Yingxia Tian scite author profile

The ubiquitin ligase RNF8 promotes the DNA damage response (DDR). We observed that the expression of RNF8 was increased in bladder cancer cells and that this change in RNF8 expression could be reversed by adenovirus-mediated shRNA treatment. Moreover, we found that RNF8 knockdown sensitized bladder cancer cells to radiotherapy, as demonstrated by reduced cell survival. Additionally, the absence of RNF8 induced a high rate of apoptosis and impaired double-strand break repair signaling after radiotherapy. Furthermore, experiments on nude mice showed that combining shRNF8 treatment with radiotherapy suppressed implanted bladder tumor growth and enhanced apoptotic cell death in vivo. Altogether, our results indicated that RNF8 might be a novel target for bladder cancer treatment.

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RNF8 deficiency results in neurodegeneration in mice

Ouyang

Song

Tian

et al. 2015

Neurobiology of Aging

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The progressive loss of neurons causes neurodegenerative diseases. Because the accumulation of DNA breaks results in neuronal apoptosis, the lack of a variety of DNA damage repair-related proteins contributes to neurodegeneration. The ubiquitin ligase RNF8 plays an important role in DNA double-strand break repair via histone ubiquitination. However, the function of RNF8 in terminally differentiated neurons remains unknown. This study aimed to determine whether RNF8 is involved in the DNA damage response in neurons and contributes to neurodegeneration. Here, we present evidence suggesting that RNF8 deficiency results in DNA damage accumulation and neuronal apoptosis. RNF8−/−mice exhibit neuronal degeneration and reactive astrocytosis. Neurons from RNF8−/− mice appear to be more susceptible to X-ray-induced DNA damage. These changes were consistent with the behavioral performances of the RNF8-deficient mice, which included impaired performances in the open-field test and step-down avoidance task. Overall, these findings show that RNF8 is required for DNA damage repair in neurons. RNF8 deficiency is sufficient to cause neuronal pathology and cognitive decline, and the loss of RNF8 results in neuron degeneration.

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DNA damage preceding dopamine neuron degeneration in A53T human α-synuclein transgenic mice

Wang

Liu

et al. 2016

Biochemical and Biophysical Research Communications

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RAD6B Plays a Critical Role in Neuronal DNA Damage Response to Resist Neurodegeneration

Zhao

Tian

Guo

et al. 2019

Front. Cell. Neurosci.

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RAD6 participates in DNA double-strand breaks (DSBs) repair by ubiquitinating histone H2B in mitotic cells. In terminally differentiated cells, however, the mechanisms of DNA damage repair are less well known. In this study, we investigate whether RAD6B is involved in DSBs repair in neurons and effects of RAD6B deficiency on neuronal survival. We compared neurons of RAD6B-deficient mice with those of littermate wild type (WT) mice and induced DNA damage by X-ray irradiation. We provide evidence that RAD6B is essential for neural DDR and RAD6B deficiency results in increased genomic instability and neurodegeneration. Moreover, higher levels of p53 and p21 are present in the brains of RAD6B-deficient mice, which may be responsible for neuronal senescence, and degeneration. In addition, behavioral experiments show that RAD6B-deficient mice exhibit marked learning and memory deficits. In conclusion, these findings suggest that RAD6B is critical for neural integrity and that the absence of RAD6B accelerates neurodegeneration in mice.

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Carbon ion irradiation induces DNA damage in melanoma and optimizes the tumor microenvironment based on the cGAS–STING pathway

Guo

Shen

Wang

et al. 2023

J Cancer Res Clin Oncol

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Yingxia Tian

Adenovirus-mediated downregulation of the ubiquitin ligase RNF8 sensitizes bladder cancer to radiotherapy

RNF8 deficiency results in neurodegeneration in mice

DNA damage preceding dopamine neuron degeneration in A53T human α-synuclein transgenic mice

RAD6B Plays a Critical Role in Neuronal DNA Damage Response to Resist Neurodegeneration

Carbon ion irradiation induces DNA damage in melanoma and optimizes the tumor microenvironment based on the cGAS–STING pathway

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