Effect of triethyltin on Escherichia coli K-12.

Triethyltin (TET) stimulated the basal respiration of Escherichia coli K-12 membrane vesicles in chloride (Cl-) medium but it had little effect on respiration in sulphate (SO4(2-)) medium. Since this uncoupling activity was Cl- dependent it was attributed to the Cl-/hydroxide (OH-) exchange reaction known to be mediated by TET [1,2]. TET inhibited the oxidation of succinate by intact E. coli in both Cl- and SO4(2-) medium, but at the same concentration of TET, inhibition was always more extensive in Cl- than SO4(2-) medium. In Cl- medium uncoupling in membrane vesicles and inhibition of succinate oxidation in intact bacteria occurred over the same concentration range and it appeared that the same mechanism, i.e. Cl-/OH- exchange, was responsible for both effects. Inhibition of succinate oxidation in SO4(2-) medium was not substantial until the concentration of TET was greater than 10(-5) M. Although the nature of this inhibition could not be determined by experiments with membrane vesicles indirect evidence from growth experiments indicated that it was due to impairment of oxidative phosphorylation. The relationship between these biochemical findings and the bacteriocidal action of TET was examined by using various concentrations of anion and substrate in the growth medium. Growth was inhibited in media containing either Cl- or SO4(2-) as the main anion but at a particular concentration of TET, inhibition was greater in Cl- medium. Growth was also inhibited to a greater extent in succinate than glucose medium. Furthermore in either Cl- or SO4(2-) glucose medium, lactic acid production increased as the concentration of TET was increased. These findings imply that the bacteriocidal action of TET is related to its effect(s) on oxidative phosphorylation.     

2021-01期目录

为研究团头鲂(Megalobrama amblycephala) 5-甲基胞嘧啶(5-methylcytosine, 5mC)羟基化酶TET1(Ten eleven translocation 1)基因的功能及其表达特性, 采用整胚原位杂交、qRT-PCR技术进行了胚胎、组织表达分析及其在急性低氧胁迫下的基因响应研究。序列分析结果表明, 团头鲂TET1基因全长为5526 bp, 编码1841个氨基酸。qRT-PCR结果表明, 团头鲂TET1广泛表达于各个组织中, 并在脑组织中高度表达。在胚胎发育过程中, TET1基因从受精卵开始就有表达, 并在受精后20—44h (20—44 hpf)都维持在一个较高水平。原位杂交结果表明, TET1基因在12 hpf信号相对微弱, 在24和36 hpf信号逐渐增强, 并且都集中在头部表达。通过qRT-PCR检测急性缺氧处理TET1的表达量, 结果表明, TET1基因在鳃和脾等组织中表达显著升高(P<0.01), 在脑、皮肤、眼和肾脏中表达显著降低(P<0.01)。在胚胎中, TET1基因相对表达量明显高于对照组, 尤其在24 hpf低氧处理组的表达量显著地高于对照组(P<0.001)。结果表明TET1基因在低氧应答反应中发挥着重要的作用。该研究结果为TET1基因在低氧响应及功能的保守与分化方面提供了新的视角。     

Hydrazones as novel epigenetic modulators: Correlation between TET 1 protein inhibition activity and their iron(II) binding ability

Ten-eleven translocation protein (TET) 1 plays a key role in control of DNA demethylation and thereby of gene expression. Dysregulation of these processes leads to serious pathological states such as oncological and neurodegenerative ones and thus TET 1 targeting is highly requested. Therefore, in this work, we examined the ability of hydrazones (acyl-, aroyl- and heterocyclic hydrazones) to inhibit the TET 1 protein and its mechanism of action. Inhibitory activity of hydrazones 1–7 towards TET 1 was measured. The results showed a high affinity of the tested chelators for iron(II). The study clearly showed a significant correlation between the chelator’s affinity for iron(II) ions (represented by the binding constant) and TET 1 protein inhibitory activity (represented by IC₅₀ values).     

TET1 suppresses colon cancer proliferation by impairing β-catenin signal pathway

The function of ten-eleven translocation methylcytosine dioxygenase 1 (TET1) in cancer is background dependent and may be involved in the initial step of active DNA demethylation, while there is little research to decipher the role of TET1 in DNA methylation-sensitive colon cancer. Downregulated TET1 expression assayed by quantitative real-time PCR (qRT-PCR) was observed in both colon cancer samples and cancer cell lines of HT29, HCT116, and SW48. Such downregulation could promote colon cancer cells proliferation as indicated by the fact that shTET1 could increase the viability of HT29 and HCT116 cells determined by the 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide and cell count assay accompanied with upregulation of β-catenin (CTNNB1) and WNT luciferase activity, which was further confirmed as shTET1 could increase the tumor volume and tumor weight, and decrease the body weight in HT29 cells inoculated BALB/C nude mice. The CTNNB1 transfection could rescue the cell growth diminished by normal expression of TET1. shTET1 could promote axis inhibition protein1 (AXIN1) expression and the cell proliferation effect induced by TET1 short hairpin RNA was attenuated by co-inhibition of AXIN1. All of these indicate that TET1 can suppress colon cancer proliferation and the inhibition of the β-catenin pathway is AXIN1 dependent.     

Ascorbic acid induced TET2 enzyme activation enhances cancer immunotherapy efficacy in renal cell carcinoma

Exploring the regulatory mechanism of PD-L1 in renal cancer is one of the key strategies to improve the response of renal cancer patients to checkpoint blockade therapy. In this study, the synergistic effect of ascorbic acid (vitamin C) supplementation and the impact of TET2 depletion on anti-PD-L1 therapy were determined in xenograft model experiments. Lymphocyte infiltration and chemokine expression were determined using flow cytometry and qRT-PCR. To determine the downstream targets of TET2, we performed hMeDip-seq and RNA-seq analyses. The molecular mechanism was further confirmed by hMeDip-qPCR, MeDip-qPCR, bisulfite sequencing, Western blotting, qRT-PCR and xenograft model experiments in vitro and in vivo. The present study demonstrated that ascorbic acid enhanced the efficacy of immunotherapy and that the loss of TET2 function enabled renal cancer cells to evade antitumor immunity. Ascorbic acid treatment significantly increased the intratumoral infiltration of T cells and the expression of cytokines and chemokines, while the loss of TET2 impaired the infiltration of T cells and the expression of cytokines and chemokines. TET2 was recruited to IRF1 by IFN-γ-STAT1 signaling, thereby maintaining IRF1 demethylation and ultimately inducing PD-L1 expression. These results suggest a new strategy of stimulating TET activity to improve immunotherapy for renal cell carcinoma.     

Versatile macrolide-responsive mammalian expression vectors for multiregulated multigene metabolic engineering

The novel macrolide-inducible and -repressible mammalian gene regulation systems (E.REX) have been cloned into a variety of sophisticated expression configurations including (1) multi-purpose expression vectors, (2) pTRIDENT-based artificial operons, (3) dual-regulated expression strategies for independent control of two different transgenes, (4) autoregulated vectors for one-step installation of adjustable multigene expression, and (5) oncoretroviral and lentiviral plasmids for transduction of macrolide-, streptogramin- and tetracycline-dependent transactivators and production of cell lines supporting independent control of three different transgenes. This vector portfolio represents a construction kit-like toolbox for efficient installation of adjustable gene expression responsive to clinically licensed antibiotics and enables the design of multiregulated multigene metabolic engineering strategies required for biopharmaceutical manufacturing, gene therapy, and tissue engineering.     

Further characterization of a CD99-related 21-kDa transmembrane protein (VAP21) expressed in Syrian hamster cells and its possible involvement in vesicular stomatitis virus production

The VAP21, a CD99-related 21-kDa transmembrane protein, was first detected in the enveloped virions that were grown in a Syrian hamster-derived cell line, BHK-21 (Sagara et al., 1997; Yamamoto et al., 1999). We further tried to elucidate the nature and properties of VAP21. The VAP21 was detected in various organs of the Syrian hamster as well as in the Syrian hamster-derived cell lines (BHK-21 and HmLu-1). We could not detect the VAP21 antigen in other cell lines derived from other animal species we examined, including a Chinese hamster (CHO-K1), mouse (neuroblastoma C1300, clone NA), dog (MDCK), monkey (COS-7), and human (HeLa, HepG2). We tried to introduce the VAP21 gene into VAP21-negative cell lines using a tetracycline-regulated gene expression system. All of our trials, however, resulted in failure to establish stably positive inducible cell lines. To the contrary, we could easily establish the VAP21-overexpressing cell lines from the Syrian hamster cell lines, which were successfully grown and maintained without any loss of VAP21 expression even under the induced culture conditions. In such VAP21-overexpressing cells, production of the vesicular stomatitis virus (VSV) was increased several-fold, while suppression of the VAP21 expression resulted in reducing the VSV yields. From these results, we conclude that the VAP21 is a physiologically active cell membrane component of some animal species including the Syrian hamster, and might positively be involved in the VSV replication.