Zhaohua Qiu scite author profile

Zhaohua Qiu

5Publications

52Citation Statements Received

60Citation Statements Given

How they've been cited

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144

Affiliations

Washington University in St. Louis, University of Wisconsin–Madison, Beijing Radiation Center

Publications

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The Influence of Skeletal Muscle on the Regulation of Liver:Body Mass and Liver Regeneration

Huang

Glauber

Qiu

et al. 2012

The American Journal of Pathology

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The relationship between liver and body mass is exemplified by the precision with which the liver:body mass ratio is restored after partial hepatic resection. Nevertheless, the compartments, against which liver mass is so exquisitely regulated, currently remain undefined. In the studies reported here, we investigated the role of skeletal muscle mass in the regulation of liver:body mass ratio and liver regeneration via the analysis of myostatin-null mice, in which skeletal muscle is hypertrophied. The results showed that liver mass is comparable and liver:body mass significantly diminished in the null animals compared to age-, sex-, and strain-matched controls. In association with these findings, basal hepatic Akt signaling is decreased, and the expression of the target genes of the constitutive androstane receptor and the integrin-linked kinase are dysregulated in the myostatin-null mice. In addition, the baseline expression levels of the regulators of the G1-S phase cell cycle progression in liver are suppressed in the null mice. The initiation of liver regeneration is not impaired in the null animals, although it progresses toward the lower liver:body mass set point. The data show that skeletal muscle is not the body component against which liver mass is positively regulated, and thus they demonstrate a previously unrecognized systemic compartmental specificity for the regulation of liver:body mass ratio.

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Nuclear and Mitochondrial Localization Signals Overlap within Bovine Herpesvirus 1 Tegument Protein VP22

Zhu¹,

Qiu²,

Wiese

et al. 2005

Journal of Biological Chemistry

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VP22, a tegument protein of bovine herpesvirus 1, accumulates in the nucleus of infected and transiently transfected cells. Previous studies indicated a possible regulatory function of VP22 within nuclei, but how VP22 enters nuclei is unknown. Despite the abundance of basic residues within this protein, no classic nuclear localization signal (NLS) motif has been identified. To identify the signal directing nuclear accumulation, a series of truncations, internal deletions, and point mutations were constructed. Fluorescence microscopy of cells transfected with VP22 constructs indicated that a sequence of 103 residues is necessary and sufficient for nuclear localization. This NLS sequence is conformation-sensitive in contrast to a classical sequential NLS. Energy depletion assays and co-immunoprecipitation suggested that this NLS sequence also binds histone H4, resulting in nuclear retention of VP22. In addition, a mitochondrial targeting sequence was identified at the C-terminal 49 amino acids, which overlapped the sequence required for nuclear targeting. Our findings demonstrate the diversity of VP22 protein to localize within the cell and provide the opportunity for VP22 to direct cargo specifically to different subcellular compartments.VP22 is a major component of the herpesvirus tegument, a viral compartment located between the capsid and envelope. As is true for many viral tegument proteins, the function of VP22 in viral replication and infection is yet to be elucidated. Bovine herpesvirus 1 (BHV-1) 1 VP22 is dispensable for viral growth in cell culture, but deletion of VP22 from the virus genome delays virus growth and greatly reduces virus yield (1). A herpes simplex virus-1 mutant expressing a truncated form of VP22 has been characterized (2). Interestingly a deletion mutant of VP22 is avirulent in infected cattle, suggesting that VP22 is an important virulence factor and may play a modulatory role in BHV-1 in vivo infection (3).Although VP22 has no "classical" nuclear localization signal (NLS), it accumulates in the nucleus of infected cells by an unknown mechanism. In the nucleus, VP22 associates with a variety of viral and cellular factors. For example, VP22 binds VP16, an important viral transactivator of early gene expression, and is considered to regulate the function of VP16 (4). VP22 also interacts with template-activating factor I, a chromatin-remodeling protein. Template-activating factor I promotes an ordered transfer of histones to naked DNA, and binding of VP22 to template-activating factor I may regulate the function of template-activating factor I and interfere with nucleosomal deposition of the virus genome in early infection (5). We previously reported that BHV VP22 also binds nucleosomes, interfering with acetylation of histone H4 (6), suggesting a possible regulatory role of VP22 in virus infection. Interestingly expression of VP22 in transfected cells up-regulates the expression ratio of Bax/Bcl-2 inducing apoptosis (7). In addition, herpes simplex virus VP22 can bind and traffic mRNA t...

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Bovine Herpesvirus Tegument Protein VP22 Enhances Thymidine Kinase/Ganciclovir Suicide Gene Therapy for Neuroblastomas Compared to Herpes Simplex Virus VP22

Qiu

Harms

Zhu

et al. 2004

J Virol

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Herpesvirus tegument protein VP22 can enhance the effect of therapeutic proteins in gene therapy, such as thymidine kinase (tk) and p53; however, the mechanism is unclear or controversial. In this study, mammalian expression vectors carrying bovine herpesvirus 1 (BHV-1) VP22 (BVP22) or herpes simplex virus type 1 (HSV-1) VP22 (HVP22) and equine herpesvirus type 4 (EHV-4) tk (Etk) were constructed in order to evaluate and compare the therapeutic potentials of BVP22 and HVP22 to enhance Etk/ganciclovir (Etk/GCV) suicide gene therapy for neuroblastomas by GCV cytotoxicity assays and noninvasive bioluminescent imaging in vitro and in vivo. BVP22 enhanced Etk/GCV cytotoxicity compared to that with HVP22 both in vitro and in vivo. However, assays utilizing a mixture of parental and stably transfected cells indicated that the enhancement was detected only in transfected cells. Thus, the therapeutic potential of BVP22 and HVP22 in Etk/GCV suicide gene therapy in this tumor system is not due to VP22 delivery of Etk into surrounding cells but rather is likely due to an enhanced intracellular effect.

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Human augmenter of liver regeneration: Molecular cloning, biological activity and roles in liver regeneration

Xiaoming¹,

Xie²,

Qiu³

et al. 1997

Sci. China Ser. C.-Life Sci.

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The complete amino acid sequence of human augmenter of liver regeneration (hALR) was reported by deduction from nucleotide sequence of its complementary DNA. The cDNA for hALR was isolated by screening a human fetal liver cDNA library and the sequencing of this insert revealed an open reading frame encoding a protein with 125aa and highly homologous (87%) with rat ALR encoding sequence. The recombinant hALR expressed from its cDNA in transient expression experiments in cos-7 cells could stimulate DNA synthesis of HTC hepatoma cell in the dose-dependent and heat-resistant way. Northern blot analysis with rat ALR cDNA as probe confirmed that ALR mRNA was expressed in the normal rat liver at low level and that dramatically increased in the regenerating liver after partial hepatectomied rat. This size of hALR mRNA is 1.4 kb long and expressed in human fetal liver, kidney and testis. These findings indicated that liver itself may be the resource of ALR and suggested that ALR seems to be an important paracrined regulator of liver regeneration.

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Bovine Herpesvirus VP22 Induces Apoptosis in Neuroblastoma Cells by Upregulating the Expression Ratio of Bax to Bcl-2

et al. 2005

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Herpesvirus tegument protein VP22 has been shown to have biotherapeutic potential in tumor gene therapy. Some studies indicate that VP22 may enhance the transfer efficiency of therapeutic proteins by delivering them to more cells while trafficking. Our previous study showed that bovine herpesvirus VP22 (BVP22) enhanced equine herpesvirus thymidine kinase-ganciclovir (Etk-GCV) suicide gene therapy by an unknown intracellular effect. In this study, the interaction between BVP22 and host tumor cells was studied in neuroblastoma NXS2 cells. Cell cycle analysis was performed to determine whether BVP22 possesses biotherapeutic potential by altering the cell cycle, making cells more sensitive to therapeutic genes. As a result, the cell cycle was not affected by the transfection of BVP22 into NXS2 cells. However, cytotoxicity induced by BVP22 was observed in NXS2 cells on the second and third days after transient transfection. Further, analyses of caspase-3 activity and apoptosis suggested that BVP22 induces apoptosis in host tumor cells by upregulating the expression ratio of Bax to Bcl-2.

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Zhaohua Qiu

The Influence of Skeletal Muscle on the Regulation of Liver:Body Mass and Liver Regeneration

Nuclear and Mitochondrial Localization Signals Overlap within Bovine Herpesvirus 1 Tegument Protein VP22

Bovine Herpesvirus Tegument Protein VP22 Enhances Thymidine Kinase/Ganciclovir Suicide Gene Therapy for Neuroblastomas Compared to Herpes Simplex Virus VP22

Human augmenter of liver regeneration: Molecular cloning, biological activity and roles in liver regeneration

Bovine Herpesvirus VP22 Induces Apoptosis in Neuroblastoma Cells by Upregulating the Expression Ratio of Bax to Bcl-2

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