Influence of age on transmembrane potential and cell surface charge of human peripheral blood lymphocytes estimated with fluorescent probes.

Transmembrane potential (TMP) and surface charge (CSC) of human peripheral blood lymphocytes were estimated in relation to donor's age. Cyanine dye DiOC(6) and fluorescein--coupled poly-L-ornithine EPLO were used as representative fluorescent probes for microfluorimetric determination of relative TMP and CSC values. Significant decrease in cyanine fluorescence was observed in lymphocytes of old people, which was interpreted as relative depolarization of these cells. No such difference was found when surface charges of young and old cells were compared, although some brightly fluorescent, i.e. highly charged cells appeared among the latter.     

川芎嗪逆转人乳腺癌MCF-7/ADM细胞对阿霉素的耐药性

目的 探讨川芎嗪（tetramethylpyrazine,TMP）逆转人乳腺癌MCF-7/ADM细胞对阿霉素（ADM）的耐药性.方法 MTT法测定细胞的药敏性,荧光分光光度法检测细胞内阿霉素浓度的变化,流式细胞术检测耐药细胞凋亡百分率的变化.结果 非细胞毒性剂量（320 mg/L）及低毒剂量（1250 mg/L）川芎嗪均能显著降低MCF-7/ADM的IC50（P＜0.01）,逆转倍数分别为2.13倍和2.82倍;均能显著增加耐药细胞内ADM的浓度（P＜0.01）.320 mg/L川芎嗪能显著增加耐药细胞的凋亡百分率（P＜0.01）.结论 川芎嗪具有部分逆转人乳腺癌MCF-7/ADM细胞对阿霉素的耐药性,其逆转机制与增加细胞内ADM浓度有关.     

Electrogenic character of the functioning of H+-ATPase of synaptic vesicles in the rat brain

Transmembrane potential (TMP) of synaptic vesicles (SV) from the rat brain was registered by means of potential-sensitive fluorescent probe 3,3' dipropylthiocarbocyanine iodide (dis-C3-(5)). It was found that Mg-ATP generates TMP on the SV membrane suspended in sucrose-buffer medium. TMP did not appear if 0.25 M sucrose medium was replaced by 0.125 M KCl medium or 0.125 NaCl medium, or if the SV membrane was disrupted by triton X-100 or alamethicin, or if there was protonophore m-chlorophenylhydrazone or N-ethylmaleimide influence on SV. The data obtained indicate that functioning of SV proton pump is electrogenic and the level of TMP depends on the presence of anion Cl- in the incubation medium.     

Can a mixed damage interfere with DNA‐prottein cross‐links repair?

Some photochemical and photobiological properties of 4,5',8-trimethylpsoralen (TMP) have been studied in comparison with 1,4,6,8-tetramethyl-2H-furo[2,3-h]quinolin-2 one (FQ) and 8-methoxypsoralen (8-MOP). TMP and FQ can photobind to mammalian cell DNA in vivo , by UVA irradiation, forming DNA-protein cross-links (DPC), but only TMP shows a strong capacity of inducing interstrand cross-links (ISC). The mechanism of DPC formation was studied using the double irradiation method in Chinese hamster ovary (CHO) cells, and DPC were detected by alkaline elution. Both TMP and FQ induce covalent diadducts linking together DNA and proteins. Studying the formation of double strand breaks (DSB) in CHO cells we observed that TMP induced a low amount of DSB, similar to 8-MOP. TMP and 8-MOP induced chromosomal aberrations in CHO cells to the same extent, while FQ appeared to be more active. Our data suggest that the ISC induced by TMP could trap enzymes involved in DPC repair.     

川芎嗪抗链霉素耳毒性作用及其对豚鼠耳蜗外毛细胞钾通道的影响

本文旨在研究川芎嗪（tetramethylpyrazine,TMP）拮抗链霉素耳毒性作用及其对豚鼠耳蜗外毛细胞K^＋通道的影响,探讨TMP拈抗链霉素耳毒性的离子通道机制。60只豚鼠随机分为6组,应用听觉脑干反应（auditory brainstem response,ABR）技术检测豚鼠ABR听阈,观测TMP的抗链霉素耳毒作用;并采用全细胞膜片钳技术观察TMP对耳蜗外毛细胞Ca^2＋敏感艮电流的影响。结果显示,TMP明显降低链霉素导致的豚鼠ABR听阈升高,提示TMP具有抗链霉素耳毒性作用;TMP能明显增大豚鼠耳蜗外毛细胞Ca^2＋敏感艮电流,并呈浓度依赖关系。结果提示,TMP通过增大艮通道电导而拮抗链霉素耳毒性作用。     

The influence of chlorpromazine on the potential-induced shape change of human erythrocyte

The effect of chlorpromazine (CPZ) on the shape of human erythrocytes with different values of transmembrane potential (TMP) was investigated. The shape of red blood cells with negative values of the TMP remained unchanged after the formation of stomatocytes by chlorpromazine, while cells with positive TMP showed a characteristic time course of shape change during the incubation with CPZ. Experiments with vanadate show that this might be due to a difference in the activity of the phospholipid-translocase at different values of TMP.     

Ultrasound-Enhanced Protective Effect of Tetramethylpyrazine against Cerebral Ischemia/Reperfusion Injury

In traditional Chinese medicine, Ligusticum wallichii (Chuan Xiong) and its bioactive ingredient, tetramethylpyrazine (TMP), have been used to treat cardiovascular diseases and to relieve various neurological symptoms, such as those associated with ischemic injury. In the present study, we investigated whether ultrasound (US) exposure could enhance the protective effect of TMP against cerebral ischemia/reperfusion (I/R) injury. Glutamate-induced toxicity to pheochromocytoma (PC12) cells was used to model I/R injury. TMP was paired with US to examine whether this combination could alleviate glutamate-induced cytotoxicity. The administration of TMP effectively protected cells against glutamate-induced apoptosis, which could be further enhanced by US-mediated sonoporation. The anti-apoptotic effect of TMP was associated with the inhibition of oxidative stress and a change in the levels of apoptosis-related proteins, Bcl-2 and Bax. Furthermore, TMP reduced the expression of proinflammatory cytokines such as TNF-α and IL-8, which likely also contributes to its cytoprotective effects. Taken together, our findings suggest that ultrasound-enhanced TMP treatment might be a promising therapeutic strategy for ischemic stroke. Further study is required to optimize ultrasound treatment parameters.     

Overproduction of thymidine by recombinant Brevibacterium helvolum amplified with thymidine monophosphate phosphohydrolase gene from bacteriophage PBS2

A microbial fermentation process could be used to produce thymidine biologically but many of the enzymes related to nucleotide biosynthesis are highly regulated. To overcome the complex regulation steps, an analogue mutant of Brevibacterium helvolum resistant to fluorouracil, hydroxyurea, and trimethoprim was constructed. This mutant accumulated 380 mg thymidine 1(-1) in 16 h in shake-flask culture. However, the accumulation of thymidine monophosphate (TMP) inside the cells suggested a low activity of nucleotidase which degrades TMP to thymidine. This limitation was overcome by cloning the TMP phosphohydrolase (TMPase) gene of the unusual bacteriophage, PBS2. As a result, TMP in recombinant cells decreased from 230 micromol g(-1) cell to 20 micromol g(-1) cell with accumulation of 500 mg thymidine l(-1) in the medium.     

Effect of methotrexate on cells in a keratinized epithelium with an active thymidine salvage pathway assessed by autoradiography

In the partially synchronized cell system of the hamster cheek pouch epithelium, the inhibitory effect of a bolus injection of methotrexate (Mtx) (2 g/m2, injected at 1200 hr) was analysed by means of both autoradiography and flow cytometry (FCM) in a 21-hr experiment. For autoradiography [3H]TdR and [3H]UdR were used as tracers for salvage and de novo pathways of thymidylate (TMP) synthesis, respectively. For FCM no tracers were injected. The autoradiographic studies demonstrated an active TdR salvage pathway for DNA synthesis, not affected by the impaired de novo TMP synthesis. The blocked de novo TMP synthesis was partially released 7 hr after Mtx injection, but it had not totally recovered at the end of the experiment. The decrease in the fraction of S-phase cells detected about 10 hr after Mtx injection by autoradiographic labelling with [3H]TdR and by FCM was found to be caused by a decrease in the number of cells entering S phase. However, Mtx did not influence the salvage TMP synthesis rate of cells entering S phase.     

Relative reactivity of thiamine monophosphate and thiamine diphosphate upon interaction with alkaline phosphatase

Reactivity of thiamin monophosphate (TMP) as calf intestinal alkaline phosphatase substrate in model transformations is lower comparing with thiamin diphosphate (TDP) reactivity. Under these conditions alkaline phosphatase catalyzes TDP, ADP and AMP hydrolysis approximately at same rate. It was shown that TDP competes with p-nitrophenyl phosphate more effectively than TMP for the binding in the active site. At pH 8.5 and 30 degrees C Km values are as follows: (5.2 +/- 1.6) x 10(-3) M for TMP and (3.0 +/- 0.8) x 10(-4) M for TDP. Under the same conditions the Vmax/Km value for TDP hydrolysis is 53 times higher than the one for corresponding reaction of TMP. It was suggested that positively charged thiazolium ion of TMP interacts with the nearest environment at the active center and by this way reduces enzyme activity.     

Substrate specificity of vaccinia virus thymidylate kinase

Anti-poxvirus therapies are currently limited to cidofovir [(S)-1-(3-hydroxy-2-phosphonylmethoxypropyl)cytosine], but drug-resistant strains have already been characterized. In the aim of finding a new target, the thymidylate (TMP) kinase from vaccinia virus, the prototype of Orthopoxvirus, has been overexpressed in Escherichia coli after cloning the gene (A48R). Specific inhibitors and alternative substrates of pox TMP kinase should contribute to virus replication inhibition. Biochemical characterization of the enzyme revealed distinct catalytic features when compared to its human counterpart. Sharing 42% identity with human TMP kinase, the vaccinia virus enzyme was assumed to adopt the common fold of nucleoside monophosphate kinases. The enzyme was purified to homogeneity and behaves as a homodimer, like all known TMP kinases. Initial velocity studies showed that the Km for ATP-Mg2+ and dTMP were 0.15 mm and 20 microM, respectively. Vaccinia virus TMP kinase was found to phosphorylate dTMP, dUMP and also dGMP from any purine and pyrimidine nucleoside triphosphate. 5-Halogenated dUMP such as 5-iodo-2'-deoxyuridine 5'-monophosphate (5I-dUMP) and 5-bromo-2'-deoxyuridine 5'-monophosphate (5Br-dUMP) were also efficient alternative substrates. Using thymidine-5'-(4-N'-methylanthraniloyl-aminobutyl)phosphoramidate as a fluorescent probe of the dTMP binding site, we detected an ADP-induced conformational change enhancing the binding affinity of dTMP and analogues. Several thymidine and dTMP derivatives were found to bind the enzyme with micromolar affinities. The present study provides the basis for the design of specific inhibitors or substrates for poxvirus TMP kinase.     

Tetramethylpyrazine induces G0/G1 cell cycle arrest and stimulates mitochondrial-mediated and caspase-dependent apoptosis through modulating ERK/p53 signaling in hepatic stellate cells in vitro

Activation of hepatic stellate cells (HSCs) is a pivotal event in the pathogenesis of liver fibrosis. Pharmacological induction of HSC apoptosis could be a promising strategy for fibrosis regression. Natural product tetramethylpyrazine (TMP) exhibits potent antifibrotic activities in vivo. However, the molecular mechanisms remain to be defined. The present study aimed at investigating the anti-proliferative and pro-apoptotic effects of TMP on HSCs and elucidating the underlying mechanisms. Our results demonstrated that TMP had no apparent cytotoxic effects on hepatocytes, but significantly inhibited HSC proliferation and induced cell cycle arrest at the G0/G1 checkpoint. These effects were associated with TMP regulation of cyclin D1, p21, p27 and p53. Furthermore, we found that TMP disrupted mitochondrial functions and led to activation of caspase cascades in HSCs. Mechanistic investigations revealed that TMP selectively blocked the extracellular signal-regulated kinase (ERK) signaling and activated p53, which was required for TMP induction of caspase-dependent mitochondrial apoptosis in HSCs. Autodock simulations predicted that TMP could directly bind to ERK2 with two hydrogen bonds and low energy score, indicating that ERK2 could be a direct target molecule for TMP within HSCs. Moreover, TMP altered expression of some marker proteins relevant to HSC activation. These data collectively revealed that TMP modulation of ERK/p53 signaling led to mitochondrial-mediated and caspase-dependent apoptosis in HSCs in vitro. These studies provided mechanistic insights into the antifibrotic properties of TMP that may be exploited as a potential option for hepatic fibrosis.     

Improving protein solubility: the use of the Escherichia coli dihydrofolate reductase gene as a fusion reporter

We have devised a strategy for screening mutant libraries for enzyme variants with enhanced solubility. The method is based on the observation that Escherichia coli can become insensitive to the antibiotic trimethoprim (TMP) if dihydrofolate reductase (DHFR) is expressed at an appropriate level. DHFR is a very soluble protein and can be expressed at levels that exceed normally lethal concentrations of TMP. In our approach, the gene encoding an insoluble target protein is placed in a vector so that the translated protein will be fused to DHFR. The resulting fusion protein will form inclusion bodies and inactivate DHFR-the cells will be susceptible to TMP. Mutations to the target protein that make it more soluble will also make the fusion protein more soluble so that DHFR will be at least partially active-the cells will be resistant to TMP. As the solubility of the target protein increases, the cells will become more resistant to TMP. The system was tested with a putative acetyltransferase (ACE) from a strain of the marine bacterium Vibrio fischerii. The gene encoding this protein was of interest since it is part of a mobile gene cassette within an integron array of the strain in question. After multiple rounds of shuffling and selection, ACE mutants were produced that had significantly improved solubility.     

Significance of premature stop codons in env of simian immunodeficiency virus.

The location of the translational termination codon for the transmembrane protein (TMP) varies in three infectious molecular clones of simian immunodeficiency virus from macaques (SIVmac). The SIVmac251 and SIVmac142 infectious clones have premature stop signals that differ in location by one codon; transfection of these DNAs into human HUT-78 cells yielded virus with a truncated TMP (28 to 30 kilodaltons [kDa]). The SIVmac239 infectious clone does not have a premature stop codon in its TMP-coding region. Transfection of HUT-78 cells with this clone initially yielded virus with a full-length TMP (41 kDa). At 20 to 30 days posttransfection, SIVmac239 virus with a 41-kDa TMP gradually disappeared coincident with the emergence of a virus with a 28-kDa TMP. Virus production dramatically increased in parallel with the emergence of a virus with a 28-kDa TMP. Sequence analysis of viral DNAs from these cultures showed that premature stop codons arising by point mutation were responsible for the change in size of the TMP with time. A similar selective pressure for truncated forms of TMP was observed when the SIVmac239 clone was transfected into human peripheral blood lymphocytes (PBL). In contrast, no such selective pressure was observed in macaque PBL. When the SIVmac239 clone was transfected into macaque PBL and the resultant virus was serially passaged in macaque PBL, the virus replicated very well and maintained a 41-kDa TMP for 80 days in culture. Macaque monkeys were infected with SIVmac239 having a 28-kDa TMP; virus subsequently recovered from T4-enriched lymphocytes of peripheral blood showed only the 41-kDa form of TMP. These results indicate that the natural form of TMP in SIVmac is the full-length 41-kDa TMP, just as in human immunodeficiency virus type 1. Viruses with truncated forms of TMP appear to result from mutation and selection during propagation in unnatural human cells.     

川芎嗪抑制血管紧张素Ⅱ诱导的平滑肌细胞NF-κB激活和骨形成蛋白-2表达降低

本文旨在观察血管紧张素Ⅱ（angiotensinⅡ,AngⅡ）对血管平滑肌细胞核转录因子-κB（nuclear factor-κB,NF-κB）的活性及骨形成蛋白-2（bone morphogenetic protein-2,BMP-2）表达的影响,以探讨AngⅡ参与动脉粥样硬化的机制,并探讨川芎嗪是否能抑制AngⅡ的促动脉粥样硬化作用。采用Western blot、免疫组化和原位杂交等方法分别检测AngⅡ刺激和川芎嗪干预后NF-κB活性、BMP-2蛋白和mRNA表达的变化。结果显示：（1）AngⅡ刺激激活NF-κB。AngⅡ刺激15min即有NF-κB p65核转移,30min达高峰（P〈0．01）,1h后减退。川芎嗪抑制AngⅡ诱导的NF-κB激活,与AngⅡ组比较,川芎嗪＋AngⅡ组NF-κB活性显著降低（P〈0．01）。（2）AngⅡ刺激6h时BMP-2表达增强（P〈0．05）,12h时减弱（P〈0．01）,24h时更弱（P〈0．01）。川芎嗪＋AngⅡ组中,川芎嗪干预6h时BMP-2表达亦增强,12与24h时保持正常水平。（3）川芎嗪对正常细胞的NF-κB活性和BMP-2表达无影响。以上结果表明,AngⅡ刺激后激活NF-κB并最终使生长抑制因子BMP-2表达下降,这可能是其参与动脉粥样硬化发生的机制之一。BMP-2一过性增高可能不依赖NF-κB通路的激活。川芎嗪可抑制AngⅡ诱导的NF-κB激活与BMP-2表达降低,提示它在抗动脉粥样硬化形成中起重要作用。     

Tetramethylpyrazine (TMP), an Active Ingredient of Chinese Herb Medicine Chuanxiong,Attenuates the Degeneration of Trabecular Meshwork through SDF-1/CXCR4 Axis

Background

A traditional Chinese medicine, Tetramethylpyrazine (TMP), has been prescribed as a complementary treatment for glaucoma to improve patient prognosis. However, the pharmacological mechanism of action of TMP is poorly understood. In previous studies, we demonstrated that TMP exerts potent inhibitory effects on neovascularization, suppresses the tumorigenic behavior of glioma cells, and protects neural cells by regulating CXCR4 expression. Here, we further investigated whether the SDF-1/CXCR4 pathway is also involved in the TMP-mediated activity in trabecular meshwork cells.

Methodology/Principal Findings

CXCR4 expression was examined by quantitative real-time PCR in trabecular and iris specimens from 54 primary open-angle glaucoma (POAG) patients who required surgery and 19 non-glaucomatous donors. Our data revealed markedly elevated CXCR4 expression in the trabecular meshwork of POAG patients compared with that of controls. Consistently, CXCR4 expression was much higher in glaucomatous trabecular meshwork cells than in normal trabecular meshwork cells. Using RT-PCR and western blot assays, we determined that glaucoma-related cytokines and dexamethasone (DEX) also significantly up-regulated CXCR4 expression in primary human trabecular meshwork (PHTM) cells. Moreover, the TGF-β1-mediated induction of CXCR4 expression in PHTM cells was markedly down-regulated by TMP compared with control treatment (PBS) and the CXCR4 antagonist AMD3100. In addition, TMP could counteract the TGF-β1-induced effects on stress fiber accumulation and expansion of PHTM cells. TMP markedly suppressed the migration of PHTM cells stimulated by TGF-β1 in transwell and scratch wound assays. TMP also suppressed the extracellular matrix (ECM) accumulation induced by TGF-β2.

Conclusions

Our findings demonstrate that CXCR4 might be involved in the pathogenetic changes in the trabecular meshwork of patients with POAG. Additionally, TMP might exert its beneficial effects in POAG patients by down-regulating CXCR4 expression.     

A genetically targeted reporter for PET imaging of deep neuronal circuits in mammalian brains

Positron emission tomography (PET) allows biomolecular tracking but PET monitoring of brain networks has been hampered by a lack of suitable reporters. Here, we take advantage of bacterial dihydrofolate reductase, ecDHFR, and its unique antagonist, TMP, to facilitate in vivo imaging in the brain. Peripheral administration of radiofluorinated and fluorescent TMP analogs enabled PET and intravital microscopy, respectively, of neuronal ecDHFR expression in mice. This technique can be used to the visualize neuronal circuit activity elicited by chemogenetic manipulation in the mouse hippocampus. Notably, ecDHFR‐PET allows mapping of neuronal projections in non‐human primate brains, demonstrating the applicability of ecDHFR‐based tracking technologies for network monitoring. Finally, we demonstrate the utility of TMP analogs for PET studies of turnover and self‐assembly of proteins tagged with ecDHFR mutants. These results establish opportunities for a broad spectrum of previously unattainable PET analyses of mammalian brain circuits at the molecular level.     

Tetramethylpyrazine Protects Against Oxygen-Glucose Deprivation-Induced Brain Microvascular Endothelial Cells Injury via Rho/Rho-kinase Signaling Pathway

Tetramethylpyrazine (TMP, also known as Ligustrazine), which is isolated from Chinese Herb Medicine Ligustium wollichii Franchat (Chuan Xiong), has been widely used in China for the treatment of ischemic stroke by Chinese herbalists. Brain microvascular endothelial cells (BMECs) are the integral parts of the blood–brain barrier (BBB), protecting BMECs against oxygen-glucose deprivation (OGD) which is important for the treatment of ischemic stroke. Here, we investigated the protective mechanisms of TMP, focusing on OGD-injured BMECs and the Rho/Rho-kinase (Rho-associated kinases, ROCK) signaling pathway. The model of OGD-injured BMECs was established in this study. BMECs were identified by von Willebrand factor III staining and exposed to fasudil, or TMP at different concentrations (14.3, 28.6, 57.3 µM) for 2 h before 24 h of OGD injury. The effect of each treatment was examined by cell viability assays, measurement of intracellular reactive oxygen species (ROS), and transendothelial electric resistance and western blot analysis (caspase-3, endothelial nitric oxide synthase (eNOS), RhoA, Rac1). Our results show that TMP significantly attenuated apoptosis and the permeability of BMECs induced by OGD. In addition, TMP could notably down-regulate the characteristic proteins in Rho/ROCK signaling pathway such as RhoA and Rac1, which triggered abnormal changes of eNOS and ROS, respectively. Altogether, our results show that TMP has a strong protective effect against OGD-induced BMECs injury and suggest that the mechanism might be related to the inhibition of the Rho/ROCK signaling pathway.     

X-ray structure of TMP kinase from Mycobacterium tuberculosis complexed with TMP at 1.95 A resolution

The X-ray structure of Mycobacterium tuberculosis TMP kinase at 1.95 A resolution is described as a binary complex with its natural substrate TMP. Its main features involve: (i) a clear magnesium-binding site; (ii) an alpha-helical conformation for the so-called LID region; and (iii) a high density of positive charges in the active site. There is a network of interactions involving highly conserved side-chains of the protein, the magnesium ion, a sulphate ion mimicking the beta phosphate group of ATP and the TMP molecule itself. All these interactions conspire in stabilizing what appears to be the closed form of the enzyme. A complete multialignment of all (32) known sequences of TMP kinases is presented. Subtle differences in the TMP binding site were noted, as compared to the Escherichia coli, yeast and human enzyme structures, which have been reported recently. These differences could be used to design specific inhibitors of this essential enzyme of nucleotide metabolism. Two cases of compensatory mutations were detected in the TMP binding site of eukaryotic and prokaryotic enzymes. In addition, an intriguing high value of the electric field is reported in the vicinity of the phosphate group of TMP and the putative binding site of the gamma phosphate group of ATP.