocine binding in frog brain membranes. The kappa₂ subtype in frog brain resembles more to the mu subtype than the delta subtype of opioid receptors, but it differs from the mu subtype in displaying low affinity toward beta-endorphin and /D-Ala²-(Me)Phe⁴-Gly⁵-ol/enkephalin (DAGO). From our data it is evident that the opioid receptor subtypes are already present in the amphibian brain but the differences among them are less pronounced than in mammalian brain.Abbreviations used DAGO /D-Ala²-(Me)Phe⁴-Gly⁵-ol/enkephalin - DALE /D-Ala²-L-Leu⁵/-enkephalin - EKC ethylketocyclazocine - DHM dihydromorphine - CAM N-cyclopropylmethylnorazidomorphine - nor-BNI nor-binaltorphimine - MR2034 (-)-(1R,5R,9R)-5, 9-dimethyl-2 (L-tetrahydrofuryl-2'-hydroxy-6,7benzomorphan) - MR2035 (+)-(1R,5R,9R)-5,9-dimethyl-2 (L-tetrahydrofuryl-2'-hydroxy-6,7-benzomorphan), U50488H=3,4-dichloro-N-/2-(1-pyrrolidinyl) —cyclohexo/-benzene-acetamide - PD117302 trans-N-methyl-N-/2-(1-pyrrolidinyl) — cyclohexyl/-benzo (b) thiophene-4-acetamide     

Presence of the Novel Pituitary Protein „7B2” in Bovine Chromaffin Granules: Possible Co-Release of 7B2 and Catecholamine as Induced by Nicotine

We observed the presence of the novel pituitary protein "7B2" and its release in the bovine adrenal medulla. The 7B2 concentration (mean +/- SEM) in extracts of the bovine adrenal medulla was 952 +/- 155 pg/mg tissue (n = 6). 7B2 was distributed in the chromaffin granule fraction prepared from the bovine adrenal medulla and was released by high K+ and/or nicotine from cultured cells of the bovine adrenal medulla. Co-release of 7B2 with catecholamine induced by nicotine from the cultured bovine chromaffin cells was also observed. In an analysis of the bovine adrenal medulla chromaffin granule fraction on gel permeation chromatography, there was a major peak with an apparent molecular weight of 45,000, whereas a major peak with an apparent molecular weight of 20,000 was found in that on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. On reverse-phase HPLC, a major peak with a retention time of 35 min was observed in the bovine chromaffin granule fraction and in the bovine anterior pituitary extract. These findings indicate that 7B2 is a secretory protein in the bovine adrenal medulla. The possibility that 7B2 might be released with catecholamine, possibly in response to stress, warrants investigation.     

Nmr and computer-aided studies of the three interchanging stereoisomers of the cyclic hexapeptide cyclo[-Pro1-Gly2-Glu3(OBzl)-Pro4-Phe5-Leu6-]: Unexpected observation of a cis isomer of a secondary amide peptide bond in the presence of two trans proline peptide bonds

The cyclic hexapeptide cyclo[-Pro¹-Gly²-Glu³(OBzl)-Pro⁴-Phe⁵-Leu⁶-] ( 1 ; OBzl: benzyl ester) was modeled and synthesized to be used as a chiral site for the separation of enantiomers. Total correlation spectroscopy and nuclear Ovehauser effect spectroscopy spectra of the peptide in CDCl₃ showed the presence of three stereoisomers. The two dominant stereoisomers 1a and 1b exchanged chemically with each other, while the minor stereoisomer 1c exchanged exclusively with the stereoisomer 1b . Stereoisomer 1a had two cis proline peptide bonds while stereoisomer 1b had all-trans peptide bonds. The stereoisomer 1c had, for nonstrained peptides, an unusual cis phenylalanine peptide bond while both proline peptide bonds were trans. © 1993 John Wiley & Sons, Inc.     

Differential scanning calorimetry studies of NaCl effect on the inverse temperature transition of some elastin-based polytetra-, polypenta-, and polynonapeptides

Differential scanning calorimetry studies of the effect of NaCl on protein-based polymer self-assembly has been carried out on six elastin-based synthetic sequential polypeptides- i.e., the polypentapeptide (L -Val¹-L -Pro²-Gly³-L -Val⁴-Gly⁵)_n and its more hydrophobic analogues (L -Leu¹-L -Pro²-Gly³-L -Val⁴-Gly⁵)_n and (L -Val¹-L -Pro²-L -Ala³-L -Val⁴-Gly⁵)_n; the polytetrapeptide (L -Val¹-L -Pro²-Gly³-Gly⁴)_n and its more hydrophobic analogue (L -IIe¹-L -Pro²-Gly³-Gly⁴)_n; and the polynonapeptide (a pentatetra hybrid), (L -Val¹-L -Pro²-Gly³-L -Val⁴-Gly⁵-L -Val⁶-L -Pro⁷-Gly⁸-Gly⁹)_n. Previous physical characterizations of the polypentapeptides have demonstrated the occurrence of an inverse temperature transition since increase in order of the polypentapeptide, as the temperature is raised from below to above that of the transition, has been repeatedly observed using different physical characterizations. In the present experiments, it is observed that the transition temperatures of the polypeptides studied are linearly dependent on NaCl concentration. The molar effectiveness of NaCl in shifting the transition temperature ΔT_m/[N], is about 14°C/[N], with the dependence on peptide hydrophobicity being fairly small. Interestingly, however, the δΔQ/ [N] does depend on the hydrophobicity of a polypeptide.     

Opiate Receptor-Mediated Inhibition of Catecholamine Release in Primary Cultures of Bovine Adrenal Chromaffin Cells

Abstract: Primary cultures of chromaffin cells from bovine adrenal medulla were used to evaluate the ability of several opiates to reduce the release of catecholamines induced by stimulation of nicotinic receptors. Etorphine, β-endorphin, Met-enkephalin[Arg⁶,Phe⁷], and the synthetic peptide [d -Ala²,Me-Phe⁴,Met(O)^s-ol]enkephalin inhibited the acetylcholine-induced release of catecholamines with an IC₃₀ varying from 10^?7 to 1 × 10^?6M. The effect was stereospecific because levorphanol (IC₃₀= 7.5 × 10^?7M) was approximately two orders of magnitude more potent than dextrorphan. Morphine (μ-receptor agonist), [d -Ala², d -Leu⁵]enkephalin (δ-receptor agonist), ethylketazocine (k -receptor agonist), and N-allylnormetazocine (σ-receptor agonist) were at least 100–1000 times less potent than etorphine. Diprenorphine (IC₅₀= 5 × 10^?7M) and naloxone (IC₅₀= 10^?6M) antagonized the effect of etorphine. High-affinity, saturable, and stereospecific binding sites for [³H]etorphine, [³H]dihydromorphine, [³H-d -Ala²,d -Leu⁵]enkephalin, [³H]ethylketazocine, and for [³H]N-allylnormetazocine, [³H]diprenorphine, and [³H]naloxone were detected in chromaffin cell membranes and in membranes obtained from adrenal medulla homogenates. However, the number of binding sites for [³H]etorphine and [³H]diprenorphine was 10–70 times higher than the number of sites measured with the other ³H ligands. The rank order of potency of these compounds for the displacement of [³H]etorphine binding correlates (r = 0.90) with the rank order of potency of the same compounds for the inhibition of acetylcholine-induced catecholamine release. These data suggest that a stereoselective opiate receptor (different from the classic μ-, δ-, k -, or σ-receptor) with high affinity for etorphine, diprenorphine, β-endorphin, and Met-enkephalin[Arg⁶,Phe⁷] modulates the function of the nicotinic receptor in adrenal chromaffin cells.     

Characterisation of Met-enkephalin(Arg6,Phe7) immunoreactivity in human adrenal and human phaeochromocytoma

The molecular forms of opioid peptides in human adrenal have not been well characterised. These peptides are predominantly derived from the proenkephalin A precursor, which has the sequence of Met-enkephalin(Arg⁶,Phe⁷) as its carboxyl terminus. We have looked in the present study at the subcellular distribution and the molecular form of immunoreactivity to this sequence in post-mortem human adrenal medulla and in phaeochromocytoma. In the human adrenal homogenates, the immunoreactivity distributes on a sucrose gradient in a manner consistent with localisation in chromaffin granules. On chromatography, the immunoreactivity from adrenal medulla is predominantly in the heptapeptide form; the intermediate (3000–4000) molecular weight material is only a minor component of immunoreactivity, in contrast to bovine tissue extracts where this is the major form of immunoreactivity. In the phaeochromocytoma extracts, the heptapeptide sequence again predominates over a minor amount of intermediate sized material. The results are discussed in terms of post-mortem changes, precursor processing and the function of the adrenal medulla.     

Studies on the metabolic interactions between 4-methylpyrazole and methanol using the monkey as an animal model

Bovine adrenal chromaffin granules have been shown to contain [Met]enkephalin and [Leu]enkephalin and at least seven other small peptides that exhibit specific binding to opiate receptors. Six of these peptides have been characterized and their structures established as (O)-[Met]enkephalin, [Met]enkephalin-Arg⁶-Arg⁷, [Met]enkephalin-Lys⁶, [Met]enkephalin-Arg⁶, [Leu]enkephalin-Arg⁶, and [Met]enkephalin-Arg⁶-Phe⁷. Many of these hexa- and heptapeptides are also present in bovine and human brain. It is suggested that the presence of these peptides in a tissue is evidence of a common biosynthetic pathway of the enkephalins from a large precursor protein.     

Immunocytochemical mapping of neuronal pathways from brain to corpora cardiaca/corpora allata in the cockroach Diploptera punctata with antisera against Met-enkephalin-Arg6-Gly7-Leu8

Summary Neuronal circuits in the brain and retrocerebral complex of the cockroach Diploptera punctata have been mapped immunocytochemically with antisera directed against the extended enkephalin, Met-enkephalin-Arg⁶-Gly⁷-Leu⁸ (Met-8). The pathways link median and lateral neurosecretory cells with the corpus cardiacum/corpus allatum complex. In females, nerve fibres penetrate the corpora allata and varicosities or terminals, immunoreactive to Met-8, surround the glandular cells. Males differ in having almost no Met-8 immunoreactivity in the corpora allata. The corpora cardiaca of both males and females are richly supplied with Met-8 immunoreactive material, in particular in the cap regions immediately adjacent to the corpora allata. A similarity in the amino-acid sequences of Met-8 and the C-terminus of the recently characterised allatostatins of D. punctata suggests that the pathways identified with the Met-8 antisera may be the same as those by which the allatostatins are transported from the brain to the corpus allatum. In comparative studies on the blowfly Calliphora vomitoria, similar neuronal pathways have been identified except that no sexual dimophism with respect to amounts of immunoreactive material within the corpus allatum has been observed. These results suggest a possible homology in the neuropeptide regulation of the gland.     

Studies of conformational isomerism in α-melanocyte stimulating hormone by design of cyclic analogues

Results of energy calculations for α-MSH (α-melanocyte stimulating hormone, Ac-Ser¹-Tyr²-Ser³-Met⁴-Glu⁵-His⁶-Phe⁷-Arg⁸-Trp⁹-Gly¹⁰-Lys¹¹-Pro¹²-Val¹³-NH₂) and [D -Phe⁷]α-MSH were used for design of cyclic peptides with the general aim to stabilize different conformational isomers of the parent compound. The minimal structural modifications of the conformationally flexible Gly¹⁰ residue, as substitutions for L -Ala, D -Ala, or Aib (replacing of hydrogen atoms by methyl groups), were applied to obtain octa- and heptapeptide analogues of α-MSH(4–11) and α-MSH(5–11), which were cyclized by lactam bridges between the side chains in positions 5 and 11. Some of these analogues, namely those with substitutions of the Gly¹⁰ residue with L -Ala or Aib, showed biological activity potencies on frog skin comparable to the potency of the parent tridecapeptide hormone. Additional energy calculations for designed cyclic analogues were used for further refinement of the model for the biologically active conformations of the His-Phe-Arg-Trp “message” sequence within the sequences of α-MSH and [D -Phe⁷]α-MSH. In such conformations the aromatic moieties of the side chains of the His⁶, L/D -Phe⁷, and Trp⁹ residues form a continuous hydrophobic “surface,” presumably interacting with a complementary receptor site. This feature is characteristic for low-energy conformers of active cyclic analogues, but it is absent in the case of inactive analogues. This particular spatial arrangement of functional groups involved in the message sequence is very close for α-MSH and [D -Phe⁷]α-MSH, as well as for biologically active cyclic analogues despite differences of dihedral angle values for corresponding low-energy conformations. © 1998 John Wiley & Sons, Inc. Biopoly 46: 155–167, 1998     

Morphological evidence for a close interaction of chromaffin cells with cortical cells within the adrenal gland

Summary The adrenal medulla appears to exert a regulatory influence on adrenocortical steroidogenesis. We have therefore studied the morphology of rat, porcine and bovine adrenals in order to characterize the contact zones of adrenomedullary and adrenocortical tissues. The distribution of chromaffin cells located within the adrenal cortex and of cortical cells located within the adrenal medulla was investigated. Chromaffin cells were characterized by immunostaining for synaptophysin and chromogranin A, both being considered specific for neuroendocrine cells. Cortical cells were characterized by immunostaining for 17-hydroxylase, an enzyme of the steroid pathway. Cellular contacts of chromaffin cells and cortical cells were examined at the electron microscopical level. In rat and porcine adrenals, rays of chromaffin cells, small cell clusters and single chromaffin cells or small invaginations from the medulla could be detected in all three zones of the cortex. Chromaffin cells often spread in the subcapsular space of the zona glomerulosa. In porcine and bovine adrenals, 17-hydroxylase immunoreactive cells were localized within the medulla. Single cortical cells and small accumulations of cells were spread throughout this region. At the ultrastructural level, the chromaffin cells located within the cortex in pig and rat adrenals formed close cellular contacts with cortical cells in all three zones. Our morphological data provide evidence for a possible paracrine role of chromaffin cells; this may be important for the neuroregulation of the adrenal cortex.     

Proenkephalin: A general pathway for enkephalin biosynthesis in animal tissues

Guinea pig adrenal, brain, and myenteric plexus have been shown to contain many polypeptides that yield free enkephalins on digestion with trypsin and carboxypeptidase B. The enkephalin-containing polypeptides (ECPs) range from 500 to >20,000 daltons and show similarities in their chromatographic behavior to the ECPs present in the chromaffin granules of the bovine adrenal medulla. Furthermore, the heptapeptide [Met]enkephalin-Arg⁶-Phe⁷, that is now known to represent the carboxyl terminal sequence of the proenkephalin found in bovine adrenal medulla (Gübler et al. (1982) Nature (London), in press), was identified in all three guinea pig tissues. It appears that processing of a proenkephalin similar to the one in adrenal medulla represents a general pathway for enkephalin biosynthesis in animal tissues.