Your search keyword '"Geng, Zhirong"' showing total 6 results

1. Neuroprotection by Polynitrogen Manganese Complexes: Regulation of Reactive Oxygen Species-Related Pathways.

Author

Chen C, Cao J, Ma X, Wang X, Chen Q, Yan S, Zhao N, Geng Z, and Wang Z

Subjects

Animals, Neurons pathology, PC12 Cells, Rats, Apoptosis drug effects, Hydrogen Peroxide pharmacology, Manganese Compounds pharmacology, Neurons metabolism, Neuroprotective Agents pharmacology

Abstract

Cell death in the central nervous system causes neurologic diseases, in which reactive oxygen species (ROS) play a critical role by either inducing cellular oxidative stress or by increasing the cell tolerance against insult. Neurologic diseases may potentially be treated by regulating ROS levels in a certain range with small molecules. We studied preconditioning with two polynitrogen manganese complexes (1 and 2) to regulate intracellular ROS levels in the protection of both the differentiated rat pheochromocytoma cell line (PC12 cells) and neurons against H2O2-induced apoptosis. Pre-treatment with the two complexes attenuated the cell apoptosis caused by H2O2. And the ROS-related neuroprotective mechanisms were explored. Both complexes activate the hypoxia inducible factor-related pathways and increase the cell adaptation to oxidative stress. Pre-treatment with complex 1 eliminated intracellular ROS, which also activated antioxidase system, while short-term incubation of complex 2, generated low levels of ROS leading to cell survival.

Published

2016

2. Targeted copper supplementation oriented theranostic for fluorescence and 19F NMR detection of tumors.

Author

Li, Zan, Guo, Taiyu, Lu, Jiao, Yang, Zhen, Zhang, Miaomiao, Geng, Zhirong, and Wang, Zhilin

Subjects

REACTIVE oxygen species, FLUORESCENCE, APOPTOSIS, CANCER cells

Abstract

Alteration of the levels of copper is a promising approach for cancer therapy. Herein, we develop a dual-mode copper vehicle, M985. The biotin-tailed M985 can exert tumor-directed copper supplementation and undergo self-immolative cleavage in living cancerous cells, resulting in the liberation of F542 along with the generation of excess reactive oxygen species. Thus, fluorescence and 19F NMR detection is realized to specifically discriminate cancer cells. F542 acts as a fluorescence reporter and a potent cytotoxic agent, facilitating the visualization of molecular release and distribution, as well as confirming the ER autophagy-induced apoptosis. Therefore, we present a promising dual-mode theranostic M985 for the efficient detection and therapy of cancer. [ABSTRACT FROM AUTHOR]

Published

2020

3. Tetraarsenictetrasulfide and Arsenic Trioxide Exert Synergistic Effects on Induction of Apoptosis and Differentiation in Acute Promyelocytic Leukemia Cells.

Author

Wang, Shuping, Zhou, Min, Ouyang, Jian, Geng, Zhirong, and Wang, Zhilin

Subjects

ARSENIC sulfides, ARSENIC trioxide, TREATMENT of acute promyelocytic leukemia, DRUG synergism, APOPTOSIS, CELL differentiation

Abstract

Since arsenic trioxide (As3+) has been successfully used in the treatment of acute promyelocytic leukemia (APL), its adverse effects on patients have been problematic and required a solution. Considering the good therapeutic potency and low toxicity of tetraarsenictetrasulfide (As4S4) in the treatment of APL, we investigated the effects of combining As4S4 and As3+ on the apoptosis and differentiation of NB4 and primary APL cells. As4S4, acting similarly to As3+, arrested the G1/S transition, induced the accumulation of cellular reactive oxygen species, and promoted apoptosis. Additionally, low concentrations of As4S4 (0.1–0.4 μM) induced differentiation of NB4 and primary APL cells. Compared with the As4S4- or As3+-treated groups, the combination of As4S4 and As3+ obviously promoted apoptosis and differentiation of NB4 and primary APL cells. Mechanistic studies suggested that As4S4 acted synergistically with As3+ to down-regulate Bcl-2 and nuclear factor-κB expression, up-regulate Bax and p53 expression, and induce activation of caspase-12 and caspase-3. Moreover, the combination of low concentrations of As4S4 and As3+ enhanced degradation of the promyelocytic leukemia-retinoic acid receptor α oncoprotein. In summary, As4S4 and As3+ synergistically induce the apoptosis and differentiation of NB4 and primary APL cells. [ABSTRACT FROM AUTHOR]

Published

2015

4. Inhibition of splicing factors SF3A3 and SRSF5 contributes to As3+/Se4+ combination-mediated proliferation suppression and apoptosis induction in acute promyelocytic leukemia cells.

Author

Chang, Jiayin, Yan, Shihai, Geng, Zhirong, and Wang, Zhilin

Subjects

*ACUTE promyelocytic leukemia, *CELL cycle, *APOPTOSIS, *CELL proliferation, *CELL growth, *PROTEOMICS

Abstract

The low-dose combination of Arsenite (As3+) and selenite (Se4+) has the advantages of lower biological toxicity and better curative effects for acute promyelocytic leukemia (APL) therapy. However, the underlying mechanisms remain unclear. Here, based on the fact that the combination of 2 μM A3+ plus 4 μM Se4+ possessed a stronger anti-leukemic effect on APL cell line NB4 as compared with each individual, we employed iTRAQ-based quantitative proteomics to identify a total of 58 proteins that were differentially expressed after treatment with As3+/Se4+ combination rather than As3+ or Se4+ alone, the majority of which were involved in spliceosome pathway. Among them, eight proteins stood out by virtue of their splicing function and significant changes. They were validated as being decreased in mRNA and protein levels under As3+/Se4+ combination treatment. Further functional studies showed that only knockdown of two splicing factors, SF3A3 and SRSF5, suppressed the growth of NB4 cells. The reduction of SF3A3 was found to cause G1/S cell cycle arrest, which resulted in proliferation inhibition. Moreover, SRSF5 downregulation induced cell apoptosis through the activation of caspase-3. Taken together, these findings indicate that SF3A3 and SRSF5 function as pro-leukemic factors and can be potential novel therapeutic targets for APL. [Display omitted] • As3+/Se4+ combination exerts better anti-leukemic function for APL. • Splicing factors SF3A3 and SRSF5 are markedly downregulated upon As3+/Se4+ combination treatment. • Inhibition of SF3A3 attenuates APL cell proliferation through G1/S arrest. • Suppression of SRSF5 blocks proliferation and induces apoptosis of APL cells. [ABSTRACT FROM AUTHOR]

Published

2023

5. The interaction between Hsp90-mediated unfolded protein response and autophagy contributes to As3+/ Se4+ combination-induced apoptosis of acute promyelocytic leukemia cells.

Author

Chang, Jiayin, Yan, Shihai, Geng, Zhirong, and Wang, Zhilin

Subjects

*ACUTE promyelocytic leukemia, *AUTOPHAGY, *HEAT shock proteins, *ENDOPLASMIC reticulum, *UNFOLDED protein response, *APOPTOSIS

Abstract

The interaction between the unfolded protein response (UPR) and autophagy plays either pro-survival or pro-apoptotic roles in the treatment of acute promyelocytic leukemia (APL). Our previous study has shown that the combination therapy of arsenite (As3+) and selenite (Se4+) induces apoptosis in APL NB4 cells, although the mechanisms are not clear. Here, we demonstrate that the interaction between heat shock protein 90 (Hsp90)-mediated UPR and autophagy is the core module for As3+/Se4+ combination-induced apoptosis. Hsp90 overexpression and knockdown assays indicate that Hsp90 inhibition by PERK modulates two branches of the UPR, leading to the activation of ATF4 and CHOP, causing the degradation of IRE1α and the dephosphorylation of eIF2α, thereby contributing to switching the cytoprotective UPR into an apoptotic pathway. Assays using pretreatment with inducers and inhibitors of endoplasmic reticulum stress (ERS) and autophagy reveal that autophagy is stimulated by ERS but suppressed by As3+/Se4+ combination via the mTOR signaling pathway. However, inhibition of autophagy decreases GRP78 expression and eIF2α phosphorylation, thereby further promoting ERS-induced apoptosis. Moreover, As3+/Se4+ combination blocks hepatic infiltration in an APL-NCG mouse model of extramedullary infiltration. Taken together, these findings provide novel agents and therapeutic approaches for APL. [Display omitted] • The inhibition of Hsp90 prolonged ERS through the degradation of IRE1α and the dephosphorylation of eIF2α. • The suppression of autophagy reduced the expression of GRP78 and phospho-eIF2α to aggravate ERS. • Hsp90-mediated UPR and mTOR-dependent autophagy jointly promoted ERS-induced apoptosis in As3+/Se4+ combination-treated NB4 cells. [ABSTRACT FROM AUTHOR]

Published

2023

6. Water extract of earthworms mitigates mouse liver fibrosis by potentiating hepatic LKB1/Nrf2 axis to inhibit HSC activation and hepatocyte death.

Author

Zhang, Tiantian, Wang, Chuo, Song, Anning, Lei, Xiao, Li, Guangqiong, Sun, Hui, Wang, Xiaoming, Geng, Zhirong, Shu, Guangwen, and Deng, Xukun

Subjects

*INVERTEBRATES, *IN vivo studies, *AMP-activated protein kinases, *NUCLEAR factor E2 related factor, *ANIMAL experimentation, *WATER, *FIBROSIS, *APOPTOSIS, *LIVER diseases, *TREATMENT effectiveness, *LIVER cells, *REACTIVE oxygen species, *MICE, *CHINESE medicine

Abstract

When left untreated, liver fibrosis (LF) causes various chronic liver diseases. Earthworms (Pheretima aspergillum) are widely used in traditional medicine because of their capacity to relieve hepatic diseases. Aim of the study: This study aimed to explore the anti-LF effects of water extract of earthworms (WEE) and the underlying molecular mechanisms. A CCl 4 -induced mouse model of LF was used to study the impact of WEE on LF in vivo. The anti-LF activity of WEE in mice was compared with that of silybin, which can be clinically applied in LF intervention and was used as a positive control. Activation of LX-2 hepatic stellate cells (HSCs) and apoptosis and ferroptosis of AML-12 hepatocytes induced by TGFβ1 were used as in vitro models. WEE drastically improved LF in mice. WEE reduced markers of activated HSCs in mice and inhibited TGFβ1-induced activation of LX-2 HSCs in vitro. Additionally, WEE suppressed CCl 4 -induced apoptosis and ferroptosis in mouse hepatocytes. Mechanistically, WEE induced Nrf2 to enter the nuclei of the mouse liver cells, and the hepatic levels of Nrf2-downstream antioxidative factors increased. LKB1/AMPK/GSK3β is an upstream regulatory cascade of Nrf2. In the LF mouse model, WEE increased hepatic phosphorylated LKB1, AMPK, and GSK3β levels. Similar results were obtained for the LX-2 cells. In AML-12 hepatocytes and LX-2 HSCs, WEE elevated intracellular Nrf2 levels, promoted its nuclear translocation, and inhibited TGFβ1-induced ROS accumulation. Knocking down LKB1 abolished the impact of WEE on the AMPK/GSK3β/Nrf2 cascade and eliminated its protective effects against TGFβ1. Our findings reveal that WEE improves mouse LF triggered by CCl 4 and supports its application as a promising hepatoprotective agent against LF. The potentiation of the hepatic antioxidative AMPK/GSK3β/Nrf2 cascade by activating LKB1 and the subsequent suppression of HSC activation and hepatocyte apoptosis and ferroptosis are implicated in WEE-mediated alleviation of LF. [Display omitted] • WEE attenuated CCl 4 -induced liver fibrosis. • WEE inhibited TGFβ1-induceda activation of hepatic stellate cells. • WEE suppressed CCl 4 -provoked apoptosis and ferroptosis of hepatocytes in mice. • Potentiating hepatic LKB1/AMPK/GSK3β/Nrf2 axis is implicated in the anti-fibrotic activity of WEE. [ABSTRACT FROM AUTHOR]

Published

2024