Chiung Wen Chang scite author profile

Pyroptosis is critical for macrophages against pathogen infection, but its role and mechanism in cancer cells remain unclear. PD-L1 has been detected in the nucleus with unknown function. Here, we show that PD-L1 switches TNFα-induced apoptosis to pyroptosis in cancer cells, resulting in tumor necrosis. Under hypoxia, p-Stat3 physically interacts with PD-L1 and facilitates its nuclear translocation, enhancing gasdermin C (GSDMC) gene transcription. GSDMC is specifically cleaved by caspase-8 with TNFα treatment, generating a GSDMC N-terminal domain that forms pores on cell membrane and induces pyroptosis. Nuclear PD-L1, caspase-8, and GSDMC are required for macrophage-derived TNFα-induced tumor necrosis in vivo . Moreover, high expression of GSDMC correlates with poor survival. Antibiotic chemotherapy drugs induce pyroptosis in breast cancer. These findings identify a non-immune checkpoint function of PD-L1 and provide an unexpected concept that GSDMC/Caspas-8 mediates non-canonical pyroptosis pathway in cancer cells, causing tumor necrosis.

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Structural Biology and Regulation of Protein Import into the Nucleus

Christie

Chang

Róna

et al. 2016

Journal of Molecular Biology

220

243

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Proteins are translated in the cytoplasm, but many need to access the nucleus to perform their functions. Understanding how these nuclear proteins are transported through the nuclear envelope and how the import processes are regulated is therefore an important aspect of understanding cell function. Structural biology has played a key role in understanding the molecular events during the transport processes and their regulation, including the recognition of nuclear targeting signals by the corresponding receptors. Here, we review the structural basis of the principal nuclear import pathways and the molecular basis of their regulation. The pathways involve transport factors that are members of the β-karyopherin family, which can bind cargo directly (e.g., importin-β, transportin-1, transportin-3, importin-13) or through adaptor proteins (e.g., importin-α, snurportin-1, symportin-1), as well as unrelated transport factors such as Hikeshi, involved in the transport of heat-shock proteins, and NTF2, involved in the transport of RanGDP. Solenoid proteins feature prominently in these pathways. Nuclear transport factors recognize nuclear targeting signals on the cargo proteins, including the classical nuclear localization signals, recognized by the adaptor importin-α, and the PY nuclear localization signals, recognized by transportin-1. Post-translational modifications, particularly phosphorylation, constitute key regulatory mechanisms operating in these pathways.

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Apparent Half-Lives of Dioxins, Furans, and Polychlorinated Biphenyls as a Function of Age, Body Fat, Smoking Status, and Breast-Feeding

Milbrath

Wenger

Chang

et al. 2009

Environ Health Perspect

238

155

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ObjectiveIn this study we reviewed the half-life data in the literature for the 29 dioxin, furan, and polychlorinated biphenyl congeners named in the World Health Organization toxic equivalency factor scheme, with the aim of providing a reference value for the half-life of each congener in the human body and a method of half-life estimation that accounts for an individual’s personal characteristics.Data sources and extractionWe compared data from > 30 studies containing congener-specific elimination rates. Half-life data were extracted and compiled into a summary table. We then created a subset of these data based on defined exclusionary criteria.Data synthesisWe defined values for each congener that approximate the half-life in an infant and in an adult. A linear interpolation of these values was used to examine the relationship between half-life and age, percent body fat, and absolute body fat. We developed predictive equations based on these relationships and adjustments for individual characteristics.ConclusionsThe half-life of dioxins in the body can be predicted using a linear relationship with age adjusted for body fat, smoking, and breast-feeding. Data suggest an alternative method based on a linear relationship between half-life and total body fat, but this approach requires further testing and validation with individual measurements.

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Identification of a developmentally regulated striatum-enriched zinc-finger gene, Nolz-1 , in the mammalian brain

Chang

Tsai

Wang

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

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Neural information processed through the striatum of the basal ganglia is crucial for sensorimotor and psychomotor functions. Genes that are highly expressed in the striatum during development may be involved in neural development and plasticity in the striatum. We report in the present study the identification of a previously uncharacterized mammalian member of the nocA͞elB͞ tlp-1 family, Nolz-1, that is preferentially expressed at high levels in the developing striatum. Nolz-1 mRNA was expressed as soon as striatal anlage began to form at embryonic day 13 in the rat. Nolz-1 mRNA was predominantly expressed in the lateral ganglionic eminence (striatal primordium) and was nearly absent in the adjacent structures of the medial ganglionic eminence and the cerebral cortex. Moreover, Nolz-1 was highly expressed in the subventricular zone of the lateral ganglionic eminence and was colocalized with the early neuronal differentiation markers of TuJ1 and Isl1 and the projection neuron marker of DARPP-32, suggesting that Nolz-1 was expressed in differentiating progenitors of striatal projection neurons. A time course study showed that Nolz-1 mRNA was developmentally regulated, as its expression was downregulated postnatally with low levels remaining in the ventral striatum at adulthood. As the tagged Nolz-1 protein was localized in the nucleus, Nolz-1 may function as transcriptional regulator. In a model system for neural differentiation, Nolz-1 mRNA was dramatically induced on neural induction of P19 embryonal carcinoma cells by retinoic acid, suggesting that Nolz-1 activation may be involved in neural differentiation. Our study suggests that Nolz-1 is preferentially expressed in differentiating striatal progenitors and may be engaged in the genetic program for controlling striatal development.T he striatum is the major input information processing unit in the basal ganglia circuits of the mammalian forebrain. What makes the striatum an attractive and important system for neurobiological study is its involvement in multiple neurological functions ranging from motor control, cognition, emotion, and reinforcement to plasticity underlying learning and memory (1). The importance of the striatum is also reflected in a number of neurological disorders, including Parkinson's disease, Huntington's disease, and obsessive-compulsive disorders in which malfunction of neurotransmission or neurodegeneration are associated with the striatal system (2, 3). The study of development and function of the striatum is thus fundamentally important not only to the understanding of integrative brain function, but also to the development of therapeutic approaches to neurological diseases.An experimental approach to study the development and function of the striatum is to identify genes that are preferentially expressed by striatal neurons. Based on the study of cDNA subtractive hybridization cloning, it has been estimated that there are about 100 genes that are preferentially expressed at high levels in the striatum (4). The striatum-enriched g...

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Chiung Wen Chang

PD-L1-mediated gasdermin C expression switches apoptosis to pyroptosis in cancer cells and facilitates tumour necrosis

Structural Biology and Regulation of Protein Import into the Nucleus

Apparent Half-Lives of Dioxins, Furans, and Polychlorinated Biphenyls as a Function of Age, Body Fat, Smoking Status, and Breast-Feeding

Identification of a developmentally regulated striatum-enriched zinc-finger gene, Nolz-1 , in the mammalian brain

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