Bovine Adrenal Chromaffin Granules Research Articles

A putative processing enzyme for proenkephalin in bovine adrenal chromaffin granule membranes: Purification and properties

Abstract A putative processing enzyme for proenkephalin, with activity directed toward basic residues, was purified over 2000-fold from washed bovine adrenal medullary chromaffin granule membranes. The molecular mass of this membrane-bound adrenal trypsin-like enzyme (mATLE) is 31 kDa as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and the enzyme is extremely basic, binding to carboxymethyl-Sephadex at pH 8.5. The pH optimum of mATLE using t-butoxycarbonyl-Glu-Lys-Lys-aminomethylcoumarin as a substrate is 8.5-8.7, and its Km value for this substrate is 2.2 mM. mATLE activity was inhibited by soybean trypsin inhibitor, lima bean trypsin inhibitor, and aprotinin but not by metal chelators or thiol-directed reagents. Sequencing of cleavage products released from Peptide B revealed that the enzyme preferentially cleaves between and following the paired basic residues at positions 23 and 24 of Peptide B (thus generating [Met-enkephalin]-Arg-Phe and Arg-[Met-enkephalin]-Arg-Phe). Dynorphin A was cleaved following a single lysine at position 11 but not at the paired arginine site. Our results suggest that mATLE is a trypsin-like serine protease with the specificity appropriate to that of a proenkephalin processing enzyme.

Affinity purified tetanus toxin binds to isolated chromaffin granules and inhibits catecholamine release in digitonin-permeabilized chromaffin cells

Tetanus toxin, a potent neurotoxin which blocks neurotransmitter release in the CNS, also inhibits Ca 2+-induced catecholamine release from digitonin-permeabilized, but not from intact bovine chromaffin cells. In searching for intracellular targets for the toxin we studied the binding of affinity-purified tetanus toxin to bovine adrenal chromaffin granules. Tetanus toxin bound in a neuraminidase-sensitive fashion to intact granules and to isolated granule membranes, as assayed biochemically and visualized by electron microscopic techniques. The binding characteristics of the toxin to chromaffin granule membranes are very similar to the binding of tetanus toxin to brain synaptosomal membranes. We suggest that the toxin-binding site is a glycoconjugate of the G1b type (a polysialoganglioside or a glycoprotein-proteoglycan) which is localized on the cytoplasmic face of the granule membrane and might directly be involved in exocytotic membrane fusion.

Identification of high molecular weight peptides in bovine adrenomedullary chromaffin granules using monoclonal antibodies to a preproenkephalin A fusion peptide.

Two mouse monoclonal antibodies (PE-1 and PE-2) raised to a beta-galactosidase-preproenkephalin A(69-207) fusion peptide recognize pro-enkephalin A (pro-enk-A) peptides of 33-5 kDa isolated from bovine adrenal chromaffin granules. The preliminary characterization of the high molecular weight adrenomedullary pro-enk-A peptides recognized by PE-1 and PE-2 is described. The high molecular weight peptides were resolved after Sephadex G-50 chromatography and high-performance liquid chromatography (HPLC) into three components (peaks I, II and III). Immunoblot analysis showed each HPLC peak to be heterogeneous. Peak I contained PE-1-and PE-2-immunoreactive peptides of 33, 29, 24 and 22 kDa; peak II contained a peptide of 22 kDa recognized by PE-2, and peptides of 24 and 22 kDa recognized by PE-1; peak III contained a PE-2-immunoreactive peptide of 15 kDa and PE-1-immunoreactive peptide of 18 kDa. Using polyclonal antibodies to peptide F and methionineenkephalin-Arg6-Gly7-Leu8 (MetEnk-RGL), the 22 kDa band cross-reacted with both MetEnk-RGL and peptide F antibodies, whilst the 24 kDa band was shown to possess predominantly MetEnk-RGL immunoreactivity. The 15 kDa (PE-2-immunoreactive) band was recognized by the peptide F but not the MetEnk-RGL antibody, whereas the polyclonal antibodies did not recognize the 18 kDa (PE-1-immunoreactive) band. We propose that the immunological and size characteristics of some of these peptides (29, 24/22, 15 kDa) suggest their similarity to the peptides of predicted molecular mass 23.3, 18.2 and 12.6 kDa previously found in bovine adrenal medulla. The results also indicate the existence of high molecular weight pro-enk-A peptides shortened at the N-terminus. The use of an immunoradiometric assay designed to measure the proenk-A-derived 18.2 kDa peptide using PE-2 and an affinity purified and radioiodinated MetEnk-RGL IgG has supported these findings.

The membrane-binding segment of dopamine β-hydroxylase is not an uncleaved signal sequence

Dopamine beta-hydroxylase exists in bovine adrenal medulla chromaffin granules in both soluble and membrane-bound forms. The mechanism by which membranous dopamine beta-hydroxylase is bound to granule membranes has been elusive. Recently, evidence that covalently attached phosphatidylinositol does not serve as an anchor for membranous dopamine beta-hydroxylase was reported (Stewart, L. C., and Klinman, J. P. (1988) J. Biol. Chem. 263, 12183-12186). It was suggested that an uncleaved signal sequence could serve as a mode of attachment for the membrane-bound hydroxylase. Amino-terminal sequence analysis of purified bovine membranous dopamine beta-hydroxylase demonstrates that this form of the enzyme possesses an amino-terminal sequence similar to the soluble enzyme. Additionally, the 75- and 72-kDa bands of membranous dopamine beta-hydroxylase were electrophoretically eluted from a preparative sodium dodecyl sulfate-polyacrylamide gel and sequenced. Both bands had the amino-terminal sequence characteristic of the soluble bovine enzyme. These sequence results eliminate the possibility that an uncleaved signal sequence serves as the membrane anchor.

Phosphatidylinositol kinase of bovine adrenal chromaffin granules modulation by hydrophilic and amphiphilic cations

The effects of hydrophilic and amphiphilic cations on the activity of phosphatidylinositol (PI) kinase (EC 2.7.1.67) of chromaffin granule ghosts were investigated. The cations studied can be divided into two groups, i.e. (i) compounds with a biphasic response (stimulation and inhibition), and (ii) those with a selective stimulatory effect on the enzyme activity. The cationic amphiphile trifluoperazine belongs to the first group, and stimulated the enzyme activity, maximal at 80 μM (2-fold), with a progressive inhibition at higher concentrations. This biphasic response was shared by a number of structurally related cationic ampniphiles, i.e. the tricyclic antidepressants, imipramine and desipramine, the phenothiazine, chlorpromazine, the miconazole derivative, calmidazolium, the β-adrenergic agonist, propranolol, compound 48/80, as well as by the hydrophilic cations neomycin and poly-L-lysine. On the other hand, a pure stimulatory effect was observed with the amphiphilic polypeptide mastoparan and the polycationic compound spermidine, whereas ACTH 1–39 and ACTH 1–24 (peptides structurally related to mastoparan) revealed a slight inhibitory effect. We conclude that all the cations tested including Mg 2+, stimulate PI kinase activity rather unspecifically by binding of the positively charged groups to a membrane component, probably the PI kinase itself. This site is different from that mediating the specific inhibition by calcium (Husebye ES and Fiatmark T, Biochim Biophys Acta 968: 261–265,1988). The inhibitory effect of cationic amphiphiles is correlated to their lipid solubility, and represents a perturbation of the membrane structure, but not a solubilization of enzyme or phosphoinositide from the membrane. The inhibitory effect of hydrophilic cations is due to complexation of ATP.

The structure of cytochrome b561, a secretory vesicle-specific electron transport protein.

Cytochrome b561 is a transmembrane electron transport protein that is specific to a subset of secretory vesicles containing catecholamines and amidated peptides. This protein is thought to supply reducing equivalents to the intravesicular enzymes dopamine-beta-hydroxylase and alpha-peptide amidase. We have purified cytochrome b561 from bovine adrenal chromaffin granules by reverse phase chromatography and have determined internal amino acid sequences from peptides. Complementary oligonucleotides were used to isolate two cDNA clones from a bovine brain library. The structure predicted by the sequences of these cDNAs suggests a highly hydrophobic protein of 273 amino acids which spans the membrane six times with little extramembranous sequence. Cytochrome b561 is not homologous to any other cytochrome and thus represents a new class of electron carriers. RNA blotting experiments indicate that cytochrome b561 is expressed in the adrenal medulla and all brain regions of the cow, but not in visceral organs. This result agrees well with the putative function of this unique cytochrome and with the notion that this protein is localized to large dense-core synaptic vesicles.

Selective cleavage of proenkephalin-derived peptides (less than 23,300 daltons) by plasma kallikrein.

The ability of human plasma kallikrein to hydrolyze several proenkephalin-derived peptides has been studied, including the synthetic peptides BAM 12P and peptides E, F, and B as well as synenkephalin-containing peptides (8.6, 18.2, and 23.3 kDa) purified from bovine adrenal medulla chromaffin granules. All the identified cleavages occurred either COOH-terminal to or between pairs of basic amino acids, with plasma kallikrein recognizing Lys-Lys, Lys-Arg, and Arg-Arg as processing signals. Moreover, plasma kallikrein was found to cleave at the COOH terminus of the basic pairs of amino acids preceding enkephalin sequences thereby releasing the biologically active form of the peptide with the free NH2-terminal Tyr needed for receptor recognition.

Demonstration of a Na+/H+ exchange activity in the bovine adrenal chromaffin granule membrane

Demonstration of a Na+/H+ exchange activity in the bovine adrenal chromaffin granule membrane

Characterization of a neutral, divalent cation-sensitive endopeptidase: a possible role in neuropeptide processing

A trypsin-like endopeptidase which cleaves the synthetic substrate Dansyl-Phe-Leu-Arg-Arg-Ala-Ser-Leu-Gly-COOH (Dansyl-Phe-Kemptide) primarily at the Arg 4-Ala 5 bond has been partially purified from bovine adrenal chromaffin granules, brain and liver. The enzyme appears to have a relatively homogeneous tissue distribution, although highest levels were found in brain regions such as the hippocampus and corpus striatum. Sucrose density gradient fractionation established that enzyme activity assayed at pH 8.5 is not associated with lysosomes. Purified enzyme displays a dimeric structure with subunit molecular weights of 40 kDa and 42 kDa and a native molecular weight of 85,000 Da. The endopeptidase has a neutral pH optimum, is sensitive to divalent cations and thiol reagents, and can cleave on either the amino or carboxyl side of some but not all internal basic amino acids.

Inhibition of the H +-ATPase in bovine adrenal chromaffin granule ghosts by diethylstilbestrol Evidence for a tight coupling between ATP hydrolysis and proton translocation

Diethylstilbestrol (DES) was found to inhibit reversibly the hydrolysis of MgATP (80% at 100μM) and proton pump activity ( I 50⋍15 μM, complete at 100 μM) in chromaffin granule ghosts. The parallel inhibition suggests a tight kinetic coupling between the two activities. The Mg 2+-ATPase activity, but not proton pumping, was partially restored by N, N′-dicyclohexylcarbodiimide,indicating that the two inhibitors in combination cause a partial uncoupling. The non-competitive type of inhibition shows that the action of DES is distal to the site of ATP binding and hydrolysis. Although unspecific, the interaction of DES with the chromaffin granule membrane seems primarily to affect the H +-ATPase.

Phosphatidylinositol kinase of bovine adrenal chromaffin granules: Kinetic properties and inhibition by low concentrations of Ca 2+

The kinetics and regulatory properties of phosphatidylinositol (PI) kinase were studied in chromaffin granule ghosts isolated from the bovine adrenal medulla. Phosphatidylinositol 4-phosphate (PIP) was the major 32P-labelled phospholipid formed when the isolated membranes were phosphorylated by [γ- 32P]ATP. The PI kinase activity was rather independent of pH, but highly dependent on Mg 2+ with a maximal stimulation at 60 mM Mg 2+. By contrast, KCl and NaCl had a slight inhibitory effect. The K m value for MgATP was 44 and 62 μM in the presence of 1 and 20 mM MgCl 2, respectively. The PI kinase was almost fully and reversibly inhibited by free Ca 2+ (calmodulin-independent) in the nanomolar and low micromolar range, depending on the concentration of Mg 2+. The inhibition was not dependent on Ca 2+-stimulated protein phosphorylation, and it could not be explained by a dephosphorylation of PIP.

Different processing of chromogranin B into GAWK-immunoreactive fragments in the bovine adrenal medulla and pituitary gland

Chromogranin B 420-493 (GAWK)-like immunoreactivity (chromogranin B (420-493)-LI) was determined by radioimmunoassay using two different rabbit antisera, one raised against chromogranin B (420-436) (GAWK 1-17) (Ab420-436) and the other against chromogranin B 439-457 (GAWK 20-38) (Ab439-457), in bovine and human tissues. Chromogranin B (420-493)-LI was present in the bovine adrenal medulla chromaffin granules as well as in the anterior pituitary gland and was released from the cultured bovine chromaffin cells by stimulation with high K+ or nicotine. Chromogranin B (420-493)-LI present in the bovine tissues was detected using Ab420-436 but was not detected using Ab439-457. In the human tissues, chromogranin B (420-493)-LI was detected using Ab420-436 as well as Ab439-457. This suggests that the amino acid sequence of this region (chromogranin B 439-457) is different between human and bovine. On the gel permeation chromatography, chromogranin B (420-493)-LI was eluted at the void volume in the bovine adrenal medulla and at an apparent molecular weight of 4000 in the anterior pituitary gland. On the reverse-phase high-performance liquid chromatography, multiple peaks of chromogranin B (420-493)-LI was detected in the bovine adrenal medulla while one component of chromogranin B (420-493)-LI was found in the anterior pituitary gland. These results suggest that chromogranin B is processed into small fragments of chromogranin B (420-493)-LIs and that this processing is tissue-specific.

Accumulation of biological amines into chromaffin granules: a model for hormone and neurotransmitter transport.

Accumulation of biological amines into chromaffin granules: a model for hormone and neurotransmitter transport.

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.

Product inhibition of carboxypeptidase H.

Carboxypeptidase H is one of several enzymes required for the processing of peptide hormone precursors. In this study, inhibition of carboxypeptidase H by its peptide products was investigated. Carboxypeptidase H activity in bovine adrenal medulla chromaffin granules and rat adrenal medulla homogenate was inhibited by the peptides Met- and Leu-enkephalin, vasopressin, oxytocin, luteinizing hormone-releasing hormone, substance P, and thyrotropin-releasing hormone, with oxytocin and ACTH 1-14 having the least effect, at concentrations of 2-20 mM. Inhibition by amidated peptide products (vasopressin, oxytocin, luteinizing hormone-releasing hormone, substance P, and thyrotropin-releasing hormone) show that the final products of the precursor processing pathway can regulate carboxypeptidase H. These levels of peptides are similar to known intragranular peptide concentrations indicating that product and feedback inhibition of carboxypeptidase H may play a role in the control of neuropeptide synthesis. The proenkephalin-derived peptides Met-enkephalin, Leu-enkephalin, Met-enkephalin-Arg6-Gly7-Leu8, and Met-enkephalin-Arg6-Phe7 competitively inhibited bovine and rat carboxypeptidase H with Ki values of 12.0, 6.5, 7.0, and 5.5 mM, respectively. The significantly greater Ki for Met-enkephalin may reflect the effects of higher intragranular concentration of Met-enkephalin, since one proenkephalin molecule contains four copies of Met-enkephalin and only one copy of each of the other enkephalin peptides. Thus, the products from one multivalent precursor molecule may equivalently inhibit carboxypeptidase H activity. Product inhibition of carboxypeptidase H and perhaps other processing enzymes may serve to limit the maximum peptide concentration within the secretory vesicle.

Purified cytochrome b561 catalyzes transmembrane electron transfer for dopamine beta-hydroxylase and peptidyl glycine alpha-amidating monooxygenase activities in reconstituted systems.

Cytochrome b561 from bovine adrenal medulla chromaffin granules has been purified by fast protein liquid chromatography chromatofocusing. The purified cytochrome was reconstituted into ascorbate-loaded phosphatidylcholine vesicles. With this reconstituted system transmembrane electron transfer for extravesicular soluble dopamine beta-hydroxylase activity was demonstrated. In accordance with the model proposed by Njus et al. (Njus, D., Knoth, J., Cook, C., and Kelley, P. M. (1983) J. Biol. Chem. 258, 27-30), catalytic amounts of a redox mediator were necessary to achieve electron transfer between cytochrome and soluble dopamine beta-hydroxylase. Our observations also showed that when membranous dopamine beta-hydroxylase was reconstituted on cytochrome containing vesicles, electron transfer occurred only in the presence of a redox mediator. Since cytochrome b561 has been found in secretory vesicles associated with peptidyl glycine alpha-amidating monooxygenase, electron transfer to this enzyme was also examined. Analogous to the results obtained for dopamine beta-hydroxylase, transmembrane electron transfer to peptidyl glycine alpha-amidating monooxygenase appears to require a redox mediator between cytochrome and this monooxygenase. These observations indicate that purified cytochrome b561 is capable of providing a transmembrane supply of electrons for both monooxygenases. Since no direct protein to protein electron transfer occurs, the results support the hypothesis that the ascorbate/semidehydroascorbate redox pair serves as a mediator for these enzymes in vivo.

Hydrodynamic properties of the chromaffin granule hydrogen ion pumping adenosinetriphosphatase.

We have determined the hydrodynamic properties of detergent-solubilized ATPase, which is coupled to H+ pumping in bovine adrenal chromaffin granules, by sedimentation equilibrium centrifugation and gel permeation chromatography. The protein solubilized with detergent containing phosphatidylserine sediments as a particle of 264,000 daltons and partial specific volume 0.829 cm3/g. Assuming a protein v of 0.73 and using the v measured for detergent and lipid mixed micelles of 0.93 cm3/g, we calculated that the protein component has a mass of 134,000 daltons and that the equivalent of approximately 1.5 micelles of detergent are bound per particle. The particle exhibits a Stokes radius of 43 A, which, together with the calculated particle volume, indicates an axial ratio close to 1. We conclude that the ATPase is an intrinsic membrane protein with a structure very different from that of mitochondrial F1F0 ATPase.

Studies on Mg2+-dependent ATPase in bovine adrenal chromaffin granules. With special reference to the effect of inhibitors and energy coupling.

The Mg2+-ATPase activities of bovine adrenal chromaffin granules were studied in highly purified preparations of granule ghosts and in intact organelles. The overall ATPase activity (150-250 nmol ADP min-1 mg-1) of the granule ghost preparations was inhibited less than 5% by the bathophenanthroline chelate of Fe(II), a potent inhibitor of mitochondrial F1-ATPase. This small inhibition can be accounted for by a very minor contamination with mitochondria or mitochondrial fragments. The overall ATPase activity of native granule ghosts was inhibited about 75% by N-ethylmaleimide, with half-maximal inhibition at about 20 microM. The titration curve was slightly shifted towards higher concentrations as compared to the inhibition curve for the proton pump activity, which was completely inhibited at 25 microM. N,N'-Dicyclohexylcarbodiimide inhibited the overall ATPase activity by 75-80% at 1.1 mumol/mg protein, a concentration that completely abolished the proton pump activity. Low concentrations (10 microM) of vanadate inhibited the overall ATPase activity by about 15% but had no effect on the proton pump activity, which was partly inhibited only at higher vanadate concentrations. Our attempts to assign a function to the vanadate-sensitive and N-ethylmaleimide-insensitive ATPase have so far been unsuccessful. In particular, our assay for ATP diphosphohydrolase activity was negative, although the chromaffin granule ghosts revealed a low Mg2+-ADPase activity (11.8 nmol AMP min-1 mg-1 protein). In intact chromaffin granules the specific Mg2+-ATPase activity (50-70 nmol ADP min-1 mg-1) was stimulated 2-fold by uncouplers, as compared to 1.6-1.7-fold in granule ghosts. The degree of energy coupling was rather independent of the external pH (6.5 less than pH less than 8.0) and temperature (20-45 degrees C). As expected, partial inhibition (about 15%) of the overall ATPase activity by 10 microM vanadate increased the ATPase control ratio. ADP was found to be a potent inhibitor of the proton pump activity with MgATP as the substrate, and the effect can partly be explained by a competitive type of inhibition of the hydrolytic reaction. This effect of ADP explains some of the kinetic data reported for MgATP-dependent (H+-ATPase-dependent) reactions in this organelle, notably the energy-dependent accumulation and storage of catecholamines.

An investigation of the molecular properties and stability of intermediates of proenkephalin in isolated bovine adrenal medullary chromaffin granules.

An antiserum to a synthetic peptide corresponding to residues 95-117 of bovine proenkephalin recognizes all the major intermediates of this prohormone in bovine adrenal medulla (Birch, N. P. and Christie, D. L. (1986) J. Biol. Chem. 261, 12213-12221). This antiserum enabled an investigation of the stability and molecular properties of intermediates in the processing of proenkephalin in bovine adrenal medullary chromaffin granules. Intact and hypotonic lysates of chromaffin granules were incubated at 37 degrees C and the stability of intermediates assessed by gel filtration followed by radioimmunoassay and gel electrophoresis in combination with immunoblotting. Processing was slow in intact granules compared with incubations of hypotonic lysates which resulted in the selective cleavage of an Mr 27,000 intermediate and increases in the amounts of immunoreactivity of lower molecular weight. Protease inhibitors increased the stability of the 27-kilodalton intermediate, the most effective being p-chloromercuribenzoate. Preliminary evidence was obtained for the regulation of the processing of this intermediate by soluble factors present in chromaffin granules. It appears that membrane-associated intermediates of proenkephalin are relatively stable, although analysis of soluble immunoreactivity released during the incubation of chromaffin granule membranes showed a decrease in the 27-kilodalton intermediate and increased amounts of lower molecular weight intermediates. Analysis of hypotonic lysates by two-dimensional gel-electrophoresis showed that proenkephalin intermediates exhibit significant microheterogeneity. It will be important to compare the products of proenkephalin generated by purified proteases with a putative role in the processing of this prohormone with the properties of endogenous intermediates as revealed in this study.

Characterization of the molecular forms of proenkephalin in bovine adrenal medulla and rat adrenal, brain, and spinal cord with a site-directed antiserum.

An antiserum was generated against a synthetic peptide corresponding to amino acids 95-117 of bovine proenkephalin, and a sensitive radioimmunoassay was developed. Comparison of the reactivities of the synthetic peptide, its specific cleavage products, and other synthetic peptides showed that the important immunological determinant was contained within residues 101-109 of bovine proenkephalin (-Gly-Gly-Glu-Val-Leu-Gly-Lys-Arg-Tyr-). Radioimmunoassay of fractions after gel filtration of bovine adrenal medullary chromaffin granule lysate showed three pools of immunoreactivity: pool 1 (Mr 20,000-30,000), pool 2 (Mr 10,000-20,000), and pool 3 (Mr approximately 5,000). Further characterization by sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by immunoblotting showed that the antiserum recognized 27-, 20.5-, 16.5-, and 5.6-kilodalton enkephalin-containing proteins. The radioimmunoassay was also used to detect proenkephalin-like material in extracts of rat adrenal and regions of rat brain and spinal cord following gel filtration. Immunoreactivity from the rat adrenal chromatographed predominantly as high molecular weight material (Mr 31,500-43,500), whereas material in regions of rat brain showed a broader molecular weight distribution (Mr 4,000-43,500). This indicated differences in the processing of proenkephalin between rat adrenal and brain tissue. Differences were also seen in the molecular weight profile of immunoreactivity in different brain regions, most noticeable in the case of striatum and hypothalamus, suggesting regional differences in processing. Based on quantitation of higher molecular weight immunoreactive proenkephalin-like material and free Met-enkephalin immunoreactivity in different brain regions, it was apparent that extensive processing of proenkephalin occurs in brain. We concluded that antisera against proenkephalin-(95-117) recognize a wide range of intermediates in the processing of proenkephalin in both bovine adrenal medulla and rat adrenal, brain, and spinal cord, making it a useful tool for further studies concerned with the expression and post-translational processing of proenkephalin.