Liang Zhu
Nantong University
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Publication
Featured researches published by Liang Zhu.
Glycoconjugate Journal | 2015
Lijian Han; Dongmei Zhang; Tao Tao; Xiaolei Sun; Xiaojuan Liu; Guizhou Zhu; Zhiwei Xu; Liang Zhu; Yu Zhang; Wangrui Liu; Kaifu Ke; Aiguo Shen
Accumulating evidences demonstrated that microglia activation and the autocrine loop of tumor necrosis factor-α (TNFα) greatly contribute to the pathogenesis of several CNS diseases. TNFα exerts its biological effects by interacting with two different receptors: TNF receptor 1 (TNFR1) and TNFR2. The classic proinflammatory activity of TNFα is mainly mediated by TNFR1. In the present study, we found that TNFR1 was modificated by N-glycosylation on Asn151 and Asn202 in microglia. The N-glycosylation of TNFR1 could facilitate its capability of binding to TNFα and further promote the formation of TNFα autocrine loop in microglia stimulated by TNFα, resulting in excessive microglia activation and CNS inflammation. All these processes were related to TNFR1-mediated NF-κB pathways. Elimination of N-glycosylation did not affect the subcellular transportation and cell surface localization of TNFR1, but suppressed ligand-binding affinity. These findings indicated that the N-glycosylation of TNFR1 played an important role during microglia activation in CNS inflammation. By this study, we aimed to provide some valuable experimental evidence for a better understanding of the significance of protein glycosylation in microglia inflammatory activation and CNS disease.
International Journal of Molecular Sciences | 2015
Liang Zhu; Tao Tao; Dongmei Zhang; Xiaojuan Liu; Kaifu Ke; Aiguo Shen
O-Linked N-acetylglucosamine, or O-GlcNAc, is a dynamic post-translational modification that cycles on and off serine and threonine residues of nucleocytoplasmic and mitochondrial proteins. In addition to cancer and inflammation diseases, O-GlcNAc modification appears to play a critical role during cell apoptosis and stress response, although the precise mechanisms are still not very clear. Here we found that nitric oxide synthase adaptor (NOS1AP), which plays an important part in glutamate-induced neuronal apoptosis, carries the modification of O-GlcNAc. Mass spectrometry analysis identified Ser47, Ser183, Ser204, Ser269, Ser271 as O-GlcNAc sites. Higher O-GlcNAc of NOS1AP was detected during glutamate-induced neuronal apoptosis. Furthermore, with O-GlcNAc sites of NOS1AP mutated, the interaction of NOS1AP and neuronal nitric oxide syntheses (nNOS) decreases. Finally, during glutamate-induced neuronal apoptosis, decreasing the O-GlcNAc modification of NOS1AP results in more severe neuronal apoptosis. All these results suggest that O-GlcNAc modification of NOS1AP exerts protective effects during glutamate-induced neuronal apoptosis.
Cellular Signalling | 2016
Dongmei Zhang; Zhiwei Xu; Tao Tao; Xiaojuan Liu; Xiaolei Sun; Yuhong Ji; Lijian Han; Huiyuan Qiu; Guizhou Zhu; Yifen Shen; Liang Zhu; Aiguo Shen
Macrophages play many different roles in tissue inflammation and immunity, and the plasticity of macrophage polarization is closely associated with acute inflammatory responses. O-GlcNAcylation is an important type of post-translational modification, which subtly modulates inflammation responses. Transforming growth factor (TGF)-β-activated kinase 1 (TAK1) is a key serine/threonine protein kinase that mediates signals transduced by pro-inflammatory cytokines such as TGF-β, tumor necrosis factor (TNF), and interleukin-1 (IL-1). It is here reported that TGFβ-activated kinase (TAK1) is modified with N-acetylglucosamine (O-GlcNAc) on S427. Both IL-1 and osmotic stress, which are known as the TAK1-signaling inducers, significantly trigger the O-GlcNAcylation of TAK1 in macrophages. By overexpressing wild-type (WT) or S427A TAK1 mutant into macrophages, it was determined that O-GlcNAcylation of TAK1 on S427 is required for T187/S192 phosphorylation and full activation of TAK1 upon stimulation with IL-1α and NaCl. Aborting O-GlcNAcylation of TAK1 on S427 was found to inhibit the downstream JNK and nuclear factor-κB activation and reduce the final amount of cytokines produced in activated macrophages to a great extent. Results also showed that overexpression of the O-GlcNAcylation-deficient mutant of TAK1 promotes LPS-mediated apoptosis in macrophages. Importantly, TAK1 O-GlcNAcylation was found to promote M1 macrophage polarization in activated macrophages. Taken together, these data demonstrate that O-GlcNAcylation of TAK1 on S427 critically regulates the pro-inflammatory activation and M1 polarization of macrophages via modulation of the TAK1/JNK/NF-κB signaling pathway.
Cellular and Molecular Neurobiology | 2016
Zhiwei Xu; Jianping Chen; Jiansheng Shi; Jianmei Zhao; Jun Wang; Yuhong Ji; Lijian Han; Liang Zhu; Xiaohong Li; Dongmei Zhang
Karyopherin α2 (KPNA2) plays a central role in nucleocytoplasmic transport. It is involved in controlling the flow of genetic information and the modulation of diverse cellular activities. Here we explored the KPNA2′s roles during the pathophysiological processes of intracerebral hemorrhage (ICH). An ICH rat model was built and evaluated according to behavioral testing. Using Western blot, immunohistochemistry, and immunofluorescence, significant upregulation of KPNA2 was found in neurons in brain areas surrounding the hematoma following ICH. Increasing KPNA2 level was found to be accompanied by the upregulation of active caspase-3, Bax, and decreased expression of Bcl-2. Besides, KPNA2 co-localized well with active caspase-3 in neurons, indicating its potential role in neuronal apoptosis. What’s more, knocking down KPNA2 by RNA-interference in PC12 cells reduced active caspase-3 expression. Thus, KPNA2 may play a role in promoting the brain secondary damage following ICH.
Cellular and Molecular Neurobiology | 2016
Lijian Han; Yaohui Ni; Maohong Cao; Liang Zhu; Aihua Dai; Zhiwei Xu; Xiaorong Liu; Rongrong Chen; Xiaojin Ning; Kaifu Ke
Interferon gamma-induced GTPase (IGTP), which is also named Irgm3, has been widely described in regulating host resistance against intracellular pathogens. Previous researches have demonstrated that IGTP exerts beneficial function during coxsackievirus B3 (CVB3) infection. However, little information is available regarding the role of IGTP in central nervous system. Here, our study revealed that IGTP may have an essential role during ICH-induced neuronal apoptosis. We found the expression level of IGTP adjacent to hematoma was strongly increased after ICH, accompanied with the up-regulation of proliferating cell nuclear antigen (PCNA), active-caspase-3, p-GSK-3β, and Bax. IGTP was also observed to be co-localized with PCNA in astrocytes and active-caspase-3 in neurons, indicating its association with astrocyte proliferation and neuronal apoptosis after ICH. Finally, in vitro study, knocking down IGTP with IGTP-specific siRNA promoted active-caspase-3, p-GSK-3β, and Bax expression, and led to more severe neuronal apoptosis after ICH. All these results above suggested that IGTP might play a critical role in protecting neurons from apoptosis after ICH.
Cellular and Molecular Neurobiology | 2016
Xiaorong Liu; Yongwei Qin; Aihua Dai; Yu Zhang; Huaqing Xue; Haidan Ni; Lijian Han; Liang Zhu; Debin Yuan; Tao Tao; Maohong Cao
Initial exposure of macrophages to LPS induces hyporesponsiveness to a second challenge with LPS, a phenomenon termed LPS tolerance. Smad4 plays important roles in the induction of LPS tolerance. However, the function of Smad4 in microglia remains unknown. Here we show that expression of Smad4 was highly up-regulated in LPS-tolerized mouse cerebral cortex. Smad4 was mostly colocalized with microglia, rarely with neurons. Using a microglia cell line, BV2, we find that LPS activates endogenous Smad4, inducing its migration into the nucleus and increasing its expression. Smad4 significantly suppressed TLR-triggered production of proinflammatory cytokines (IL-6), increased anti-inflammatory cytokine in LPS-tolerized microglia. Moreover, IL-6 concentrations in culture supernatants after second LPS challenge are higher in SMAD4 small interfering RNA (siRNA) BV2 cells than control siRNA BV2 cells, indicating failure to induce tolerance in absence of Smad4 signaling. In our study, we conclude that both in vivo and in vitro, Smad4 signaling is required for maximal induction of endotoxin tolerance.
Cellular and Molecular Neurobiology | 2017
Liang Zhu; Maohong Cao; Yaohui Ni; Lijian Han; Aihua Dai; Rongrong Chen; Xiaojin Ning; Xiaorong Liu; Kaifu Ke
Human transforming growth factor β-activated kinase (TAK1)-binding protein 3 (TAB3) is a regulator of NF-κB which has been mainly found in a variety of cancers. While TAB3 is highly expressed in brain tissue, little is known about the function of TAB3 in central nervous system. Our group established an animal ICH model with autologous whole blood injected into brain, and also a cell ICH model with hemin stimulation. Our Western blot result showed up-regulation of TAB3 during neuronal apoptosis in the model of intracerebral hemorrhage (ICH), which was also approved by immunofluorescence and immunohistochemistry result. Besides, increasing TAB3 level was accompanied by the increased expression of active-caspase-3, active-caspase-8, and decreased expression of Bcl-2. Furthermore, in in vitro study, the level of neuronal apoptosis was decreased by applying TAB3- RNA interference in PC12 cells. All the results above suggested that TAB3 probably participates in the process of neuronal apoptosis following ICH.
Neurochemical Research | 2016
Hongjian Lu; Xiaojin Ning; Xuelei Tao; Jianbing Ren; Xinjian Song; Weidong Tao; Liang Zhu; Lijian Han; Tao Tao; Jianbin Yang
The JNKs have been implicated in a variety of biological functions in mammalian cells, including apoptosis and the responses to stress. However, the physiological role of these pathways in the intracerebral hemorrhage (ICH) has not been fully elucidated. In this study, we identified a MAPK kinase kinase (MAPKKK), MEKK1, may be involved in neuronal apoptosis in the processes of ICH through the activation of JNKs. From the results of western blot, immunohistochemistry and immunofluorescence, we obtained a significant up-regulation of MEKK1 in neurons adjacent to the hematoma following ICH. Increasing MEKK1 level was found to be accompanied with the up-regulation of p-JNK 3, p53, and c-jun. Besides, MEKK1 co-localized well with p-JNK in neurons, indicating its potential role in neuronal apoptosis. What’s more, our in vitro study, using MEKK1 siRNA interference in PC12 cells, further confirmed that MEKK1 might exert its pro-apoptotic function on neuronal apoptosis through extrinsic pathway. Thus, MEKK1 may play a role in promoting the brain damage following ICH.
Neurochemical Research | 2015
Aihua Dai; Xiaorong Liu; Yu Zhang; Lijian Han; Liang Zhu; Haidan Ni; Rongrong Chen; Maohong Cao
Kpnb1, also known as Importin β1, is a member of the Karyopherin protein family which plays a important role in nuclear import and export pathways. Its expression has been shown to be responsive to stress, such as heat shock, ethanol and oxidative stress. Previous studies demonstrated that Kpnb1 had anti-apoptotic in cervical cancer. These together prompted us to explore whether Kpnb1 has some association with neuron apoptosis in the pathophysiology of intracerebral hemorrhage (ICH). In our study, an ICH model was established by injecting into the right basal ganglia of adult rats with their autologous whole blood and assessed by behavioral tests. We found Kpnb1 were significantly up-regulated adjacent to the hematoma following ICH by Western blot and immunohistochemistry. Double immunofluorenscence manifested Kpnb1 was strikingly increased in neurons, not astrocytes or microglia. Furthermore, we also found that kpnb1 had co-localizations with active-caspase-3 which is a neuronal apoptosis marker suggesting its role in neuronal apoptosis. What’s more, our in vitro study, using Kpnb1 RNA interference in PC12 cells, further indicated that Kpnb1 might exert its pro-apoptotic function on neuronal apoptosis. Therefore, Kpnb1 may play a role in the neuronal apoptosis following ICH.
Neurochemical Research | 2015
Aihua Dai; Xiaorong Liu; Yu Zhang; Lijian Han; Liang Zhu; Haidan Ni; Rongrong Chen; Maohong Cao
AbstractKpnb1, also known as Importin β1, is a member of the Karyopherin protein family which plays a important role in nuclear import and export pathways. Its expression has been shown to be responsive to stress, such as heat shock, ethanol and oxidative stress. Previous studies demonstrated that Kpnb1 had anti-apoptotic in cervical cancer. These together prompted us to explore whether Kpnb1 has some association with neuron apoptosis in the pathophysiology of intracerebral hemorrhage (ICH). In our study, an ICH model was established by injecting into the right basal ganglia of adult rats with their autologous whole blood and assessed by behavioral tests. We found Kpnb1 were significantly up-regulated adjacent to the hematoma following ICH by Western blot and immunohistochemistry. Double immunofluorenscence manifested Kpnb1 was strikingly increased in neurons, not astrocytes or microglia. Furthermore, we also found that kpnb1 had co-localizations with active-caspase-3 which is a neuronal apoptosis marker suggesting its role in neuronal apoptosis. What’s more, our in vitro study, using Kpnb1 RNA interference in PC12 cells, further indicated that Kpnb1 might exert its pro-apoptotic function on neuronal apoptosis. Therefore, Kpnb1 may play a role in the neuronal apoptosis following ICH.