8 results on '"Liu, Weiwei"'
Search Results
2. Circ-ZEB1 promotes PIK3CA expression by silencing miR-199a-3p and affects the proliferation and apoptosis of hepatocellular carcinoma
- Author
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Liu, Weiwei, zheng, Lu, Zhang, Rongguiyi, Hou, Ping, Wang, Jiakun, Wu, Linquan, and Li, Jing
- Published
- 2022
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3. TNF-α-mediated podocyte injury via the apoptotic death receptor pathway in a mouse model of IgA nephropathy.
- Author
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Wan, Qiang, Zhou, Jiabao, Wu, Yansheng, Shi, Liqiang, Liu, Weiwei, Ou, Jiaoying, and Gao, Jiandong
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DEATH receptors ,LABORATORY mice ,ORAL drug administration ,ANIMAL disease models ,PATHOLOGICAL physiology ,IGA glomerulonephritis - Abstract
IgA nephropathy (IgAN) is the most common primary glomerular disease worldwide and it is characterized by mesangial IgA deposits. Proteinuria is a common clinical feature of IgAN, which has a critical connection to podocyte injury and has been used as a clinical prognostic factor for IgAN. Evidence has shown that TNF-α released from mesangial cells may lead to podocyte apoptosis. Forty male BALB/c mouse were randomly divided into the control group and IgAN group. A mice model of IgAN was developed by oral administration of bovine serum albumin (BSA) combined with Staphylococcus Enterotoxin B (SEB) tail vein injection. Urinary protein concentrations, renal function, renal morphological, IgA deposition, apoptosis situation, and the mRNA and protein expression of nephrin, podocin, TNF-α, TNFR1, caspase-8 and caspase-3, were detected after 12 weeks. BSA and SEB can successfully establish an IgAN mouse model, and the main pathological changes are the IgA immune complex deposition in the mesangial area. The gene and protein expression levels of nephrin and podocin were found to be downregulated, and death receptor pathway-related indicators were upregulated, and they were involved in TNF-α-activated podocyte injury and apoptosis in IgAN mice. TNF-α may play an important role in the pathogenesis of podocyte apoptosis in IgAN, and its effects may be mediated through the apoptotic death receptor pathway. [ABSTRACT FROM AUTHOR]
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- 2022
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4. Carnosic Acid Suppresses the Development of Oral Squamous Cell Carcinoma via Mitochondrial-Mediated Apoptosis.
- Author
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Min, Fenghe, Liu, Xin, Li, Yuan, Dong, Mingyuan, Qu, Yidi, and Liu, Weiwei
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CARNOSIC acid ,SQUAMOUS cell carcinoma ,INHIBITION of cellular proliferation ,REACTIVE oxygen species ,APOPTOSIS ,HEAD & neck cancer ,CETUXIMAB - Abstract
Oral squamous cell carcinoma (OSCC) predominantly consists of squamous cells and is the tumor with the highest incidence of the head and neck. Carnosic acid (CA), a natural monomer drug obtained from rosemary and salvia, shows various pharmacological effects, including of tumor development. This study aimed to assess for an effect of CA on the development of OSCC and the underlying mechanisms. In CAL27 and SCC9 cells, CA inhibited cell proliferation and migration, increased intracellular levels of reactive oxygen species (ROS) and Ca
2+ , decreased the mitochondrial membrane potential (MMP), and promoted apoptosis. In CAL27- and SCC9-xenotransplanted BALB/c nude mice, CA inhibited the tumor growth without affecting the body weight and tissue morphology. CA upregulated Bax, Bad, cleaved Caspase-3 and -9 levels, and the cleaved PARP1/PARP1 ratio but downregulated Bcl-2 in CA-treated OSCC cells and OSCC cells-xenotransplanted BALB/c nude mice. These results indicate that CA suppresses OSCC at least via the mitochondrial apoptotic pathway and offers this natural compound as a potential therapeutic against OSCC. [ABSTRACT FROM AUTHOR]- Published
- 2021
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5. Corrigendum to "DNA damage-triggered activation of cGAS-STING pathway induces apoptosis in human keratinocyte HaCaT cells" [Mol. Immunol. 131 (2021) 6222].
- Author
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Li, Can, Liu, Weiwei, Wang, Fang, Hayashi, Toshihiko, Mizuno, Kazunori, Hattori, Shunji, Fujisaki, Hitomi, and Ikejima, Takashi
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KERATINOCYTES , *APOPTOSIS , *DNA , *HUMAN beings ,KERATINOCYTE differentiation - Published
- 2023
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6. Increased mitochondrial fission induces NLRP3/cGAS-STING mediated pro-inflammatory pathways and apoptosis in UVB-irradiated immortalized human keratinocyte HaCaT cells.
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Li, Can, Zhu, Yuying, Liu, Weiwei, Hayashi, Toshihiko, Xiang, Wendie, He, Sijun, Mizuno, Kazunori, Hattori, Shunji, Fujisaki, Hitomi, and Ikejima, Takashi
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MITOCHONDRIA , *KERATINOCYTES , *PYROPTOSIS , *APOPTOSIS , *REACTIVE oxygen species ,KERATINOCYTE differentiation - Abstract
Ultraviolet B (UVB) irradiation causes skin inflammation and apoptosis. Mitochondria are highly dynamic and undergo constant fusion and fission that are essential for maintaining physiological functions of cells. Although dysfunction of mitochondria has been implicated in skin damages, little is known about the roles of mitochondrial dynamics in these processes. UVB irradiation increases abnormal mitochondrial content but decreases mitochondrial volume in immortalized human keratinocyte HaCaT cells. UVB irradiation resulted in marked upregulation of mitochondrial fission protein dynamin-related protein 1 (DRP1) and downregulation of mitochondrial outer membrane fusion proteins 1 and 2 (MFN1 and MFN2) in HaCaT cells. Mitochondrial dynamics was discovered to be crucial for NLRP3 inflammasome and cGAS-STING pathway activation, as well as the induction of apoptosis. Inhibition of mitochondrial fission by treatments with a DRP1 inhibitor, mdivi-1, or with DRP1-targeted siRNA, efficiently prevented UVB-induced NLRP3/cGAS-STING mediated pro-inflammatory pathways or apoptosis in the HaCaT cells, whereas inhibition of mitochondrial fusion with MFN1and 2 siRNA increased these pro-inflammatory pathways or apoptosis. The enhanced mitochondrial fission and reduced fusion caused the up-regulation of reactive oxygen species (ROS). Application of an antioxidant, N -acetyl- l -cysteine (NAC), which scavenges excessive ROS, attenuated inflammatory responses through suppressing NLRP3 inflammasome and cGAS-STING pathway activation, and rescued cells from apoptosis caused by UVB-irradiation. Together, our findings revealed the regulation of NLRP3/cGAS-STING inflammatory pathways and apoptosis by mitochondrial fission/fusion dynamics in UVB-irradiated HaCaT cells, providing a new strategy for the therapy of UVB skin injury. [Display omitted] • UVB perturbs mitochondrial fission/fusion dynamics in HaCaT cells. • Disturbed mitochondrial dynamics control the amount of mitochondria. • Disturbed mitochondrial dynamics regulate NLRP3/cGAS-STING mediated pro-inflammatory pathways and apoptosis. • ROS are responsible for pro-inflammatory pathways and apoptosis initiated by the dysregulated mitochondrial dynamics. [ABSTRACT FROM AUTHOR]
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- 2023
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7. Impaired mitophagy causes mitochondrial DNA leakage and STING activation in ultraviolet B-irradiated human keratinocytes HaCaT.
- Author
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Li, Can, Zhu, Yuying, Liu, Weiwei, Xiang, Wendie, He, Sijun, Hayashi, Toshihiko, Mizuno, Kazunori, Hattori, Shunji, Fujisaki, Hitomi, and Ikejima, Takashi
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MITOCHONDRIAL DNA , *MEMBRANE permeability (Biology) , *KERATINOCYTES , *MITOCHONDRIAL membranes , *LEAKAGE , *MITOCHONDRIAL pathology , *WRINKLES (Skin) - Abstract
Ultraviolet B (UVB) irradiation causes skin damages. In this study, we focus on the involvement of mitochondrial disorders in UVB injury. Surprisingly, UVB irradiation increases the amounts of mitochondria in human immortalized keratinocytes HaCaT. However, further analysis shows that ATP levels decreased by UVB treatment in accordance with the collapse of mitochondrial membrane potential (MMP), suggesting an accumulation of dysfunctional mitochondria in UVB-irradiated HaCaT cells. Mitophagy, mainly mediated by PINK1 and parkin, is critical for the elimination of damaged mitochondria. Western blot results show that the levels of both PINK1 and parkin are decreased in UVB-irradiated cells, indicating the impairment of mitophagy. Silencing the expression of PINK1 or parkin by transfection of siRNA shows essentially the same damage to the cells as UVB irradiation does, including increased mitochondrial amount, decreased MMP and ATP production, and enhanced apoptosis, evidencing that repression of PINK1/parkin-mediated mitophagy plays a primary cause of UVB-caused cells damages. We previously found that HaCaT cells exposed to UVB showed activation of the cGAS-STING pathway and apoptosis. Here, silencing PINK1 or parkin also increases the protein levels of cGAS and STING, facilitates nuclear accumulation of NF-κB, and promotes the transcription of IFNβ, suggesting for the activation of STING pathway. Mitophagy impairment either by UVB-irradiation or by PINK1/parkin silencing initiates caspase-3-mediated apoptosis, as shown by the activation of caspase-3 and cleavage of PARP, as well as the increase of Hoechst-positive stained cells and Annexin V-positive cells. Further studies find that Bax-mediated permeabilization of mitochondrial membrane is critical for cell apoptosis, as well as the cytosolic leakage of mtDNA in UVB-treated cells, which results in cGAS-STING activation, and these processes are negatively-regulated by PINK1/parkin-mediated mitophagy. This study reveals the involvement of dysfunctional mitochondria due to impaired mitophagy in the damaging effect of UVB irradiation on HaCaT cells. Restoring the mitophagy has the potential to be developed as a new strategy to protect skin from UVB damages. [Display omitted] • UVB decreases mitophagy and accumulates dysfunctional mitochondria in HaCaT cells. • UVB reduces PINK1/parkin expression that is involved in mitophagy of damaged mitochondria. • Mitophagy arrest caused by UVB leads to the activation of cGAS-STING/apoptosis pathway. • Mitophagy arrest caused by UVB increases mitochondrial membrane permeability. • Mitophagy arrest caused by UVB results in the mtDNA leakage into cytosol. [ABSTRACT FROM AUTHOR]
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- 2023
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8. Collagen I protects human keratinocytes HaCaT against UVB injury via restoring PINK1/parkin-mediated mitophagy.
- Author
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Zhu, Yuying, Xiang, Wendie, He, Sijun, San, Zhao, Liu, Weiwei, Wu, Jin, Hayashi, Toshihiko, Mizuno, Kazunori, Hattori, Shunji, Fujisaki, Hitomi, and Ikejima, Takashi
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COLLAGEN , *CYCLOSPORINE , *KERATINOCYTES , *SKIN care products , *EXTRACELLULAR matrix - Abstract
Collagen I is a major component of extracellular matrix in human skin, and is also widely used in a variety of skin-care products. In this study, we investigated the modulatory roles of collagen I on human immortalized keratinocytes HaCaT, especially when cells were irradiated with UVB. Interestingly, the cells grown on plates coated by molecular collagen I, but not fibrillar collagen I, acquired certain resistance against UVB damages, as shown by increased survival and reduced apoptosis. The accumulation of dysfunctional mitochondria in UVB-treated cells was attenuated by molecular collagen I-coating. Interestingly, molecular collagen I rescued the loss of mitochondrial biogenesis in cells treated with UVB. Loss of PINK1/parkin-mediated mitophagy was dominant for the accumulation of dysfunctional mitochondria after UVB irradiation. Of note, cells cultured on molecular collagen I-precoated plates exhibited reserved mitophagy after UVB irradiation, as reflected by the enhanced protein level of PINK1/parkin, increased mitochondrial ubiquitin and the co-localization of lysosomes and mitochondria. Moreover, in UVB-treated cells, inhibiting mitophagy by Cyclosporin A, or by silencing PINK1 or parkin, disturbed the resolution of mitochondrial stress and reduced the protective effect of molecular collagen I, indicating that mitophagy is pivotal for the protection of collagen I against UVB damage in keratinocytes HaCaT. Collectively, this study reveals an unexpected protective role of collagen I, which facilitates mitophagy to rescue cells under UVB irradiation, providing a new direction for clinical application of collagen products. [Display omitted] • Precoating culture plates with collagen I alleviates UVB-induced HaCaT cell apoptosis. • Collagen I inhibits the accumulation of damaged mitochondria in UVB-treated cells. • Arrest of mitophagy accelerates UVB damage by accumulating damaged mitochondria. • UVB protection caused by collagen I depends on rescuing mitophagy. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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