Various tolerances to arsenic trioxide between human cortical neurons and leukemic cells

Arsenic trioxide (As₂O₃) is very effective for treatment of acute promyelocytic leukaemia (APL) but little can pass through the blood-brain-barrier (BBB), which limits its use in the prevention and treatment of central nervous system leukaemia (CNSL). Before creating a non-invasive method to help As₂O₃’s access, the safe and effective therapeutic concentration of As₂O₃ in the CNS ought to be known. The changes of apoptosis biomarkers, [Ca²⁺]_i and PKC activity of both leukaemia cells and human cortical neurons, were monitored before and after being treated with As₂O₃ in vitro with laser confocal microscopy and Western blot. NSE concentration, the neuron invasive biomarker, was monitored by enzyme immunoassay (NSE-EIA). This study revealed that cortical neuron was more tolerable to As₂O₃ compared to NB4. 1.0 μmol / L As₂O₃ showed little influence on cortical neuron but effectively promoted apoptosis and induced differentiation of NB4.     

Activation of Protein Kinase C by the Capsaicin Analogue Resiniferatoxin in Sensory Neurones

Abstract: Resiniferatoxin and capsaicin are sensory neurone-specific excitotoxins that operate a common cation channel in nociceptors. Resiniferatoxin is structurally similar to capsaicin and to phorbol esters. Specific [³H]-resiniferatoxin binding, which was detected in the membrane ( K _D value 1.8 ± 0.2 n M ) but not cytosolic fraction of rat dorsal root ganglia, could not be displaced by phorbol 12,13-dibutyrate. Conversely, resiniferatoxin did not displace [³H]phorbol 12,13-dibutyrate binding in either the cytosolic or membrane fraction. Resiniferatoxin and capsaicin both caused translocation of protein kinase C in dorsal root ganglion neurones (EC₅₀ value 18 ± 3 n M ). This translocation was greatly reduced but not abolished, in the absence of external Ca²⁺, suggesting that it was secondary to Ca²⁺ entry. Resiniferatoxin also caused direct activation of a Ca²⁺- and lipid-dependent kinase (or kinases) in the cytosolic fraction of dorsal root ganglia, at concentrations (100 n M to 10 µ M ) higher than required for displacement of [³H]resiniferatoxin binding or translocation of protein kinase C. Capsaicin (up to 10 µ M ) was unable to mimic this effect. These data imply that although resiniferatoxin-induced translocation of protein kinase C in dorsal root ganglion neurones was mainly indirect, it also caused direct activation of a protein kinase C-like kinase in these cells.     

碘过量对后代鼠脑NSE和GFAP表达的影响

目的观察碘过量对后代鼠神经元特异性烯醇化酶和胶质纤维酸性蛋白表达的影响。方法将断乳后一个月Wistar大鼠随机分为五组（NI、5HI、10HI、50HI和100HI）,饮用不同浓度的碘水,饲养3个月后雌雄合笼,取第二代60日龄鼠,测量血清甲状腺激素值,以NSE和GFAP为观察指标,研究后代鼠大脑的发育情况。结果各碘过量组甲状腺激素水平呈下降趋势,100HI组呈明显甲低状态;NSE的免疫组化和形态计量学显示：海马CA3区NSE阳性细胞的NA、VV,和灰度值随碘过量的严重程度而呈下降趋势,在100HI组呈明显的统计学差异。各组GFAP阳性星形胶质细胞阳性显色强弱未见明显不同。结论大鼠对碘摄入量的增高,只有在100HI组可以观察到以NSE表达降低为主要特点的脑发育障碍,其发病机理可能与碘过量所致的甲状腺功能低下有关。     

Increased phosphorylation of the NR1 subunit of the NMDA receptor following cerebral ischemia

The effects of transient cerebral ischemia on phosphorylation of the NR1 subunit of the NMDA receptor by protein kinase C (PKC) and protein kinase A (PKA) were investigated. Adult rats received 15 min of cerebral ischemia followed by various times of recovery. Phosphorylation was examined by immunoblotting hippocampal homogenates with antibodies that recognized NR1 phosphorylated on the PKC phosphorylation sites Ser890 and Ser896, the PKA phosphorylation site Ser897, or dually phosphorylated on Ser896 and Ser897. The phosphorylation of all sites examined increased following ischemia. The increase in phosphorylation by PKC was greater than by PKA. The ischemia-induced increase in phosphorylation was predominantly associated with the population of NR1 that was insoluble in 1% deoxycholate. Enhanced phosphorylation of NR1 by PKC and PKA may contribute to alterations in NMDA receptor function in the postischemic brain.     

Trophic factors attenuate nitric oxide mediated neuronal and axonal injury in vitro: roles and interactions of mitogen-activated protein kinase signalling pathways

Inflammation in the central nervous system occurs in diseases such as multiple sclerosis and leads to axon dysfunction and destruction. Both in vitro and in vivo observations have suggested an important role for nitric oxide (NO) in mediating inflammatory axonopathy. The purposes of this study were to model inflammatory axonopathy in vitro and identify modulators of the process. Rat cortical neurones were cultured and exposed to an NO-donor plus potential protective factors. Cultures were then assessed for neuronal survival, axon survival and markers of intracellular signalling pathways. The NO-donor produced dose-dependent neuronal loss and a large degree of axon destruction. Oligodendrocyte conditioned medium (OCM) and insulin-like growth factor type-1 (IGF-1), but not glial cell line-derived neurotrophic factor (GDNF), improved survival of neurones exposed to NO donors. In addition p38 MAP kinase was activated by NO exposure and inhibition of p38 signalling led to neuronal and axonal survival effects. OCM and IGF-1 (but not GDNF) reduced p38 activation in NO-exposed cortical neurones. OCM, IGF-1 and GDNF improved axon survival in cultures exposed to NO, a process dependent on mitogen-activated protein kinase/extracellular signal-related kinase signalling. This study emphasizes that different mechanisms may underlie neuronal/axonal destructive processes, and suggests that trophic factors may modulate NO-mediated neurone/axon destruction via specific pathways.     

A low molecular weight substance purified from human placenta inhibits cAMP-dependent protein kinase and activates protein kinase C

We have purified from human placenta a low molecular mass substance that inhibits cAMP-dependent protein kinase and activates protein kinase C. This protein kinase regulator was purified in three steps: (1) homogenizing placentas in chloroform/methanol and extracting the regulator into water; (2) eluting a strong anion exchange high performance liquid chromatography (HPLC) column with a quaternary gradient; and (3) eluting a reversed-phase HPLC column with a binary gradient. The regulator was found to be highly purified by HPLC, thin-layer chromatography (TLC) and laser desorption ionization mass spectrometry with a molecular mass of 703 Daltons by the latter procedure. The physical and biochemical properties of this protein kinase regulator suggest that it is a phospholipid but it did not co-elute by HPLC or by TLC with any of the known phospholipid activators of protein kinase C.     

Phorbol Myristate Acetate and 8-Bromo-Cyclic AMP-Induced Phosphorylation of Glial Fibrillary Acidic Protein and Vimentin in Astrocytes: Comparison of Phosphorylation Sites

Both the protein kinase C (PK-C) activator, phorbol 12-myristate 13-acetate (PMA), and the cyclic AMP-dependent protein kinase (PK-A) activator, 8-bromo-cyclic AMP (8-BR), have been shown to increase 32P incorporation into glial fibrillary acidic protein (GFAP) and vimentin in cultured astrocytes. Also, treatment of astrocytes with PMA or 8-BR results in the morphological transformation of flat, polygonal-shaped cells into stellate, process-bearing cells, suggesting the possibility that signals mediated by these two kinase systems converge at the level of protein phosphorylation to elicit similar changes in cell morphology. Therefore, studies were conducted to determine whether treatment with PMA and 8-BR results in the phosphorylation of the same tryptic peptide fragments on GFAP and vimentin in astrocytes. Treatment with PMA increased 32P incorporation into all the peptide fragments that were phosphorylated by 8-BR on both vimentin and GFAP; however, PMA also stimulated phosphorylation of additional fragments of both proteins. The phosphorylation of vimentin and GFAP resulting from PMA or 8-BR treatment was restricted to serine residues in the N-terminal domain of these proteins. Studies were also conducted to compare the two-dimensional tryptic phosphopeptide maps of GFAP and vimentin from intact cells treated with PMA and 8-BR with those produced when the proteins were phosphorylated with purified PK-C or PK-A. PK-C phosphorylated the same fragments of GFAP and vimentin that were phosphorylated by PMA treatment. Additionally, PK-C phosphorylated some tryptic peptide fragments of these proteins that were not observed with PMA treatment in intact cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Specific desensitization of the epidermal growth factor receptor by pp60v-src

BALB/c 3T3 cells infected with a temperature-sensitive mutant (LA90) of RSV have been used to investigate possible heterologous interactions between the pp60v-src tyrosyl kinase and the epidermal growth factor (EGF) and bradykinin receptors. The LA90 pp60v-src exhibits a very rapid activation t1/2 (less than 5 min) of protein kinase activity on decreasing the temperature from 40 degrees C to 35 degrees C. This change in temperature was also found to induce a very rapid decrease in the affinity for 125I-EGF of receptors on the RSV-LA90-infected cells but not of those on control parental cells. However, no significant changes were detected in the binding of 3H-bradykinin to either cell line. Two separable processes control the desensitization of the EGF receptor by pp60v-src, both of which are independent of protein kinase C. The first is rapid and transient, while the second is sensitive to cycloheximide and persists long after inactivation of pp60v-src.     

In situ regulation of cell-cell communication by the cAMP-dependent protein kinase and protein kinase C

The effects of cAMP-dependent protein kinase A and protein kinase C on cell-cell communication have been examined in primary ovarian granulosa cells microinjected with purified components of these two regulatory cascades. These cells possess connexin43 ( 1)-type gap junctions, and are well-coupled electrotonically and as judged by the cell-to-cell transfer of fluorescent dye. Within 2–3 min after injection of the protein kinase A inhibitor (PKI) communication was sharply reduced or ceased, but resumed in about 3 min with the injection of the protein kinase A catalytic subunit. A similar resumption also occurred in PKI-injected cells after exposure to follicle stimulating hormone. Microinjection of the protein kinase C inhibitor protein caused a transient cessation of communication that spontaneously returned within 15–20 min. Treatment of cells with activators of protein kinase C, TPA or OAG for 60 min caused a significant reduction in communication that could be restored within 2–5 min by the subsequent injection of either the protein kinase C inhibitor or the protein kinase A catalytic subunit. With a longer exposure to either protein kinase C activator communication could not be restored and this appeared to be related to the absence of aggregates of connexin43 in membrane as detected immunologically. In cells injected with alkaline phosphatase communication stopped but returned either spontaneously within 20 min or within 2–3 min of injecting the cell with either the protein kinase A catalytic subunit or with protein kinase C. When untreated cells were injected with protein kinase C communication diminished or ceased within 5 min. Collectively these results demonstrate that cell-cell communication is regulated by both protein kinase A and C, but in a complex interrelated manner, quite likely by multiple phosphorylation of proteins within or regulating connexin-43 containing gap junctions.Abbreviations C catalytic subunit of protein kinase A - CKI protein kinase C inhibitor protein - Cx connexin protein - dbcAMP N⁶,2-O-dibutyryladenosine 3:5-cyclic monophosphate - OAG 1-oleoyl-2-acetyl-sn-glycerol - protein kinase A cAMP-dependent protein kinase - protein kinase C Ca²⁺-sensitive phospholipid-dependent protein kinase - PKI protein kinase A inhibitor protein - R regulatory subunit of protein kinase A - TRA 12-O-tetradecanoylphorbol-13-acetate - 8Br-cAMP 8-bromoadenosine 3:5 cyclic monophosphate     

瑞芬太尼联合异丙酚对颅内动脉瘤夹闭术患者麻醉效果及血清S100β、NSE水平的影响

目的:探讨瑞芬太尼联合异丙酚对全麻下颅内动脉瘤夹闭术患者麻醉效果及血清中枢神经特异蛋白(S100β)、神经元特异性烯醇化酶(NSE)的影响。方法:选取2017年2月～2019年1月期间于我院行全麻下颅内动脉瘤夹闭术的患者103例,根据随机数字表法将患者分为对照组(n=51)和研究组(n=52),对照组给予异氟醚联合异丙酚麻醉,研究组给予瑞芬太尼联合异丙酚麻醉,比较两组患者麻醉效果、再出血率及血清S100β、NSE水平。结果:研究组硬脑膜切开前(T2)～动脉瘤夹闭即刻(T4)时间点心率(HR)、中心静脉压(MAP)均低于对照组(P0.05)。研究组自主呼吸恢复时间、定向力恢复时间、呼吸后睁眼时间、气管拔管时间、离开手术室时间均短于对照组(P0.05)。研究组T2～手术结束时(T5)时间点血清S100β、NSE水平低于对照组(P0.05)。两组再出血率比较差异无统计学意义(P0.05)。结论:瑞芬太尼联合异丙酚可改善全麻下颅内动脉瘤夹闭术患者的术后指标,维持血流动力学平稳,减轻脑损害。     

蛋白激酶C抑制剂Staurosporine对HeLa细胞周期的影响

用蛋白激酶C的抑制剂Staurosporine(10nmol/L)处理HeLa细胞,明显抑制HeLa细胞的增殖。这种抑制作用不是由于引起细胞死亡,而是因为细胞被阻断在G2期。这种阻断作用伴随着HeLa细胞多倍体的形成,提示Staurosporine抑制了HeLa细胞蛋白激酶C活性后引起的细胞阻滞,对细胞核的周期运转没有影响。进一步的探讨发现这种抑制作用可能是通过干扰细胞骨架的正确分布形成的,表明蛋白激酶C对于HeLa细胞由G2到M期正确过渡起重要作用。     

Progesterone triggers rapid transmembrane calcium influx and/or calcium mobilization from endoplasmic reticulum,via a pertussis-insensitive G-protein in granulosa cells in relation to luteinization process

We investigated the early effects (5–60 s) of progesterone (1 pM–0.1 μM) on cytosolic free calcium concentration ([Ca²⁺]_i) and inositol 1,4,5-trisphosphate (InsP₃) formation in nonluteinized and in vitro luteinized porcine granulosa cells (pGCs). Progesterone increased [Ca²⁺]_i and InsP₃ formation within 5 s in both cell types. Progesterone induced calcium mobilization from the endoplasmic reticulum via the activation of a phospholipase C linked to a pertussis-insensitive G-protein. This process was controlled by protein kinases C and A. In contrast, only nonluteinized pGCs showed a Ca²⁺ influx via dihydropyridine-insensitive calcium channel. In both cell types, the nuclear progesterone receptor antagonist RU-38486 did not inhibit the progesterone-induced increase in [Ca²⁺]_i; progesterone immobilized on bovine serum albumin, which did not enter the cell, increased [Ca²⁺]_i within 5 s and was a full agonist, but less potent than the free progesterone; pertussis toxin did not inhibit progesterone effect on InsP₃. In conclusion, progesterone may interact with membrane unconventional receptors that belong to the class of membrane receptors coupled to a phospholipase C via a pertussis toxin-insensitive G-protein. The source of the Ca²⁺ for the progesterone-induced increase in [Ca²⁺]_i also depends on the stage of cell luteinization. © 1996 Wiley-Liss, Inc.     

全麻苏醒期谵妄与S100β、NSE 的关系研究

目的:观察全麻患者苏醒期谵妄(Emergency Delirium,ED)与血浆S100β、NSE的关系.方法:选取84例择期全麻患者病人,于术前一天和术后苏醒期采用CAM量表进行谵妄状态评定,术后发生谵妄的患者为谵妄组,未发生谵妄的患者为对照组.并分别于术前、苏醒期,随机选择谵妄组42例,对照组42例抽取血清用ELASA方法测定S100β、NSE值.结果:血清S100β蛋白、NSE值在苏醒期谵妄患者和非谵妄组患者间差异无统计学意义(P＞0.05).结论:血清S100β蛋白、血清NSE与苏醒期谵妄发生无明显相关性.     

Quantitative alterations of S-100 protein and neuron specific enolase in the rat nervous system after chronic 2,5-hexanedione exposure

The regional changes in quantities of the glial S-100 protein and the neuron specific enolase in the rat nervous system have been studied after long-term exposure to 2,5-hexanedione. The wet weights of most of the examined nervous tissues were found to be reduced, with an extensive effect seen in the brain stem. Using dot immunobinding assays, the concentrations of S-100 were found to be increased in most of the examined tissues, but unaffected in the brain stem. The total amount of S-100 per tissue was markedly reduced in the brain stem. The content of neuron specific enolase was reduced only in the brain stem. Thus the effects of 2,5-hexanedione on the nervous system varied regionally. The brain stem was severely atrophied with a reduction of neuronal as well as of glial marker proteins. Other brain regions contained increased glial cell marker proteins as signs of progressive astroglial reactions.     

Coordinated Regulation of Radioadaptive Response by Protein Kinase C and p38 Mitogen-Activated Protein Kinase

Eukaryotic cells are known to have an inducible or adaptive response that enhances radioresistance after a low priming dose of radiation. This radioadaptive response seems to present a novel cellular defense mechanism. However, its molecular processing and signaling mechanisms are largely unknown. Here, we studied the role of protein kinase C (PKC) and mitogen-activated protein kinase (MAPK) in the expression of radioadaptive response in cultured mouse cells. Protein immunoblot analysis using isoform-specific antibodies showed an immediate activation of PKC-alpha upon X-irradiation as indicated by a translocation from cytosol to membrane. A low priming dose caused a prolonged translocation, while a nonadaptive high dose dramatically downregulated the total PKC level. Low-dose X-rays also activated the p38 MAPK. The activation of p38 MAPK and resistance to chromosome aberration formation were blocked by SB203580, an inhibitor of p38 MAPK, and Calphostin C, an inhibitor of PKC. Furthermore, it was demonstrated that p38 MAPK was physically associated with delta1 isoform of phospholipase C (PLC-delta1), which hydrolyzed phosphatidylinositol bisphosphate into diacylglycerol, an activator of PKC, and that SB203580 also blocked the activation of PKC-alpha. These results indicate the presence of a novel mechanism for coordinated regulation of adaptive response to low-dose X-rays by a nexus of PKC-alpha/p38 MAPK/PLC-delta1 circuitry feedback signaling pathway with its breakage operated by downregulation of labile PKC-alpha at high doses or excess stimuli.     

Protein kinase C expression and subcellular distribution in chronic myocardial ischemia: Comparison of two different canine models

We studied protein kinase C (PKC) isozyme expression and activity distribution in two models of chronically ischemic canine myocardium: (1) single vessel obstruction (SVO), produced by tight stenosis of LAD followed by preconditioning and acute ischemia (40 min); (2) three vessel obstruction (3VO), produced by LAD-stenosis and gradual occlusion of right coronary artery and left circumflex. In both models after 8 weeks of chronic ischemia the dogs were either sacrificed or had PTCA of the LAD with a follow up of another 4 weeks. Control dogs were sham operated. PKC activity was measured in subcellular fractions of tissue samples from anterior and posterior regions in the presence of histone and -[³²P]-ATP. PKC isozymes were detected by Western blotting. All regions perfused by the obstructed coronaries were dysfunctional at 8 weeks when compared to baseline, with improvement of anterior wall function after PTCA of LAD. PKC activity was elevated in the membrane fraction of SVO, but unchanged in the 3VO model. PKCs , , and prevailed in cytosol fraction of the controls (cytosol/membrane ratios were ± 3.34, 1.38 and 4.56 for , and , respectively), consistent with PKC activity distribution, while was not detected. There was no significant difference between the groups concerning the relative membrane amount of the isozymes. PKCs and were decreased in the cytosol fraction of both models at 8 weeks (for anterior region, by 56 and 57% in SVO and by 49 and 46% in 3VO, respectively) without there being any differences between anterior and posterior regions, and were low also in the PTCA group. PKC distribution however varied between the two models. The amount of PKC isozyme was downregulated by 45% after 8 weeks of chronic ischemia and returned towards the control values after PTCA in the anterior region of SVO, while it did not change in anterior wall after 8 weeks in 3VO but was significantly decreased (by 47%) in posterior region after PTCA. In conclusion, our results suggest modified PKC signalling in chronically ischemic canine myocardium.     

Protein kinase C β from Friend erythroleukemia cells is associated with chromatin and DNA

Certain protein kinase C (PKC) isotypes are localized to the nucleus during cellular proliferation in murine erythroid cells, as well as in human promyelocytic leukemia and erythroleukemia cells. Because the structure of these PKC isotypes contains a conserved cysteine-rich region that contains the zinc finger DNA binding motif, we tested the hypothesis that selected PKC isotypes found in Friend erythroleukemia cells can bind to DNA. Cell lysates from murine Friend erythroleukemia cells, which express , I, and II PKC, expressed greater amounts of the isoforms than the isoform of PKC in their nuclei, and PKC I was found in the chromatin of these cells. Lysates of these cells were tested for their ability to bind to a DNA-cellulose columm. Bound proteins were eluted with a step gradient of increasing KCl concentrations, and eluant fractions were then subjected to immunoblot analysis using isotype-specific antibodies to the and I isotypes of PKC. DNA binding was detected for the PKC I isotype, which is present in the nucleus, but not for the more abundant PKC isotype, which resides primarily in the cytoplasm. These results demonstrate that PKC can associate with DNA, and that this association is isotype specific in Friend erythroleukemia cells. (Mol Cell Biochem151: 107–111, 1995)     

Phosphorylation Sites Within α4 Subunits of α4β2 Neuronal Nicotinic Receptors: A Comparison of Substrate Specificities for cAMP-Dependent Protein Kinase (PKA) and Protein Kinase C (PKC)

The present study determined whether putative phosphorylation sites within the M3/M4 cytoplasmic domain of the human 4 subunit of 42 neuronal nicotinic receptors are substrates for cAMP-dependent protein kinase (PKA) or protein kinase C (PKC). Five peptides corresponding to predicted phosphorylation sequences were synthesized, and phosphorylation was compared with standard peptide substrates for each kinase, that is, Kemptide for PKA and glycogen synthase (GS) 1-8 for PKC. VRCRSRSI had the highest affinity for PKA, with a Km of 44.5 M; Kemptide had a Km of 7.7 M. LMKRPSVVK and KARSLSVQH were also phosphorylated by PKA, but had lower affinities of 593 M and 2896 M, respectively. LMKRPSVVK had the highest affinity for PKC with a Km of 182 M; GS 1–8 had a Km of 2.1 M. VRCRSRSI had a comparative affinity for PKC with a Km of 327 M. PCKCTCKK was not phosphorylated by PKA, but was a substrate for PKC with a Km of 1392 M, whereas PGPSCKSP was not phosphorylated by either kinase. Based on these findings, results suggest that Ser-362 and Ser-486 on the human 4 subunit may be phosphorylated by either PKA or PKC, Ser-467 is a putative PKA site, and Thr-532 represents a likely PKC substrate; Ser-421 does not appear to be phosphorylated by either kinase.