Selectivity in storage hexamerin clearing demonstrated with hemolymph transfusions between Hyalophora cecropia and Actias luna.

When Hyalophora cecropia hemolymph was injected into wandering Actias luna larvae, a methionine-rich hexamerin was selectively transferred to the host's fat body, and completely cleared from the hemolymph by the time of pupal eclosion. Donor arylphorin was 30-40% removed from the hemolymph, and riboflavin-binding hexamerin was even less completely cleared. During the pupal-adult molt, these rates were reversed: methionine-rich hexamerin disappeared no faster than bovine serum albumin, while riboflavin-binding hexamerin was rapidly and completely cleared from the hemolymph, even though A. luna hemolymph lacks a homologue of this protein; arylphorin, again, was cleared at an intermediate rate. Selective clearing of the three hexamerins occurred at similar stages in H. cecropia, their species of origin. Developmentally programmed clearing, with selectivity at least partially conserved between genera, was also demonstrated with transfused vitellogenin: in A. luna females that were forming yolk, H. cecropia vitellogenin was cleared more rapidly than bovine serum albumin; but in younger females, and in males at all stages of metamorphosis, this Mr 510,000 molecule was instead an indicator of nonselective, large protein clearing. Nonselective clearing was more complete during adult development than during pupation. It also showed signs of being more effective for small than for large proteins, insensitive to carbohydrate conjugates, and unsaturated at the protein levels used.     

Methionine-rich hexamerin and arylphorin as precursor reservoirs for reproduction and metamorphosis in female luna moths

The storage proteins of Lepidoptera include a pair of methionine-rich hexamerins (MtH) that are more abundant in female pupae than in males. Their inferred support of female reproduction could be achieved either by enhancing general pools of amino acids, or by hydrolyzing MtH at times and/or sites that direct its constituents to the synthesis of egg proteins. The two models were tested in Actias luna, a saturniid moth that makes its eggs during adult development. MtH and arylphorin (ArH), the third major storage protein of this species, were labeled metabolically with [³⁵S]-methionine and [³H]-leucine, and injected individually into wandering stage caterpillars. Isotope distributions at eclosion indicated that both hexamerins supported egg formation as well as adult tissue protein synthesis. In the absence of evidence for targeting, MtH appears to support egg formation in A. luna by enhancing the amino acid pools derived from ArH. Analysis of ³⁵S labeling and of ³⁵S/³H ratios indicated, however, that ArH is consumed over a period that extends somewhat later in adult development than MtH. Differences in timing should prove to be much greater in Lepidoptera that delay egg formation until after eclosion. © 1996 Wiley-Liss, Inc.     

Cloning and characterization of hexamerin in Spodoptera exigua and the expression response to insecticide exposure

Hexamerins are hemolymph-proteins, which are mainly considered as storage proteins for non-feeding stages, and also undertake other roles during insect development and growth, however the characterization of hexamerin proteins in Spodoptera exigua is less understood. In this study five new hexamerin genes were identified and a total seven hexamerin genes were reported in S. exigua. These hexamerins contain the typical domains of hemocyanin at the N-terminal, C-terminal and in the middle of their protein sequences. These genes are mainly expressed in fat body, and the signal peptide sequences at their N-terminal of protein sequences can drive the expressed protein to excrete into hemolymph after synthesis. The phylogenetic analysis and amine acid composition revealed S. exigua express five different types of hexamerins: 1) Storage protein rich in methionine residue (MRSP), 2) Storage protein moderately rich in methionine (MMRSP), 3) Hexamerin with high composition of aromatic amino acids (Arylphorin), 4) Arylphorin-like hexamerin, and 5) Riboflavin-binding hexamerin (RbH). The phylogenetic pattern combined with the comparison of conserved histidine residues in copper binding sites of hexamerins revealed basal position of RbH and the evolutionary pathway in lepidopteran hexamerins. Finally, the induction expression of hexamerins by insecticide, lambda-cyhalothrin, were analyzed, results showed that lambda-cyhalothrin exposure may down-regulate their expression. This study increased the gene number of hexamerin to seven, and reported their expression and structural characterizations, the finding will facilitate the understand of hexamerin in other insects.     

Diversity of stonefly hexamerins and implication for the evolution of insect storage proteins

Hexamerins are large storage proteins of insects in the 500 kDa range that evolved from the copper-containing hemocyanins. Hexamerins have been found at high concentration in the hemolymph of many insect taxa, but have remained unstudied in relatively basal taxa. To obtain more detailed insight about early hexamerin evolution, we have studied hexamerins in stoneflies (Plecoptera). Stoneflies are also the only insects for which a functional hemocyanin is known to co-occur with hexamerins in the hemolymph. Here, we identified hexamerins in five plecopteran species and obtained partial cDNA sequences from Perla marginata (Perlidae), Nemoura sp. (Nemouridae), Taeniopteryx burksi (Taeniopterygidae), Allocapnia vivipara (Capniidae), and Diamphipnopsis samali (Diamphipnoidae). At least four distinct hexamerins are present in P. marginata. The full-length cDNA of one hexamerin subunit was obtained (PmaHex1) that measures 2475 bp and translates into a native polypeptide of 702 amino acids. Phylogenetic analyses showed that the plecopteran hexamerins are monophyletic and positioned at the base of the insect hexamerin tree, probably diverging about 360 million years ago. Within the Plecoptera, distinct hexamerin types evolved before the divergence of the families. Mapping amino acid compositions onto the phylogenetic tree shows that the accumulation of aromatic amino acids (and thus the evolution of "arylphorins") commenced soon after the hexamerins diverged from hemocyanins, but also indicates that hexamerins with distinct amino acid compositions reflect secondary losses of aromatic amino acids.     

Incorporation of coenzyme M into component C of methylcoenzyme M methylreductase during in vitro methanogenesis

Reduction of the methyl group of [methyl-3H,thio-35S]2-methylthioethanesulfonic acid to methane by a reconstituted enzyme system resulted in a slow incorporation of [thio-35S]2-mercaptoethanesulfonic acid (HS-CoM) into component C of the methylreductase system. Only 35S label was associated with component C. The ratio of incorporated HS-CoM to component C was 1.96 to 1. The ratio of HS-CoM to factor F430, the nickel-containing cofactor of component C, was 1.18 to 1. Extraction of factor F430 from the protein resulted in the release of 62 +/- 8% of the 35S label, but the label was not covalently bound to F430. The incorporation of label into component C was coupled to methyl group reduction; no label was found associated with component C from a reconstituted reaction containing unlabeled 2-methylthioethanesulfonic acid and [thio-35S]HS-CoM.     

Expression of post-translational processing of preprocecropin A using a baculovirus vector.

A cDNA fragment encoding preprocecropin A was inserted into the baculovirus Autographa californica nuclear polyhedrosis virus downstream of the polyhedrin promoter. The gene was expressed in recombinant-infected last instar larvae of Trichoplusia ni and in diapausing pupae of Hyalophora cecropia. The identity of the recombinant product was established by electrophoresis with detection of antibacterial activity and mass spectrometry. The prepropeptide had been correctly processed including removal of signal peptide and pro-part. Biologically active and amidated cecropin A was exported to the hemolymph. The yield of recombinant protein in H. cecropia reached a level of 600 micrograms/ml hemolymph and about 70% of the material was amidated.     

Characterization of proteoglycans synthesized by rat thyroid cells in culture and their response to thyroid-stimulating hormone

A Fisher rat thyroid cell line was maintained in culture and the cells were labeled with [3H]glucosamine, [35S]sulfate, and [35S]cysteine to examine the synthesis of proteoglycans. 3H and 35S radioactivity from these precursors were incorporated into both chondroitin sulfate (CS) and heparan sulfate (HS) proteoglycans. CS proteoglycans were almost exclusively secreted into the medium while HS proteoglycans remained mainly associated with the cell layer. Single chain glycosaminoglycans released by papain digestion or alkaline borohydride treatment of either the CS or HS proteoglycans had average molecular weights of approximately 30,000 on Sepharose CL-6B chromatography. Both CS and HS proteoglycans were relatively small and contained only one or two glycosaminoglycans chains. 3H and 35S incorporation into both CS and HS proteoglycans were increased by thyroid-stimulating hormone (TSH) in a dose-dependent manner, which is in part explained by an adenylate cyclase-dependent mechanism as indicated by a similar effect in response to dibutyryl cAMP. TSH enhanced the incorporation of 35S into CS from [35S]cysteine about 1.5-fold and that from [35S]sulfate about 2-fold. This result demonstrated that the increased 35S incorporation from the [35S]sulfate precursor reflects an actual increase in sulfate incorporation and is not simply a result from an apparent increase in specific activity of the phosphoadenosine phosphosulfate donor. Analysis of disaccharides from chondroitinase digests revealed that the proportion of non-sulfated, 4-sulfated, and 6-sulfated disaccharides was not altered appreciably by TSH. These results, together with the disproportionate increase in 3H incorporation into CS from [3H]glucosamine, indicated that TSH increased the specific activity of the 3H label as well. Chase experiments revealed that CS proteoglycans were rapidly (t1/2 = 15 min) secreted into the medium and that the degradation of cell-associated proteoglycans was enhanced by TSH.     

Labeling of proteins with [35S]methionine and/or [35S]cysteine in the absence of cells

Incubation of [35S]methionine and [35S]cysteine with bovine albumin, globulin, catalase, hemoglobin, or human globulin resulted in incorporation of the 35S label into each of these proteins. Trichloroacetic acid (TCA) precipitation revealed that the percentage of label incorporated ranged from 1 to 15%. The 35S labeling was resistant to dissociation by reducing SDS-PAGE, prolonged dialysis against 4 M urea, heating, TCA precipitation, and dilution by gel filtration. The labeling effect was more efficient with [35S]cysteine than [35S]methionine. Incubation of 35S label with proteins differing in methionine and cysteine content revealed no requirement for sulfur-containing amino acids in the target protein. Protein carboxymethylation reduced but did not prevent 35S label incorporation. Amino acid analysis of labeled proteins revealed that the radioactive label was not consistently associated with an individual amino acid. Differences in the ability of various proteins to spontaneously label with these amino acids suggest caution in the interpretation of metabolic labeling experiments and the necessity for inclusion of additional controls. Alternatively, our experience indicates a potentially useful method for labeling proteins in the absence of cells.     

The Evolution of Hexamerins and the Phylogeny of Insects

The evolutionary relationships among arthropod hemocyanins and insect hexamerins were investigated. A multiple sequence alignment of 12 hemocyanin and 31 hexamerin subunits was constructed and used for studying sequence conservation and protein phylogeny. Although hexamerins and hemocyanins belong to a highly divergent protein superfamily and only 18 amino acid positions are identical in all the sequences, the core structures of the three protein domains are well conserved. Under the assumption of maximum parsimony, a phylogenetic tree was obtained that matches perfectly the assumed phylogeny of the insect orders. An interesting common clade of the hymenopteran and coleopteran hexamerins was observed. In most insect orders, several paralogous hexamerin subclasses were identified that diversified after the splitting of the major insect orders. The dipteran arylphorin/LSP-1-like hexamerins were subject to closer examination, demonstrating hexamerin gene amplification and gene loss in the brachyceran Diptera. The hexamerin receptors, which belong to the hexamerin/hemocyanin superfamily, diverged early in insect evolution, before the radiation of the winged insects. After the elimination of some rapidly or slowly evolving sequences, a linearized phylogenetic tree of the hexamerins was constructed under the assumption of a molecular clock. The inferred time scale of hexamerin evolution, which dates back to the Carboniferous, agrees with the available paleontological data and reveals some previously unknown divergence times among and within the insect orders. Received: 4 August 1997 / Accepted: 29 October 1997     

Insect immunity. Isolation of cDNA clones corresponding to attacins and immune protein P4 from Hyalophora cecropia

Diapausing pupae of the Cecropia moth (Hyalophora cecropia) respond to an injection of live bacteria by the selective synthesis of certain types of RNA and immune proteins (designated P1-P9). The in vitro translation products of RNA from both injured and infected pupae showed specific patterns with a defined number of extra bands. Some proteins characteristic of the normal RNA were reduced in the immune RNA translation products. Antibody reaction was used to show the selective synthesis of immune proteins P4 and P5 with mRNA from pupae subjected to injury or infection. The protein synthesized in vitro, which cross-reacted with P5 antibodies, is most likely a precursor of the attacins described in the preceding paper. A cDNA clone bank was prepared and two clones were isolated and shown to contain 750 bp corresponding to P4 and 250 bp of attacin information. These clones were used to estimate the sizes of the mRNAs by Northern blotting and to estimate, by RNA/DNA hybridization, the levels of P4 and P5 mRNA. In vivo incorporation of [35S]methionine into attacins and P4 during different conditions was compared with the levels of the corresponding mRNA.     

Characterization of an alpha-glucan from chick embryo sternum whose synthesis is stimulated by L-3,5,3'-triiodothyronine and human serum.

Incorporation of [³H]glucose into macromolecular components of 12-day chick embryo sternum incubated in vitro was stimulated by both human serum and l-3,5,3′-triiodothyronine. Under all conditions, 65–70% of the radioactivity was incorporated into glycosaminoglycans. About 10% of the radioactivity was incorporated into a fraction separable by ion-exchange chromatography which was stimulated two- to sixfold by addition of 2–10 nm triiodothyronine and 5–20% ($\text{v}\text{v}$) human serum. Further characterization of this fraction by paper electrophoresis at pH 3.5 showed the presence of two components, one apparently anionic and one neutral. All of the increase in incorporation of [³H]glucose was into the former species. Acid hydrolysis of this material showed that it contained only glucose. Treatment with α-amylase released 78% of the label as maltotriose and maltose; digestion with crystalline β-amylase released 75% as maltose; and treatment with glucoamylase and α-amylase released 93% as glucose. There was no incorporation of any amino acid into this fraction, nor could any incorporation of [³²P]phosphate, [³⁵S]sulfate, [³H]uridine, or [³H]acetate be demonstrated. Mild acid hydrolysis (0.1 N HC1, 100 °C, 10–20 min) converted the material to a neutral species with a much lower molecular weight. The results indicate that chick embryo sternum contains a species of glycogen whose synthesis is stimulated by thyroid hormones and other serum factors.     

Expression and evolution of hexamerins from the tobacco hornworm,Manduca sexta,and other Lepidoptera

Hexamerins are large hemolymph-proteins that accumulate during the late larval stages of insects. Hexamerins have emerged from hemocyanin, but have lost the ability to bind oxygen. Hexamerins are mainly considered as storage proteins for non-feeding stages, but may also have other functions, e.g. in cuticle formation, transport and immune response. The genome of the hornworm Manduca sexta harbors six hexamerin genes. Two of them code for arylphorins (Msex2.01690, Msex2.15504) and two genes correspond to a methionine-rich hexamerin (Msex2.10735) and a moderately methionine-rich hexamerin (Msex2.01694), respectively. Two other genes do not correspond to any known hexamerin and distantly resemble the arylphorins (Msex2.01691, Msex2.01693). Five of the six hexamerin genes are clustered within ∼45 kb on scaffold 00023, which shows conserved synteny in various lepidopteran genomes. The methionine-rich hexamerin gene is located at a distinct site. M. sexta and other Lepidoptera have lost the riboflavin-binding hexamerin. With the exception of Msex2.01691, which displays low mRNA levels throughout the life cycle, all hexamerins are most highly expressed during pre-wandering phase of the 5th larval instar of M. sexta, supporting their role as storage proteins. Notably, Msex2.01691 is most highly expressed in the brain, suggesting a divergent function. Phylogenetic analyses showed that hexamerin evolution basically follows insect systematics. Lepidoptera display an unparalleled diversity of hexamerins, which exceeds that of other hexapod orders. In contrast to previous analyses, the lepidopteran hexamerins were found monophyletic. Five distinct types of hexamerins have been identified in this order, which differ in terms of amino acid composition and evolutionary history: i. the arylphorins, which are rich in aromatic amino acids (∼20% phenylalanine and tyrosine), ii. the distantly related arylphorin-like hexamerins, iii. the methionine-rich hexamerins, iv. the moderately methionine rich hexamerins, and v. the riboflavin-binding hexamerins.     

Cycles of protein synthesis during pupal diapause in the flesh fly,Sarcophaga crassipalpis

Protein synthesis is cyclic during pupal diapause in Sarcophaga crassipalpis. These cycles are in phase with infradian MO₂ cycles, which have a periodicity of about 4 days at 25°C. Mean incorporation of [³⁵S]methionine by diapausing pupae was 5.4% during the 2 days of highest MO₂ but dropped to 1.7% during the 2 days of low MO₂. Diapausing pupae treated with a juvenile hormone analog prior to pupariation had a constant high MO₂ similar to peak values observed in untreated pupae, and such pupae consistently incorporated [³⁵S]methionine at a high rate (7.7%). [³⁵S]Methionine incorporation by nondiapausing pupae and pharate adults was eightfold higher than the peak rates observed during diapause. Autoradiography of in vivo labeled proteins indicated quantitative and qualitative changes in the synthesis of proteins by diapausing pupae during different phases of the MO₂ cycle. Brains from diapausing pupae labeled in vitro showed higher incorporation at the peak of the MO₂ cycle than at the nadir of the cycle, but no such differences were detected for integument, fat body, or fat body supernatant. Theses differences in tissue response indicate that control of protein synthesis during diapause is not cell autonomous, but is a function of the metabolism of the intact organism.     

Metabolism of triglyceride-rich nascent rat hepatic high density lipoproteins

Nascent high density lipoprotein (HDL) and nascent very low density lipoprotein (VLDL) were isolated from rat livers that had been perfused with [3H]glycerol to label the triglyceride. When injected into intact rats, the labeled HDL-triglyceride disappeared as rapidly as the VLDL-triglyceride, with only 10% of the injected label remaining in the plasma after 30 min. The protein moiety of nascent HDL was labeled with [35S]methionine in a similar fashion and the labeled nascent HDL was separated into nonretained (NR) and retained (R) fractions by heparin-Sepharose affinity chromatography. When injected into rats, 55% of the injected label in nascent fraction NR and 72% of that in nascent fraction R was recovered from plasma at 30 min, compared to only 10% of the triglyceride label from unfractionated nascent HDL, indicating dissociation of triglyceride and apolipoprotein clearance. The plasma decay curves for both triglyceride and protein were biexponential. By 5 min, 15% of the 35S label remaining in plasma represented apoE and apoC that had been transferred from nascent HDL fractions NR and R to the d less than 1.063 g/ml fraction of plasma. Plasma HDL was labeled in vivo with [35S]methionine, separated into fractions NR and R, and the clearance of the two plasma HDL fractions was compared with that of the corresponding nascent HDL fractions. Except for a faster rate of removal of the nascent HDL fractions during the first 5 min, the serum decay curves were very similar.(ABSTRACT TRUNCATED AT 250 WORDS)     

Precursors of pattern specific ommatin in red wing scales of the polyphenic butterfly Araschnia levana L.: Haemolymph tryptophan and 3-hydroxykynurenine

In the seasonally diphenic butterfly Araschnia levana¹⁴C-labelled tryptophan and 3-hydroxykynurenine, the principal precursors of ommochromes, injected into young pupae caused a pattern specific radiolabel of mature red scales. [¹⁴C]glucose and [³⁵S]methionine also labelled red scales but only when injected shortly before or during the time of pigment synthesis in the wing. In developing non-diapause pupae contents of 3-hydroxykynurenine increased until an abrupt decrease when pigments appeared in the wings. In diapausing pupae 3-hydroxykynurenine remained low but increased after injection of 20-hydroxyecdysone which induced pupal-adult development. Supply of wing scale cells with ommochrome precursors via the haemolymph was analysed after injection of [³H]tryptophan. In developing pupae haemolymph contents of [³H]tryptophan and [³H]3-hydroxykynurenine increased at the time of wing pigment formation and decreased shortly before adult emergence. In diapausing pupae haemolymph contents of [³H]tryptophan and [³H]3-hydroxykynurenine were low compared to non-diapause pupae but increased at the time of wing pigment formation after injection of 20-hydroxyecdysone. Isolated wings incubated in Grace's medium containing [¹⁴C]tryptophan and [¹⁴C]3-hydroxykynurenine incorporated radiolabel specifically into red portions of the wing colour pattern due to labelling of ommatin. Incorporation into red wing areas occurred specifically depending on different colour patterns of the spring- and the summer-morph.The results demonstrate that both tryptophan as well as 3-hydroxykynurenine are delivered via the haemolymph, and both can serve as precursors of ommatin formation in the scale cells. Therefore, the complete set of enzymes for the tryptophan-ommatin pathway is present in scale-forming cells.     

Properties and significance of a riboflavin-binding hexamerin in the hemolymph of Hyalophora cecropia

A riboflavin-binding hexamerin isolated from pupal hemolymph of Hyalophora cecropia has a native M_r of 510,000, subunit M_r of 85,000, and a 5% carbohydrate content. An intrachain cross-link was confirmed in protease limit digests. Ellman titration confirmed the presence of a sulfhydryl group, which is needed for this linkage. Though Cu²⁺ is known to promote the linkage, heavy metals were not detected in the isolate. Heat denaturation released ligand with the absorbency, fluorescence spectra, and chromatographic behavior of riboflavin. Binding resulted in substantial quenching of the fluorescence of both the isoalloxazine in riboflavin and of aromatic groups in the apoprotein. Kinetic analysis indicated a K_D of 2.5 × 10^?7 M for riboflavin, 1.3 × 10^?7 M for lumiflavin, and greater than 1 × 10^?6 M for FMN and FAD. Over four moles of flavin were bound per mole of hexamerin. The amount of riboflavin in pupal hemolymph is sufficient to occupy only 2–3 of these sites. Riboflavin is also associated with lipophorin and vitellogenin, but the molar ratios after protein isolation were low. On a standard laboratory diet, riboflavin is in great excess, but most of it is apparently excreted before the apoprotein first appears in the hemolymph, just before wandering. The concentration of riboflavin-binding hexamerin rises to 15–30 mg/ml in pupae; relative to other hexamerins, very little is stored in the fat body. All of the apoprotein and 75% of riboflavin disappear from the hemolymph during adult development. An amount of flavin at least equal to that stored in pupal hemolymph is transferred to the eggs formed during this period. © 1994 Wiley-Liss, Inc.     

Sulfate metabolism of rat P0 glycoprotein: some observations

It has been known for some time that P₀, the major intrinsic protein in PNS myelin, contains sulfate. The position of sulfate has been described for beef PNS myelin, but rat PNS myelin differs somewhat from that of the beef, therefore an investigation of the location of sulfate in rat P₀ was undertaken. Weanling rat nerves were incubated with [³H] amino acid mixture and [³⁵S]O₄, and purified myelin was prepared, and the proteins separated on polyacrylamide gels. The bulk of the [³⁵S]O₄ was incorporated into P₀, but smaller peaks of sulfate label were found in the higher molecular weight proteins. With tunicamycin in the incubation mixture, sulfate incorporation was inhibited. Incubation of the labeled myelin mixture with endo F or glycanase resulted in total loss of sulfate label on P₀, therefore all of the [³⁵S]O₄ was incorporated into the oligosaccharide chain, with none on the polypeptide. Castanospermine and deoxymannojirimycin inhibited [³⁵S]O₄ incorporation into P₀, but no inhibition was exerted by swainsonine. These results indicate that sulfate resides in the core of the oligosaccharide chain, with none in the terminal region. Such a structure would correlate with the lack of an HNK-1 epitope, absent in the rat, but found in P₀ of many species.Abbreviations Used Endo H endoglycosidase H - Endo F endoglycosidase F - GalNAc N-acetyl galactosamine - GlcNAc N-acetyl glucosamine - MAG myelin-associated glycoprotein - Man mannose Special issue dedicated to Dr. Marjorie B. Lees.     

Macromolecules released into the culture medium during the vegetative cell cycle of the unicellular green alga Chlamydomonas reinhardii.

The culture medium of growing Chlamydomonas reinhardii cells contains hydroxyproline-rich glycoproteins, which are mainly liberated during release of the zoospores from the mother-cell wall. Pulse-labelling studies with [3H]proline and [35S]methionine have been performed in order to detect the protein components released by synchronously growing cells at different stages of the cell cycle. When either [3H]proline or [35S]methionine were applied during the phase of cell growth, radioactive label appeared in the released macromolecules after a lag period of 40 min, whereas incorporation into the insoluble part of the cell wall was delayed only by 20 min. When applied at the end of the growth phase, e.g. 13 h after beginning of the illumination period, the radioactive amino acids were incorporated into the cell wall, but radioactive labelling of macromolecules released into the culture medium could not be detected before the zoospores were liberated from the mother-cell wall. Maximal incorporation of [3H]proline and [35S]methionine into the insoluble part of the cell wall was observed during cell division, but essentially no radioactively-labelled macromolecules were released into the culture medium during this time period. Analysis of the macromolecules, which were liberated during cell enlargement, by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis revealed distinct radioactive bands, which were differentially labelled with [3H]proline and [35S]methionine. Among the macromolecules released into the culture medium during cell growth, a component of an apparent Mr 35 000 was preferentially labelled with [3H]proline. This component was also detected after labelling with [35S]methionine, but components of an apparently higher Mr were more prominent after labelling with [35S]methionine. Macromolecules released during the cell-enlargement period of synchronously growing cultures in the presence of [3H]proline contained radioactively-labelled hydroxyproline in addition to proline. These results show that, during cell-wall growth, specific protein components are released into the culture medium and that at least one of these components contains large amounts of proline and hydroxyproline. At least some of these macromolecules seem to be constituents of the cell wall, because during pulse-chase experiments radioactively-labelled macromolecules appeared in the culture medium mainly during the time period when the specific radioactivity of the insoluble inner-cell-wall layer decreased.     

Metabolism of Functional Groups Modifying the CNS Myelin-Associated Glycoprotein

We have examined the metabolic turnover of the peptide backbone of the CNS myelin-associated glycoprotein (MAG) and of the fucose and sulfate groups modifying this protein. Rats (20 or 90 days old) were injected intracranially with mixtures of [3H]fucose and [14C]glycine, [3H]glycine and [35S]sulfuric acid, or [3H]fucose and [35S]sulfuric acid. At times ranging from 30 min to 4 weeks later, myelin was isolated, and radioactivity in MAG was determined following electrophoretic separation. Following the peak of incorporation, glycine-derived radioactivity in the MAG peptide backbone declined several-fold during the first week and was then metabolically stable (half-life much greater than 1 month). Declines with time in [3H]fucose- and [35S]sulfate-derived radioactivity in MAG were similar to that of [3H]glycine, an observation indicating that the fucose and sulfate groups modifying MAG are metabolized together with the peptide backbone as a single metabolic entity. These results were confirmed by experiments involving selective immunoprecipitation of MAG. The rates of incorporation of labeled glycine, fucose, and sulfate into MAG all decreased approximately 12-fold between 20 days of age and adulthood, a finding providing further evidence for concerted turnover of the entire molecule. Because of this concerted turnover, we suggest that functional groups modifying MAG serve some permanent structural role in protein configuration.