Dongxin Zeng scite author profile

Respiratory syncytial virus (RSV) is the most important pathogen correlated to the first-time infant wheezing and later recurrence after its primary infection. RSV infection promotes the bronchial smooth muscle sensitivity to leukotrienes (LTs) in acute stage, causes the extensive inflammatory reaction and the aggregation of Th2-like cells during respiratory tract obstruction. Infants and young children infected with RSV exhibit an increased susceptibility to the exposure of exogenous allergens, easy to suffer from the recurrent wheezing, which prompts that the body is still in a state of inflammation or immunological bias. However, the pathological mechanism is unclear. The recent researches demonstrate that abnormal expression of non-coding microRNAs (miRNAs) can be detected from the peripheral blood and airway tract epithelial of RSV infected infants, which participate the regulation of immune cells polarization and LTs synthesis. Improving the immune tolerance can significantly relieve the airway inflammation and broncho-spasm caused by RSV. In this review, we discuss recent advances in understanding the mechanism of RSV-induced inflammatory reaction and immune dysfunction leading to airway hyper-reactivity. Further, we summarize the potential molecular basis that, in this process, miRNAs, which are produced by airway epithelial cells or peripheral blood mononuclear cells, directly or in the form of exosome to regulate the inflammation programs as well as the function, differentiation and proliferation of immune cells. miRNAs may become a potential bio-marker of detecting severe RSV infection and a novel target of early intervention and therapeutic strategy in recurrent wheezing or asthma related to RSV infection.

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New Insights of Human Parvovirus B19 in Modulating Erythroid Progenitor Cell Differentiation

Feng

Zeng

Zheng

et al. 2020

Viral Immunology

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Human Parvovirus B19 Nonstructural Protein 1 Regulates GATA1 Expression via the Notch Signaling Pathway in K562 Cell Line

Zeng¹,

Zheng²,

Feng³

et al. 2022

Front. Biosci. (Landmark Ed)

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Background: Human parvovirus B19 (B19) infection can affect the hematopoietic arrest in fetus by hindering the differentiation and maturation of erythroid progenitor cells. B19 nonstructural protein 1 (NS1) has been shown to inhibit the differentiation of erythroid progenitor cells. The goal of this study is to explore the role of B19 NS1 in the regulation of GATA1 and Notch signaling pathway in hematopoietic cells. Methods: The B19 NS1 expression plasmid was reconstituted, and the possibility of NS1 regulating GATA1 and GATA2 expression modulated by Notch-Hes pathway was tested by qRT-PCR and western blot. Immunofluorescence assays were conducted to visualize pNS1 in K562 cells. Results: We demonstrate that B19 NS1 inhibited GATA1 and induced Hes1/Hes5, which is involved in the activation of Notch signaling pathway. Meanwhile, NS1 exhibited promoting effects on GATA2 expression. Activation of the Notch signaling pathway up-regulated its downstream transcriptional repressor family Hes, thereby inhibiting the expression of GATA gene in K562 cells. Conclusions: The results show that B19 NS1 protein negatively regulates GATA1 related nuclear transcription and may interfere with hematopoietic cell differentiation.

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New Insights of Human Parvovirus B19 in Modulating Erythroid Progenitor Cells Differentiation

Feng¹,

Zeng²,

Zheng³

et al. 2019

Preprint

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Background Human parvovirus B19, a human pathogen of the erythroparvovirus genus, is responsible for a variety of diseases. Despite less symptoms caused by B19 infection in healthy individuals, this pathogen can not be neglected in specific groups who exhibit severe anemia. Main body of abstract Transient aplastic crisis and pure red cell aplasia are two kinds of anemic hemogram respectively in acute phase and chronic B19 infection, especially occur in individuals with a shortened red cell survival or immunocompromised patients. In addition, B19 infected pregnant women may suffer risks of hydrops fetalis secondary to severe anemia and fetal loss. B19 possesses high affinity to bone marrow and fetal liver due to its extremely restricted cytotoxicity to erythroid progenitor cells mediated by viral proteins. The nonstructural protein NS1 is considered to be the major pathogenic factor, which takes parts in differentiational inhibition and apoptosis of erythroid progenitor cells through inducing viral DNA damage responses and cell cycle arrest. The time phase property of NS1 activity during DNA replication and conformity to transient change of hemogram are suggestive of its role in regulating differentiation of hematopoietic cells, which is not completely understood. Conclusion In this review, we set up a hypothetic bridge between B19 NS1 and Notch signaling pathway or transcriptional factors GATA which are essential in hematopoiesis, to provide a new insight of the potential mechanism of B19-induced differentiational inhibition of erythroid progenitor cells.

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Dongxin Zeng

MicroRNAs: Mediators and Therapeutic Targets to Airway Hyper Reactivity After Respiratory Syncytial Virus Infection

New Insights of Human Parvovirus B19 in Modulating Erythroid Progenitor Cell Differentiation

Human Parvovirus B19 Nonstructural Protein 1 Regulates GATA1 Expression via the Notch Signaling Pathway in K562 Cell Line

New Insights of Human Parvovirus B19 in Modulating Erythroid Progenitor Cells Differentiation

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