The incorporation of 32P into spectrin aggregates following incubation of erythrocytes in 32P-labelled inorganic phosphate

³²P was incorporated into spectrin by incubation of fresh erythrocytes with ³²P_i and glucose. The dimer and tetramer aggregates revealed only covalently-bound incorporation of phosphorus, while a higher aggregate of spectrin revealed both covalent and non-covalent incorporation. The specific activity of the covalently-bound phosphorus in all oligomers was identical, suggesting that the state of association is independent of phosphorylation. The non-covalent incorporation was shown to be due to the association of ATP with this higher aggregate. The nucleotide appears not to be bound directly to spectrin but rather to component 5 (erythrocyte actin) which is also found to be associated with this highly aggregated spectrin structure.     

The incorporation of P into spectrin aggregates following incubation of erythrocytes in P-labelled inorganic phosphate

³²P was incorporated into spectrin by incubation of fresh erythrocytes with ³²P_i and glucose. The dimer and tetramer aggregates revealed only covalently-bound incorporation of phosphorus, while a higher aggregate of spectrin revealed both covalent and non-covalent incorporation. The specific activity of the covalently-bound phosphorus in all oligomers was identical, suggesting that the state of association is independent of phosphorylation. The non-covalent incorporation was shown to be due to the association of ATP with this higher aggregate. The nucleotide appears not to be bound directly to spectrin but rather to component 5 (erythrocyte actin) which is also found to be associated with this highly aggregated spectrin structure.     

Effects of L-thyroxine on incorporation of (32)P into phospholipids of freshwater eels

The effects of L-thyroxine on phospholipid biosynthesis, via (32)P incorporation, were studied in gill, kidney, liver and muscle tissue of eels acclimatized at 11 degrees C. L-thyroxine treatment had no effect on tissue content of lipid, inorganic and organic acid-soluble phosphorus. Only an increase of the specific radioactivities of lipid, inorganic and organic acid-soluble phosphorus was observed in the muscle. Percentage distribution of (32)P among classes of phospholipid were significantly altered in liver and muscle, without change in phospholipid composition. A specific effect of L-thyroxine on (32)P incorporation into phosphatidic acid in muscle and liver has been shown. As expected by the higher specific radioactivity of muscle inorganic and organic acid-soluble phosphorus, the increased incorporation of (32)P into phosphatidic acid probably results from a higher specific radioactivity of muscle ATP phosphorus.     

Further observations on the increases in inositide phospholipids after stimulation by ACTH, cAMP and insulin, and on discrepancies in phosphatidylinositol mass and 32PO4-labeling during inhibition of hormonal effects by cycloheximide

ACTH-induced increases in adrenal polyphosphoinositides were demonstrable after extraction by acid or non-acid methods, and after purification by unidimensional or two-dimensional thin layer chromatography. ACTH-induced increases in phosphatidylinositol mass were apparent, both as increases in measurable phosphorus and inositol. ACTH and insulin also increased 32PO4 incorporation into adrenal and adipose tissue polyphosphoinositides which were acid-extracted and purified by two-dimensional chromatography. Cyclic-AMP increased the mass of phosphatidylinositol, but decreased 32PO4 incorporation into this and other phospholipids; the cause for this decrease in specific activity was not evident. Increasing doses of cycloheximide progressively inhibited ACTH- or insulin-induced increases in the mass of phosphatidylinositol, but 32PO4 incorporation therein followed a bimodal curve, with inhibition at lower doses and stimulation at higher doses; these divergent changes in phosphatidylinositol mass and 32P-labeling at higher concentrations raise the possibility that cycloheximide may activate phospholipases in hormone-stimulated tissues. These results offer further support for our contention that ACTH and insulin increase inositide phospholipid concentrations in their target tissues by a cycloheximide-sensitive mechanism.     

Aggregation of spectrin and PKCθ is an early hallmark of fludarabine/mitoxantrone/dexamethasone-induced apoptosis in Jurkat T and HL60 cells

It has been shown that changes in spectrin distribution in early apoptosis preceded changes in membrane asymmetry and phosphatidylserine (PS) exposure. PKCθ was associated with spectrin during these changes, suggesting a possible role of spectrin/PKCθ aggregation in regulation of early apoptotic events. Here we dissect this hypothesis using Jurkat T and HL60 cell lines as model systems. Immunofluorescent analysis of αIIβII spectrin arrangement in Jurkat T and HL60 cell lines revealed the redistribution of spectrin and PKCθ into a polar aggregate in early apoptosis induced by fludarabine/mitoxantrone/dexamethasone (FND). The appearance of an αIIβII spectrin fraction that was insoluble in a non-ionic detergent (1% Triton X-100) was observed concomitantly with spectrin aggregation. The changes were observed within 2 h after cell exposure to FND, and preceded PS exposure. The changes seem to be restricted to spectrin and not to other cytoskeletal proteins such as actin or vimentin. In studies of the mechanism of these changes, we found that (i) neither changes in apoptosis regulatory genes (e.g., Bcl-2 family proteins) nor changes in cytoskeleton-associated proteins were detected in gene expression profiling of HL60 cells after the first hour of FND treatment, (ii) caspase-3, -7, -8, and -10 had minor involvement in the early apoptotic rearrangement of spectrin/PKCθ, and (iii) spectrin aggregation was shown to be partially dependent on PKCθ activity. Our results indicate that spectrin/PKCθ aggregate formation is related to an early stage in drug-induced apoptosis and possibly may be regulated by PKCθ activity. These findings indicate that spectrin/PKCθ aggregation could be considered as a hallmark of early apoptosis and presents the potential to become a useful diagnostic tool for monitoring efficiency of chemotherapy as early as 24 h after treatment.     

Human erythrocyte spectrin: Phosphorylation in intact cells and purification of the 32P-labeled protein in a non-aggregated state

[³²P]spectrin (0.5 Ci/mMole) has been isolated from human erythrocytes incubated with ³²Pi and purified to homogeneity by preparative rate zonal sedimentation on linear sucrose gradients. ³²P-label, localized in band 2, co-elutes with spectrin from ghosts with a similar dependence on ionic strength and Mg⁺⁺ ion, and has the same sedimentation coefficient and an identical effective Stokes radius. [³²P]spectrin reassociates in a specific manner with spectrin-depleted membranes. Bands 1 and 2 bind in equal ratios, and the ³²P-label is distributed with band 2. Purified [³²P]spectrin is not aggregated since this protein migrates as a symmetrical peak on Sepharose(C1)4B at about 1.6 Vo and sediments at 8S_20,w on sucrose gradients.     

HSP70 Translocates into a cytoplasmic aggregate during lymphocyte activation

The percentage of T and B lymphocytes expressing a distinct cytoplasmic aggregate enriched in spectrin, ankyrin, and in several other proteins including protein kinase C greatly increases following various activation protocols. Members of the 70 kDa family of heat shock proteins (hsp70) temporarily bind to and stabilize unfolded segments of other proteins, a function apparently required for proper protein folding and assembly. Considering the multiprotein and dynamic nature of the lymphocyte aggregate, the possibility that hsp70 also might be associated with componets of this structure is considered here. Double immunofluorescence analysis indicates that hsp70 is a component of the lymphocyte aggregate and is coincident with spectrin in a subpopulation of freshly isolated, untreated lymphocytes from various murine tissues and in a T-lymphocyte hybridoma. When cell lysates of lymph node T cells are immunoprecipitated using an antibody against hsp70 or spectrin and then analyzed by Western blot utilizing the alternate antibody, it was found that hsp70 and spectrin coprecipitated with one another. Moreover, this coprecipitation could be abolished by addition of ATP. This latter observation was extended to lymphoid cells using a transient permeabilization procedure, and it was shown that addition of exogenous ATP results in the dissipation of the aggregate structure itself. Finally, conditions that result in T-cell activation and aggregate formation, i.e., treatment with the phorbol ester PMA or T-cell receptor cross-linking, also lead to the repositioning of hsp70 into the aggregate from a membrane/cytosolic locale in congruence with spectrin. These data suggest that hsp70 is an active component of the aggregate and that it may function in the interactions believed to occur in this unique activation-associated organelle. © 1995 Wiley-Liss, Inc.     

Selective association of spectrin with the cytoplasmic surface of human erythrocyte plasma membranes. Quantitative determination with purified (32P)spectrin.

A specific association between spectrin and the inner surface of the human erythrocyte membrane has been examined by measuring the binding of purified [32P]spectrin to inside out, spectrin-depleted vesicles and to right side out ghost vesicles. Spectrin was labeled by incubating erythrocytes with 32Pi, and eluted from the ghost membranes by extraction in 0.3 mM NaPO4, pH 7.6. [32P]Spectrin was separated from actin and other proteins and isolated in a nonaggregated state as a So20,w = 7 S (in 0.3 mM NaPO4) or So20,w = 8 S (in 20 mM KCl, 0.3 mM NaPO4) protein after sedimentation on linear sucrose gradients. Binding of [32P]spectrin to inverted vesicles devoid of spectrin and actin was at least 10-fold greater than to right side out membranes, and exhibited different properties. Association with inside out vesicles was slow, was decreased to the value for right side out vesicles at high pH, or after heating spectrin above 50 degrees prior to assay, and was saturable with increasing levels of spectrin. Binding to everted vesicles was rapid, unaffected by pH or by heating spectrin, and rose linearly with the concentration of spectrin. Scatchard plots of binding to inverted vesicles were linear at pH 7.6, with a KD of 45 microng/ml, while at pH 6.6, plots were curvilinear and consistent with two types of interactions with a KD of 4 and 19 microng/ml, respectively. The maximal binding capacity at both pH values was about 200 microng of spectrin/mg of membrane protein. Unlabeled spectrin competed for binding with 50% displacement at 27 microng/ml. [32P]Spectrin dissociated and associated with inverted vesicles with an identical dependence on ionic strength as observed for elution of native spectrin from ghosts. MgCl2, CaCl2 (1 to 4 mM) and EDTA (0.5 to 1 mM) had little effect on binding in the presence of 20 mM KCl, while at low ionic strength, MgCl2 (1 mM) increased binding and inhibited dissociation to the same extent as 10 to 20 mM KCl. Binding was abolished by pretreatment of vesicles with 0.1 M acetic acid, or with 0.1 microng/ml of trypsin. The periodic acid-Schiff-staining bands were unaffected by trypsin digestion which destroyed binding; mild digestion, which decreased binding only 50%, converted Band 3 almost completely to a membrane-bound 50,000-dalton fragment resistant to further proteolysis. These experiments suggest that attachment of spectrin to the cytoplasmic surface of the membrane results from a selective protein-protein interaction which is independent of erythrocyte actin. A direct role of the major sialoglycoprotein or Band 3 as a membrane binding site appears unlikely.     

Analysis of non-covalent aggregation of synthetic hPTH (1-34) by size-exclusion chromatography and the importance of suppression of non-specific interactions for a precise quantitation

There are few methods available for the rapid and precise quantitation of non-covalent aggregation. Size-exclusion chromatography (SEC), a traditional approach, used to measure the non-covalent aggregation can easily disrupt the weak forces holding an aggregate together. Under the conditions described in this paper the disaggregation of non-covalent aggregate of the synthetic human parathyroid hormone hPTH (1-34) due to hydrophobic/electrostatic interactions with the size-exclusion chromatography column packing was completely suppressed. This report details the effectiveness of adding salts and organic solvents in the mobile phase to overcome non-specific interactions that disrupt the aggregate during the SEC process and may aid in the understanding precise quantitation of non-covalent aggregation.     

A cyclic AMP-dependent phosphorylation of spectrin dimer

In contrast to the properties of spectrin obtained from [³²P]phosphate-labeled red cells, purified spectrin dimer could be phosphorylated by a cAMP-dependent protein kinase from bovine heart. Both spectrin bands were phosphorylated. Spectrin band 2 contained in addition to autophosphorylated peptides several phosphopeptides that were distinct from autophosphorylated ones. The cAMP-dependent phosphorylation of spectrin band 1 was modulated by reducing agent and the concentration of spectrin. At high concentrations spectrin band 2 was predominantly labeled. The cAMP-dependent phosphoform of spectrin band 2 had a pI slightly higher than that of autophosphorylated spectrin band 2, but lower than that of ankyrin.     

Incorporation of phosphorus into phased cells ofCandida utilis using32P and33P

Changes in phosphorus metabolism were studied by examining the incorporation of³²P and³³P into cells ofCandida utilis growing in phased culture during a 6 h cell cycle and a post-cycle period of 6 h. Three different chemically defined media were used; these were phosphorus, nitrogen and carbon limited. The patterns of incorporation of phosphorus into RNA, DNA, lipid and cold water extractable phosphate fractions showed a non-uniform behaviour during both cell cycle and post-cycle periods. The patterns were different in all three types of media. The results showed that a cell can grow and develop at a fixed growth rate in different ways: so that the pattern of behaviour during a cell cycle is not stereotyped for a given doubling time, but largely depends upon the nutrient environment in which the cell exists.     

Comparison of the effects of carbisocaine and other local anesthetics on 32P incorporation into individual and total phospholipids in synaptosomes

The aim of the paper was to study the effect of carbisocaine, a new local anesthetic with high liposolubility on incorporation of 32P into individual and total phospholipids and to compare its effect with that of other local anesthetics (procaine, lidocaine, cinchocaine, heptacaine). Carbisocaine decreased 32P incorporation into neutral phospholipids and increased the incorporation into acid phospholipids, presumably by inhibiting phosphatidate phosphohydrolase, similarly as reported for other anesthetics (Brindley and Bowley 1975). The increased incorporation of 32P into phosphatidylserine induced by carbisocaine suggests that this phospholipid is also synthetised from phosphatidic acid. At low concentrations, the local anesthetics studies were found to increase 32P incorporation into total phospholipids, whereas at high concentrations they reduced 32P incorporation. This biphasic effect is in agreement with the incorporation of 14C from glucose into lipids (Lassánová et al. 1984) and with the effect of cinchocaine on glycerol incorporation into phospholipids (Allan and Michell 1975), suggesting that local anesthetics affect de novo synthesis of phosphatidic acid. Carbisocaine increased 32P incorporation into phospholipids, in concentrations lower by several orders of magnitude as compared to the other local anesthetics studied. A rough correlation was observed between the concentrations at which the local anesthetics showed stimulatory effect on 32P incorporation, and the average effective concentrations of the respective anesthetics. No such correlation could be found for carbisocaine.     

Heterogeneity in lymphocyte spectrin distribution: ultrastructural identification of a new spectrin-rich cytoplasmic structure

Spectrin-like proteins are found in a wide variety of non-erythroid cells where they generally occur in the cell cortex near the plasma membrane. To determine the intracellular distribution of alpha-spectrin (alpha-fodrin) in lymphocytes, we have developed an immunoperoxidase method to localize this protein at the ultrastructural level. Of considerable interest, particularly with regard to our efforts to determine the function of spectrin in this cell type, was the finding that its subcellular localization and its relationship with the plasma membrane can vary dramatically. Based on its position in the cell, alpha-spectrin can occur in two forms in lymphocytes: one that associates closely with the plasma membrane and another that occurs at some distance from the cell periphery, either as a single large aggregate or as several smaller ones. The single large aggregate of spectrin is a stable feature in a number of lymphocyte cell lines and hybrids which were used to examine its ultrastructural characteristics. A previously undescribed cellular structure, consisting of a meshwork of spectrin filaments and membranous vesicles, was identified in these cells. This structure could be induced to dissipate in response to membrane perturbants (e.g., hyperthermia and phorbol esters, known effectors of lymphocyte function and differentiation) and the patterns resulting from the redistribution of spectrin were a reflection of those observed routinely in lymphocytes in situ. The correlation between naturally occurring spectrin localization patterns and those seen after membrane perturbation suggested the possibility that spectrin distribution is indicative of particular maturation stages or functional states in lymphocytes. The implications of these findings with regard to the role of spectrin in lymphocyte function are discussed.     

Incorporation of [32P]orthophosphate into brain-slice phospholipids and their precursors. Effects of electrical stimulation

1. The incorporation of [(32)P]phosphate into phospholipids was measured in slices cut from the pial surface of guinea-pig cerebral cortex; incorporation into the phosphorus of some water-soluble precursors of phospholipid was measured under similar conditions. 2. Slices subjected to overall electrical stimulation at a frequency of 5pulses/sec. differed from control slices in their pattern of phospholipid labelling. After 1hr. of stimulation, incorporation of [(32)P]phosphate into phosphatidylcholine, ethanolamine phospholipid and cardiolipin was respectively 54, 55 and 58% of the control value, and that into phosphatidylinositol was 186% of control. Phosphatidic acid labelling tended to increase with electrical stimulation, but the statistical significance of this change was marginal. Labelling of phosphatidylglycerol and di- and tri-phosphoinositides was not affected significantly by electrical stimulation. 3. Electrical stimulation of the tissue altered the specific radioactivities of water-soluble precursors of phospholipid. 4. The turnover rates of the phosphate groups of phospholipids were estimated approximately from the specific radioactivities of phospholipids and their precursors. Phosphatidylinositol (and its lipid-soluble precursors) showed the largest change in turnover rate in response to electrical stimulation of the tissue; the turnover rates of other lipids were also affected. Changes in the specific radioactivity of phospholipids did not correspond to changes in turnover in these experiments.     

P32 UPTAKE BY NUCLEI

1. A method for isolating nuclei in quantity from mammalian tissues is described. 2. The rate of uptake of radioactive phosphorus by nuclei is found to be quite rapid. The phosphorus was shown not to be taken up by exchange. 3. Nuclei of tumors accumulate more radioactive phosphorus than normal liver nuclei. This was shown to be due to mitotic activity and not a form of metabolism peculiar to tumor cells. 4. The specific activities of nuclei and cytoplasm are compared. 5. 60 to 70 per cent of the nuclear radioactive phosphorus is present as nucleoprotein from 1 hour to 5 days after it is administered. In the lymphoma nuclei 90–95 per cent of the phosphorus is in the nucleoprotein fraction from 1–5 days after it is administered. 6. The specific activities of the nucleoprotein, lipid, and acid-soluble fractions of liver and tumor nuclei are compared. 7. From the rate of P₃₂ uptake by nuclei it is calculated that a new lymphoma nucleus is synthesized on the average once every 27 hours. This is in agreement with the observed rate of growth of the tumor. 8. In the lymphoma nucleus it is calculated that 7 x 10⁴ molecules of tetranucleotide are synthesized per second. 9. Irradiation with 200 r. x-rays alters the distribution of P₃₂ in the lymphoma cell, markedly increasing the concentration in the nucleus shortly after irradiation. The P₃₂ concentration in the cytoplasm decreases with time after irradiation. It is suggested that the altered distribution is correlated with the inhibition of mitosis produced by the x-rays. 10. Continual synthesis of nucleoprotein takes place even in nuclei of cells which do not undergo mitosis.     

Cytoskeletal polarity in mammalian lymphocytes in situ

Summary The distribution of vimentin and spectrin in lymphocytes within murine lymphoid tissues was studied by means of immunofluorescence. A polarized submembranous aggregate of intermediate filaments was observed to be characteristic of lymphocytes within the medulla of the thymus as well as in lymphocytes within specific areas of spleen and lymph-node. This aggregate was determined to be in close association with a similarly polarized aggregate of spectrin. Lymphocytes of both B and T surface phenotype comprise the population of cells that are naturally polarized in terms of these cytoskeletal proteins. Lymphocytes with such a naturally polarized cytoskeleton are not observed in the spleen until approximately 5 days after birth, but are observed in the thymus by day 19 of gestation. Incubating lymphocytes with cytochalasin D, but not colchicine, caused a rapid dispersal of the spectrin aggregate without altering the polar accumulation of intermediate filaments. When splenic B-cells were allowed to form uropods as a result of ligand binding, the uropod (as well as surface receptor cap) was positioned above the region containing the polar aggregate of spectrin and vimentin. The possible physiological significance of naturally occurring cytoskeletal polarity in lymphocytes is discussed.     

Mechanism of Assembly of the Non-Covalent Spectrin Tetramerization Domain from Intrinsically Disordered Partners

Interdomain interactions of spectrin are critical for maintenance of the erythrocyte cytoskeleton. In particular, “head-to-head” dimerization occurs when the intrinsically disordered C-terminal tail of β-spectrin binds the N-terminal tail of α-spectrin, folding to form the “spectrin tetramer domain”. This non-covalent three-helix bundle domain is homologous in structure and sequence to previously studied spectrin domains. We find that this tetramer domain is surprisingly kinetically stable. Using a protein engineering Φ-value analysis to probe the mechanism of formation of this tetramer domain, we infer that the domain folds by the docking of the intrinsically disordered β-spectrin tail onto the more structured α-spectrin tail.     

Modulation of 32Pi incorporation into phospholipids of polymorphonuclear leukocytes by ionophore A23187.

The effects of ionophore A23187 on the incorporation of 32Pi into phospholipids and on 45Ca2+ uptake and release by polymorphonuclear leukocytes were examined. A23187 increased 32Pi incorporation into phosphatidic acid, phosphatidylglycerol, phosphatidylserine, and the phosphoinositides. It also promoted a rapid burst uptake and release of 45Ca2+ by leukocytes. External Ca2+, but not Mg2+, was required for full stimulation of 32Pi incorporation into phosphatidic acid and the phosphoinositides. In the absence of external Ca2+, the increased radiophosphorus activity of phosphatidic acid, phosphatidylserine and the phosphoinositides was grossly reduced but not eliminated, and the decreased radiophosphorus activity of phosphatidylcholine became pronounced. In addition, the ionophore effect on 32Pi incorporation into leukocyte phospholipids was not abolished by ethyleneglycol bis(beta-amino-ethylether)-N,N'-tetraacetic acid. ATP radiophosphorus activity was also enhanced by the presence of A23187, but the enhancement was much less than that of the acidic phospholipids. Based on these findings, it is suggested that the increased 32Pi incorporation into the acidic phospholipids of leukocytes induced by A23187 was not solely derived from the higher radioactivity of ATP, increased Ca2+ fluxes and perturbation of cellular Ca2+ distribution of leukocytes exposed to A 23187 may trigger part of the altered 32Pi incorporation into phospholipids.     

P32 distribution in phosphorus fractions of phosphorus-sensitive and -tolerant soybeans

Summary P³² incorporation into various phosphorylated compounds of roots, stems, and leaves was studied with P-sensitive (Clark) and P-tolerant (L9) varieties of soybeans. With increasing P concentration in the pretreatment solution, more P³² was incorporated into the inorganic phosphate fraction, mainly in which form P seemed to be transported from roots to leaves. P³² percentage of inorganic phosphate also showed a continuous decrease with absorption time. The rate of phosphorylation, as manifested by the ratio of P³² percentage or specific activities of the organic acid-soluble P to that of inorganic-P, was higher with the P-tolerant variety than with the P-sensitive one. The rate of RNA synthesis also seemed to be higher with the tolerant variety. Paper No. 7082, Scientific Journal Series, Minnesota Agricultural Experiment Station.     

Distribution of HSP70, protein kinase C,and spectrin is altered in lymphocytes during a fever-like hyperthermia exposure

Many B and T lymphocytes display a significant heterogeneity with respect to the subcellular distribution of the cytoskeletal protein spectrin and protein kinase C (PKC), both of which often can be found in a large cytoplasmic aggregate in these cell types. In addition to spectrin and PKC, we recently have reported that HSP70 is also a component of this lymphocyte aggregate. Moreover, these three proteins can undergo dynamic and reversible changes in their localization causing “assembly” of the aggregate in response to various conditions associated with lymphocyte activation, indicating that this naturally occurring aggregate structure is sensitive to activation status. We show here that the same changes in HSP70/spectrin/PKC localization induced by PKC activation also can be caused, in vitro and in vivo, by a mild hyperthermia exposure, as occurs during a natural fever (39.5–40°C, 2–12 hr). This mild heat exposure also triggers the activation of PKC, a major heat shock response, and lymphocyte proliferation. The increase in PKC activity, HSP70-spectrin-PKC aggregate formation, and heat shock protein expression resulting from exposure to fever-like hyperthermia are all inhibited by calphostin C, a specific inhibitor of PKC. These data demonstrate that changes observed during lymphocyte activation could be induced by a mild hyperthermia exposure occurring during a normal febrile episode. J. Cell. Physiol. 172:44–54, 1997. © 1997 Wiley-Liss, Inc.