Cellular and Subcellular Distribution of 2'',3''-Cyclic Nucleotide 3''-Phosphodiesterase and Its mRNA in the Rat Central Nervous System

The 2',3'-cyclic nucleotide 3'-phosphodiesterases (CNPs) are closely related oligodendrocyte proteins whose in vivo function is unknown. To identify subcellular sites of CNP function, the distribution of CNP and CNP mRNA was determined in tissue sections from rats of various developmental ages. Our results indicate that CNP gene products were expressed exclusively by oligodendrocytes in the CNS. CNP mRNA was concentrated around oligodendrocyte perinuclear regions during all stages of myelination. Developmentally, initial detection of CNP mRNA closely paralleled initial detection of its translation products. In electron micrographs of immunostained ultrathin cryosections, CNP was associated with oligodendrocyte membranes during the earliest phase of axonal ensheathment. In more mature fibers, immunocytochemistry established that the CNPs are not major components of compact myelin but are concentrated within specific regions of the oligodendrocyte and myelin internode. These include (a) the plasma membrane of oligodendrocytes and their processes, (b) the periaxonal membrane and inner mesaxon, (c) the outer tongue process, (d) the paranodal myelin loops, and (e) the "incisure-like" membranes found in many larger CNS myelin sheaths. A cytoplasmic pool of CNP was also detected in oligodendrocyte perikarya and larger oligodendrocyte processes. CNP was also enriched in similar locations in myelinated fibers of the PNS.     

A Monoclonal Antibody Raised to Corpus Callosum Extract Reacts with 2'',3''-Cyclic Nucleotide 3''-Phosphohydrolase

Monoclonal antibody against 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNP) was generated by fusing mouse myeloma cells with spleen cells from BALB/c mice immunized with delipidated white matter from rat corpus callosum. The antibody was characterized by solid-phase radioimmunoassay, immunoblot of sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), immunoprecipitation from C6 glioma cells, and indirect immunofluorescence staining of monolayer cultures containing oligodendrocytes. The monoclonal antibody bound specifically to an intracellular antigen of oligodendrocytes, but not to Schwann cells, astrocytes, neurons, or fibroblast cytoplasm. The immunoblot of SDS-PAGE of CNS myelin showed that the antibody identified two protein bands at 48,000 and 50,000 molecular weight. These proteins were not identified in peripheral nervous system myelin. The monoclonal antibody immunoprecipitated CNP enzyme activity from extracts of C6 glioma cells. This monoclonal antibody should prove useful in further study of this myelin-specific enzyme in CNS myelin and in cells responsible for myelin production.     

Cyclic AMP Induction of the Myelin Enzyme 2'',3''-Cyclic Nucleotide 3''-Phosphohydrolase in Rat Oligodendrocytes

Cyclic AMP (cAMP) is known to induce the activity of the myelin enzyme 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNP; EC 3.1.4.37) in C6 rat glioma cells. This report shows that CNP is also inducible in oligodendrocytes explanted from 1-day-old rat cerebrum and grown in tissue culture. Induction was observed after a 1-day treatment with 1 mM N6, O2-dibutyryl cyclic AMP (dbcAMP) and was maximal after 5 days, reaching 200-240% of control. Induction was observed both in mixed cerebral cell cultures containing oligodendrocytes and astrocytes, and in purified cultures of oligodendrocytes prepared by a differential shakeoff procedure. Addition of dbcAMP to the cultures 3-9 days after the cells were explanted from rat brain induced CNP activity, but no induction was observed when dbcAMP treatment was begun 13 or more days after explanation. These results demonstrate that one component of myelin, CNP, is inducible in oligodendrocytes by a cAMP-mediated mechanism, and suggest a role for cAMP in the regulation of the myelin-associated functions of oligodendrocytes.     

Production of Monoclonal Antibody to 2'',3''-Cyclic Nucleotide 3''-Phosphodiesterase from Bovine Cerebral White Matter

Lewis rats were immunized with partially purified 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNPase) from bovine cerebral white matter and the spleen cells were fused with cell of a mouse myeloma cell line (SP-2). The production of monoclonal antibody was detected by enzyme-linked immunoadsorbent assay, immunohistochemical staining of bovine cerebrum, Western blotting analysis, and CNPase binding assay. Monoclonal antibody that specifically binds CNPase molecules was obtained. However, the antibody did not suppress the enzyme activity. Western blotting analysis demonstrated that the monoclonal antibody binds both CNa (Wla) and CNb (Wlb). The monoclonal antibody was identified as being of the IgG2c subclass. Immunohistochemical examination revealed that the myelin sheath in the CNS was heavily stained with the monoclonal antibody in several species (bovine, mouse, rat, and human). In contrast, peripheral nervous system myelin was not stained even in bovine tissue. These results suggest that the monoclonal antibody obtained in the present study specifically recognizes the CNPase molecules in the CNS.     

Purification of Rat 2'',3''-Cyclic Nucleotide 3''-Phosphodiesterase

2',3'-Cyclic nucleotide 3'-phosphodiesterase (CNP, EC 3.1.4.37) has been isolated from rat brain myelin by chromatography on successive columns of phenyl-Sepharose CL-4B, CM-Sepharose CL-6B, and 8-(6-aminohexyl) amino-2'AMP-Sepharose 4B. From 15 g of rat brain, approximately 400 micrograms of pure CNP was obtained, with a specific activity of 1,200 (2',3'-cyclic AMP) units/mg protein. The Km of the rat enzyme was 3.7 mM, using 2',3'-cAMP as the substrate. Isoelectric focusing of the enzyme indicated a broad isoelectric range of 8.5-9.0. On SDS polyacrylamide gels, rat CNP appears as two protein bands of approximately 48,000 and 50,000 M.W., with an upper band intensity of about 1/10 that of the lower band. The relative intensities of the bands for CNP and the molecular weights correspond to the Wolfgram proteins W1 and W2 described by other investigators. The amino acid analysis of the purified rat enzyme compared favorably with reported determinations for the bovine enzyme and also with reported values for the rat Wolfgram proteins W1 and W2.     

Susceptibility of the Wolfgram Proteins and Stability of 2'',3''-Cyclic Nucleotide 3''-Phosphodiesterase of Rat Brain Myelin to Limited Proteolytic Digestion

The susceptibility of proteins in the myelin membrane to proteases was studied. Lyophilized rat brain myelin suspended in water was subjected to controlled proteolytic digestion with pure trypsin (N-tosyl-L-phenylalanine chloromethyl ketone treated, 5 units/mg of myelin), and proteins remaining in the pellet were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Under these conditions, large basic protein (LBP) was completely hydrolyzed in 5-10 min, proteolipid proteins remained largely intact until 60 min, whereas Wolfgram protein (WP) was progressively degraded from 10 min onward with the simultaneous appearance of a new protein band with a molecular weight of 35K. A similar pattern was obtained on treatment with chymotrypsin or subtilisin. The 35K protein band was shown to be derived from WP by its immunological cross-reactivity with WP antibodies. Western blot analysis showed that 35K protein is the only major breakdown product of WP under these conditions. Treatment with higher concentrations of trypsin (greater than 20 units/mg of myelin) resulted in the degradation of all myelin proteins. Essentially all the 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNP) activity was observed in the myelin pellet after controlled or drastic digestion with trypsin. It is concluded that the major fragment of WP (35K) is located in the hydrophobic milieu of the bilayer, relatively inaccessible to trypsin, whereas a portion (20K) of the WP is exposed to the cytoplasmic side (major dense line), like LBP, and that peptide fragments (less than 14K) that remained in the myelin membrane lipid bilayer after trypsin digestion could exhibit CNP activity.     

Differential Ultrastructural Localization of Myelin Basic Protein, Myelin/Oligodendroglial Glycoprotein, and 2'',3''-Cyclic Nucleotide 3''-Phosphodiesterase in the CNS of Adult Rats

In a light and electron microscopic immunocytochemical study we have examined the distribution of myelin basic protein (MBP), 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNP), and myelin/oligodendroglial glycoprotein (MOG) within CNS myelin sheaths and oligodendrocytes of adult Sprague-Dawley rats. Ultrastructural immunocytochemistry allowed quantitative analysis of antigen density in different myelin and oligodendrocyte zones: MBP was detectable in high density over the whole myelin sheath, but not in regions of loops, somata, or the oligodendrocyte plasma membrane. CNP reactivity was highest at the myelin/axon interface, and found in lower concentration over the outer lamellae of myelin sheaths, at the cytoplasmic face of oligodendrocyte membranes, and throughout the compact myelin. MOG was preferentially detected at the extracellular surface of myelin sheaths and oligodendrocytes and in only low amounts in the lamellae of compacted myelin and the myelin/axon border zone. Our studies, thus, indicate further the presence of different molecular domains in compact myelin, which may be functionally relevant for the integrity and maintenance of the myelin sheath.     

Immunohistochemical Localization of 2'',3''-Cyclic Nucleotide 3''-Phosphodiesterase and Myelin Basic Protein in the Central Nervous System of the Jimpy and the Normal Mouse

We describe the immunohistochemical localization of 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNPase) and myelin basic protein (MBP) in CNS of the jimpy mutant mouse which is characterized by dys- and demyelination. In controls, the CNPase and MBP were localized exclusively in white matter in the CNS. The jimpy mutant mice were severely affected: A very weak reaction was observed in the white matter. Very few CNPase- and MBP-positive myelin sheaths were observed, and some degradation products were also observed after reaction with antisera against both CNPase and MBP. The immunohistochemical reaction in the jimpy mice showed a similar localization in both CNPase and MBP.     

Correlation Between 2'',3''-Cyclic Nucleotide 3''-Phosphohydrolase Activity and Demyelination In Vitro Using a Syngeneic System

Cultures of myelinated SJL/J fetal mouse spinal cord were incubated with serum and lymphoid cells from syngeneic animals with experimental allergic encephalomyelitis (EAE) induced by syngeneic spinal cord homogenate (SSCH) in complete Freund's adjuvant or others injected with complete Freund's adjuvant alone. After 24 or 48 h of exposure, demyelination was determined by light microscopic examination and quantification of 2',3'-cyclic nucleotide 3'-phosphohydrolase activity. Cultures exposed to spleen or lymph node cells from SSCH-sensitized animals showed the greatest alterations in myelin and decreases in 2',3'-cyclic nucleotide 3'-phosphohydrolase activity whereas serum from these animals had less effect. Cells and serum from complete Freund's adjuvant-injected control animals also induced structural changes in myelin that were significantly less than changes induced by cells and serum from animals with EAE. These experiments show that lymphoid cells and serum obtained from SJL/J mice with acute EAE affected myelin biochemistry and morphology in syngeneic CNS cultures.     

Studies on the Wolfgram High Molecular Weight CNS Myelin Proteins: Relationship to 2'',3''-Cyclic Nucleotide 3''-Phosphodiesterase

Evidence is presented that the major protein components of the high molecular weight CNS myelin proteins designated as the Wolfgram protein doublet (W1 and W2) contain the enzyme 2',3'-cyclic nucleotide 3'-phosphodiesterase (EC 3.1.4.37, CNP). CNP is a basic hydrophobic protein containing about 830 to 840 amino acid residues. When electrophoresed on SDS polyacrylamide gels, CNP appears as a protein doublet, separated by a molecular weight difference of about 2500-3000 in bovine, human, rat, guinea pig, and rabbit. A similar protein doublet has been identified as the Wolfgram proteins W2 and W1 in myelin and in the chloroform-methanol-insoluble pellet obtained from myelin. Moreover, the relative Coomassie blue staining intensity of the CNP2 plus CNP1 protein doublet among the species examined was remarkably similar to that observed for electrophoresed myelin and chloroform-methanol-insoluble pellet derived from myelin. Antisera raised against purified bovine CNP recognized the W1 and W2 proteins isolated from bovine and human brain. The amino acid composition of pure bovine CNP is presented and compared with the compositions of several rat and bovine Wolfgram proteins obtained by other investigators. Our electrophoretic, compositional, and immunological data support the contention that the enzyme CNP is a major component of the Wolfgram protein doublet.     

Induction of Myelin Components: Cyclic AMP Increases the Synthesis Rate of 2'',3''-Cyclic Nucleotide 3''-Phosphohydrolase in C6 Glioma Cells

In an effort to determine the factors that stimulate myelin synthesis, we investigated the mechanism by which dibutyryl cyclic AMP induces the activity of the myelin enzyme, 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNP; EC 3.1.4.37), in C6 glioma cells. Immunotitration experiments and measurements of the accumulation of [35S]methionine-labeled CNP showed that dibutyryl cyclic AMP increased the amount of CNP in the cells but not the catalytic activity per molecule of the enzyme. Moreover, inhibition of protein synthesis with cycloheximide abolished induction of enzyme activity. Dibutyryl cyclic AMP doubled the rate of CNP synthesis but had no effect on the half-life of the enzyme (approximately 33 h). The induction was partially blocked by the inhibitors of mRNA synthesis, cordycepin or alpha-amanitin. Thus, cyclic AMP induces the synthesis of CNP.     

2',3'-Cyclic Nucleotide 3'-Phosphodiesterase Binds to Actin-Based Cytoskeletal Elements in an Isoprenylation-Independent Manner

Abstract: 2',3'-Cyclic nucleotide 3'-phosphodiesterase (CNP) is an isoprenylated protein enriched in myelin and oligodendrocytes but also present in several other tissues at low levels. CNP binds avidly to membranes and in addition possesses several characteristics of cytoskeletal proteins. The role of isoprenylation in the association of CNP with the cytoskeleton was analyzed by ectopic expression in L cells of epitope-tagged CNP1 and a non-isoprenylated mutant CNP1. Using nonionic detergent extraction, drug-mediated cytoskeletal disruption, and coimmunoprecipitation with an anti-actin antibody, we show that CNP1 is associated with actin-based cytoskeletal elements independently of its isoprenylation status. A control protein, p21c-H-ras, which is also modified by isoprenylation at its carboxyl-terminus, does not bind to cytoskeletal structures as judged by the same criteria. We present a model that accounts for the association of CNP1 with membranes and the cytoskeleton.     

Characterization of 2'':3''-Cyclic Nucleotide 3''-Phosphodiesterase: Rapid Isolation, Native Enzyme Analysis, Identification of a Serum-Soluble Activity, and Kinetics

The enzyme 2':3'-cyclic nucleotide 3'-phosphodiesterase (CNPase) was isolated from bovine brain white matter by a rapid (72 h) procedure. The minimum molecular weight (MW) of the enzyme was approximately 52,500 as estimated by sucrose density gradient analysis. When this isolated enzyme was stimulated with bovine serum albumin (BSA), the peak of activity was shifted to approximately 90,000 MW. Prior treatment by trypsin blocked the expression of the higher MW form of CNPase, but not the BSA activation of the enzyme. If the trypsin digestion was allowed to progress, the MW was gradually lowered to a broad peak sedimenting between 20,000 and 50,000 MW. An apparently soluble form of CNPase found in serum is described. Kinetic and MW comparisons between the serum soluble enzyme and CNPase isolated from bovine brain, as well as an analysis of substrate specificity, were made and it was concluded that the two enzymes were identical.     

Demonstration of 2',3'-Cyclic Nucleotide 3'-Phosphohydrolase in Cultured Human Schwann Cells

Abstract: Schwann cell cultures were established from adult human sural nerve biopsies. 2'3'-Cyclic nucleotide 3'-phosphohydrolase (CNPase) activity was estimated in the homogenates of those cells by a sensitive isotope assay using [³H]2',3'-cyclic AMP as substrate. A high level of CNPase activity was observed in cultured Schwann cells, whereas cultured human muscle and skin fibroblasts contained negligible levels of CNPase activity. CNPase of human Schwann cells followed typical enzyme-substrate kinetics, with an apparent K _m of 1.6 m M for 2',3'-cyclic AMP, and the enzyme was stimulated by detergents such as Triton X-100 and deoxycholate. It was inhibited by p -chloromercuricbenzoate and 2'-AMP. These properties are typical of CNPase isolated from adult brain and spinal cord. CNPase can serve as a new biochemical marker of normal cultured human Schwann cells and can be useful in analyzing the properties of cultured Schwann cells from patients with dysschwannian neuropathies.     

Selective synthesis of 2',3'-cyclic nucleotide 3'-phosphodiesterase isoform 2 and identification of specifically phosphorylated serine residues

2',3'-Cyclic nucleotide 3'-phosphodiesterase (CNP) is a protein found abundantly in the cytoplasmic compartments of CNS myelin. Two isoforms of this protein, CNP1 and CNP2, are detectable. They differ by a 20-amino acid extension exclusive to CNP2. Additionally, CNP2 is essentially the only isoform to be phosphorylated in vivo. In this study, we examine the phosphorylation of CNP2 in transfected cells. CNP2 was selectively expressed ectopically in 293T cells and labeled with 32P. Immunoprecipitation of labeled CNP2 and tryptic phosphopeptide mapping analyses identified serines 9 and 22 as the major sites of phosphorylation. Only serine 22 was phosphorylated initially in oligodendrocyte-enriched cultures of neonatal rat brain glial cells. However, 4beta-phorbol 12,13-dibutyrate (PDB) induced the phosphorylation of serine 9, thereby producing the same pattern seen in 293T cells. These results suggest that serine 9 is phosphorylated by a PDB-sensitive kinase, likely protein kinase C, and that serine 22 appears to be constitutively phosphorylated.     

Carbonic Anhydrase, 5''-Nucleotidase, and 2'',3''-Cyclic Nucleotide-3''-Phosphodiesterase Activities in Oligodendrocytes, Astrocytes, and Neurons Isolated from the Brains of Developing Rats

The activities of three myelin-associated enzymes, carbonic anhydrase, 5'-nucleotidase, and 2',3'-cyclic nucleotide-3'-phosphodiesterase (CNP), were measured in oligodendrocytes, neurons, and astrocytes isolated from the brain of rats 10, 20, 60, and 120 days old. The carbonic anhydrase specific activity in oligodendrocytes was three- to fivefold higher than that in brain homogenates at each age, and, at all the ages, low activities of this enzyme were measured in neurons and astrocytes. The oligodendrocytes and astrocytes from the brains of rats at all ages had higher activities of the membrane-bound enzyme 5'-nucleotidase than was observed in neurons. In oligodendrocytes from 10- and 20-day-old rats, the 5'-nucleotidase activity was two-to threefold the activity in the homogenates (i.e., relative specific activity = 2.0-3.0), and the relative specific activity of this enzyme in the oligodendrocytes declined to less than 1.0 at the later ages, concomitant with the accumulation of 5'-nucleotidase in myelin. The CNP activity was always higher in oligodendrocytes than in neurons, but not appreciably different from that in astrocytes from 20 days of age onward. The relative specific activity of CNP was highest in the oligodendrocytes from 10-day-old rats but was lower, at all ages, than we had observed in bovine oligodendrocytes. These enzyme activities in oligodendroglia are quite different in amount and developmental pattern from those reported previously for myelin.     

Metamorphic Changes in Glycolipids and Myelin Proteins and 2',3'-Cyclic Nucleotide 3'-Phosphohydrolase in Bullfrog and Axolotl Brains

Abstract: The metamorphic changes in levels of glycolipids and myelin proteins and 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNP) in the brains of bullfrog tadpoles, adult frogs, and axolotls were investigated, with particular emphasis on myelin maturation. The concentrations of cerebroside. sulfatide, and galactosyldiacylglycerol gradually increased from the onset of prometamorphosis throughout the active metamorphic period and then greatly increased after metamorphosis was completed. The ratio of glucocerebroside to galactocerebroside increased greatly in the prometamorphic period and then rapidly decreased to the frog level during the climax period. The fatty acid compositions of cerebroside and sulfatide showed a developmental change, with 24:1 being more predominant in the later metamorphic stage. The proportion of hydroxy fatty acids increased up to the onset of the prometamorphic stage and thereafter remained constant at ∼ 50% of the total. The CNP activity remained unchanged throughout metamorphosis at 60% that in frog myelin and increased in the adult frog. The composition of tadpole myelin proteins remained constant during metamorphosis, with large basic protein being the most abundant, and in the frog, proteolipid protein and large basic protein were present in comparable amounts. The two adult forms of axolotl, i.e., the neotenous and metamorphosed forms, exhibited almost identical myelin constituents, and CNP activity in the neotenous form amounted to one-fifth that in the bullfrog. These results indicate that active biosynthesis of myelin marker components occurs as metamorphosis proceeds, but more pronounced changes of myelin components occur after metamorphosis is completed.     

The activity of 2'',3''-cyclic nucleotide 3''-phosphohydrolase in the corpus callosum, subcortical white matter, and spinal cord in infants dying from sudden infant death syndrome

Abstract: The activity of 2',3'-cyclic nucleotide 3'-phos-phohydrolase (CNPase) has been determined in corpus callosum, subcortical white matter, and spinal cord of infants whose death was attributed to the sudden infant death syndrome (SIDS), and compared with enzyme activity in other cases in which the cause of death was not associated with respiratory distress. In nearly half the SIDS cases, CNPase activity and oligodendroglial cell numbers were reduced before the onset of myelination, but only in the corpus callosum. In other SIDS cases, enzyme activity and cell numbers were the same as in non-SIDS cases. If the expression of CNPase activity reflects glioblast differentiation to oligodendrocytes with myelinating potential, then this transformation is abnormal in certain SIDS cases, as also evidenced in cases of prolonged neonatal respiratory insufficiency and gives rise to a subsequent deficit of myelin in the corpus callosum.