Defining a transcriptional fingerprint of murine splenic B-cell development

Debnath, Irina; Roundy, Kirstin M.; Dunn, Diane M.; Weiss, Robert B.; Weis, Janis J.

doi:10.1038/gene.2008.70

Cited by 10 publications

(12 citation statements)

References 91 publications

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“…Our previous screen of maturing and mature B cells for the expression of Zfp318 utilized gene grid array analysis of pooled age- and tissue-specific B cells(6). To expand and specify the time frame of Zfp318 expression during B cell development, we FACS sorted and isolated Pro, Pre and Newly Formed (NF) B cells from the bone marrow, and T1, T2, MZ and FO B cells from the spleen (Supplemental Fig.…”

Section: Resultsmentioning

confidence: 99%

“…A number of studies have sought to define the key transcriptional regulators and kinetics that control this pathway. In one such analysis, we examined the expression of transcriptional regulators during B cell differentiation comparing B220+ B cells obtained from the marrow of 2 week (wk) old animals (thus lacking mature recirculating B cells), spleens from 2 wk old animals (enriched for transitional 1 and transitional 2 B cells)(T1, T2, respectively) and from B220+ B cells from mature but naïve spleens (enriched for FO and MZ B cells) (6). That gene expression screen identified a number of candidate transcriptional regulatory proteins whose expression increased with B cell maturation.…”

Section: Introductionmentioning

confidence: 99%

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Zfp318 Regulates IgD Expression by Abrogating Transcription Termination within the Ighm/Ighd Locus

Pioli

Debnath

Weis

et al. 2014

The Journal of Immunology

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The protein Zfp318 is expressed during the transition of naïve B cells from an immature to mature state. To evaluate its role in mature B cell functions, a conditional gene deficiency in Zfp318 was created and deleted in bone marrow lineages via Vav-Cre. B cell development was minimally altered in the absence of the protein although transitional 2 (T2) B cell populations were depressed in the absence of Zfp318. Intriguingly, the analysis of IgM and IgD expression by maturing and mature naïve B cells demonstrated an elevated level of IgM gene products and a virtual loss of IgD products. Transcriptome analysis of Zfp318 deficient B cells revealed that only two gene products showed altered expression in the absence of Zfp318 (Ighd and Sva) demonstrating a remarkable specificity of Zfp318 action. In the absence of Zfp318, Ighm/Ighd transcripts, which would normally encode IgM and IgD from hnRNA transcripts via alternative splicing, lack intron and exon sequences from the IgD (Ighd) encoding region. This finding indicates that Zfp318, in a novel manner, functions by repressing recognition of the transcriptional termination site at the 3′ end of the terminal IgM-encoding exon allowing for the synthesis of the complete Ighm/Ighd hnRNA.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Zfp318 Regulates IgD Expression by Abrogating Transcription Termination within the Ighm/Ighd Locus

Pioli

Debnath

Weis

et al. 2014

The Journal of Immunology

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“…Microarray comparisons of gene expression in B-cell subsets have identified Zfp318 as a member of a set of mRNAs that increases during maturation of immature B cells into mature follicular B cells (22)(23)(24). By analyzing flow-sorted B-cell subsets, we confirmed expression of Zfp318 mRNA closely parallels IgD heavy chain (Ighd) mRNA during B-cell development ( Two alternatively spliced isoforms of Zfp318 mRNA are annotated in the genome and described in the literature (18) (Fig.…”

Section: Identification Of a Missense Mutation In Zfp318 Causing Decrmentioning

confidence: 99%

Zinc-finger protein ZFP318 is essential for expression of IgD, the alternatively splicedIghproduct made by mature B lymphocytes

Enders¹,

Short²,

Miosge³

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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IgD and IgM are produced by alternative splicing of long primary RNA transcripts from the Ig heavy chain (Igh) locus and serve as the receptors for antigen on naïve mature B lymphocytes. IgM is made selectively in immature B cells, whereas IgD is coexpressed with IgM when the cells mature into follicular or marginal zone B cells, but the transacting factors responsible for this regulated change in splicing have remained elusive. Here, we use a genetic screen in mice to identify ZFP318, a nuclear protein with two U1-type zinc fingers found in RNA-binding proteins and no known role in the immune system, as a critical factor for IgD expression. A point mutation in an evolutionarily conserved lysine-rich domain encoded by the alternatively spliced Zfp318 exon 10 abolished IgD expression on marginal zone B cells, decreased IgD on follicular B cells, and increased IgM, but only slightly decreased the percentage of B cells and did not decrease expression of other maturation markers CD21, CD23, or CD62L. A targeted Zfp318 null allele extinguished IgD expression on mature B cells and increased IgM. Zfp318 mRNA is developmentally regulated in parallel with IgD, with little in pro-B cells, moderate amounts in immature B cells, and high levels selectively in mature follicular B cells. These findings identify ZFP318 as a crucial factor regulating the expression of the two major antibody isotypes on the surface of most mature B cells.IgHm | IgHd | immunoglobulin isotype |

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“…Additionally, past analysis of maturing B cells demonstrated increasing Pcp4 expression with differentiation (Debnath et al, 2008). Pcp4 expression differences were confirmed by RT-PCR for both BALB/c and C57BL/6 WT and CD21/35−/− naïve (non-immunized) spleen samples (Fig.…”

Section: Resultsmentioning

confidence: 99%

CD21 signaling via C3 regulates Purkinje cell protein 4 expression

Jacobson

Weis

2009

Molecular Immunology

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Complement receptor proteins CR2 (CD21) and CR1 (CD35) have been identified as components of the murine B cell co-receptor complex. Gene expression profiles between naive WT, C3−/−, and CD21/35−/− B cells demonstrate enhanced expression of a Ca 2+ -modulating gene, Pcp4, in WT mice compared to the complement-deficient animals. Increased expression of Pcp4 is also coincident with B cell maturation into end stage phenotypes. Prolonged activation of B cells via crosslinking of the BCR (but not CR1/CR2 alone) leads to increased expression of Pcp4 and suppressed Ca 2+ release.In total these data demonstrate that the expression of Pcp4 in naïve resting mature B cells is dependent upon tonic stimulation from the CR1/CR2 proteins via a C3 ligand, and that antigen specific B cell activation can also elevate Pcp4 expression that is coincident with suppression of calcium-dependent responses.

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Defining a transcriptional fingerprint of murine splenic B-cell development

Cited by 10 publications

References 91 publications

Zfp318 Regulates IgD Expression by Abrogating Transcription Termination within the Ighm/Ighd Locus

Zfp318 Regulates IgD Expression by Abrogating Transcription Termination within the Ighm/Ighd Locus

Zinc-finger protein ZFP318 is essential for expression of IgD, the alternatively splicedIghproduct made by mature B lymphocytes

CD21 signaling via C3 regulates Purkinje cell protein 4 expression

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