Jia Zou scite author profile

Jia Zou

5Publications

15Citation Statements Received

559Citation Statements Given

How they've been cited

How they cite others

562

544

Affiliations

Wuhan University of Science and Technology, Southern University of Science and Technology

Publications

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Mettl14-Mediated m6A Modification Is Essential for Germinal Center B Cell Response

Huang

Zhang

Ruan

et al. 2022

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The germinal center (GC) response is essential for generating memory B and long-lived Ab-secreting plasma cells during the T cell–dependent immune response. In the GC, signals via the BCR and CD40 collaboratively promote the proliferation and positive selection of GC B cells expressing BCRs with high affinities for specific Ags. Although a complex gene transcriptional regulatory network is known to control the GC response, it remains elusive how the positive selection of GC B cells is modulated posttranscriptionally. In this study, we show that methyltransferase like 14 (Mettl14)–mediated methylation of adenosines at the position N6 of mRNA (N6-methyladenosine [m6A]) is essential for the GC B cell response in mice. Ablation of Mettl14 in B cells leads to compromised GC B cell proliferation and a defective Ab response. Interestingly, we unravel that Mettl14-mediated m6A regulates the expression of genes critical for positive selection and cell cycle regulation of GC B cells in a Ythdf2-dependent but Myc-independent manner. Furthermore, our study reveals that Mettl14-mediated m6A modification promotes mRNA decay of negative immune regulators, such as Lax1 and Tipe2, to upregulate genes requisite for GC B cell positive selection and proliferation. Thus, our findings suggest that Mettl14-mediated m6A modification plays an essential role in the GC B cell response.

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Dynamic regulation and key roles of ribonucleic acid methylation

Zou

Liu

Tan

et al. 2022

Front. Cell. Neurosci.

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Ribonucleic acid (RNA) methylation is the most abundant modification in biological systems, accounting for 60% of all RNA modifications, and affects multiple aspects of RNA (including mRNAs, tRNAs, rRNAs, microRNAs, and long non-coding RNAs). Dysregulation of RNA methylation causes many developmental diseases through various mechanisms mediated by N6-methyladenosine (m6A), 5-methylcytosine (m5C), N1-methyladenosine (m1A), 5-hydroxymethylcytosine (hm5C), and pseudouridine (Ψ). The emerging tools of RNA methylation can be used as diagnostic, preventive, and therapeutic markers. Here, we review the accumulated discoveries to date regarding the biological function and dynamic regulation of RNA methylation/modification, as well as the most popularly used techniques applied for profiling RNA epitranscriptome, to provide new ideas for growth and development.

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The RNA-binding protein hnRNP F is required for the germinal center B cell response

Huang

Zhang

et al. 2023

Nat Commun

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The T cell-dependent (TD) antibody response involves the generation of high affinity, immunoglobulin heavy chain class-switched antibodies that are generated through germinal center (GC) response. This process is controlled by coordinated transcriptional and post-transcriptional gene regulatory mechanisms. RNA-binding proteins (RBPs) have emerged as critical players in post-transcriptional gene regulation. Here we demonstrate that B cell-specific deletion of RBP hnRNP F leads to diminished production of class-switched antibodies with high affinities in response to a TD antigen challenge. B cells deficient in hnRNP F are characterized by defective proliferation and c-Myc upregulation upon antigenic stimulation. Mechanistically, hnRNP F directly binds to the G-tracts of Cd40 pre-mRNA to promote the inclusion of Cd40 exon 6 that encodes its transmembrane domain, thus enabling appropriate CD40 cell surface expression. Furthermore, we find that hnRNP A1 and A2B1 can bind to the same region of Cd40 pre-mRNA but suppress exon 6 inclusion, suggesting that these hnRNPs and hnRNP F might antagonize each-other’s effects on Cd40 splicing. In summary, our study uncovers an important posttranscriptional mechanism regulating the GC response.

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Cerebellum neuropathology and motor skill deficits in fragile X syndrome

Chen

Guo

Han

et al. 2022

Intl J of Devlp Neuroscience

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Fragile X syndrome (FXS) is a leading form of inherited intellectual disability and single‐gene cause of autism spectrum disorder (ASD) and is characterized by core deficits in cognitive flexibility, sensory sensitivity, emotion, and social interactions. Motor deficits are a shared feature of FXS and autism. The cerebellum has emerged as one of the target brain areas affected by neurodevelopmental diseases. Alterations in the cerebellar structure, circuits, and function may be the key drivers of impaired fine and gross motor skills in FXS and fragile X‐associated tremor/ataxia syndrome (FXTAS). In this review, we briefly examined recent findings in FXS and present a discussion on the literature supporting motor skill deficits in FXS. Subsequently, we focused on neuropathological alterations in the cerebellum in FXS and FXTAS. We highlight studies that have directly examined the function of fragile X mental retardation protein and related epigenetic variations in the cerebellum. Overall, we obtained considerable supporting evidence for the hypothesis that cerebellar dysfunction is evident in FXS and FXTAS; however, compared with studies on other ASD models, studies on motor skills related to fragile X disorders are particularly rare and inconclusive. Hence, future research should address FXS‐related motor and behavioral trajectories and examine the underlying mechanisms at both the cell and circuit levels.

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The potential role of ribonucleic acid methylation in the pathological mechanisms of fragile X syndrome

Chen

Dong

Tan

et al. 2023

Behavioural Brain Research

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Jia Zou

Mettl14-Mediated m6A Modification Is Essential for Germinal Center B Cell Response

Dynamic regulation and key roles of ribonucleic acid methylation

The RNA-binding protein hnRNP F is required for the germinal center B cell response

Cerebellum neuropathology and motor skill deficits in fragile X syndrome

The potential role of ribonucleic acid methylation in the pathological mechanisms of fragile X syndrome

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