WR-1065, an active metabolite of the cytoprotector amifostine, affects phosphorylation of topoisomerase IIα leading to changes in enzyme activity and cell cycle progression in CHO AA8 cells

The effects of WR-1065 (2-((aminopropyl)amino)ethanethiol) on cell cycle progression, topoisomerase (topo) IIα activity, and topo IIα phosphorylation in Chinese hamster ovary (CHO) cells have been investigated. Exposure of CHO cells to 0.4 μ m of WR-1065 for 30 min did not effect cell cycle progression nor topo IIα activity and phosphorylation status. However, concentrations ranging from 4 μ m to 4 m m were equally effective in significantly altering these three end points. Cell cycle progression was analysed by flow cytometry. Following a 30 min exposure to this range of concentrations, cells redistributed throughout the cell cycle with the most prominent changes being an accumulation of cells in G₂. Topo IIα activity was measured using a kinetoplast DNA (kDNA) decatenation assay. Enzyme activity was reduced by 50% relative to control levels throughout the 4 μ m to 4 m m dose range tested. Likewise, topo IIα phosphorylation levels, analysed using an immunoprecipitation assay and an antibody specific to the 170 kDa band of topo II, decreased between 42% to 48% of control levels. Inhibition of topo IIα activity in cells exposed to WR-1065 is consistent with the associated observation of WR-1065 mediated cell cycle progression delay and build-up of cells in the G₂ phase of the cell cycle.     

Overexpression of Ca2+/Calmodulin-Dependent Protein Kinase II Inhibits Neurite Outgrowth of PC12 Cells

Abstract: To investigate the physiological role of Ca²⁺/calmodulin-dependent protein kinase II (CaM kinase II) in neuronal differentiation, we transfected the cDNA of the α subunit of mouse CaM kinase II (CaM kinase IIα) into PC12 cells and established clonal cell lines that constitutively express the transfected CaM kinase IIα gene. The expression of CaM kinase IIα was confirmed by northern blot and immunoblot analyses. Northern blot analysis showed that the γ and δ subunits of CaM kinase II are mainly expressed in PC12 cells. Treatment of the cells with ionomycin activated CaM kinase IIα through autophosphorylation and generation of the Ca²⁺/calmodulin-independent form. It is interesting that the neurite outgrowth induced by dibutyryl cyclic AMP was inhibited in these cell lines in accordance with the activities of overexpressed CaM kinase IIα. The activity of cyclic AMP-dependent protein kinase showed similar levels among these cell lines. These results suggest that CaM kinase II is involved in the modulation of the neurite outgrowth induced by activation of the cyclic AMP system.     

Comparison of the antiviral action of different human interferons against DNA and RNA viruses

Abstract Five different interferon preparations were compared for their antiviral activity against Herpes simplex virus type 1 (HSV-1) and several RNA viruses. The interferons used were: interferon α from human buffy coats, interferon β from human fibroblasts, interferon γ from human lymphocytes after stimulation with phytohemagglutinin (PHA), lymphoblastoid interferon from Namalva cells IFN-α (Ly) and cloned α ₂ interferon produced by Escherichia coli containing the human gene for interferon α ₂. All preparations were able to protect monolayers of HeLa cells against HSV-1 infection when low multiplicities were used. The five IFN preparations were also tested against encephalomyocarditis (EMC) virus, poliovirus and vesicular stomatitis virus (VSV).     

Polyclonal Antibodies Directed Against an Epitope Specific for the α4-Subunit of GABAA Receptors Identify a 67-kDa Protein in Rat Brain Membranes

Abstract: Polyclonal antibodies were raised to the C-terminal part of the γ-aminobutyric acid_A (GABA_A) receptor α4-subunit. These anti-peptide α4 (517–523) antibodies specifically identified a protein with apparent molecular mass 67 kDa in rat brain membranes. This protein was enriched by immunoaffinity chromatography of brain membrane extracts on Affigel 10 coupled to the anti-peptide α4 (517–523) antibodies and could then be identified by the anti-α4-antibodies as well as by the GABA_A receptor subunit-specific monoclonal antibody bd-28. This appears to indicate that the 67-kDa protein is the α4-subunit of GABA_A receptors. Intact GABA_A receptors appeared to be retained by the immunoaffinity column because other GABA_A receptor subunit proteins like the β2/β3-subunits and the γ2-subunit were detected in the immunoaffinity column eluate. Furthermore, in addition to the 67-kDa protein, a 51-kDa protein could be detected by the antibody bd-28 and the anti-peptide α4 (517–523) antibody in the immunoaffinity column eluate. A protein with similar apparent molecular mass was identified by the α1-subunit-specific anti-peptide α1 (1–9) antibody. In contrast to the α1-subunit, the 51-kDa protein identified by the anti-α4 antibody could not be deglycosylated by N -Glycanase. The identity of the 51-kDa protein identified by the anti-α4-antibodies thus must be further investigated.     

Analysis of the immune reactivity of infiltrating and peripheral lymphocytes from patients with renal cell carcinoma by measuring cytokine secretion

 The immunological properties of tumor-infiltrating (TIL) and peripheral blood lymphocytes (PBL) from 29 patients with renal cell carcinomas were characterized with respect to their phenotypic expression and cytokine production. TIL were isolated from mechanically disaggregated tumor material and PBL from peripheral blood by gradient centrifugation. To eliminate all non-lymphoid cells, CD3-positive cells were specifically separated from these cell fractions with anti-CD3 magnetic beads. These pure CD3-positive PBL (CD3⁺PBL) and TIL (CD3⁺TIL) were cultured with pokeweed mitogen and the levels of the cytokines interleukin-1α (IL-1α), IL-1β, IL-2, interferon γ (IFNγ), and tumor necrosis factor α (TNFα) measured in the 4-day post-inductional cell culture supernatants. In all cell cultures a wide range of cytokine values was found, indicating a large variation in the immunological activity of the lymphocytes of each individual. When the cell cultures of the CD3⁺TIL and CD3⁺PBL were compared in each patient similar values for IL-1α, IL-1β, IFNγ and TNFα were found. However CD3⁺TIL produced significantly lower levels of IL-2 than CD3⁺PBL upon mitogenic stimulation. This may be due to a lower CD4/CD8 ratio in the CD3⁺TIL as compared to the CD3⁺PBL. These results suggest that there are no fundamental qualitative and quantitative differences in the lymphokine-producing capacity of CD3⁺TIL and CD3⁺PBL derived from patients with renal cell carcinomas. Received: 8 August 1995 / Accepted: 23 January 1996     

α, βI, βII, δ, and ε Protein Kinase C Isoforms and Compound Activity in the Sciatic Nerve of Normal and Diabetic Rats

Abstract: Defective protein kinase C (PKC) has been implicated in impaired Na⁺,K⁺-ATPase activity in the sciatic nerve of streptozotocin-induced diabetic rats. In the present study, α, βI, βII, γ, δ, and ε isoform-specific antibodies were used in parallel to the measurement of compound PKC activity for the characterization of PKC distribution and isoform expression in sciatic nerves of normal and diabetic rats. To distinguish isoform expression between the axonal and glial compartments, PKC isoforms were evaluated in nerves subjected to Wallerian degeneration and in a pure primary Schwann cell culture. α, βI, βII, δ, and ε but no γ isoforms were detected in sciatic nerve. Similar immunoreactivity was observed in degenerated nerves 3–4 days after transection except for diminished βI and ε species; in Schwann cell cultures, only α, βII, δ, and ε were detected. In normal nerves, two-thirds of PKC compound activity was found in the cytosol and 50% of total enzyme activity translocated to the Na⁺,K⁺-ATPase-enriched membrane fraction with phorbol myristate acetate. Similar redistribution patterns were observed for the immunoreactivity of all isoforms with the exception of δ, which did not translocate to the membrane with phorbol myristate acetate. No abnormality in compound PKC activity, in the immunoreactive intensity, or in the distribution of PKC isoforms could be detected in rat sciatic nerve after 6–12 weeks of diabetes. Thus, defective activation rather than decreased intrinsic PKC activity may occur in diabetic neuropathy.     

Topoisomerase II-mediated alterations of K562 drug resistant sublines

In order to further elucidate the, roles of DNA topoisomerase II (topo II) subtypes, α and β, as drug targets in chemotherapy, we have determined the enzyme levels in K562 cells selected for resistance to mitoxantrone (K562/Mxn), daunorubicin (K562/Dnr) and idarubicin (K562/Ida 20 and K562/Ida 60), as well as topo II-DNA complex formation, DNA damage and cytotoxicity, induced by topo II interactive agents, for example etoposide, teniposide, mitoxantrone and amsacrine. As compared to the parental cells, topo IIα/β protein levels in K562/Mxn, K562/Dnr, K562/Ida 20 and 60 lines, measured with Western blot, were 17/67%, 85/88, 24/31% and 10/7% respectively. DNA damage, determined by DNA unwinding technique, induced by teniposide and amsacrine correlated with both topo IIα/β protein levels (r ²=0.8/0.9,P=0.03/0.01 andr ²=0.8/0.9,P=0.04/0.01, respectively). Topo II-DNA complex formation induced by all studied drugs correlated with topo IIβ protein levels (r ²-range 0.8–0.9,P-range 0.01–0.04), while the correlation with topo IIα was weaker. Topo IIα/β protein levels tended to show an inverse correlation with the cytotoxicity of etoposide (r ²=−0.9/−0.7,P=0.01/0.06). The overall topo II-DNA complex formation correlated with drug-induced DNA damage (r ²=0.9,P=0.0001), whilst not with the cytotoxicity. Our findings indicate that both topo II isozymes are the targets of the antitumor agents studied, and of potential clinical relevance for prediction of treatment efficacy. They could play a role in tailored chemotherapy.     

Definition of a Sequence Unique in βII Spectrin Required for Its Axon-Specific Interaction with Fodaxin (A60)

Abstract: Spectrin isotypes segregate in neurons and are differentially distributed between axons and somatodendritic compartments. Their functions in those compartments are likely to be mediated by proteins that interact selectively with one or other isotype. Fodaxin (an axon-specific protein previously termed A60) colocalizes in CNS neurons with axonal spectrin and in vitro binds brain spectrin (a mixture of αI, βI, αII, and βII polypeptides) but not erythrocyte spectrin (αI and βI). Because αII and βII spectrin polypeptides are enriched in axons, we investigated a possible binding of fodaxin to the types of spectrin found in axons. Fodaxin did not bind to isolated brain α chains. Bacterially expressed C-terminal segments 18–19 of βII spectrin bound to fodaxin and inhibited the binding of fodaxin to whole brain spectrin. By contrast, recombinant segments 18–19 of the somatodendritic βIΣ2 spectrin showed no interaction with fodaxin. Within βII, fodaxin binding activity was localized to residues 2,087–2,198, which are unique to βII and link between the end of segment 18 and the pleckstrin homology domain in segment 19. The divergent regions of sequence in segments 19 of βII and βIΣ2 are candidates to mediate the isotype-specific functions of spectrin. Fodaxin is the first protein to be described that discriminates between the unique regions of β spectrin isoforms.     

Distribution and functional analysis of a 120- to 130-kDa T-cell surface antigen

A monoclonal antibody (mAb), SPV-L14, was raised that detected a human T-cell surface antigen with a molecular weight (MW) of 120 kDa on resting and phytohemagglutinin-activated peripheral blood T lymphocytes (PBL). An additional band with a MW of 130 kDa could be precipitated with variable intensities from thymocytes, neoplastic T cells, and CD4+- or CD8+ T-cell clones. Based on their reactivity with SPV-L14 and a mAb directed against CD3, four subpopulations of CD2+ lymphocytes could be detected and their existence was confirmed at the clonal level. The majority (95%) of the CD3+ cells were SPV-L14+, whereas 5% were CD3+, SPV-L14-. Among cloned cell lines CD3-,SPV-L14- and CD3-,SPV-L14+ cells were found to exist. The CD3-,SPV-L14- and CD3-,SPV-L14+ clones were shown to have NK cell activity, indicating that the 120- to 130-kDa antigen is expressed heterogeneously on CD3- NK cell clones. In addition, neoplastic T cells representing these four subpopulations were shown to exist. Although the tissue distribution and the MW of the SPV-L14 target antigen strongly suggest that SPV-L14 reacts with an epitope on CD6, the SPV-L14 mAb did not react with resting or activated B cells or with malignant B cells. Blocking studies showed that SPV-L14 inhibited the proliferative response of PBL, induced by anti-CD3 mAb, but that SPV-L14 did not affect the proliferation induced by phytohemagglutinin. These results suggest that the 120- to 130-kDa MW antigen is associated with T-cell proliferation, depending on the mode of activation.     

A functional 125-kDa core polypeptide of fission yeast DNA topoisomerase II.

We purified fission yeast DNA topoisomerase II (topo II) to apparent homogeneity. It consists of a single 165-kDa polypeptide in sodium dodecyl sulfate-polyacrylamide gel electrophoresis and, upon treatment with a bifunctional reagent, doubles its molecular weight. Limited proteolysis of intact topo II by papain produces a 125-kDa core, which lacks the N-terminal 75 and the C-terminal approximately 260 amino acids but still contains regions similar to those of bacterial or phage T4 topo II subunits. The core retains relaxing and unknotting activities. Further digestion inactivates the core, cleaving it at the middle of the GyrB-like domain and at the beginning of the GyrA-like domain. Therefore, papain appears to cleave spatially distinct subdomains of topo II. We made top2 mutant genes deleted of the C-terminal 286 or N-terminal 74 amino acids, which can substitute for the wild-type top2+ gene in mitosis and meiosis. However, a mutant containing deletions of both termini cannot rescue the top2 null mutant, despite the fact that the product is enzymatically active. Therefore, the top2 product of the doubly truncated gene may not fulfill all of the in vivo requirements for top2+ function.     

Immunosuppreession induced by Salmonella infection is correlated with augmentation of interleukin-2 receptor α chain expression in murine splenic lymphocytes

Abstract In a previous study, we observed that the suppression of T-cell proliferation induced by Salmonella cell-free extract was associated with augmentation of IL-2 receptor (IL-2R) α chain expression. In this study, we also observed this kind of augmentation of IL-2Rα in Salmonella -infected mice. Phytohaemagglutinin (PHA)-stimulated proliferation of murine spleen cells was significantly suppressed when the mice were infected with Salmonella typhimurium . However, expression of the α chain but not the β chain of IL-2R in lymphocytes was augmented by the infection. Analysis of the IL-2R-positive cell-populylation showed that the augmentation of IL-2Rα was not specific to certain cell subpopulations. Furthermore, the inhibition of PHA-stimulated murine spleen cell proliferation and the augmentation of IL-2Rα expression induced by the infection in lymphocytes was completely reversed by treatment with anti-interferon-γ monoclonal antibody (anti-IFN-γ Ab). These results suggest that the suppression of T-cell proliferation induced by Salmonella infection was associated with augmentation of IL-2Rα expression in an IFN-γ production-dependent manner in the same way as the suppression of T-cell proliferation induced by Salmonella cell-free extract.     

Human peripheral lymphocyte growth regulation and response to phorbol esters is linked to synthesis and phosphorylation of the cytosolic protein, prosolin

Prosolin is a major cytosolic protein (Mr 18400, isoelectric point 5.9) first reported in HL-60 promyelocytic leukemia cells. It is rapidly phosphorylated (15 to 30 min) in response to TPA treatment as an early event in a sequence that leads to cessation of cell proliferation and to differentiation of promyelocytes into monocytes. In our study we examined the expression of prosolin in human peripheral lymphocytes and investigated the effects of TPA treatment on prosolin phosphorylation and on lymphocyte proliferation. Prosolin was not expressed in resting PBL but was induced after 24 to 36 h of PHA stimulation, simultaneously with induction of DNA synthesis. In rapidly proliferating (IL-2 dependent) PBL prosolin was a major cytosolic component, comprising 0.5% of total cytosolic protein, of which approximately 28% was phosphorylated. Expression of prosolin decreased again when either mitogen-induced or IL-2-dependent proliferation diminished during extended periods in culture. Thus, expression of prosolin is correlated with periods when PBL are cycling through S-phase. TPA treatment of IL-2-dependent PBL at the peak of their growth caused phosphorylation of about two-thirds of preexisting unphosphorylated prosolin within 1 h. This was accompanied by cessation of cell proliferation, as indicated by measurements of TdR incorporation. Although TPA has well known mitogenic effects in lymphocytes during initial activation, this result shows that it exerts an antiproliferative effect in rapidly dividing PBL. It is suggested that increased phosphorylation of prosolin may be an initiating event in the antiproliferative response to TPA, which would occur only in proliferating lymphocytes expressing prosolin.     

Role of G Protein βγ Subunits in Muscarinic Receptor-Induced Stimulation and Inhibition of Adenylyl Cyclase Activity in Rat Olfactory Bulb

Abstract: In the olfactory bulb, muscarinic receptors exert a bimodal control on cyclic AMP, enhancing basal and G_s-stimulated adenylyl cyclase activities and inhibiting the Ca²⁺/calmodulin- and forskolin-stimulated enzyme activities. In the present study, we investigated the involvement of G protein βγ subunits by examining whether the muscarinic responses were reproduced by the addition of βγ subunits of transducin (βγ_t) and blocked by putative βγ scavengers. Membrane incubation with βγ_t caused a stimulation of basal adenylyl cyclase activity that was not additive with that produced by carbachol. Like carbachol, βγ_t potentiated the enzyme stimulations elicited by vasoactive intestinal peptide and corticotropin-releasing hormone. RT-PCR analysis revealed the expression of mRNAs encoding both type II and type IV adenylyl cyclase, two isoforms stimulated by βγ synergistically with activated G_s. In addition, βγ_t inhibited the Ca²⁺/calmodulin- and forskolin-stimulated enzyme activities, and this effect was not additive with that elicited by carbachol. Membrane incubation with either one of two βγ scavengers, the GDP-bound form of the α subunit of transducin and the QEHA fragment of type II adenylyl cyclase, reduced both the stimulatory and inhibitory effects of carbachol. These data provide evidence that in rat olfactory bulb the dual regulation of cyclic AMP by muscarinic receptors is mediated by βγ subunits likely acting on distinct isoforms of adenylyl cyclase.     

Axonal Contact Regulates Expression of α2 and β2 Isoforms of Na+,K+-ATPase in Schwann Cells: Adhesion Molecules and Nerve Regeneration

Abstract: Three isoforms of catalytic α subunits and two isoforms of β subunits of Na⁺,K⁺-ATPase were detected in rat sciatic nerves by western blotting. Unlike the enzyme in brain, sciatic nerve Na⁺,K⁺-ATPase was highly resistant to ouabain. The ouabain-resistant α1 isoform was demonstrated to be the predominant form in rat intact sciatic nerve by quantitative densitometric analysis and is mainly responsible for sciatic nerve Na⁺,K⁺-ATPase activity. After sciatic nerve injury, the α3 and β1 isoforms completely disappeared from the distal segment owing to Wallerian degeneration. In contrast, α2 and β2 isoform expression and Na⁺,K⁺-ATPase activity sensitive to pyrithiamine (a specific inhibitor of the α2 isoform) were markedly increased in Schwann cells in the distal segment of the injured sciatic nerve. These latter levels returned to baseline with nerve regeneration. Our results suggest that α3 and β1 isoforms are exclusive for the axon and α2 and β2 isoforms are exclusive for the Schwann cell, although axonal contact regulates α2 and β2 isoform expressions. Because the β2 isoform of Na⁺,K⁺-ATPase is known as an adhesion molecule on glia (AMOG), increased expression of AMOG/β2 on Schwann cells in the segment distal to sciatic nerve injury suggests that AMOG/β2 may act as an adhesion molecule in peripheral nerve regeneration.     

Mitogen response of peripheral blood and splenic lymphocytes and effect of 2-mercaptoethanol in tumor-bearing mice

Summary A murine osteosarcoma in which the number of tumor cells can be continually monitored by measuring the circulating plasma alkaline phosphatase levels was used to determine the effect of tumor burden on peripheral blood and splenic lymphocyte response to mitogens. In animals with tumors of different sizes, the pattern of response of the peripheral blood lymphocytes (PBL) to mitogens is different from that of splenic lymphocytes. PBL response to ConA, PHA, and LPS was initially depressed, but response to PHA and LPS recovered later, as the tumor burden exceeded 6%. However, the recovery of LPS response was not consistent, in that recovery was not seen when the tumor burden was 5%–6%. Response to ConA remained depressed. Splenic lymphocytes showed progressive decline of PHA response. Treatment of tumor-bearing mice with 2-mercaptoethanol (2-ME) restored the ConA response of PBL in 56% of mice. Treatment with 2-ME did not restore PBL response to PHA or LPS. Abbreviations used in this paper: PBL, peripheral blood lymphocytes; peripheral blood lymphocytes; ConA, concanavalin A; PHA, phytohemagglutinin; LPS, lipopolysaccharide; 2-ME, 2-mercaptoethanol; FCS, fetal calf serum; AP, alkaline phosphatase; OS, osteosarcoma     

Isolation, characterization and significance of papaya β‐galactanases to cell wall modification and fruit softening during ripening

β‐Galactosidases (EC 3.2.1.23) from ripe papaya ( Carica papaya L. cv. Eksotika) fruits having galactanase activities were fractionated by a combination of cation exchange and gel‐filtration chromatography into three isoforms, viz., β‐galactosidase I, II and III. The native proteins of the respective isoforms have apparent molecular masses of 67, 67 and 55 kDa, each showing one predominant polypeptide upon SDS‐PAGE of about 31 and 33 kDa for β‐galactosidases I and III, respectively, and of 67 kDa for β‐galactosidase II. The β‐galactosidase I protein, which was undetectable in immature fruits, appeared to be specifically accumulated during ripening. The β‐galactosidase II protein was present in developing fruits, but its level seemed to decrease with ripening. β‐Galactosidase I seemed to be an important softening enzyme; its activity increased dramatically (4‐ to 8‐fold) to a peak early during ripening and correlated closely with differential softening as related to position in the fruit tissue. The inner mesocarp tissue was softer, and its wall pectins were modified earlier and firmness decreased more rapidly during ripening compared to the outer mesocarp tissue. β‐Galactosidase II also may contribute significantly to softening because of its ability to catalyse increased solubility and depolymerization of pectins as well as through its ability to modify the alkali‐soluble hemicellulose fraction of the cell wall. The physiological significance of both β‐galactosidase isoforms may partly be attributed to their functional capacity as β‐(1,4)‐galactanases.     

Different Modulation of Protein Kinase C Isozymes in Dibutyryl Cyclic AMP-Differentiated PC12h Cells

Abstract: PC12h cells can be differentiated into sympathetic neuron-like cells by various agents, including nerve growth factor, basic fibroblast growth factor, cyclic AMP analogues, and protein kinase C (PKC) activators. To study the involvement of PKC in the process of PC12h cell differentiation by cyclic AMP treatment, PKC isozymes (α, βI, βII, and γ) were analyzed using column chromatography and immunoblotting. Two PKC isozymes, PKC(α) and PKC(βII), were predominantly detected in PC12h cells. When stimulated by dibutyryl cyclic AMP, PKC(α) levels declined in the cytosolic fraction of the cells, whereas PKC(βII) levels increased. Increased PKC(βII) levels were also detected in the particulate fraction, whereas particulate PKC(α) levels did not change. The total PKC activity decreased in the cytosolic fraction following cyclic AMP stimulation of PC12h cells, whereas it stayed constant in the particulate fraction. Fractionation on a hydroxyapatite column showed a decreased level of PKC(α) activity and a transient increase followed by a decreased level of PKC(βII) activity. This discrepancy between increased PKC(βII) immunoreactivity and reduced PKC(βII) activity suggested the presence of nonactivatable PKC(βII) in cyclic AMP-treated PC12h extract. These findings indicate that PKC(α) and PKC(βII) are differentially regulated during the differentiation of PC12h cells. In addition, the differentiation of PC12h cells triggered by cyclic AMP seems to involve characteristic alterations of PKC isozymes.