Characterisation of N-terminally extended met-enkephalin Arg6Gly7Leu8 variants in the porcine upper digestive tract

Proenkephalin A-derived peptides are known to occur in the gut, but their precise identity is uncertain. We report here the isolation of N-terminally extended forms of Met-enkephalin Arg6Gly7Leu8 from porcine upper digestive tract monitored by radioimmunoassay. A single major form was identified in pyloric antral muscle and mucosa, but in the duodenum two major forms were detected. Microsequence analysis together with immunological data revealed that the antral mucosal peptide and the most acidic duodenal peptide had identical amino-acid sequences, corresponding to a 5.3 kDa peptide terminating in Met-enkephalin Arg6Gly7Leu8. The data indicate that high-molecular-weight peptides may constitute a major proportion of gut opioid peptide immunoactivity.     

Identification and characterization of N-glycosylated and phosphorylated variants of proenkephalin A-derived peptides in bovine adrenal medulla, spinal cord and ileum

Recent studies have shown that during its biosynthesis in bovine adrenal medulla, the opioid precursor proenkephalin A, may be both N-glycosylated and phosphorylated. To investigate whether these chemical modifications were common to proenkephalin A processing in other tissues, we have sought to characterize enkephalin-containing peptides from bovine adrenal medulla, spinal cord and ileum. The peptides were identified using antiserum L189, specific for the C-terminus of Met-enkephalin Arg6Gly7Leu8 (MERGL), and L152, specific for the C-terminus of Met-enkephalin Arg6Phe7 (MERF). Glycosylated MERGL-immunoreactive peptides of 23, 20, 16 and 13 kDa were identified in adrenal medulla using sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) and concanavalin A-Sepharose affinity chromatography. Sephadex G50 gel filtration fractionated the glycosylated peptides into two immunoreactive peaks. Similar peaks of concanavalin A-binding MERGL immunoreactivity were detected in extracts of spinal cord and ileum, although there were differences in relative proportions of the two peaks. Antiserum L152 identified phosphorylated N-terminally extended variants of MERF when boiling water extracts of adrenal medulla, spinal cord and ileum were separated by anion exchange chromatography. In adrenal medulla these peptides were more than 99% phosphorylated, whereas in both ileum and spinal cord there was a relatively higher proportion of the unphosphorylated peptide. The results indicate that N-glycosylation and phosphorylation of proenkephalin A occurs in adrenal medulla, spinal cord and ileum, although there are tissue-specific differences in the relative proportions of the modified and unmodified peptides.     

Identification by specific radioimmunoassay of two novel peptides derived from the C-terminus of porcine preprogastrin

A radioimmunoassay has been developed using antibodies to a synthetic analogue of the C-terminal hexapeptide sequence of the porcine gastrin precursor. Boiling water extracts of porcine antral mucosa contained immunoreactive material that diluted in parallel with standard peptide. Concentrations of immunoreactivity were 5.5 +/- 0.8 nmol X g-1 (mean +/- S.E.M.) in antral mucosa and were closely similar to those of C-terminal heptadecapeptide gastrin immunoreactivity (5.0 +/- 0.6 nmol X g-1). Approximately 30-fold lower concentrations were found in porcine duodenum. A similar distribution was found in ferret, but human, rat and chicken antrum did not contain significant quantities of immunoreactivity. Gel filtration of porcine antral extracts on Sephadex G-50 revealed a single peak of immunoreactivity eluting in a similar position to G17, but on anion-exchange chromatography two peaks of immunoreactive material were separated. These also differed in their retention time on reverse phase HPLC. Both peptides are probably derived by tryptic cleavage at the C-terminus of porcine preprogastrin. No evidence was found to suggest that there are significant quantities of unprocessed preprogastrin in hog antral mucosa. The precise chemical difference between the two immunoreactive peptides identified here remains to be established; together, however, they provide specific markers for progastrin synthesis.     

Bombesin-like immunoreactivity in human gastrointestinal tract

In the present study the distribution and molecular characteristics of bombesin-like immunoreactivity (BLI) were studied in acid extracts of human gastrointestinal tract. The highest levels were found in the fundus, antrum, pylorus and pancreas with lower levels in the duodenum, jejunum, terminal ileum and colon. BLI was also detected in both the muscle and mucosal layers of the antrum and colon. Sephadex G-50 gel chromatography under acid dissociating conditions revealed two peaks of immunoreactivity, one in the position of synthetic porcine gastrin releasing peptide (GRP) and the second eluting with synthetic amphibian bombesin. Variations in the proportions of the two molecular forms were seen in different regions of the gut. In the stomach and pancreas greater than 70% of the BLI eluted with the GRP marker while in pylorus, jejunum and terminal ileum only 20% was present in this form. Reverse-phase ODS silica HPLC of the major antral BLI peak, utilising a methanol/trifluoroacetic acid gradient indicated that this peptide was similar to porcine GRP. We have therefore (1) demonstrated the presence and heterogeneity of bombesin-like immunoreactivity throughout the human gastrointestinal tract and (2) shown for the first time that a proportion of this BLI closely resembles porcine GRP.     

Met5-enkephalin-Arg6-Gly7-Leu8 immunoreactivity in the human gut

The presence of the proenkephalin A-derived peptide Met5-enkephalin-Arg6-Gly7-Leu8 was demonstrated throughout the human gastrointestinal tract. Highest concentrations of Met5-enkephalin-Arg6-Gly7-Leu8, as assessed by radioimmunoassay, were measured in the separated muscularis externa, while lower levels were found in the submucosa and only small amounts in the mucosa. The results are consistent with a neuronal location of this peptide in the human gut. Over 65% of total immunoreactivity coeluted with the authentic peptide in both molecular exclusion chromatography and HPLC, while most of the remainder activity eluted earlier on gel filtration. The latter material probably represents N-terminally extended Met5-enkephalin-Arg6-Gly7-Leu8. Taken together with previous studies, our results appear to indicate that there are important species differences in post-translational processing of proenkephalin A in gut nerves.     

Novel Opioid Peptide Amidorphin: Characterization and Distribution of Amidorphin-Like Immunoreactivity in Bovine, Ovine, and Porcine Brain, Pituitary, and Adrenal Medulla

We have recently isolated from bovine adrenal medulla a novel C-terminally amidated opioid peptide, amidorphin, which derives from proenkephalin A. Amidorphin revealed a widespread distribution in bovine, ovine, and porcine tissue. Particularly high concentrations of amidorphin immunoreactivity were detected in adrenal medulla, posterior pituitary, and striatum, similar to the major gene products of proenkephalin A. In the adrenal medulla of each species, authentic amidorphin was the predominant immunoreactive form. Pituitary and brain, however, contained predominantly putative N-terminally shortened fragments of amidorphin of a slightly lower molecular weight and shorter retention times on HPLC. In addition, in ovine adrenal medulla, a putative high-molecular-weight form of amidorphin was detected. These findings are indicative of a tissue-specific processing of the proenkephalin A precursor, leading predominantly to authentic amidorphin in the adrenal medulla and further processing to smaller C-terminal fragments in the brain and pituitary.     

Involvement of Dopamine D1 and D2 Receptors in the Regulation of Proenkephalin mRNA Abundance in the Striatum and Accumbens of the Rat Brain

The effects of short-term treatment (6 h) with selective D1 or D2 agonists and antagonists on the mRNA for proenkephalin in the medial and anterior aspects of the caudate-putamen and the nucleus accumbens were assessed by in situ hybridization histochemistry. Proenkephalin mRNA abundance was significantly changed in the striatum and accumbens in response to D2 receptor manipulation. D2 blockade with haloperidol or raclopride increased, whereas D2 stimulation with LY-171555 (D2 agonist) decreased, striatal and accumbens proenkephalin mRNA abundance. Antagonism of D1 receptor activity with SCH-23390 significantly decreased proenkephalin mRNA abundance in all brain regions. Concurrent administration of the D1 agonist SKF-38393 prevented the SCH-23390 effect in all brain areas. The data demonstrate that acute treatment with dopaminergic D2 agonists and antagonists affects proenkephalin mRNA abundance in the striatum and accumbens via a D2 receptor mechanism, consistent with the concept that D2 receptor function inhibits the synthesis of the mRNA encoding the enkephalin peptides. Moreover, D1 receptor activity, directly or indirectly, exerts modulatory effects on proenkephalin mRNA abundance in the striatum and nucleus accumbens.     

N-linked glycosylation of a proenkephalin A-derived peptide. Evidence for the glycosylation of an NH2-terminally extended Met-enkephalin Arg6-Gly7-Leu8 variant

To investigate the possibility that the opioid peptide precursor proenkephalin A was glycosylated, we utilized an antiserum raised against the COOH terminus of Met-enkephalin Arg6-Gly7-Leu8 (MERGL) to identify and characterize enkephalin-containing peptides from extracts of bovine adrenal medulla. Sephadex G-50 gel filtration separated two immunoreactive peaks which had apparent masses of 9 and 6 kDa. Anion-exchange chromatography and reverse-phase high pressure liquid chromatography (HPLC) revealed that the 9-kDa material was a heterogenous mixture of immunoreactive peptides, of which one (9K-MERGL Ia) was purified to homogeneity. The 6-kDa material separated into two major immunoreactive peaks (6K-MERGL I and 6K-MERGL II) on anion-exchange chromatography, and these were obtained in an homogenous form after reverse-phase HPLC. Amino acid sequencing, together with immunological characterization, indicated that the three peptides were identical in chain length, and corresponded to proenkephalin A 116-165. They contained the sequence Asn-Ser-Ser which is a potential N-glycosylation site. In 9K-MERGL Ia, but not the others, automated Edman amino acid sequencing was unable to detect the relevant asparagine residue, suggesting that this residue has been chemically modified. Further investigation of the 9K-MERGL material using lectin affinity chromatography provided direct evidence of glycosylation. Verification of this result was obtained using the specific enzyme glycopeptidase F (glycopeptide-N-glycosidase) which demonstrated that 9K-MERGL contained, in part, N-linked oligosaccharide chains. These results show that an NH2 terminally extended Met-enkephalin Arg6-Gly7-Leu8 variant was N-glycosylated, and hence indicate that the precursor polypeptide proenkephalin A can be glycosylated during translation in the rough endoplasmic reticulum.     

Gene chip analyses reveal differential genetic responses to iron deficiency in rat duodenum and jejunum

Previous studies revealed novel genetic changes in the duodenal mucosa of iron-deprived rats during postnatal development. These observations are now extended to compare the genetic response to iron deficiency in the duodenum versus jejunum of 12-wk-old rats. cRNA samples were prepared from the duodenal and jejunal mucosa of three groups each of control and iron-deficient rats and hybridized with RAE 230A and 230B gene chips (Affymetrix). Stringent data reduction strategies were employed. Results showed that several genes were similarly induced in both gut segments, including DMT1, Dcytb, transferrin receptor 1, heme oxygenase 1, metallothionein, the Menkes copper ATPase (ATP7A), tripartitie motif protein 27, and the sodium-dependent vitamin C transporter. However, a subset of genes showed regulation in only one or the other gut segment. In duodenum only, gastrokine 1, trefoil factor 1 and claudin 2 were induced by iron-deficiency. Other genes previously identified were only regulated in the duodenum. Overall, these studies demonstrate similarities and distinct differences in the genetic response to iron deprivation in the duodenum versus jejunum and provide evidence that more distal gut segments also may play a role in increasing iron absorption in iron-deficiency anemia.     

The use of region-specific antibodies in the characterization and localization of vasoactive intestinal polypeptide-like substances in the rat gastrointestinal tract

Antisera specific for different regions of porcine VIP have been used in radioimmunoassay and immunohistochemical studies of immunoreactive VIP in rat small and large intestine. Cation exchange chromatography of intestinal extracts separated two major and one minor peak of immunoreactivity. One major peak eluted in a similar position to natural porcine VIP and was read equally by NH₂-terminal-specific, and mid- and COOH-terminal-specific antisera. A second major peak, and the minor peak, eluted earlier than porcine VIP, and were read significantly less well with mid- and COOH-terminal antisera compared with NH₂-terminal-specific antisera. All forms of VIP occurred mainly in extracts of muscle layers of the gut, and no antiserum revealed more than trace amounts of immunoreactivity in mucosal extracts. In immunohistochemical studies all antisera demonstrated fluorescent nerve fibres in the enteric plexuses, circular smooth muscle and lamina propria; some antisera demonstrated nerve cell bodies predominantly in the submucous plexus. NH₂-terminal-specific antisera also demonstrated a sparse population of mucosal endocrine-like cells in the ileum and colon that were not seen with other antisera. It is concluded that VIPergic neurons of the rat gut contain a peptide closely resembling porcine VIP and at least two less basic variants with similar NH₂-terminal antigenic determinants. VIP-like peptides may also occur in endocrine cells, but since these peptides appearto fact that the majority of neuronal VIP in rat gut exists in a form that is both chromatographically and immunochemically distinct from porcine VIP, and may well possess different biological properties.     

Post-translational processing of the porcine gastrin precursor by phosphorylation of the COOH-terminal fragment

The gene sequence encoding porcine preprogastrin is known; in order to clarify pathways of post-translational processing of the predicted precursor peptide we have characterized material reacting with antibodies to a synthetic peptide corresponding to the expected extreme COOH-terminal portion of the precursor. Radioimmunoassay was used to identify and monitor the purification of peptides in porcine antral mucosa. Two peptides (I and II) were isolated to homogeneity by steps involving gel filtration, ion exchange, and reversed-phase high performance liquid chromatography. The two co-eluted on gel filtration but were separated on anion-exchange chromatography. The more acidic peptide (II) was less hydrophobic on high performance liquid chromatography. Automated gas-phase microsequencing revealed the less acidic peptide (I) to have the sequence of porcine preprogastrin 96-104 (SAEEGDQRP); it would be produced by tryptic-like cleavage of Arg95-Ser96. The second peptide did not yield a phenylthiohydantoin-derivative on the first cycle but thereafter it sequenced as the first peptide (i.e. -AEEGDQRP). Incubation in alkali liberated almost equimolar amounts of phosphate from peptide II but not from I. In addition, alkaline phosphatase liberated phosphate and converted the acidic peptide to the less acidic one. The results suggest that serine in the first position is phosphorylated in peptide II but not I. The tripeptide -Ser(P)-Ala-Glu- also occurs in adrenocorticotropic hormone; this tripeptide is a substrate for physiological casein kinase. Potential phosphorylation sites occur at comparable positions in the precursors of a number of regulatory peptides.     

Distribution of prostaglandin E2 binding sites in the porcine gastrointestinal tract

Binding of biologically active ³H-PGE₂ to particulate fractions of porcine gastrointestinal mucosa and muscle was investigated. Specific binding activity was detected in the 2500 xg and 30,000 xg sedimentation fractions of mucosa from esophagus, fundus, antrum, duodenum, ileum and colon, as well as in serosal muscle taken from the antrum, ileum, and colon. Optimal binding (> 40 fmol/mg protein) was observed in the 30,000 xg fraction of fundic mucosa incubated at pH 5.0. The characteristics of ³H-PGE₂ binding were variable in the remainder of the gastrointestinal tract although binding in these tissues was significantly less (0.2 to 15 fmol/mg protein) than that observed in the fundic mucosa. These data suggest that the cellular and/or subcellular site of PG binding is not uniform throughout the gastrointestinal tract. In fundic mucosa removal of the surface epithelial layer by scraping did not significantly alter the total binding activity for PGE. This result suggests that in gastric secretory mucosa optimal binding activity for PGE₂ occurs within the gastric pits deep to the surface epithelium.     

Topographical variation in metabolic signatures of human gastrointestinal biopsies revealed by high-resolution magic-angle spinning 1H NMR spectroscopy

Individual and topographical variation in the metabolic profiles of multiple human gastrointestinal tract (GIT) biopsies have been characterized using high-resolution magic-angle spinning (HRMAS) 1H NMR spectroscopy and pattern recognition. Samples from antrum, duodenum, jejunum, ileum, and transverse colon were obtained from 8 male and 8 female participants. Each gut region generated a highly characteristic metabolic profile consistent with the varying structural and functional properties of the tissue at different longitudinal levels of the gut. The antral (stomach) mucosa contained higher levels of choline, glycogen, phosphorylethanolamine, and taurine than other gut regions. The spatially close regions of the duodenum and jejunum were equivalent in terms of their gross biochemical composition with high levels of choline, glutathione, glycerophosphocholine (GPC), and lipids relative to other gut regions. The ileal mucosa showed poor discrimination from the duodenum and jejunum tissues and generated strong amino acids signatures but had relative low GPC signals. The colon (large intestine) was high in acetate, glutamate, inositols, and lactate and low in creatine, GPC, and taurine compared to the small intestine. These longitudinal metabolic variations in the human GIT could be attributed to functional variations in energy metabolism, osmoregulation, gut microbial activity, and oxidative protection. This work indicates that 1H HRMAS NMR studies may be of value in analyzing local metabolic variation due to pathological processes in gut biopsies.     

Met-Enkephalin [Arg6,Phe7] Immunoreactivity in Bovine Caudate and Bovine Adrenal Medulla

Abstract: A radioimmunoassay specific for the COOH-terminus of Met-enkephalin [Arg⁶,Phe⁷] and a separate assay specific for the COOH-terminus of Met-enkephalin are described. Immunoreactivity by these two assays was compared in bovine caudate and bovine chromaffin granule preparation after Sephadex G75 chromatography in 50% acetic acid. When the assays were applied to the chromatography fractions of the bovine caudate extract, the majority of the immunoreactivity was found in the fractions corresponding to the heptapeptide and the pentapeptide respectively. When the chromaffin granule chromatography fractions were assayed, both of the radioimmunoassays showed that most reactivity was in several peaks in the larger molecular weight fractions. The major peak for the Met-enkephalin [Arg⁶,Phe⁷] assay had an apparent molecular weight of 2800, while with the Met-enkephalin assay the dominant peak of immunoreactivity had an apparent molecular weight of 10,000. The presence of authentic Met-enkephalin [Arg⁶,Phe⁷] in both caudate and chromaffin granule extracts was confirmed by reverse-phase chromatography of the previously sized fractions. It appears then that the processing of precursors of opioid peptides is directed, in the caudate, to the synthesis and storage of the enkephalins and of Met-enkephalin [Arg⁶,Phe⁷]; in the adrenal medulla the major products of precursor processing are a variety of polypeptides of larger sizes.     

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.     

Distribution and characterisation of neuromedin U-like immunoreactivity in rat brain and intestine and in guinea pig intestine

Neuromedin U-8 (NMU-8) is a peptide isolated from porcine spinal cord which contracts blood vessels and the uterus. Antisera were raised against NMU-8 and used in a radioimmunoassay (RIA) together with HPLC to characterize NMU-like immunoreactivity (NMU-LI) in tissues extracts of rat brain and gut and guinea pig gut. Samples of duodenum, ileum and distal colon were taken from both species, and processed for detection of NMU-LI by fluorescence immunohistochemistry. In RIA the antiserum had no cross-reactivity with neuropeptide Y, vasoactive intestinal peptide or the C-terminal hexapeptide of pancreatic polypeptide. Preincubation of antiserum with any of these peptides had no effect on the NMU-LI staining. In rats the highest content of NMU-LI was found in the ileum and the lowest in the cerebral cortex and striatum. HPLC studies showed that at least two molecular forms of NMU-LI were present in both species. In rat small intestine, subpopulations of submucous and myenteric neurones were stained; nerve fibres and terminals within these ganglia and in the mucosa were also seen. NMU-LI was sparse in the muscle. In guinea pig ileum small populations of nerve terminals were seen in both myenteric and submucous ganglionated plexuses. No endocrine cells were stained in either species.     

Intramural distribution of immunoreactive vasoactive intestinal polypeptide (VIP), substance P,somatostatin and mammalian bombesin in the oesophago-gastro-pyloric region of the human gut

Summary The intramural distribution of vasoactive intestinal polypeptide (VIP), substance P, somatostatin and mammalian bombesin was studied in the oesophago-gastro-pyloric region of the human gut. At each of 21 sampling sites encompassing this entire area, the gut wall was separated into mucosa, submucosa and muscularis externa, and extracted for radioimmunoassay. VIP levels in the mucosa were very high in the proximal oesophagus (1231±174 pmol/g, mean±SEM) and showed varied, but generally decreasing concentrations towards the stomach, followed by a clear-cut increase across the pyloric canal (distal antrum: 73±16 pmol/g, proximal duodenum: 366±62 pmol/ g); consistent levels were found in submucosa and muscle (200–400 pmol/g) at most sites, the stomach again showing lower concentrations. By contrast, substance P was present in small amounts as far as the proximal stomach, but sharply increased across the pyloric canal, especially in mucosa and submucosa (distal antrum: 20±6.5 and 5.5±1.3 pmol/g; proximal duodenum: 62±8.5 and 34±11 pmol/g, respectively). Somatostatin concentrations were very low in the mucosa of the oesophagus and stepwise increased in the cardiac, mid-gastric and pyloric mucosa (cardia: 224±72 pmol/g; distal antrum: 513±152 pmol/g; proximal duodenum: 1013±113 pmol/g); concentrations in the submucosa and muscularis were generally low, with the exception of antrum and duodenum. Mammalian bombesin was comparatively well represented throughout the oesophageal muscularis (5–8 pmol/g), but most abundant in the stomach in all layers (oxyntic mucosa: 24±2.7 pmol/g; submucosa: 20±5.7 pmol/g; muscle: 28±5.0 pmol/g). In conclusion, a distinct differential distribution of the four peptides studied was revealed, indicating a diffuse, but highly differentiated peptide-containing innervation of the proximal human gut.     

Regional Distribution of Methionine-Enkephalin-Arg6-Phe7 in the Rat Brain: Comparative Study with the Distribution of Other Opioid Peptides

The distribution of the opioid peptide methionine-enkephalin-arginine6-phenylalanine7 (M-Enk-Arg6-Phe7) has been investigated in various structures of the rat brain by using a highly specific radioimmunoassay (RIA). Immunoreactive M-Enk-Arg6-Phe7 has been further characterized by high performance liquid chromatography. The levels of M-Enk-Arg6-Phe7 in various structures of the rat brain were compared with the levels of several other opioid peptides, including methionine-enkephalin (M-Enk), leucine-enkephalin (L-Enk), dynorphin 1-13, and alpha-neoendorphin, which were also measured by RIA. There was a close relationship between the distribution of M-Enk-Arg6-Phe7 immunoreactive material (ir), M-Enk ir, and L-Enk ir. The distribution of dynorphin 1-13 ir and alpha-neoendorphin ir appeared to be distinct from that of the enkephalin group. These results are in agreement with recent reports on the cloning and sequencing of the c-DNA coding for the prohormones, in which it has been hypothesized that M-Enk-Arg6-Phe7 and M-Enk are synthesized by the same precursor, called proenkephalin, and that dynorphin-related peptides and alpha-neoendorphin arise from a separate precursor, prodynorphin.     

Organ distribution and characterization of porcine peptides (VIP, CGRP and PHI) that increase cAMP in rat platelets.

Using an assay for rat platelet cAMP, we investigated the organ distribution of peptides that increase cAMP in rat platelets in porcine tissues. Marked activity was observed in the duodenum, pancreas and brain. By analysis with reverse phase high performance liquid chromatography (HPLC), three major peaks of activity were observed in porcine tissues. The first peak was vasoactive intestinal polypeptide (VIP), and the second peak was calcitonin gene-related peptide (CGRP). The third peak of activity was isolated from porcine duodenum. By analysis with a gas phase sequencer and with an amino acid analyzer, this peptide was identified as peptide histidine isoleucine (PHI). In a glucagon-secretin family of neuropeptides, pituitary adenylate cyclase activating polypeptide (PACAP) significantly increased platelet cAMP levels in a dose-dependent manner; however, glucagon did not. These results suggest that not only VIP and CGRP but also PHI and PACAP act upon platelets, as well as vascular tissues.     

α1-Antichymotrypsin-Like Proteins I and II Purified from Bovine Adrenal Medulla Are Enriched in Chromaffin Granules and Inhibit the Proenkephalin Processing Enzyme "Prohormone Thiol Protease"

Proteolytic processing of inactive proenkephalin and proneuropeptides is essential for the production of biologically active enkephalins and many neuropeptides. The incomplete processing of proenkephalin in adrenal medulla suggests that endogenous protease inhibitors may inhibit proenkephalin processing enzymes. This study demonstrates the isolation and characterization of two isoforms of adrenal medullary alpha1-antichymotrypsin (ACT), referred to as ACT-like proteins I and II, which are colocalized with enkephalin in chromaffin granules and which inhibit the proenkephalin processing enzyme known as prohormone thiol protease (PTP). Subcellular fractionation demonstrated enrichment of 56- and 60-kDa ACT-like proteins I and II, respectively, to enkephalin-containing chromaffin granules (secretory vesicles). Immunofluorescence cytochemistry of chromaffin cells indicated a discrete, punctate pattern of ACT immunostaining that resembles that of [Met]enkephalin that is stored in secretory vesicles. Chromatography of adrenal medullary extracts through DEAE-Sepharose and chromatofocusing resulted in the separation of ACT-like proteins I and II that possess different isoelectric points of 5.5 and 4.0, respectively. The 56-kDa ACT-like protein I was purified to apparent homogeneity by Sephacryl S200 chromatography; the 60-kDa ACT-like protein II was isolated by butyl-Sepharose, Sephacryl S200, and concanavalin A-Sepharose columns. The proenkephalin processing enzyme PTP was potently inhibited by ACT-like protein I, with a K(i,app) of 35 nM, but ACT-like protein II was less effective. ACT-like proteins I and II had little effect on chymotrypsin. These results demonstrate the biochemical identification of two secretory vesicle ACT-like proteins that differentially inhibit PTP. The colocalization of the ACT-like proteins and PTP within chromaffin granules indicates that they could interact in vivo. Results from this study suggest that these ACT-like proteins may be considered as candidate inhibitors of PTP, which could provide a mechanism for limited proenkephalin processing in adrenal medulla.