佛波酯对蝾螈肌细胞分化的影响(英文)

佛波酯(TPA)是一种有效的皮肤癌促变剂。有不少实验事实指出,它的原始作用部位是质膜,而且对间隙连接的影响也已从各方面得到了证实。本文利用这种药物研究细胞通讯在肌细胞分化中的重要性。割取蝾螈神经胚中期躯干部体节中胚层,用组织培养的方法培养。实验组在培液(Steinberg+Leibovitz's L-15,9∶1)中加适量TPA,共试用了4种浓度,5、10、20和40ng/ml,以10ng/ml为适当,本文报道用这一浓度得到的结果。处理时间为4天,天天换新鲜配制的TPA溶液,连续三天,以后在正常培液中培养。对照组和实验组一样,在20℃下培养10—16天。比较对照组和实验组的结果,看到TPA的处理使预定体节细胞分化为肌细胞的过程受到了明显的阻抑。对照组在10天左右的培养中,可以观察到从预定体节细胞转变为成肌细胞,再融合为肌管。但是,实验组培养早期有一定量的脱落细胞,它们大多为不规则形,分散在外植块周围;还有一些不规则形的细胞,成片地自外植块铺展出来。不论是前者还是后者,在10天左右的培养过程中都未能表现进一步分化。除了看到一些梭形或长形的细胞夹杂在分散或成片的不规则细胞之间,没有找到过多核的肌管细胞。我们的实验结果结合过去形态的观察,说明细胞间通讯的时间性在肌细胞分化中是十分重要的。TPA处理的时间正相当于正常肌细胞分化中间隙连接大量存在并发挥作用的期间,很可能,TPA使间隙连接失去作用,处理之后再恢复正常培液,错过了时间,间隙连接的作用以后也不再能得到补偿。     

Protein kinase C remains functionally active during TPA induced neuronal differentiation of SH-SY5Y human neuroblastoma cells.

SH-SY5Y human neuroblastoma cells can be induced to differentiate into a neuronal phenotype by treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA). In other cell systems, TPA treatment frequently leads to down-regulation of protein kinase C (PKC). However, we now report that TPA-treated and non-treated SH-SY5Y cells express PKC-alpha, but not PKC-beta and PKC-gamma, mRNA. Furthermore, only a slight down-regulation of the PKC-alpha protein could be seen during prolonged treatment with 16 nM TPA, the concentration giving optimal differentiation. In contrast, a higher concentration of TPA (1.6 microM) results in a poor neuronal differentiation and a complete down-regulation of PKC-alpha. PKC-alpha was rapidly translocated to the particulate fraction and remained membrane bound for at least 4 days during treatment with 16 nM TPA. In such cells a sustained increased level of the phosphorylated form of a 80,000 Dalton PKC-substrate was found. In addition to this sustained augmented phosphorylation, administration of fresh TPA at day 4 caused a small but reproducible further increased level of phosphorylated substrate. When the PKC activity was measured by the histone phosphorylation assay a substantial fraction of the initial enzyme activity could still be detected after 4 days of TPA treatment. Taken together, the data demonstrate that PKC remains functionally active during TPA induced differentiation of SH-SY5Y cells, which may suggest a continuous role for the enzyme during the differentiation process.     

The transient increase of tight junction permeability induced by bryostatin 1 correlates with rapid downregulation of protein kinase C-alpha

The role of PKC-alpha in altered epithelial barrier permeability following the activation of PKC by TPA (12-O-tetradecanoyl phorbol 13-acetate) and bryostatin 1 in LLC-PK1 cells was investigated in this study. Like TPA, bryostatin 1 binds to and activates PKC but unlike TPA, it is not a tumor promoter. TPA at 10(-7) M induced a sustained 95% decrease in transepithelial electrical resistance (R(t)) across LLC-PK1 epithelial cell sheets, while 10(-7) M bryostatin 1 caused only a 30% decrease in R(t), which spontaneously reversed after 5 h. Simultaneous exposure of cell sheets to 10(-7) M TPA and 10(-7) M bryostatin 1 blunted the increase in epithelial permeability observed with 10(-7) M TPA alone. Co-incubation of cell sheets with bryostatin 1 and MG-132, a proteasomal inhibitor, caused a further decrease in R(t) at the 6-h time point and inhibited the recovery in R(t) seen with bryostatin 1 alone at this time point. TPA caused a rapid translocation of PKC-alpha from the cytosol to the membrane of the cell where it remained elevated. Bryostatin 1 treatment resulted in a slower translocation of PKC-alpha from the cytosol to the membrane and a much more rapid downregulation of PKC-alpha, with disappearance from this compartment after only 6 h. The classical PKC inhibitor Go6976 prevented the decrease in R(t) seen with TPA. Treatment of cells with TPA and bryostatin 1 resulted in a PKC-alpha translocation and downregulation profile which more closely resembled that seen with bryostatin 1 alone. Co-incubation of cells with MG-132 and bryostatin 1 caused a slower downregulation of PKC-alpha from the membrane fraction. Bryostatin 1 treatment of cells expressing a dominant/negative form of PKC-alpha resulted in a slower and less extensive decrease in R(t) compared to the corresponding control cells. For both TPA and bryostatin 1, the level of PKC-alpha in the membrane-associated fraction of the treated cells correlated closely with increased transepithelial permeability. Due to its transient effect on tight junction permeability, bryostatin 1 offers a novel pharmacological tool to investigate junctional physiology.     

Effects of TPA, A23187, and prostaglandin F2 alpha on progesterone synthesis by dispersed ovine luteal cells

The possible roles of protein kinase C, intracellular calcium, and oxygen environment in luteal progesterone (P4) production and their interaction with prostaglandin (PGF2 alpha) were investigated in dispersed ovine luteal cells. The following experiments were performed: 1) dose response to TPA and A23187, 2) interactions between the phorbol ester TPA and PGF2 alpha at 5% or 18% O2, 3) effect of TPA and PGF2 alpha on basal and luteinizing hormone (LH)-stimulated P4 secretion, 4) interaction of submaximal inhibitory concentrations of TPA with PGF2 alpha and the effect of indomethacin (IN) on the TPA response. Day 9 (Day 0 = first day of estrus) corpora lutea (CL) from ewes exhibiting estrous cycles of normal duration (15-17 days) were dispersed and 50,000-150,000 cells were cultured for 4 h in Dulbecco's Modified Eagle Medium. The proportion of luteal cells greater than 22 microns in diameter in these preparations averaged 17.8 +/- 2.1%. P4 in medium and cells was measured by radioimmunoassay. Both TPA and A23187 inhibited basal P4 accumulation in a dose-dependent manner. Maximum inhibition (500 nM) by TPA was greater than by A23187 at the same concentration (66.4 +/- 3.4 and 83.2 +/- 7.2% of controls, respectively; p less than 0.05), and the two were not additive in their effects. Reducing O2 did not affect P4 accumulation with or without TPA, PGF2 alpha, or both. Basal P4 accumulation was inhibited 30% by TPA and 10% by PGF2 alpha, but no additivity was seen.(ABSTRACT TRUNCATED AT 250 WORDS)     

Quantitation of changes in cell surface determinants during skeletal muscle cell differentiation using monospecific antibody

The differentiation of skeletal muscle is characterized by recognition, alignment, and subsequent fusion of myoblast cells at their surfaces to form large, multinucleated myotubes. Monoclonal antibodies were used to investigate anti-genie changes in the cell surface membrane specific for various stages of myogenesis. Chick embryonic skeletal muscle cells were cultured in vitro to the desired stage of differentiation and then injected into BALB/c mice. Spleen cells from the immunized mice were hybridized with NS-1 or P3 8653 mouse myeloma cells. Hybrid cell clones were selected in HAT medium and screened using an indirect radioimmunoassay for the production of monoclonal antibodies specific to myogenic cell surfaces. Target cells for the radioimmunoassay included three stages of myogenesis (myoblasts, midfusion myoblasts, and myotubes) and chick lung cells as a control for polymorphic antigens. Sixty-one clones were obtained which produced antibodies specific for myogenic cells. Thirty-five of these clones were generated from mice immunized with midfusion myoblast stages of myogenesis and 26 were obtained from mice immunized with the later myotube stage of myogenesis. Quantitative measurements by RIA of myogenic determinants per cell surface area on each target cell type revealed that most of the determinants decrease during myogenesis when midfusion myoblasts are used as the immunogen. When myotube stages are used as the immunogen, more determinants increase with cell differentiation. Therefore, the most common pattern of determinant change is for them to be present at all stages of myogenesis but to vary quantitively through development. There are determinants unique to each stage of myogenesis and marked quantitative differences within a cell stage for each determinant.     

Effects of phorbol ester on GH, TSH and PRL release by superfused rat adenohypophysis

The present study was undertaken to examine the effects of 12-0-tetradecanoyl-phorbol-13-acetate (TPA), one of the potent tumor promoting agents, on GH, TSH and PRL release by rat adenohypophyseal dispersed cells and fragments, using a superfusion technique. TPA (10(-6) to 10(-5) M) stimulated GH release from acutely dispersed rat adenohypophyseal cells. Neither TSH nor PRL was affected, but both were increased by TRH in a dose-dependent fashion (10(-9) to 10(-7) M). In fragments, TPA (10(-8) to 10(-6) M) elicited a dose-related release of GH. Exposure of the fragments to 10(-6) M TPA for 5 min promptly caused a 5-fold increase in GH release which continued for at least 40 min after stopping the stimulation. The addition of somatostatin (SRIF) (10(-7) M) decreased basal GH release and abolished GH release induced by 10(-6) M TPA. In contrast to GH, neither TSH nor PRL release was affected by TPA, but both were stimulated by TRH. These results indicate 1) that GH release is more sensitive to stimulation with TPA in normal rat anterior pituitaries in vitro than the release of TSH and PRL, and 2) that SRIF abolishes TPA-induced GH release.     

PKC对小鼠受精卵发育的调控作用

为研究 TPA及 PKC的反义寡核苷酸对 1 -细胞期鼠受精卵发育的影响 ,采用免疫细胞化学法标记 PKC(α及 β亚型 ) ,并用激光扫描共聚焦显微镜测定卵内 PKC荧光强度 ;同时利用显微注射法注射 PKC的反义寡核苷酸 ,观察其对受精卵分裂的影响 . 1 0 0 μg/ L TPA对 1 -细胞期受精卵的发育具有完全抑制作用 .TPA处理 1 2 h后 ,对照组受精卵停留在 1 -细胞期 ,而未经 TPA处理的1 -细胞期卵可以分裂到 2 -细胞期 .共焦激光显示实验组与对照组相比 ,PKC(α、β亚型 )荧光强度均有下降 (P<0 .0 1 ) .显微注射 PKC antisenseα及 antisenseβ的受精卵 ,分别只有 1 4 .2 %和 3.33%的卵可以发育到 2 -细胞期 .与对照组 (注射 M2培养液 )差异显著 (P<0 .0 1 ) .结果表明 ,(1 ) TPA长期处理 1 -细胞期受精卵 ,抑制 1 -细胞期卵分裂到 2 -细胞期 ;(2 ) PKC的反义寡核苷酸 (α及β亚型 )可以抑制小鼠 1 -细胞期卵的发育     

Proliferation and liberation kinetics of the tissue polypeptide antigen of MCF-7 cells. Hormonal influence

The presence or absence of tissular polypeptide antigen (TPA) in the culture medium of hormone dependent breast cancer tumoral cells, the relationship between TPA concentration and cellular proliferative activity, have been investigated as well as whether TPA levels change in response to steroid preparations or the action of different antiestrogens. Results show that in MCF-7 cell line culture media, proteins antigenically related to TPA can be detected in concentrations which parallel the number of cells in culture. Consequently, TPA can be considered a cell proliferation marker. Hydroxy-tamoxifen at a concentration of 10(-7) M inhibited both cell proliferation and TPA antigen release, while the relative proportion between number of cells (valued by DNA quantification) and TPA concentration remained unchanged.     

Mitosis-specific phosphorylation of vimentin by protein kinase C coupled with reorganization of intracellular membranes

Using two types of anti-phosphopeptide antibodies which specifically recognize vimentin phosphorylated by protein kinase C (PKC) at two distinct PKC sites, we found that PKC acted as a mitotic vimentin kinase. Temporal change of vimentin phosphorylation by PKC differed form changes by cdc2 kinase. The mitosis-specific vimentin phosphorylation by PKC was dramatically enhanced by treatment with a PKC activator, 12-O-tetradecanoylphorbol-13-acetate (TPA), while no phosphorylation of vimentin by PKC was observed in interphase cells treated with TPA. By contrast, the disruption of subcellular compartmentalization of interphase cells led to vimentin phosphorylation by PKC. Cytoplasmic and nuclear membranes are fragmented and dispersed in the cytoplasm and some bind to vimentin during mitosis. Thus, targeting of activated PKC, coupled with the reorganization of intracellular membranes which contain phospholipids essential for activation, leads to the mitosis-specific phosphorylation of vimentin. We propose that during mitosis, PKC may phosphorylate an additional subset of proteins not phosphorylated in interphase.     

小鼠受精卵早期发育过程中PKC对cdc2和cdc25C活性的影响

为研究小鼠受精卵细胞早期发育过程中PKC对cdc2和cdc2 5C活性的影响 ,采用免疫印迹和电泳迁移率差异分析的方法 ,观察PKC的激活剂TPA及其抑制剂星形孢子素对小鼠受精卵一细胞期cdc2和cdc2 5C活性的影响 .10nmol L的TPA作用 10min后 ,小鼠受精卵一细胞期卵裂率明显大于对照组 (P <0 0 5 ) ,而星形孢子素作用后卵裂率显著下降 (P <0 0 1) .TPA处理后 ,受精卵中呈去磷酸化状态的活性cdc2明显增加 ,没有活性呈磷酸化状态的cdc2 5C明显减少 ;而星形孢子素处理的受精卵中没有活性的cdc2明显增加 ,有活性的cdc2 5C明显减少 .结果表明 ,TPA短时间作用可以促进小鼠一细胞期受精卵分裂 ,星形孢子素抑制受精卵的分裂 ;TPA可以促进cdc2的去磷酸化以及cdc2 5C的磷酸化 ,从而促进G2 M转换 ,星形孢子素则抑制cdc2和cdc2 5C的活性 ,阻止受精卵由G2 期进入M期     

Effects of second messengers on gap junctional intercellular communication of ovine luteal cells throughout the estrous cycle

Corpora lutea (CL) from Days 5, 10, and 15 after superovulation were enzymatically dispersed, and a portion of the cells were elutriated to obtain fractions enriched with small or large luteal cells. Mixed, small, and large luteal cell fractions were incubated with no treatment or with agonists or antagonists of cAMP (dbcAMP or Rp-cAMPS), protein kinase C (PKC; TPA or H-7), or calcium (A23187, EGTA, or A23187 + EGTA). The rate of contact-dependent gap junctional intercellular communication (GJIC) was evaluated by laser cytometry. Media were collected for progesterone (P(4)) radioimmunoassay, and luteal cells cultured with no treatment were fixed for immunocytochemistry or frozen for Western blot analysis. Luteal cells from each stage of the estrous cycle exhibited GJIC. The dbcAMP increased (P < 0.05) GJIC for all cell types across the estrous cycle. The Rp-cAMPS decreased (P < 0.05) GJIC for small luteal cells on Day 5 and for all cell types on Days 10 and 15. The TPA inhibited (P < 0.01), but H-7 did not affect, GJIC for all cell types across the estrous cycle. The A23187 decreased (P < 0.05) GJIC for large luteal cells touching only small or only large luteal cells, whereas A23187 + EGTA decreased (P < 0.05) GJIC for all cell types across the estrous cycle. For the mixed and large luteal cell fractions, dbcAMP increased (P < 0.05), but TPA and A23187 + EGTA decreased (P < 0.05), P(4) secretion. The A23187 alone decreased (P < 0.05) P(4) secretion by large, but not by mixed, luteal cells. For all days and cell types, the rate of GJIC and P(4) secretion were correlated (r = 0.113-0.249; P < 0.01). Connexin 43 was detected in cultured luteal cells by immunofluorescence and Western immunoblotting. Thus, intracellular regulators like cAMP, PKC, or calcium appear to regulate GJIC, which probably is an important mechanism for coordinating function of the ovine CL.     

Phorbol esters inhibit chondrogenesis in limb mesenchyme by mechanisms independent of PGE2 or cyclic AMP1

Effects of the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) on chondrogenesis and concentrations of prostaglandin E2 (PGE2) and cyclic AMP (cAMP) were investigated in micromass cultures of chick limb mesenchyme derived from the distal tip of stage 25 limb buds. TPA completely inhibited chondrogenesis during the first 4 days of culture; however, a few small cartilage nodules formed by day 6. Relative to control cultures, both PGE2 and cAMP concentrations were altered by TPA treatment during the 6-day period of cell culture. Concentrations of both compounds increased in control cells during the first 24 h of culture and then declined during the remaining 5 days. In TPA-treated cells both PGE2 and cAMP levels increased progressively during the 6 days of days of cell culture, each being elevated at day 6 by twofold over control cells. The results suggest the presence of regulatory pathways important in chondrogenesis which occur independent of those initiated by PGE2 and the cAMP system.     

Differentiation and dedifferentiation of the human monocytic leukemia cell line, U937.

U937 cells were differentiated into macrophages after being treated with 12-o-tetradecanoyl-phorbol-13-acetate (TPA) for the first two days and dedifferentiated with daily medium renewal for 10 days. Cell proliferation slowed down and the number of cells reached the maximum level on day 2. By day 4, all of the cells had spread and attached firmly to the culture dish, and more than 90% of the cells expressed the Fc-receptor and produced superoxide anion. From there on, the number of adherent, living cells decreased gradually to about half the initial count. Most of the cells eliminated from the culture by cell death were in the S phase at the time of TPA treatment. After day 8, the number of cells expressing macrophage-specific phenotypes gradually decreased, cell adhesion was weakened, and at the same time, DNA synthesis was initiated anew. The cells became round and began to proliferate as floating cells on days 9 to 10, and thereafter they became sensitive to the second round of TPA treatment. On the basis of all the results taken together, it is suggested that fully differentiated U937 cells were dedifferentiated after being cultured with frequent medium renewal.     

Differential regulation of gamma-glutamyltransferase mRNAs in four human tumour cell lines.

Human gamma-glutamyltransferase (GGT) belongs to a multigenic family and at least three mRNAs are transcribed from the gene that codes for an active enzyme. Four human tumour cell lines (HepG2, LNCap, HeLa and U937) with different GGT levels were used to investigate how GGT activity, total GGT mRNA and each individual GGT mRNA subtype responded to tumour necrosis factor-alpha (TNF-alpha), 12-O-tetradecanoylphorbol 13-acetate (TPA) or sodium butyrate treatment. Butyrate reduced the GGT activity in HepG2 cells, and the level of total GGT mRNA accordingly, whereas TNF-alpha and TPA did not alter these parameters. In LNCap cells, TNF-alpha, TPA, and butyrate reduced the activity as well as the level of GGT total mRNA. In HeLa cells no significant changes were observed either in activity or in mRNA level whereas TPA induced both GGT activity and mRNA levels in U937 cells. The distribution of each GGT mRNA subtype (A, B and C) was found to be cell specific: type B mRNA was the major form in HepG2 cells, while type A was the major form in LNCap and HeLa, type A and type C were expressed almost at the same level in U937 cells. The GGT mRNA subtypes were also differently modulated in these cells after TNF-alpha, TPA or butyrate treatment, suggesting that they are regulated by distinct and cell type specific mechanisms.     

Induction of CD8+ suppressor T cells by treatment with DMBA and TPA in vitro.

Antigen-nonspecific CD8+ T suppressor cells, which suppressed delayed-type hypersensitivity (DTH) against sheep red blood cells in BALB/c mice, were induced by incubating spleen cells from mice treated with 7,12-dimethylbenz[a]anthracene (DMBA), a tumor initiator, with 12-O-tetradecanoylphorbol 13-acetate (TPA), a tumor promoter. The optimal condition was incubation in 3.2 x 10(-8) mol/5 ml of TPA for 4 days. It was shown that induction of the suppressor cells required macrophages from mice treated with DMBA. These data were consistent with the results of previous work, in which CD8+ suppressor cells were induced by painting BALB/c mice with TPA following DMBA treatment. DTH was suppressed in the culture supernatants of spleen cells from mice treated with DMBA and TPA; the suppression was genetically unrestricted. The suppressor factor was resistant to trypsin and sensitive to heating at 56 degrees C for 30 min and had affinity for the macrophages.     

Elevated expression of NF-kappaB and Bcl-2 proteins in C2C12 myocytes during myogenesis is affected by PD98059, LY294002 and SB203580

The initial phase of muscle differentiation depends on the activities of protein kinases including phosphatidylinositol-3 kinase (PI-3K), the extracellular signal-regulated kinases ERK1/2 (p42 and p44), and p38 kinase. Myogenesis is also characterized by an apoptosis-resistant phenotype of myotubes. The effects of inhibitors of the above-mentioned protein kinases on myogenesis from C2C12 mouse myoblasts and on muscle cell apoptosis were examined individually over 5 successive days. The negative effects of PD98059 (5, 25, 50 microM), LY294002 (1, 5, 10 microM) and SB203580 (1, 5, 10 microM) on cell viability were evident at the initial stage of myogenesis (up to the 3rd day). On the 3rd day, nuclear expression of myogenin was suppressed dose-dependently by SB203580. In contrast, decreased cytoplasmic levels but elevated nuclear expressions of myogenin were observed in myotubes treated with PD98059 or LY294002. SB203580 treatment confirmed that p38 kinase is involved in the onset of myogenesis. The cytoplasmic and nuclear expression of NF-kappaB was elevated after treatment with the above-mentioned protein kinase inhibitors. Likewise, Bcl-2 expression in the cytosol increased. These studies might shed more light on the role of selected kinases and some survival systems in myogenesis impaired by neuromuscular disorders as well as safety of the treatment of the proliferative diseases with the kinase inhibitors.     

Differential regulation of γ-glutamyltransferase mRNAs in four human tumour cell lines

Human γ-glutamyltransferase (GGT) belongs to a multigenic family and at least three mRNAs are transcribed from the gene that codes for an active enzyme. Four human tumour cell lines (HepG2, LNCap, HeLa and U937) with different GGT levels were used to investigate how GGT activity, total GGT mRNA and each individual GGT mRNA subtype responded to tumour necrosis factor-α (TNF-α), 12-O-tetradecanoylphorbol 13-acetate (TPA) or sodium butyrate treatment. Butyrate reduced the GGT activity in HepG2 cells, and the level of total GGT mRNA accordingly, whereas TNF-α and TPA did not alter these parameters. In LNCap cells, TNF-α, TPA, and butyrate reduced the activity as well as the level of GGT total mRNA. In HeLa cells no significant changes were observed either in activity or in mRNA level whereas TPA induced both GGT activity and mRNA levels in U937 cells. The distribution of each GGT mRNA subtype (A, B and C) was found to be cell specific: type B mRNA was the major form in HepG2 cells, while type A was the major form in LNCap and HeLa, type A and type C were expressed almost at the same level in U937 cells. The GGT mRNA subtypes were also differently modulated in these cells after TNF-α, TPA or butyrate treatment, suggesting that they are regulated by distinct and cell type specific mechanisms.     

应用两种方法诱导SH-SY5Y细胞分化的研究

目的：观察全反式维甲酸（ATRA）处理和ATRA与十四烷酰佛波醇乙酸酯（TPA）序贯处理（ATRA/TPA）对人类神经母细胞瘤细胞系SH-SY5Y细胞增殖抑制和形态分化的影响。方法：应用10μM ATRA处理6天和10μM ATRA处理3天继以80 nMTPA处理3天这两种方法使SH-SY5Y细胞分化;用倒置光学显微镜动态观察SH-SY5Y细胞形态学变化;并用MTT比色法比较两种分化方法对SH-SY5Y细胞的体外抗增殖作用。结果：ATRA处理和ATRA与TPA序贯处理对SH-SY5Y细胞都有抗增值和诱导细胞分化作用,细胞形态发生明显的变化,分化成神经元表型,前者主要表现为两端带有长突起的纺锤体样细胞形态,而后者主要是由细胞体延伸出多个突起的多边形的细胞。ATRA分化6天的细胞的存活率下降为78.7%±2.0%。当去除ATRA后,继续培养1天的细胞存活率上升为89%±0.2%,而继续培养2天的细胞存活率为86.3%±1.4%;ATRA与TPA序贯分化6天细胞存活率下降为75.9±0.4%。当去除TPA后,继续培养一天的细胞存活率为75.5±0.7%,继续培养2天的细胞存活率为74.9±1.0%。结论：维甲酸（ATRA）处理和ATRA与十四烷酰佛波醇乙酸酯（TPA）序贯处理（ATRA/TPA）均能明显诱导SH-SY5Y细胞分化。这两种分化细胞为神经科学的研究提供了优良的体外培养模型细胞,尤其是ATRA与TPA序贯处理能获得分化完全而稳定的神经元样细胞。     

Evidence on the participation of protein kinase C alpha in the proliferation of cultured myoblasts.

There is evidence involving protein kinase C (PKC) in the signal transduction pathways that regulate the differentiation of myoblasts into mature multinucleated muscle cells (myotubes). In order to obtain information on the possible role of individual PKC isozymes in myogenesis, in the present work we investigated the differential expression of PKC isoforms alpha, beta, delta, epsilon, and zeta during muscle cell development in vitro. Chick embryo myoblasts cultured from 1 to 6 days were used as experimental model. Morphological characterization and measurement of specific biochemical parameters in cultures, e.g., DNA synthesis, creatine kinase activity, and myosin levels, revealed a typical muscle cell developmental pattern consisting of an initial proliferation of myoblasts followed by their differentiation into myotubes. PKC activity was high at the proliferation stage, decreased as myoblasts elongated and fused, and increased again in differentiated myotubes. In proliferating myoblasts, the PKC inhibitors calphostin C and bisindolylmaleimide I decreased DNA synthesis whereas in myoblasts undergoing differentiation they exerted the opposite effect, suggesting that PKC plays a role at both stages of myogenesis. Western blot analysis of changes in the expression of PKC isoforms during muscle cell development showed high levels of PKC alpha in the proliferating phase which markedly decreased as myoblasts differentiated. Treatment with TPA of proliferative myoblasts inhibited DNA synthesis and selectively down-regulated PKC alpha, suggesting that this isozyme may have an important role in maintaining myoblast proliferation. On the other hand, an increase in the expression of PKC beta, delta, and epsilon was detected during myogenesis, suggesting that one or more of these isoforms may participate in the differentiation process of myoblasts.