scholarly journals Characterization of B-cell Receptor Heavy Chain Complementarity-determining Region 3 Repertoire Based on the Differences of Symbiotic Microorganisms in the Gut of Mice

2021 ◽  
Author(s):  
Jun Li ◽  
Yurong Pan ◽  
Qingqing Ma ◽  
Long Ma ◽  
Bin Shi ◽  
...  
Keyword(s):  
Small Intestine ◽  
B Cells ◽  
B Cell ◽  
Heavy Chain ◽  
Intestinal Microflora ◽  
Cell Receptor ◽  
Memory B Cells ◽  
B Cell Receptor ◽  
Positive Effects ◽  
Significant Difference

Abstract Background Colonization of gut microorganism is related to maturation of B cells in peripheral immune organs. This study aims to investigate the effect of intestinal microflora in Germ-free (GF), Specific Pathogen-free (SPF) and Clean (CL) BALB/C mice to small intestine total B-cell and memory B-cell receptor (BCR) complementary-determining region 3 (CDR3) repertoire. Results The composition and characteristics of intestinal microflora were analyzed by 16S rDNA sequencing. Genomic DNA extracted from small intestine tissue and memory B-cells of GF, SPF and CL mice were conducted via high-throughput DNA sequencing methods. As expected, significant differences of gut microflora diversity were observed in the three mice groups. CL group showed the most diversity, followed by SPF group, and GF group had the lowest diversity. Moreover, anormogenesis of intestinal lymphoid tissue were observed in GF mice. Diversity of the BCR heavy chain CDR3 repertoire in memory B cells were significant difference among three groups, but not in total B cells. The nucleotide polymorphism, usage frequency of gene segments (V, D, J, V–J gene segments) and amino acid of total B cells and memory B cells CDR3 were comparable among three mice groups, and there was significant difference between CL and GF mice groups. Conclusions The results of this study advocate that the colonization of intestinal microorganisms affect the diversity of B cells CDR3 repertoire. Elucidating mechanism of microbiome participated in the function of intestinal mucosal immune system may have positive effects on human health, and it requires further investigation.

scholarly journals Targeted inhibition of eIF4A suppresses B-cell receptor-induced translation and expression of MYC and MCL1 in chronic lymphocytic leukemia cells

2021 ◽  
Author(s):  
Sarah Wilmore ◽  
Karly-Rai Rogers-Broadway ◽  
Joe Taylor ◽  
Elizabeth Lemm ◽  
Rachel Fell ◽  
...  
Keyword(s):  
B Cells ◽  
Chronic Lymphocytic Leukemia ◽  
B Cell ◽  
Mrna Translation ◽  
Cell Receptor ◽  
Memory B Cells ◽  
B Cell Receptor ◽  
Lymphocytic Leukemia ◽  
Mrna Levels ◽  
Mrna Stabilization

AbstractSignaling via the B-cell receptor (BCR) is a key driver and therapeutic target in chronic lymphocytic leukemia (CLL). BCR stimulation of CLL cells induces expression of eIF4A, an initiation factor important for translation of multiple oncoproteins, and reduces expression of PDCD4, a natural inhibitor of eIF4A, suggesting that eIF4A may be a critical nexus controlling protein expression downstream of the BCR in these cells. We, therefore, investigated the effect of eIF4A inhibitors (eIF4Ai) on BCR-induced responses. We demonstrated that eIF4Ai (silvestrol and rocaglamide A) reduced anti-IgM-induced global mRNA translation in CLL cells and also inhibited accumulation of MYC and MCL1, key drivers of proliferation and survival, respectively, without effects on upstream signaling responses (ERK1/2 and AKT phosphorylation). Analysis of normal naïve and non-switched memory B cells, likely counterparts of the two main subsets of CLL, demonstrated that basal RNA translation was higher in memory B cells, but was similarly increased and susceptible to eIF4Ai-mediated inhibition in both. We probed the fate of MYC mRNA in eIF4Ai-treated CLL cells and found that eIF4Ai caused a profound accumulation of MYC mRNA in anti-IgM treated cells. This was mediated by MYC mRNA stabilization and was not observed for MCL1 mRNA. Following drug wash-out, MYC mRNA levels declined but without substantial MYC protein accumulation, indicating that stabilized MYC mRNA remained blocked from translation. In conclusion, BCR-induced regulation of eIF4A may be a critical signal-dependent nexus for therapeutic attack in CLL and other B-cell malignancies, especially those dependent on MYC and/or MCL1.

scholarly journals Silencing of B Cell Receptor Signals in Human Naive B Cells

2002 ◽  
Vol 196 (10) ◽  
pp. 1291-1305 ◽  
Author(s):  
Niklas Feldhahn ◽  
Ines Schwering ◽  
Sanggyu Lee ◽  
Maria Wartenberg ◽  
Florian Klein ◽  
...  
Keyword(s):  
Gene Expression ◽  
B Cells ◽  
B Cell ◽  
Cell Receptor ◽  
Memory B Cells ◽  
B Cell Receptor ◽  
Functional Assay ◽  
Hematopoietic Stem ◽  
Large Group ◽  
Bcr Signaling

To identify changes in the regulation of B cell receptor (BCR) signals during the development of human B cells, we generated genome-wide gene expression profiles using the serial analysis of gene expression (SAGE) technique for CD34+ hematopoietic stem cells (HSCs), pre-B cells, naive, germinal center (GC), and memory B cells. Comparing these SAGE profiles, genes encoding positive regulators of BCR signaling were expressed at consistently lower levels in naive B cells than in all other B cell subsets. Conversely, a large group of inhibitory signaling molecules, mostly belonging to the immunoglobulin superfamily (IgSF), were specifically or predominantly expressed in naive B cells. The quantitative differences observed by SAGE were corroborated by semiquantitative reverse transcription–polymerase chain reaction (RT-PCR) and flow cytometry. In a functional assay, we show that down-regulation of inhibitory IgSF receptors and increased responsiveness to BCR stimulation in memory as compared with naive B cells at least partly results from interleukin (IL)-4 receptor signaling. Conversely, activation or impairment of the inhibitory IgSF receptor LIRB1 affected BCR-dependent Ca2+ mobilization only in naive but not memory B cells. Thus, LIRB1 and IL-4 may represent components of two nonoverlapping gene expression programs in naive and memory B cells, respectively: in naive B cells, a large group of inhibitory IgSF receptors can elevate the BCR signaling threshold to prevent these cells from premature activation and clonal expansion before GC-dependent affinity maturation. In memory B cells, facilitated responsiveness upon reencounter of the immunizing antigen may result from amplification of BCR signals at virtually all levels of signal transduction.

scholarly journals Malaria-associated atypical memory B cells exhibit markedly reduced B cell receptor signaling and effector function

eLife ◽  
2015 ◽  
Vol 4 ◽  
Author(s):  
Silvia Portugal ◽  
Christopher M Tipton ◽  
Haewon Sohn ◽  
Younoussou Kone ◽  
Jing Wang ◽  
...  
Keyword(s):  
B Cells ◽  
B Cell ◽  
Viral Infections ◽  
Somatic Hypermutation ◽  
Plasmodium Falciparum Malaria ◽  
Cell Receptor ◽  
Memory B Cells ◽  
B Cell Receptor ◽  
Chronic Infections ◽  
Malaria Exposure

Protective antibodies in Plasmodium falciparum malaria are only acquired after years of repeated infections. Chronic malaria exposure is associated with a large increase in atypical memory B cells (MBCs) that resemble B cells expanded in a variety of persistent viral infections. Understanding the function of atypical MBCs and their relationship to classical MBCs will be critical to developing effective vaccines for malaria and other chronic infections. We show that VH gene repertoires and somatic hypermutation rates of atypical and classical MBCs are indistinguishable indicating a common developmental history. Atypical MBCs express an array of inhibitory receptors and B cell receptor (BCR) signaling is stunted in atypical MBCs resulting in impaired B cell responses including proliferation, cytokine production and antibody secretion. Thus, in response to chronic malaria exposure, atypical MBCs appear to differentiate from classical MBCs becoming refractory to BCR-mediated activation and potentially interfering with the acquisition of malaria immunity.

scholarly journals Activation sensitizes human memory B cells to B-cell receptor-induced apoptosis

Immunology ◽  
1999 ◽  
Vol 98 (1) ◽  
pp. 47-54 ◽  
Author(s):  
Berard ◽  
Casamayor-Palleja ◽  
Billian ◽  
Bella ◽  
Mondiere ◽  
...  
Keyword(s):  
B Cells ◽  
B Cell ◽  
Human Memory ◽  
Cell Receptor ◽  
Memory B Cells ◽  
B Cell Receptor ◽  
Induced Apoptosis

scholarly journals Sequential activation and distinct functions for distal and proximal modules within the IgH 3′ regulatory region

2016 ◽  
Vol 113 (6) ◽  
pp. 1618-1623 ◽  
Author(s):  
Armand Garot ◽  
Marie Marquet ◽  
Alexis Saintamand ◽  
Sébastien Bender ◽  
Sandrine Le Noir ◽  
...  
Keyword(s):  
B Cells ◽  
B Cell ◽  
Heavy Chain ◽  
Somatic Hypermutation ◽  
Regulatory Region ◽  
Cell Receptor ◽  
B Cell Receptor ◽  
Receptor Expression ◽  
Class Switch ◽  
Cell Ontogeny

As a master regulator of functional Ig heavy chain (IgH) expression, the IgH 3′ regulatory region (3′RR) controls multiple transcription events at various stages of B-cell ontogeny, from newly formed B cells until the ultimate plasma cell stage. The IgH 3′RR plays a pivotal role in early B-cell receptor expression, germ-line transcription preceding class switch recombination, interactions between targeted switch (S) regions, variable region transcription before somatic hypermutation, and antibody heavy chain production, but the functional ranking of its different elements is still inaccurate, especially that of its evolutionarily conserved quasi-palindromic structure. By comparing relevant previous knockout (KO) mouse models (3′RR KO and hs3b-4 KO) to a novel mutant devoid of the 3′RR quasi-palindromic region (3′PAL KO), we pinpointed common features and differences that specify two distinct regulatory entities acting sequentially during B-cell ontogeny. Independently of exogenous antigens, the 3′RR distal part, including hs4, fine-tuned B-cell receptor expression in newly formed and naïve B-cell subsets. At mature stages, the 3′RR portion including the quasi-palindrome dictated antigen-dependent locus remodeling (global somatic hypermutation and class switch recombination to major isotypes) in activated B cells and antibody production in plasma cells.

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