Purification of a HeLa cell high molecular weight action binding protein and its identification in HeLa cell plasma membrane ghosts and intact HeLa cells

The high molecular weight protein (HMWP) which was previously observed to be a major component of the actin based gels formed by incubating cytoplasmic extracts of HeLa cells at 25 degrees C [Weihing, R. R. (1977) J. Cell Biol. 75, 95-103] has now been purified by gel filtration of 0.6 M KCl extracts of precipitated gels. A few hundred micrograms of HMWP, which is about 90% pure, can be isolated from 4 X 10(9) cells. HMWP can gel muscle actin and cross-link it into filament bundles. Its subunit molecular weight is 250 0000, its Stokes radius is 125 A, and its sedimentation coefficient is 9 S. A native molecular weight of 480 000 was calculated by using the latter two parameters, and therefore the native molecule is a dimer. Its amino acid analysis is nearly indistinguishable from that of macrophage actin binding protein and of mammalian and avian filamins. All of these findings indicate that HMWP is homologous to the latter proteins. However, HeLa cell HMWP and avian filamin must differ in their primary sequences because their partial peptide maps are distinct and because an antiserum against HMWP reacts only weakly with filamin. For studies on the intracellular location of HMWP, a goat antiserum against purified HMWP was prepared and characterized and then used to localize HMWP in suspension grown cells. The technique of immunoblotting revealed that the antiserum reacted virtually exclusively with the high molecular weight polypeptide that comigrates with HMWP in cell lysates and in ZnCl2-stabilized plasma membrane ghosts prepared from HeLa cells [Gruenstein, E., Rich, A., & Weihing, R. R. (1975) J. Cell Biol. 64, 223-234] and that it did not react with rabbit myosin heavy chain, microtubule proteins (MAPS and tubulin) from HeLa cells and calf brain, or the proteins of human erythrocyte ghosts including spectrin. Suspension-grown cells which were stained with the antiserum by the technique of indirect immunofluorescence showed bright fluorescence at the rim of the cells and less intense generalized fluorescence. If preimmune serum or immune serum treated with HMWP was substituted for the immune serum, then staining at the rim was not observed, but the generalized fluorescence was only slightly reduced; unpermeabilized cells were not stained. These results indicate that HMWP is a component of the cortical cytoplasm of HeLa cells. Possible functions of cortical HMWP are discussed briefly.     

Microbial transformations of steroids--III. Transformation of progesterone by Sepedonium ampullosporum

The 16 alpha-steroid hydroxylating fungus Sepedonium ampullosporum (CMI strain 203 033) transformed progesterone into 16 alpha-hydroxyprogesterone and four other major metabolites which have not been reported previously for this organism, 6 beta-hydroxyprogesterone, 17 alpha-hydroxyprogesterone, 16 alpha-hydroxyandrostenedione and 16-oxotestosterone (16-ketotestosterone). Among the minor metabolites we have been able to identify 15 alpha-hydroxyprogesterone. This compound has not been reported for S. ampullosporum. The conditions used for transformation had comparatively little effect on the relative proportions of products formed, 16 alpha-hydroxyprogesterone always being the predominant metabolite, but had a major effect on the total yields of metabolites isolatable. These findings suggest that one or more constitutive enzyme systems were responsible for the transformations.     

Isolation and identification of a high molecular weight protein in sow milk

A high molecular weight protein (HMWP) was isolated and purified from sow milk, and some of its biochemical characteristics and biological functions were identified. The origin of HMWP was also investigated. The molecular weight of HMWP was determined to be about 115 000 and 114 800 by SDS-PAGE and gel filtration, respectively. The sequence of 10 amino acids in N-terminal of HMWP was Ala-Leu-Val-Gln-Ser-Cys-Leu-Asn-Leu-Val. The sequence was blasted against GenBank. No protein showed significant similarity with this sequence suggesting the HMWP may be novel. The result of liquid chromatography mass spectrometry (LC-MS) also proved HMWP could be a novel protein. By amino acid assay, HMWP was rich in glutamate (including glutamine), cysteine, glycine, aspartic acid (including asparagines) and proline. The content of hydrophobic amino acids (Ala, Val, Leu, Ile, Met, Phe and Pro) was lower at 18.59% of the total amino acids suggesting HMWP has high solubility in water. Western blots of lectins were used to identify the kinds of carbohydrate residues attached to HMWP qualitatively. The result showed that HMWP was a kind of glycoprotein containing N-acetylneuraminic acid (NeuNAc), mannose (Man) and/or N-acetylglucosamine (GlcNAc). By isoelectric focusing, HMWP pI was found to be 5.1. Compared with milk fat globule membrane protein (MFGMP) isolated from the sow milk in SDS-PAGE, MFGMP did not contain HMWP. HMWP was assumed to be a secretory milk protein. HMWP was not found in bovine, goat, rabbit or human milk in SDS-PAGE gel suggesting HMWP may be unique to sow milk. By Western blot, HMWP could be detected in sow milk, not in sow serum, which suggests it is synthesized and secreted by the mammary gland. HMWP concentrations in sows milk were the lowest in the first day of lactation, rose significantly during lactation 1 to 7 days. The HMWP content of sows milk remained relatively constant ((1.95±0.13) g/l) during lactation 7 to 20 days. HMWP significantly inhibited Escherichia coli in a dose related manner in vitro. Overall, HMWP could be a novel sow milk protein with implications for the mammary gland and the piglet.     

Thioesterase portability and peptidyl carrier protein swapping in yersiniabactin synthetase from Yersinia pestis

Multimodular enzymes, including polyketide synthases (PKSs), nonribosomal peptide synthetases (NRPSs), and mixed PKS/NRPS systems, contain functional domains with similar functions. Domain swapping and module fusion are potential powerful strategies for creating hybrid enzymes to synthesize modified natural products. To explore these strategies, yersiniabactin (Ybt) synthetase containing two subunits, HMWP2 [two NRPS modules (N-terminus-ArCP-Cy1-A-PCP1 and Cy2-PCP2-C-terminus)] and HMWP1 [one PKS (N-terminus-KS-AT-MT1-KR-ACP) one NRPS module (Cy3-MT2-PCP3-TE-C-terminus)], was used as a model system to study peptidyl carrier protein (PCP) domain swapping, thioesterase (TE) portability, and module-module fusion. The PCP1 domain of the N-terminal NRPS module of HMWP2 was swapped with either PCP2 or PCP3. The fusion proteins were 3-8-fold less active than the wild-type protein. The swapping of PCP2 of HMWP2 abolished the heterocyclization activity of the Cy2 domain while retaining its condensation function. When the two PCPs of HMWP2 were swapped by PCP3TE, it created two active fusion proteins: one or two NRPS modules fused to the TE domain. The internal TE domain of the two fusion proteins catalyzed the hydrolysis of enzyme-bound intermediates HPT-S-PCP3 to form HPT-COOH and HPTT-S-PCP3 to form HPTT-COOH. The TE activity was eliminated by the S2980A point mutation at its active site. Therefore, the three PCPs of the Ybt synthetase were swappable, and its lone TE domain was portable. The reasons for the observed low activities of the fusion proteins and lessons for protein engineering in generating novel modular enzymes were discussed.     

Peptaibol production by sepedonium strains parasitizing boletales

Fungi of the genus Sepedonium (anamorphic ascomycetes) are known to infect fruiting bodies of Basidiomycetes of the order Boletales. We have characterized twelve Sepedonium isolates by intact-cell mass spectrometry (IC-MS) with the help of respective biomarkers and their metabolite spectra focusing on peptaibol production. A strain of mycoparasitic S. chalcipori was grown in solid-state fermentation, and tylopeptin production was found, suggesting an ascomycete origin of these peptaibols, which were first described in the basidiomycete Tylopilus neofelleus. In addition, the structures of two new peptaibols, chalciporin A (=Ac-Trp-Val-Aib-Val-Ala-Gln-Ala-Aib-Ser-Leu-Ala-Leu-Aib-Gln-Leuol) and chalciporin B (=Ac-Trp-Val-Aib-Val-Ala-Gln-Ala-Aib-Gln-Aib-Ala-Leu-Aib-Gln-Leuol) are presented. The IC-MS technique was applied for in situ peptaibol analysis of Sepedonium strains growing on Boletales, in particular S. chrysospermum infecting Xerocomus cf. badius. We found chrysospermins at the surface and within basidiomycete tissue, as well as in the cultivated parasite.     

Biosynthesis of a ubiouitin-related peptide in rat brain and in human and mouse pituitary tumors

A biosynthetic labeled peptide structurally related to the thymic peptide ubiquitin was first identified fortuitously in bovine pars intermedia cells in regard to its partial NH₂ terminal amino acid sequence (Met 1, Leu 8, 15 and Lys 6, 11, 27, 29, 33) after a protein segment data bank search. A peptide with the same behavior on carboxymethylcellulose chromatography and polyacrylamide gel electrophoresis has been purified after labeling experiments in two areas of rat brain, hypothalamus and striatum, and in a mouse and a human ACTH-secreting pituitary tumors. It represents about 1 to 10% of the total labeled proteins in the various experiments. Its identity with the above mentioned bovine pituitary peptide was confirmed by microsequence analysis with respect to Met 1, Lys 6, 11 in hypothalmus, Met 1 in striatum, and Lys 6, 11, 27, 29, 33 in the two pituitary tumors. The availability of standard purified ubiquitin allowed us to show that labeled and cold peptides have the same electrophoretic mobility and elution volume on Sephadex G-50 chromatography this further confirms their identity. Possible interests of such a biosynthetic characterization of a ubiquitin-related peptide are discussed, particularly in view of the structural relationship of ubiquitin to the non histone component of nuclear protein A-24, and as a test of tissue viability and biosynthetic efficiency in our in vitro biosynthetic systems.     

Studies on the biosynthesis of the lipodepsipeptide antibiotic Ramoplanin A2

Ramoplanin, a non-ribosomally synthesized peptide antibiotic, is highly effective against several drug-resistant Gram-positive bacteria, including vancomycin-resistant Enterococcus faecium (VRE) and methicillin-resistant Staphylococcus aureus (MRSA), two important opportunistic human pathogens. Recently, the biosynthetic cluster from the ramoplanin producer Actinoplanes ATCC 33076 was sequenced, revealing an unusual architecture of fatty acid and non-ribosomal peptide synthetase biosynthetic genes (NRPSs). The first steps towards understanding how these biosynthetic enzymes cooperatively interact to produce the depsipeptide product are expression and isolation of each enzyme to probe its specificity and function. Here we describe the successful production of soluble enzymes from within the ramoplanin locus and the confirmation of their specific role in biosynthesis. These methods may be broadly applicable to the production of biosynthetic enzymes from other natural product biosynthetic gene clusters, especially those that have been refractory to production in heterologous hosts despite standard expression optimization methods.     

Yersinia spp. HMWP2, a cytosolic protein with a cryptic internal signal sequence which can promote alkaline phosphatase export.

The iron starvation-induced, 2,042-amino-acid protein HMWP2 of Yersinia enterocolitica has two internal hydrophobic segments which might promote its export and association with the cytoplasmic membrane. To determine whether part of HMWP2 could be exported beyond the periplasmic face of the cytoplasmic membrane, we used TnphoA mutagenesis to construct 10 hybrid proteins in which periplasmic alkaline phosphatase (PhoA) was fused to the end of C-terminally truncated HMWP1 (at amino acid positions 1751 and 1753 two independent isolates]) had high alkaline phosphate activity (close to that of the native enzyme), both in Escherichia coli and in Y. pseudotuberculosis, indicating that the PhoA segment of the hybrid reached the periplasm. Deletion studies showed that the export signal resides in the second hydrophobic segment of HMWP2. This result would be compatible with the topology of the protein in the cytoplasmic membrane predicted from the distribution of charged amino acids at either end of the two hydrophobic segments. However, two hybrids in which the junction was even further toward the C terminus of HMMWP2 (at positions 1793 and 1999) had only weak alkaline phosphatase activity, suggesting that the predicted topology is incorrect. The location of HMWP2 was therefore determined by subcellular fractionation. The results indicate that HMPW2 is mainly cytoplasmic, consistent with its presumed role in the ATP-dependent, nonribosomal synthesis of an unknown peptide. We propose that the high alkaline phosphatase activity associated with some of the HMWP-2-PhoA hybrids results from the unmasking of the cryptic export signal activity in the second hydrophobic segment of HMPW2.     

Isolation and covalent structure of the aspirin-modified, active-site region of prostaglandin synthetase

Aspirin (acetylsalicylic acid) inhibits prostaglandin synthesis by acetylating a single internal serine residue of the initial enzyme in the biosynthetic pathway, prostaglandin synthetase. In this study, the region of the enzyme that is modified by aspirin has been isolated, and its amino acid sequence has been determined. Sheep vesicular gland [acetyl-3H]prostaglandin synthetase was purified following treatment with [acetyl-3H]aspirin and digest with pepsin. An acetyl-3H-labeled peptic peptide of approximately 25 residues was isolated by high-pressure liquid chromatography, and its amino acid sequence was determined to be Ile-Glu-Met-Gly-Ala-Pro-Phe-Ser-Leu-Lys-Gly-Leu-Gly-Asn-Pro-Ile-Glu-Ser-Pro-Glu-Tyr. The acetylated serine residue was located at position 8 in this sequence. The current study marks this polypeptide sequence as a region related to an active site of the enzyme.     

Pyridinyl polythiazole class peptide antibiotic micrococcin P1, secreted by foodborne Staphylococcus equorum WS2733, is biosynthesized nonribosomally.

Recently, foodborne Staphylococcus equorum WS2733 was isolated from a French red smear cheese on account of its strong inhibitory activity against Gram-positive pathogens such as Listeria. The antagonistic substance was identified as macrocyclic peptide antibiotic micrococcin P1, which had previously not been reported for the genus Staphylococcus. Micrococcin P1, also a potent inhibitor of the malaria parasite Plasmodium falciparum, is structurally related to thiostrepton, thiocillins and nosiheptide. Although all of these peptide antibiotics have been known for quite a long time, their mode of biosynthesis had not been determined in detail yet. By using degenerated PCR, a gene fragment encoding a nonribosomal peptide synthetase (NRPS) could be amplified from S. equorum. The corresponding chromosomal locus was disrupted by insertional mutagenesis, and it could be shown that all mutants obtained displayed a micrococcin P1-deficient phenotype. Sequence analysis of a coherent 2.8-kb fragment revealed extensive homology to known NRPSs, and allowed the assignment of the domain organization 'condensation-adenylation-thiolation-condensation'; an arrangement predicted only for two loci within the presumably 14-modular, 1.6-MDa biosynthetic NRPS template. Biochemical characterization of the adenylation domain exhibited selectivity for the substrate amino-acid threonine. All of these data substantiate that the macrocyclic peptide antibiotic is biosynthesized nonribosomally, and provide the basis for the characterization of the entire biosynthetic gene cluster. The biosynthetic machinery of micrococcin will serve as a model system for structurally related, pharmacologically important pyridinyl polythiazole class peptide antibiotics. Furthermore, this knowledge will enable the manipulation of its NRPS template, which in turn may grant the targeted engineering of even more potent anti-listerial and anti-malaria drugs.     

Enhancement of bacitracin biosynthesis by branched-chain amino acids in a regulatory mutant ofBacillus licheniformis

DL-4-Azaleucine-resistant mutant of Bacillus licheniformis azlr-1 isolated after N-methyl-N'-nitro-N-nitrosoguanidine mutagenesis, was a better bacitracin producer than the parent strain. In the minimal medium, the antibiotic biosynthesis was 4 times higher in the mutant than in the parent strain and less dependent on L-leucine addition. In the complex fermentation medium, the yield was 18-20% higher in the mutant strain. Transaminase B activity measured in the crude extract revealed that the branched-chain amino acid biosynthetic enzymes were 5-10 times derepressed supplying bacitracin synthetase with enhanced quantity of isoleucine and leucine, the building units of bacitracin molecule.     

Chromatin changes related to dedifferentiation and differentiation in tobacco tissue culture (Nicotiana tabacum L.)

Non-histone chromosomal proteins (NHP) were isolated from different stages of Nicotiana tabacum L. pith dedifferentiation to callus and callus redifferentiation. The NHP were separated by sodium dodecylsulfate-polyacrylamide gel electrophoresis on slab gels and analyzed by densitometry. Simultaneous histological changes are reported. In both processes, some high molecular weight protein (HMWP) bands increase drastically in an induction period, previous to cell proliferation, and decrease when cell division declines. Some low molecular weight protein bands, intense in pith tissue, decrease early when callus is forming and increase when cells differentiate. chromatin template activity is high when cells proliferate, coinciding with maximum HMWP-bands intensity.Abbreviations HMWP high molecular weight proteins - IAA indole-3-acetic acid - LMWP low molecular weight proteins - NHP non-histone proteins - TA template activity     

Identification of genes involved in the biosynthesis of the cytotoxic compound glidobactin from a soil bacterium

Glidobactins (syn. cepafungins) are a family of structurally related cytotoxic compounds that were isolated from the soil bacterial strain K481-B101 (ATCC 53080; DSM 7029) originally assigned to Polyangium brachysporum and, independently, from an undefined species related to Burkholderia cepacia. Glidobactins are acylated tripeptide derivatives that contain a 12-membered ring structure consisting of the two unique non-proteinogenic amino acids erythro-4-hydroxy-l-lysine and 4(S)-amino-2(E)-pentenoic acid. Here we report the cloning and functional analysis of a gene cluster (glbA-glbH) involved in glidobactin synthesis from K481-B101, which according to its 16S rRNA sequence belongs to the Burkholderiales. The putative encoded proteins include a mixed non-ribosomal peptide/polyketide synthetase whose structure and architecture allowed to build a biosynthetic pathway model explaining the biosynthesis of the unique peptide part of glidobactins. Intriguingly, among the more than 600 bacterial strains whose genome sequence is currently available, homologous gene clusters were found in Burkholderia pseudomallei, the causing agent of melioidosis, and in the insect pathogen Photorhabdus luminescens, strongly suggesting that these organisms are capable to synthesize compounds similar to glidobactins. In addition, a glb gene cluster that was inactivated by transposon-mediated rearrangements was also present in Burkholderia mallei, a very close relative of B. pseudomallei and the causing agent of glanders in horse-like animals.     

Cytochalasin B inhibits actin-related gelation of HeLa cell extracts

When the 100,000 g supernatant fraction (extract) of HeLa cells lysed in a buffer containing sucrose, ATP, DTE, EGTA, imidazole, and Triton X- 100 is incubated at 25 degrees C, it gels, and actin and a HMWP are progressively enriched in the extract and in gel isolated from extract. CB (greater than or equal to 0.25 muM) inhibits gelation and specifically lowers the concentrations of actin and the HMWP in the fraction which sediments at 100,000 g after incubation. These results indicate that actin and HMWP are partly disaggregated by cytochalasin treatment, and thus that their aggregation is related gelation. Inasmuch as previous results showed that actin is present and HMWP is enriched in the plasma membrane fraction of HeLa cells, the results also point to a possible relation between plasma membrane-associated gel and in vivo effects of CB.     

High-molecular-weight protein (pUL48) of human cytomegalovirus is a competent deubiquitinating protease: mutant viruses altered in its active-site cysteine or histidine are viable

We show here that the high-molecular-weight protein (HMWP or pUL48; 253 kDa) of human cytomegalovirus (HCMV) is a functionally competent deubiquitinating protease (DUB). By using a suicide substrate probe specific for ubiquitin-binding cysteine proteases (DUB probe) to screen lysates of HCMV-infected cells, we found just one infected-cell-specific DUB. Characteristics of this protein, including its large size, expression at late times of infection, presence in extracellular virus particles, and reactivity with an antiserum to the HMWP, identified it as the HMWP. This was confirmed by constructing mutant viruses with substitutions in two of the putative active-site residues, Cys24Ile and His162Ala. HMWP with these mutations either failed to bind the DUB probe (C24I) or had significantly reduced reactivity with it (H162A). More compellingly, the deubiquitinating activity detected in wild-type virus particles was completely abolished in both the C24I and H162A mutants, thereby directly linking HMWP with deubiquitinating enzyme activity. Mutations in these active-site residues were not lethal to virus replication but slowed production of infectious virus relative to wild type and mutations of other conserved residues. Initial studies, by electron microscopy, of cells infected with the mutants revealed no obvious differences at late times of replication in the general appearance of the cells or in the distribution, relative numbers, or appearance of virus particles in the cytoplasm or nucleus.     

猪乳中一高分子量蛋白质的分离纯化和鉴定

对猪乳中一高分子量蛋白(HMWP)进行了分离纯化,并对其某些生化性质进行了鉴定。猪乳通过去脂得到脱脂乳,再去除酪蛋白得到乳清。对乳清进行硫酸铵分级盐析,猪乳中HMWP在40％饱和度硫酸铵盐析下有最大沉淀。收集40％饱和度硫酸铵盐析沉淀,经过溶解、透析得到HMWP的粗品。通过Mono Q离子交换柱,对其粗品进行两次层析提纯,得到了HMWP纯品,其纯度和得率分别为97．85％和12．31％。多种植物凝集素的Western blotting鉴定表明,HMWP是一个糖基种类较少的糖蛋白,含有Man和GlcNAc。SDS-PAGE和凝胶过滤分别测得HMWP的分子量为114．8kD和115．0kD。通过等电点测定,HMWP的pI为5．10。HMWP的氨基酸组分分析得知,其富含Asp、Glu、Gly和Cys,疏水性氨基酸较低,仅占15．59％摩尔分数。这些结果说明HMWP是一个易溶于水的、酸性的分泌性单体球蛋白。N端氨基酸序列测定结果为Ala-Leu-Val—Gln-Ser-Gty-Leu-Ash-Leu-Val,通过从网络Genbank检索没有发现其同源蛋白的序列,说明其可能是一个新蛋白。     

The neurohypophysial hormones of the egg-laying mammals: identification of arginine vasopressin in the platypus (Ornithorhynchus anatinus)

Two neurohypophysial peptides have been purified from acetone desiccated posterior pituitary glands of the platypus (Ornithorhynchus anatinus) by molecular sieving and high-pressure liquid chromatography. A single pressor peptide, having an amino acid composition and a chromatographic retention time identical to those of arginine vasopressin, has been identified. A single oxytocic peptide has been isolated that ressembles oxytocin by its chromatographic retention time, but lack of material has prevented to obtain a correct amino acid composition. The pressor peptide is roughly four times more abundant than the oxytocic peptide. Neurohypophysial hormones of platypus seem similar to those of echidna, the other living prototherian, and to those of most placental mammals.     

Microbial production host selection for converting second-generation feedstocks into bioproducts

Although many secondary metabolites with diverse biological activities have been isolated from myxobacteria, most strains of these biotechnologically important gliding prokaryotes remain difficult to handle genetically. In this study we describe the new fast growing myxobacterial thermophilic isolate GT-2 as a heterologous host for the expression of natural product biosynthetic pathways isolated from other myxobacteria. According to the results of sequence analysis of the 16S rDNA, this moderately thermophilic isolate is closely related to Corallococcus macrosporus and was therefore named C. macrosporus GT-2. Fast growth of moderately thermophilic strains results in shorter fermentation and generation times, aspects which are of significant interest for molecular biological work as well as production of secondary metabolites. Development of a genetic manipulation system allowed the introduction of the complete myxochromide biosynthetic gene cluster, located on a transposable fragment, into the chromosome of GT-2. Genetic engineering of the biosynthetic gene cluster by promoter exchange leads to much higher production of myxochromides in the heterologous host C. macrosporus GT-2 in comparison to the original producer Stigmatella aurantiaca and to the previously described heterologous host Pseudomonas putida (600 mg/L versus 8 mg/L and 40 mg/L, respectively).     

Synthesis and secretion of corticotropins, melanotropins, and endorphins by rat intermediate pituitary cells.

The synthesis and secretion of various intermediate pituitary proteins was studied by using dispersed intermediate pituitary cell suspensions. Control studies indicated that the isolated cells were obtained in good yield and that after more than 24 h in culture the isolated cells continued to synthesize a collection of proteins similar to those found in freshly extracted intermediate pituitary tissue. Rat intermediate pituitary cells synthesized a molecule (Mr = 30,000; called 30K) that contained antigenic determinants for beta-endorphin, gamma-lipotropin, corticotropin (ACTH), and 16K fragment (the NH2-terminal region of mouse tumor cell pro-ACTH/endorphin). This 30K molecule, two high molecular weight forms of ACTH(13K and 20K), and 16K fragment were all shown to be glycoproteins. Continuous labeling and pulse-chase incubations were used to define the intracellular biosynthetic processing of the 30K molecule. After a 15-min pulse incubation the 30K molecule was the only labeled protein containing antigenic determinants for beta-endorphin, gamma-lipotropin, ACTH, or 16K fragment. A beta-lipotropin-like molecule served as a biosynthetic intermediate in the production of proteins similar to beta-endorphin and gamma-lipotropin. Methionine-enkephalin and alpha-endorphin were not major products in the intermediate lobe cells. Molecules similar to alpha-melanocyte-stimulating hormone and corticotropin-like intermediate lobe peptide (ACTH(18-39)) were also derived from the same 30K molecule; 20K ACTH served as a biosynthetic intermediate in this conversion. In rat intermediate pituitary cells ACTH(1-39) was not a major final product of the intracellular biosynthetic processing of the 30K molecule. The 30K molecule also served as a precursor to a protein similar to mouse tumor cell 16K fragment and related smaller proteins. With rat intermediate pituitary cells, pulse-chase experiments utilizing [35S]methionine demonstrated almost quantitative conversion of the 30K precursor into labeled proteins similar to beta-endorphin and alpha-melanocyte-stimulating hormone. In the absence of added secretagogues, small amounts of all of the smaller proteins derived from the 30K precursor were secreted coordinately into the culture medium.