Exocytosis and endocytosis of small vesicles in PC12 cells studied with TEPIQ (two-photon extracellular polar-tracer imaging-based quantification) analysis

We investigated exocytosis of PC12 cells using two-photon excitation imaging and extracellular polar tracers (TEP imaging) in the lateral membranes not facing the glass-cover slip. Upon photolysis of a caged Ca²⁺ compound, TEP imaging with FM1-43 (a polar membrane tracer) detected massive exocytosis of vesicles with a time constant of about 1 s. TEPIQ (two-photon extracellular polar-tracer imaging-based quantification) analysis revealed that the diameter of vesicles was small (55 nm). Extensive exocytosis of small vesicles (SVs) was shown to be mediated by the transient opening of a fusion pore with a diameter less than about 1.6 nm, and to be followed by direct ('kiss-and-run') endocytosis and translocation of the endocytic vesicles (EVs) deep into the cytoplasm. These processes were unaffected by GTP-γ-S. In contrast, constitutive endocytic vesicles exhibited a diameter of 90 nm, took up molecules with a diameter of > 12 nm, and their formation was blocked by GTP-γ-S. Electron-microscopic investigation with photoconversion of diaminobenzidine using FM1-43 confirmed an abundance of EVs with a diameter of 54 nm in stimulated cells. They rapidly translocated into the cytosol, and fused with endosomal organelles. The number of SV exocytosis events vastly exceeded the number of SVs morphologically docked at the plasma membrane. Simultaneous capacitance and FM1-43 measurements indicated that TEP imaging detected most SV exocytosis, and the fusion pore was closed within 2 s. Thus, we have, for the first time, directly visualized massive exocytosis of small vesicles in a non-synaptic preparation, and have revealed their fusion-pore mediated exocytosis and endocytosis.     

A new quantitative (two-photon extracellular polar-tracer imaging-based quantification (TEPIQ)) analysis for diameters of exocytic vesicles and its application to mouse pancreatic islets

Cytotoxic T lymphocytes kill targets via secretion of lytic agents including perforin and granzymes. Recently, new methods have been developed to monitor cytotoxic T lymphocyte degranulation. These include detecting the appearance of lysosome-associated membrane protein on the cell's surface, and monitoring decreases in cellular perforin content. We have combined these methods with microscopy and flow cytometry to provide the first analysis of how single cytotoxic T cells degranulate. We used TALL-104 human leukaemic cytotoxic T cells as a model system, and stimulated them with thapsigargin and PMA, soluble agents that mimic the two major signalling pathways activated by T cell receptor cross-linking. Our results indicate that essentially every TALL-104 cell responds to maximal stimulation by releasing about half of its lytic granule complement. This reflects complete release of the contents of half the cell's granules, rather than partial release of the contents of all of the granules. Sub-maximal stimulation reduces both the fraction of cells that respond and the magnitude of single cell responses. We find that individual cells respond to maximal stimulation with a variable latency, and provide evidence that, once it starts, degranulation is a slow process taking tens of minutes.     

Synaptotagmin VII modulates the kinetics of dense-core vesicle exocytosis in PC12 cells

In our previous study, we showed that PC12 cell lines stably expressing synaptotagmin (Syt) VII have greater ability to release hormones Ca(2+)-dependently than the original PC12 cells. However, the precise molecular mechanism of the enhancement of hormone secretion by Syt VII has never been elucidated. In this study, we established a PC12 cell line that stably expresses Syt VII-green fluorescent protein (Syt VII-GFP) or its Ca(2+)-binding-site-deficient mutant (D172N/D303N substitutions; Syt VII-DN-GFP), and examined the effect of Syt VII-GFP expression on the kinetics of dense-core vesicle exocytosis by total internal reflection fluorescence (TIRF) microscopy. Both Syt VII-GFP and Syt VII-DN-GFP co-localized well with dense-core vesicle markers, monomeric red fluorescent protein (mRFP)-tagged neuropeptide Y (NPY-mRFP) and cyan fluorescent protein (CFP)-tagged tissue plasminogen activator (tPA-CFP). Expression of Syt VII-GFP enhanced the number of dense-core vesicle exocytotic events, whereas expression of Syt VII-DN-GFP or knockdown of Syt VII-GFP with specific small interfering RNA (siRNA) attenuated the number of exocytotic events. Monitoring individual tPA-CFP release events revealed that "full release" events are increased in Syt VII-GFP-expressing cells, but not in Syt VII-DN-GFP-expressing or Syt VII-silenced cells. Our data indicate that Syt VII modulates the kinetics of Ca(2+)-dependent dense-core vesicle exocytosis in neuroendocrine PC12 cells, possibly by modulating fusion pore opening.     

Synaptotagmin function in dense core vesicle exocytosis studied in cracked PC12 cells

Ca(2+)-triggered dense-core vesicle exocytosis in PC12 cells does not require vesicular synaptotagmins 1 and 2, but may use plasma membrane synaptotagmins 3 and 7 as Ca(2+) sensors. In support of this hypothesis, C(2) domains from the plasma membrane but not vesicular synaptotagmins inhibit PC12 cell exocytosis. Ca(2+) induces binding of both plasma membrane and vesicular synaptotagmins to phospholipids and SNAREs (soluble N-ethylmaleimide-sensitive attachment protein receptors), although with distinct apparent Ca(2+) affinities. Here we used gain-of-function C(2)-domain mutants of synaptotagmin 1 and loss-of-function C(2)-domain mutants of synaptotagmin 7 to examine how synaptotagmins function in dense-core vesicle exocytosis. Our data indicate that phospholipid- but not SNARE-binding by plasma membrane synaptotagmins is the primary determinant of Ca(2+)-triggered dense-core vesicle exocytosis. These results support a general lipid-based mechanism of action of synaptotagmins in exocytosis, with the specificity of various synaptotagmins for different types of fusion governed by their differential localizations and Ca(2+) affinities.     

Two cAMP-dependent pathways differentially regulate exocytosis of large dense-core and small vesicles in mouse β-cells

It has been reported that cAMP regulates Ca^{2 +} -dependent exocytosis via protein kinase A (PKA) and exchange proteins directly activated by cAMP (Epac) in neurons and secretory cells. It has, however, never been clarified how regulation of Ca^{2 +} -dependent exocytosis by cAMP differs depending on the involvement of PKA and Epac, and depending on two types of secretory vesicles, large dense-core vesicles (LVs) and small vesicles (SVs). In this study, we have directly visualized Ca^{2 +} -dependent exocytosis of both LVs and SVs with two-photon imaging in mouse pancreatic β-cells. We found that marked exocytosis of SVs occurred with a time constant of 0.3 s, more than three times as fast as LV exocytosis, on stimulation by photolysis of a caged-Ca^{2 +} compound. The diameter of SVs was identified as ∼80 nm with two-photon imaging, which was confirmed by electron-microscopic investigation with photoconversion of diaminobenzidine. Calcium-dependent exocytosis of SVs was potentiated by the cAMP-elevating agent forskolin, and the potentiating effect was unaffected by antagonists of PKA and was mimicked by the Epac-selective agonist 8-(4-chlorophenylthio)-2'- O -methyl cAMP, unlike that on LVs. Moreover, high-glucose stimulation induced massive exocytosis of SVs in addition to LVs, and photolysis of caged cAMP during glucose stimulation caused potentiation of exocytosis with little delay for SVs but with a latency of 5 s for LVs. Thus, Epac and PKA selectively regulate exocytosis of SVs and LVs, respectively, in β-cells, and Epac can regulate exocytosis more rapidly than PKA.     

Differential effects of ceramide species on exocytosis in rat PC12 cells

Increases in several ceramide species have been shown by non-targeted lipid profiling (lipidomics) of the rat hippocampus after kainate lesions (Guan et al. FASEB J 20:1152–1161, 2006). This study was carried out to examine possible effects of ceramide species on exocytosis. Significant increase in membrane capacitance in voltage-clamped rat pheochromocytoma (PC12) cells, an indication of exocytosis, was detected immediately after external application of C2, C6, and C18 ceramide. In contrast, no increase in capacitance was found after addition of C16 and C20 ceramide, or DMSO vehicle. The effect of ceramide on exocytosis was dependent on the integrity of lipid rafts. Treatment of cells with the cholesterol binding agent/disruptor of lipid rafts, methyl β cyclodextrin, prior to addition of C18 ceramide suppressed the increase in capacitance induced by this lipid species. The ability of C2, C6 and C18 ceramide to trigger exocytosis was confirmed using total internal reflection fluorescence microscopy (TIRFM) experiments. External application of these species caused an exponential decrease in the number of subplasmalemmal neuropeptide Y (NPY)-enhanced green fluorescence protein (EGFP) labeled vesicles, indicating exocytosis. Interestingly, C18 is also the ceramide species that showed the greatest increase in the rat hippocampus after kainate excitotoxicity. It is postulated that C18 ceramide might facilitate exocytosis of glutamate from damaged neurons, thus propagating neuronal injury.     

Overexpression of APP stimulates basal and constitutive exocytosis in PC12 cells

The mechanisms that underlie the altered neurotransmitter system in Alzheimer's disease (AD) are not well understood. Amyloid precursor protein (APP) is a precursor protein for beta-amyloid, an important trigger protein in the pathogenesis of AD. Duplication of the APP gene as well as APP genes that contain certain mutations has been reported to be associated with familial AD (FAD), and a role of APP in neurotransmission has been suggested recently. This study examines the role of APP in exocytosis in PC12 cells using transfected human growth hormone (hGH) as a reporter for secretion. It was found that overexpression of APP or expression of the Swedish FAD mutation (APPsw) in PC12 cells significantly increased the basal secretion and constitutive secretion of hGH. Expression of an APP phosphorylation-deficient mutant decreased both basal and constitutive secretion relative to the APP wild-type, suggesting a role for APP-Thr668 phosphorylation in secretion in PC12 cells. Overexpression of X11alpha, a protein that stabilizes cellular APP, also increased the basal secretion of hGH but, contrary to APP, decreased the constitutive secretion of hGH, suggesting that basal and constitutive secretion is likely to proceed via distinct pathways and that the increase in the basal secretion of hGH may result from APP-X11alpha interaction. These results demonstrate an unknown role for APP in secretion, and suggest that elevated levels of APP or APP mutation in FAD brains contribute to the altered neurotransmitter pathology of AD through stimulation of basal and constitutive secretion.     

Rapid desensitization of PC12 cells stimulated with high concentrations of extracellular S100

Undifferentiated PC12 cells undergo apoptosis, via a calcium-induced calcium release mechanism, when the calcium-binding protein purified from bovine brain (native S100) is present in micromolar concentration in the medium. This process begins when S100 binds to specific membrane binding sites and involves up to 50% of the cell population. In the experiments reported here, we demonstrate that, by utilizing [3H]S100, the S100 protein can be displaced from its binding sites only during the first 10 min of incubation. This fact is due to an internalization mechanism, having a time-course with a plateau after 10-20 min of incubation. The native form of S100 is a mixture of two different S100 isoforms: S100A1 (20%) and S100B (80%). Using confocal microscopy and monoclonal antibodies, we demonstrated that only one of these isoforms, S100A1, was autoexpressed in more than 50% of the PC12 cells analysed. After cell incubation with 2 microM native S100, S100B also appears in PC12 cells, with a maximum presence after 10 min of incubation. This fact seems to indicate that this isoform, at least, is effectively translocated when stimulated with external native S100. From the data reported, it is possible to hypothesize that, in PC12 cells, a possible homeostatic mechanism is present that can counteract the effect of a continuously applied lethal stimulus (stimuli) on cell viability.     

Reaction of poly(acrylamide-co-vinylamine) with tresyl-PEG in the presence of PC12 cells

Tresylation of an amine containing polymer film in the presence of PC12 cells did not result in a significant loss of cell viability, at least as assessed by trypan blue exclusion or MTT assay. PC12 cells were cultured atop reactive poly(acrylamide-co-vinyl amine) films or tissue culture polystyrene and exposed for 2 h to tresylated polyethylene glycol (TPEG) or unreactive hydrolyzed TPEG in 0.1M TES (N-tris hydroxymethyl-2-aminoethane sulfonic acid). The loss in trypan blue viability was limited ( approximately 80% retained), provided the TPEG concentration was 10 micromol/g or less. Similarly when microencapsulated PC12 cells (in a non-reactive polyacrylate hydrogel) were exposed to TPEG (10 micromol/g in 0.1M TES) the loss of MTT activity was small. The loss of vaibility was attributed to the toxicity of the tresyl leaving group and not the reaction itself. Thus, it may be possible to surface modify cell containing microcapsules, at least under limited conditions, in order to improve their biocompatibility without compromising the viability of the enclosed cells. This should lead to the development of new (reactive) polymers for microencapsulation since biocompatibility need not be a design consideration in the first instance.     

Effects of extracellular calcium concentration on neurite outgrowth in PC12 cells by staurosporine

Staurosporine as an inhibitor of protein kinases can induce neuronal differentiation in PC12 cells. We investigated the role of extracellular Ca²⁺ on staurosporine inducing neurite outgrowth in PC12 cells. The cells were cultured during cell differentiation in the presence of 214 nM staurosporine with 0.0–0.7 Ca²⁺mM as treatment media. We obtained the fraction of neurite-bearing cells, total neurite length and the percentage of cytotoxiciy. The results showed that decrease or increase of extracellular calcium ions resulted in correspondingly significant decrease or increase in total neurite length and cell differentiation in treated cells. With an increase of extracellular calcium concentration from 0.0 to 0.7 mM, the percentage of cytotoxicity of the PC12 cells decreased (p < 0.05). Our data suggest that staurosporine uses the extracellular calcium ions to affect on neurite outgrowth.     

Three-dimensional, computer-tomographic analysis of membrane proteins (TrkA, caveolin, clathrin) in PC12 cells

Signaling of nerve growth factor (NGF) and its receptor (TrkA) promotes neuronal differentiation, synapse formation and survival. It has been known that the complex of NGF and TrkA is internalized into the cytoplasm and transported for further signal transduction, but the ultrastructural information of this process is virtually unknown. In order to clarify the relationship between the internalization of TrkA and the membrane-associated proteins (caveolin and clathrin), the localization and three-dimensional structures of those proteins were examined with computer tomography of high voltage electron microscopy in PC12 cells. TrkA immunoreactivity was found only at definite areas in the plasma membrane, as ring and cluster structures. Its 3D image indicated that those cluster structures contained small pits, which did not appear to be typical caveolae in size and shape. 3D images of clathrin and caveolin-1 immunoreactivities indicated that the formation of those small pits was associated with clathrin, but not with caveolin-1. Caveolin-1 immunoreactivity was found as a mesh-like structure just beneath the plasma membrane. These results suggest that clathrin rather than caveolin is mainly involved in the process of TrkA internalization, at least in differentiated PC12 cells.     

Encephalomyocarditis (EMC) virus infection in PC12 and C6 cells

PC12 cells derived rom rat pheochromocytoma and C6 cells derived from rat glioma were infected with 0.3 plaque forming units (PFU)/cell of the D variant of encephalomyocarditis virus (EMC-D), after pretreatment with or without nerve growth factor (NGF). The virus titres in medium and cells were investigated at 6, 12, 24, 48 and 72 h post infection (HPI), and histopathology and viral antigens in cells were examined at 24 and 48 HPI, respectively. As a result, neither viral replication nor light and electron microscopic changes were observed in PC12 cell cultures without NGF-pretreatment. On the contrary, in PC12 cell cultures with NGF-pretreatment, the virus titre prominently increased at 12 HPI, and peaked at 48 HPI. In addition, distinct histological and ultrastructural changes with viral antigens in cells were observed. C6 cells showed similar morphology and susceptibility to EMC-D-infection irrespective of NGF-pretreatment. Namely, the virus titres in C6 cell cultures increased slightly and viral antigens were found in a small number of C6 cells, but there were no evident histological and ultrastructural changes. These results suggest that PC12 cells pretreated with NGF and C6 cells are susceptible to EMC-D infection in vitro.     

Expression and function of neuronal growth-associated proteins (nGAPs) in PC12 cells

The growth cone plays crucial roles in neural wiring, synapse formation, and axonal regeneration. Continuous rearrangement of cytoskeletal elements and targeting of transported vesicles to the plasma membrane are essential to growth cone motility; however, the proteins directly involved in these processes and their specific functions are not well established. We recently identified 17 proteins as functional marker proteins of the mammalian growth cone and as neuronal growth-associated proteins in rat cortical neurons (nGAPs; Nozumi et al., 2009). To determine whether these 17 proteins are growth cone markers in other neuronal cell types, we examined their expression and function in PC12D cells. We found that all 17 nGAPs were highly concentrated in the growth cones of PC12D cells, and that knockdown of all of them by RNAi reduced or inhibited neurite outgrowth, indicating that all of the 17 nGAPs may be general growth cone markers. Among them, eight proteins were shown to regulate the amount of F-actin in PC12D growth cones. Two of these nGAP that are cytoskeletal proteins, Cap1 and Sept2, increased the mean growth cone area and the mean neurite length by regulating the amount of F-actin; Sept2 also induced filopodial growth. Taken together, our data suggested that some of the nGAPs were generalized markers of the growth cone in multiple neuronal cell types and some of them, such as Cap1 and Sept2, regulated growth cone morphology through rearrangement of F-actin and thereby controlled neurite outgrowth.     

壳聚糖-镁膜与PCI2细胞在体外的生物相容性

目的 研究壳聚糖镁膜与PC12细胞体外生物相容性,初步探讨壳聚糖/镁复合物作为组织工程材料的可行性.方法 合成壳聚糖-镁膜,应用扫描电镜观察复合膜的表面形态,并用X线能谱仪分析壳聚糖-镁复合膜中镁的含量;在体外将复合膜与PC12细胞共培养,用MTT方法 检测细胞活力.光镜及扫描电镜观察PC12细胞在材料上的形态学变化.结果单纯壳聚糖(CS)与壳聚糖镁膜(CM)组相比,前者表面较为光滑致密,而复合膜中可见均匀排列的小孔;络合物中镁元素的含量与投入的硫酸镁量呈一定的剂量依赖.形态学观察表明,PC12细胞在CM上生长良好,至7 d时,可见微绒毛丰富并有较长突起,部分细胞之间形成突触状结构;MTT检测结果表明,培养5 d后实验组细胞活力超过对照组(P<0.05).结论 壳聚糖/镁膜与PC12细胞在体外有良好的生物相容性.     

β-淀粉样蛋白(1-42)对PC12细胞的氧化损伤

目的：探讨Aβ（1-42）对PC12细胞的氧化损伤作用。 方法: 利用不同浓度的Aβ(1-42)处理PC12细胞，采用MTT法、抗氧化酶活性测定以及RT-PCR分析观察Aβ(1-42)对PC12细胞的影响，分析Aβ(1-42)与SeGPx、MnSOD基因表达的关系。 结果: 随着Aβ(1-42)浓度的增加，SeGPx的表达不断下降；0.1 μmol/L Aβ(1-42)能诱导MnSOD的活性增加，Aβ(1-42) 对PC12的损伤作用能被acetovanilon（一种抑制内源性自由基产生的化合物）所抑制。 结论: Aβ(1-42)能介导PC12细胞内源性自由基的产生增多。     

The effect of transfection with Botulinum neurotoxin C1 light chain on exocytosis measured in cell populations and by single-cell amperometry in PC12 cells

 We examined the effect on exocytosis in PC12 neuroendocrine cells of transient transfection with the specific endoprotease Botulinum neurotoxin C1 light chain (BoNT/C1), which cleaves syntaxin and SNAP-25. The effects of toxin expression on basal and evoked exocytosis were determined in cell population measurements and also in a single-cell transfection-amperometry assay. Co-expression of BoNT/C1 with human growth hormone (hGH) as a marker of secretory granules in transfected cells resulted in a 95% inhibition of hGH release evoked either by the purinergic agonist ATP or by depolarization with 55 mM K⁺. In addition, basal hGH release was also inhibited to the same extent. The high level of co-transfection efficiency revealed by this extent of inhibition was exploited in a high-resolution single-cell assay based on cell detection by expression of enhanced green fluorescent protein (EGFP) and analysis of evoked dopamine release by amperometry using a carbon fibre microelectrode. Cells expressing EGFP alone showed population responses and single-cell amperometric responses indistinguishable from those of control non-transfected cells. In contrast, co-expression of BoNT/C1 with EGFP resulted in an almost complete inhibition of current transients due to exocytosis evoked by ATP. These results establish and validate a single-cell assay of transfection-amperometry for analysing the effects of specific proteins on exocytosis. Received: 12 November 1998 / Received after revision: 8 December 1998 / Accepted: 9 December 1998     

细胞外信号调节激酶/miR-133b在甲基苯丙胺致PC12细胞神经毒性的作用及机制

目的 探讨甲基苯丙胺(MA)致神经细胞毒性过程中细胞外信号调节激酶(ERK)和miR-133b的表达变化及调控机制。方法 用MA建立PC12神经细胞损伤模型,采用四甲基偶氮唑盐(MTT)检测细胞活性及镜下形态观察确定MA最佳损伤浓度;应用流式细胞术检测细胞内活性氧（ROS）水平;通过 Western blotting技术测定总ERK1/2和磷酸化ERK1/2 (p-ERK1/2)的表达变化;并应用实时定量聚合酶链反应（Real-time PCR）测定miR-133b的表达变化。为进一步分析ERK/miR133b分子通路的作用关系,经U0126特异阻断ERK通路,检测miR-133b的表达变化。 结果 给予不同浓度的MA,均可导致PC12细胞损伤,其中800μmol/L MA处理后,大部分胞体变圆,神经突起退缩,神经网络消失。MTT结果显示细胞活性明显下降。进一步的细胞毒性机制分析显示,MA处理后,细胞内ROS水平升高,p-ERK表达增高,miR-133b表达降低;并且给予ERK通路抑制剂U0126（10μmol/L）后,miR-133b表达升高,细胞活性增强,胞内ROS水平降低,镜下细胞损伤改善。 结论 MA可通过上调ERK磷酸化抑制miR-133b表达,介导神经元毒性损伤。     

Turnover analysis of N-methyl-D-aspartate receptor subunit NR1 protein in PC12 cells.

The post-translational fate of N-methyl-D-aspartate receptor (NMDAR) subunit NR1 was characterized in PC12 cells using pulse-chase labeling, block of protein synthesis by cyclohexamide and deglycosylation by endoglycosidase H. Metabolic labeling of NR1 protein indicated a biphasic degradation of NR1 protein with half-lives of 1.6 and 16.1 h for a rapidly (78%) and a slowly (22%) degrading population. Immunoprecipitation of NR1 following the block of protein synthesis by cyclohexamide revealed that the rapidly and slowly degrading pools mainly consisted of the NR1 splice variants NR1-4a and NR1-2a. Sensitivity of NR1 protein to deglycosylation by endoglycosidase H indicated the presence of an immature form of NR1 that was retained in the endoplasmic reticulum. PC12 cells serve as a useful model for the elucidation of translational and post-translational mechanisms of NMDAR expression.     

Subtypes of neuronal nicotinic acetylcholine receptors involved in nicotine-induced phosphorylation of extracellular signal-regulated protein kinase in PC12h cells

Although many kinds of nicotinic acetylcholine receptor (nAChR) subtypes have been reported in the neuronal tissues, subtype differences in the nAChR-mediated intracellular signaling remains obscure. Using nAChR agonists and antagonists, the involvement of nAChRs in extracellular signal-regulated protein kinase (ERK) phosphorylation in PC12h cells was investigated. Cytisine and nicotine induced the phosphorylation of ERKs in a dose-dependent manner, whereas RJR-2403 had no effect. Cytisine, but not RJR-2403, also induced phosphorylation of CREB. Mecamylamine, dextromethorphan and 18-methoxycoronaridine inhibited nicotine-induced ERK phosphorylation with much higher affinity than dihydro-beta-erythroidine and alpha-conotoxin MII. These results suggest the involvement of alpha3beta4 nAChRs in ERK phosphorylation in PC12h cells.     

细胞外信号调节激酶在TPPB促进PC12产生可溶性淀粉样前体蛋白中的作用

目的：观察在蛋白激酶C(PKC)激动剂TPPB促进可溶性淀粉样前体蛋白(sAPPα)释放过程中参与的信号转导通路。方法:以1 μmol/L的TPPB作用于PC12细胞3 h，同时加入信号转导通路的抑制剂，Western印迹法检测上清液内sAPPα的含量和细胞外信号调节激酶(p42/44MAPK)及磷酸化的p42/44MAPK的表达。结果:1 μmol/L的TPPB作用于PC12细胞3 h可以显著增加上清液内sAPPα的含量，细胞外信号调节激酶抑制剂U0126、c-Jun氨基末端激酶抑制剂SP600125和蛋白酪氨酸激酶抑制剂genistein可以部分消除此作用；而p38MAPK抑制剂SB203580对sAPPα的含量无显著影响。1 μmol/L的TPPB可以使磷酸化的p42/44MAPK表达增加，而对总的p42/44MAPK无显著影响。结论:细胞外信号调节激酶、c-Jun氨基末端激酶和蛋白酪氨酸激酶可能参与TPPB促进sAPPα生成的过程。