Jun Zhong scite author profile

The deubiquitinase HAUSP (herpesvirus-associated ubiquitin-specific protease; also called USP7) has a critical role in regulating the p53-Mdm2 (murine double minute 2) pathway. By using the conventional knockout approach, we previously showed that hausp inactivation leads to early embryonic lethality. To fully understand the physiological functions of hausp, we have generated mice lacking hausp specifically in the brain and examined the impacts of this manipulation on brain development. We found that deletion of hausp in neural cells resulted in neonatal lethality. The brains from these mice displayed hypoplasia and deficiencies in development, which were mainly caused by p53-mediated apoptosis. Detailed analysis also showed an increase of both p53 levels and p53-dependent transcriptional activation in hausp knockout brains. Notably, neural cell survival and brain development of hausp-mutant mice can largely be restored in the p53-null background. Nevertheless, in contrast to the case of mdm2- and mdm4 (murine double minute 4)-mutant mice, inactivation of p53 failed to completely rescue the neonatal lethality of these hausp-mutant mice. These results indicate that HAUSP-mediated p53 regulation is crucial for brain development, and also suggest that both the p53-dependent and the p53-independent functions of HAUSP contribute to the neonatal lethality of hausp-mutant mice.

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IL-25 stimulates M2 macrophage polarization and thereby promotes mitochondrial respiratory capacity and lipolysis in adipose tissues against obesity

Feng

et al. 2017

Cell Mol Immunol

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Obesity and associated metabolic diseases are characterized by a chronic low-grade inflammatory state with the infiltration of many inflammatory cells, especially macrophages. Immune molecules, including some cytokines, have a close relationship with metabolism. Interleukin (IL)-25 is a member of the IL-17 cytokine family that can regulate macrophages and alleviate some metabolic dysfunction; however, its role and mechanisms in lipid metabolism remain to be extensively clarified. Human serum and liver biopsy specimens, high-fat diet-induced obesity mice and DB/DB (Lepr−/−) animal models were used to examine IL-25 expression in obesity and nonalcoholic fatty liver diseases (NAFLD). To observe the role of IL-25 in lipid metabolism, model mice were administered with IL-25 or adoptively transferred with IL-25-educated macrophages in vivo, whereas bone marrow-derived macrophages, the macrophage cell line RAW264.7 and adipocytes differentiated from 3T3-L1 were used in vitro. IL-25 was decreased in NAFLD patients and obese mice. In addition, IL-25 reduced body weight gain and lipid accumulation, enhanced lipid uptake by macrophages and increased the expression of lipolysis and β-oxidation enzymes via alternatively activating macrophages. IL-25 also promoted lipolysis and suppressed lipogenesis in adipocytes co-cultured with the IL-25-educated macrophages. Furthermore, IL-25 improved the mitochondrial respiratory capacity and oxygen consumption rate of macrophages and produced more NAD+/NADH and ATP. In conclusion, IL-25 can stimulate M2 macrophage polarization and thereby promote lipolysis and mitochondrial respiratory capacity, highlighting the potential for IL-25 to be used as a therapeutic agent against obesity and associated metabolic syndromes.

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Inactivation of arf-bp1 Induces p53 Activation and Diabetic Phenotypes in Mice

Kon

Zhong

et al. 2012

Journal of Biological Chemistry

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Background: ARF-BP1 is involved in Mdm2-independent p53 degradation. Results: Inactivation of arf-bp1 in mice resulted in p53 activation and embryonic lethality. Inactivation of arf-bp1 in pancreatic ␤-cells resulted in diabetes, which was partially rescued by loss of p53. Conclusion: p53 is critically regulated by ARF-BP1 in vivo and in ␤-cells. Significance: ARF-BP1 is important for maintaining pancreatic ␤-cell homeostasis in aging mice.

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RFP-mediated ubiquitination of PTEN modulates its effect on AKT activation

et al. 2013

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The PTEN tumor suppressor is a lipid phosphatase that has a central role in regulating the phosphatidylinositol-3-kinase (PI3K) signal transduction cascade. Nevertheless, the mechanism by which the PTEN activity is regulated in cells needs further elucidation. Although previous studies have shown that ubiquitination of PTEN can modulate its stability and subcellular localization, the role of ubiquitination in the most critical aspect of PTEN function, its phosphatase activity, has not been fully addressed. Here, we identify a novel E3 ubiquitin ligase of PTEN, Ret finger protein (RFP), that is able to promote atypical polyubiquitinations of PTEN. These ubiquitinations do not lead to PTEN instability or relocalization, but rather significantly inhibit PTEN phosphatase activity and therefore modulate its ability to regulate the PI3K signal transduction cascade. Indeed, RFP overexpression relieves PTEN-mediated inhibitory effects on AKT activation; in contrast, RNAi-mediated knockdown of endogenous RFP enhances the ability of PTEN to suppress AKT activation. Moreover, RFP-mediated ubiquitination of PTEN inhibits PTEN-dependent activation of TRAIL expression and also suppresses its ability to induce apoptosis. Our findings demonstrate a crucial role of RFP-mediated ubiquitination in controlling PTEN activity.

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Ferrostatin-1 Alleviates White Matter Injury Via Decreasing Ferroptosis Following Spinal Cord Injury

Xue

Xian

et al. 2021

Mol Neurobiol

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Spinal cord injury (SCI), a devastating neurological impairment, ubiquitously imposes a long-term psychological stress and high socioeconomic burden for the suffers and their family. To date, recent researchers have paid arousing attention to white matter injury and uncovering the underlying mechanism post-SCI. Ferroptosis, to our knowledge, has been revealed to be associated with diverse diseases including stroke, cancer, and kidney degeneration. However, its role in white matter damage after SCI remains unclear. Ferrostatin-1, a potent inhibitor of ferroptosis, has been illustrated to curb ferroptosis in neurons, subsequently improve functional recovery after traumatic brain injury (TBI). But whether it inhibits white matter injury post-SCI is still unknown. Here, our results indicated that ferroptosis played an important role in the secondary white matter injury following SCI and ferrostatin-1 could reduce iron and reactive oxygen species (ROS) accumulation, downregulate the ferroptosis-related genes and its products of IREB2 and PTGS2 to further inhibit ferroptosis in oligodendrocyte progenitor cells (OPCs), nally reducing white matter injury and promoting functional recovery following SCI in rats, which enlarges the therapeutic scope for ferrostatin-1 and deciphers the potential mechanism of white matter damage after SCI.

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Differential Effects on ARF Stability by Normal versus Oncogenic Levels of c-Myc Expression

et al. 2013

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SUMMARY ARF suppresses aberrant cell growth upon c-Myc overexpression through activating p53 responses. Nevertheless, the precise mechanism by which ARF specifically, restrains the oncogenic potential of c-Myc without affecting its normal physiological function is not well understood. Here, we show that low levels of c-Myc expression stimulate cell proliferation whereas high levels inhibit through activating the ARF-p53 response. Although the mRNA levels of ARF are induced under both scenarios, the accumulation of ARF protein occurs only when ULF-mediated degradation of ARF is inhibited by c-Myc overexpression. Moreover, the levels of ARF are reduced through ULF-mediated ubiquitination upon DNA damage. Blocking ARF degradation by c-Myc overexpression dramatically stimulates the apoptotic responses. Our study reveals that ARF stability control is crucial for differentiating normal (low) vs. oncogenic (high) levels of c-Myc expression and suggests that differential effects on ULF- mediated ARF ubiquitination by c-Myc levels act as a barrier in oncogene-induced stress responses.

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MyoD is a 3D genome structure organizer for muscle cell identity

Wang

Chen

et al. 2022

Nat Commun

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The genome exists as an organized, three-dimensional (3D) dynamic architecture, and each cell type has a unique 3D genome organization that determines its cell identity. An unresolved question is how cell type-specific 3D genome structures are established during development. Here, we analyzed 3D genome structures in muscle cells from mice lacking the muscle lineage transcription factor (TF), MyoD, versus wild-type mice. We show that MyoD functions as a “genome organizer” that specifies 3D genome architecture unique to muscle cell development, and that H3K27ac is insufficient for the establishment of MyoD-induced chromatin loops in muscle cells. Moreover, we present evidence that other cell lineage-specific TFs might also exert functional roles in orchestrating lineage-specific 3D genome organization during development.

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MitoQ attenuates brain damage by polarizing microglia towards the M2 phenotype through inhibition of the NLRP3 inflammasome after ICH

Chen

Guo

Huang

et al. 2020

Pharmacological Research

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Jun Zhong

Roles of HAUSP-mediated p53 regulation in central nervous system development

IL-25 stimulates M2 macrophage polarization and thereby promotes mitochondrial respiratory capacity and lipolysis in adipose tissues against obesity

Inactivation of arf-bp1 Induces p53 Activation and Diabetic Phenotypes in Mice

RFP-mediated ubiquitination of PTEN modulates its effect on AKT activation

Ferrostatin-1 Alleviates White Matter Injury Via Decreasing Ferroptosis Following Spinal Cord Injury

Differential Effects on ARF Stability by Normal versus Oncogenic Levels of c-Myc Expression

MyoD is a 3D genome structure organizer for muscle cell identity

MitoQ attenuates brain damage by polarizing microglia towards the M2 phenotype through inhibition of the NLRP3 inflammasome after ICH

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