B-cell maturation protein, which binds the tumor necrosis factor family members BAFF and APRIL, is dispensable for humoral immune responses

B-cell maturation protein (BCMA) is a member of the tumor necrosis factor (TNF) receptor family and is expressed in B lymphocytes. BCMA binds two TNF family members, BAFF and APRIL, that stimulate cellular proliferation. BAFF in particular has been shown to influence B-cell survival and activation, and transgenic mice overexpressing BAFF have a lupus-like autoimmune disorder. We have inactivated BCMA in the mouse germ line. BCMA(-/-) mice have normal B-cell development, and the life span of mutant B lymphocytes is comparable to that of wild-type B cells. The humoral immune responses of BCMA(-/-) mice to T-cell-independent antigens as well as high and low doses of T-cell-dependent antigens are also intact. In addition, mutant mice have normal splenic architecture, and germinal centers are formed during an ongoing immune response. These data suggest a functional redundancy of BCMA in B-cell physiology that is probably due to the presence of TACI, another TNF receptor family member that is expressed on B cells and that can also bind BAFF and APRIL.     

Transgenic overexpression of BAFF regulates the expression of immune-related genes in zebrafish, <Emphasis Type="Italic">Danio rerio</Emphasis>

The B-cell activating factor (BAFF) is a member of tumour necrosis factor (TNF) superfamily that specifically regulates B lymphocyte proliferation and survival. Excess BAFF leads to overproduction of antibodies for secretion, anti-dsDNA antibodies and a lupus-like syndrome in mice. To investigate whether transgenic overexpression of the zebrafish BAFF leads to immunoglobulin changes and/or early maturing of the immune system, a Tol2-GFP-2A-BAFF/His recombinant plasmid was constructed by inserting a 2A peptide between the green fluorescent protein (GFP) and BAFF sequences. Functional GFP and BAFF proteins were expressed separately and confirmed in HeLa cells. The relative expression of immune-related genes (IgLC-1, IgLC-2, IgLC-3, IgD, IgM and IL-4), early lymphoid markers (Ikaros, Rag-1 and TCRAC), and the protooncogene Bcl-2 were evaluated by quantitative polymerase chain reaction (PCR) in F0 founder of transgenic zebrafish juveniles and adults. Ectopic expression of BAFF in adults was confirmed using Western blots and was shown to upregulate IgLC-1, IgLC-2, IgD, IgM, IgZ/T, Ikaros, Rag-1, TCRAC, IL-4 and Bcl-2 expression in juveniles on day 21 and IgLC-1, IgLC-2, IgD, IgM, IgZ/T, Rag-1, TCRAC and Bcl-2 expression in zebrafish three months postfertilization. The relative titers of specific IgM against Edwardsiella tarda WED were assessed using modified enzyme-linked immunosorbent assay (ELISA) with the whole body homogenate of zebrafish and demonstrated a significant increase in BAFF-transgenic group. Therefore, our findings provided novel insight into further exploration of modulating adaptive immunity and studying autoimmune diseases caused by regulating BAFF.     

The first BAFF gene cloned from the cartilaginous fish

B-cell activating factor (BAFF), a member of the TNF family, is critical to the survival, proliferation, maturation, and differentiation of B-cells. In the present study, a CpBAFF was amplified from the white-spotted catshark (Chiloscyllium plagiosum) using RT-PCR and RACE (rapid amplification of cDNA end) techniques. To our knowledge, this is the first report of any BAFF gene being cloned from a cartilaginous fish. The open reading frame (ORF) of CpBAFF cDNA consists of 819 bases encoding a protein of 272 amino acids. This protein was found to contain a predicted transmembrane domain, a putative furin protease cleavage site, and a typical TNF homology domain corresponding to other identified BAFF homologues. Sequence alignment showed that CpBAFF shares 37-57% identity with BAFF amino acid sequences reported in other vertebrates. Three-dimensional structure modeling analysis revealed a soluble mature portion of CpBAFF (CpsBAFF) with a long D-E loop specific to the BAFF gene, which has not been found in other reported TNF proteins. Phylogenetic reconstruction showed that CpBAFF is most closely related to other fish BAFFs and clusters with BAFF genes from higher vertebrates (reptiles, birds, and mammals). Real-time quantitative RT-PCR demonstrated that CpBAFF mRNA expression was high in the spleen but moderate in the kidney and branchia. Recombinant CpsBAFF fused to NusA-His(6)-tag was efficiently expressed in Escherichia coli BL21 (DE3), and a molecular weight of approximately 83 kDa was determined using SDS-PAGE and Western blotting. In vitro MTT assay indicated that the purified pET43.1a (+)-CpsBAFF protein can co-stimulate the proliferation of mammalian B-cells with anti-IgM in a dose-dependent manner. The present findings not only present novel information that may be relevant to shark immunity but also provide some new insights into the origins and evolution of immunity in all vertebrates.     

cDNA cloning, recombinant expression and bioactivity of Père David's deer BAFF

B cell activating factor (BAFF), a member of the TNF family, is a critical cytokine for the survival, proliferation, maturation, and differentiation of B cells. In the present study, Père David's deer BAFF (miBAFF) was amplified from Elaphurus davidianus using RT-PCR. This is the first BAFF cloned from a member of Cervidae family. The open reading frame (ORF) of the miBAFF cDNA consists of 843 bases that encode a 280-amino acid protein bearing typical TNF homology domain. Sequence alignment shows that miBAFF shares 39.3%-97% sequence homology with the BAFF sequences of other mammals. Comparative protein modeling predicted that the 3D structure of the soluble mature portion of miBAFF (misBAFF) is very similar to that of human BAFF (hsBAFF). Recombinant misBAFF fused to a SUMO-tag was efficiently expressed in Escherichia coli BL21 (DE3) cells. The protein molecular weight of ~36 KDa was determined using sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and Western blotting. In vitro, purified misBAFF was shown to promote the survival and proliferation of Père David's deer peripheral blood lymphocytes and mouse B cells. These results indicate that miBAFF plays an important role in the survival/proliferation of mouse B cells and, shows highly conserved evolutionarily, leading to functional cross-reactivity that exists between mouse and Père David's deer BAFF.     

Expression, refolding, and characterization of human soluble BAFF synthesized in Escherichia coli

The B lymphocyte stimulator (BAFF) is a novel member of the tumor necrosis factor (TNF) ligand family which is important in B lymphocyte maturation and survival. Here, a recombinant form of the extracellular domain of the BAFF (hsBAFF) was expressed in Escherichia coli BL21(DE3) under the control of a T7 promoter. The resulting insoluble bodies were separated from cellular debris by centrifugation and solubilized with 8 M urea. A rapid and simple on-column refolding procedure was developed. It was applied and then the refolded hsBAFF was purified by anion-exchange. The purified final product was >98% pure by SDS-PAGE stained with Coomassie brilliant blue R-250. Mass spectroscopic analysis indicated the protein to be 17.5 kDa, which equalled the theoretically expected mass. The N-terminal sequencing of refolding hsBAFF showed the sequence corresponded to the designed protein. The correct refolding of the recombinant protein was verified in the recovery of its secondary and tertiary structures as assessed by circular dichroism and fluorescence emission spectra. The renatured protein displayed its immunoreactivity with the antibodies to BAFF protein by Western blotting. The final purified material was biologically active in a validated induced human B lymphocyte proliferation bioassay. The expression and in vitro refolding of hsBAFF resulted in production of an active molecule in a yield of 15 mg/L flask cultivation.     

B cells, BAFF/zTNF4, TACI, and systemic lupus erythematosus

B cells and B-cell/T-cell collaborations are instrumental in the pathophysiology of systemic lupus erythematosus (SLE). This commentary highlights in particular the newly discovered role of B-cell-activating factor (BAFF; also known as TALL-1, THANK, BlyS, and zTNF4) as a positive regulator of B-cell functions, such as B-cell activation and differentiation. Two members of the tumor necrosis factor(TNF)-receptor superfamily were recently identified as receptors for BAFF on B cells. The interaction between BAFF and its receptors may be important in the pathogenesis of lupus. Advances in our understanding of abnormalities in immune regulation in lupus might provide the opportunity to improve our current therapeutic approaches to this disorder.     

Expression, purification, and characterization of recombinant human soluble BAFF secreted from the yeast Pichia pastoris

The B lymphocyte stimulator (BAFF) is a novel member of the tumor necrosis factor (TNF) ligand family which is important in B lymphocyte maturation and survival. Herein, the cDNA coding for the extracellular domain of the BAFF (hsBAFF) has been cloned into the secreting expression organism Pichia pastoris. SDS-PAGE and Western blotting assays of culture broth from a methanol-induced expression strain demonstrated that recombinant hsBAFF, a 20.2 kDa glycosylated protein, was secreted into the culture medium. The recombinant protein was purified to greater than 95% using DEAE-Sepharose ion exchange and Superdex 75 size-exclusion chromatography steps. Finally, 102 mg of the protein was obtained in high purity from 1 L of the supernatant and its identity to hsBAFF was confirmed by NH(2)-terminal amino acid sequence analysis Bioactivity of the recombinant hsBAFF was confirmed by the ability of the protein to stimulate human B lymphocyte proliferation in vitro. Our results suggest that the P. pastoris expression system can be used to produce large quantities of fully functional hsBAFF for both research and industrial purpose.     

Molecular Characterization of Equine APRIL and its Expression Analysis During the Adipogenic Differentiation of Equine Adipose-Derived Stem Cell In Vitro

A proliferation inducing ligand (APRIL) is a member of the TNF superfamily. It shares two receptors with B-cell activating factor (BAFF), B-cell maturation antigen (BCMA), and transmembrane activator and CAML interactor (TACI). Herein, the equine APRIL was identified from equine adipose-derived stem cell (ASC), and the protein expression of APRIL and its related molecules were detected during the adipogenic differentiation of equine ASC in vitro. The equine APRIL gene was located on chromosome 11, spans 1852 base pairs (bp). Its open reading frame covers 753 bp, encoding a 250-amino acid protein with the typical TNF structure domain. During the two weeks’ adipogenic differentiation of equine ASC, although the protein expression of APRIL and TACI had an insignificant change, that of BCMA increased significantly. Moreover, with the addition of recombinant protein His₆-sAPRIL, a reduced differentiation of equine ASC toward adipocyte was detected. These results may provide the basis for investigating the role of APRIL in ASC adipogenic differentiation.     

The crystal structure of a proliferation-inducing ligand, APRIL

A proliferation-inducing ligand (APRIL) is a TNF-like cytokine that stimulates tumor cell growth. Within the TNF ligand superfamily, APRIL is most similar to B-cell activation factor (BAFF) with which it shares 30% sequence identity. APRIL binds the receptors B-cell maturation antigen (BCMA) and TACI with high affinity; both of these receptors have also been shown to bind BAFF, although BCMA has significantly higher affinity for APRIL than BAFF. Determination of the crystal structure of APRIL from three crystallization conditions at resolutions of 1.8-2.4A over a pH range from 5.0 to 8.5 reveals a compact trimeric ligand with a backbone fold very similar to that of BAFF (1.1A RMSD over 122 structurally equivalent Calpha atoms), with the exception of differences in the AA' and DE loop regions. Whereas BAFF has been shown to form 20-trimer assemblies under certain conditions, the molecular determinants required for BAFF-like assemblies are absent in the APRIL structure. No crystal packing suggestive of the formation of higher-order assemblies is seen in any of the crystal forms nor does the structure vary significantly between pH 5.0 and 8.5. Modeling of the APRIL-BCMA complex shows the resulting interface is in agreement with mutagenesis data.     

Multiple Novel Classes of APRIL-specific Receptor-blocking Peptides Isolated by Phage Display

A proliferation-inducing ligand (APRIL) is a member of the tumor necrosis factor (TNF) ligand superfamily and has a proliferative effect on both normal and tumor cells. The TNF family receptors (B-cell maturation antigen (BCMA), transmembrane activator and CAML-interactor (TACI), and BAFF receptor-3 (BR3)) for APRIL and the closely related ligand, B-cell activating factor of the TNF family (BAFF), bind these ligands through a highly conserved six residue DXL motif ((F/Y/W)-D-X-L-(V/T)-(R/G)). Panning peptide phage display libraries led to the identification of several novel classes of APRIL-binding peptides, which could be grouped by their common sequence motifs. Interestingly, only one of these ten classes consisted of peptides containing the DXL motif. Nevertheless, all classes of peptides prevented APRIL, but not BAFF, from binding BCMA, their shared receptor. Synthetic peptides based on selected sequences inhibited APRIL binding to BCMA with IC₅₀ values of 0.49-27 μM. An X-ray crystallographic structure of APRIL bound to one of the phage-derived peptides showed that the peptide, lacking the DXL motif, was nevertheless bound in the DXL pocket on APRIL. Our results demonstrate that even though a focused, highly conserved motif is required for APRIL-receptor interaction, remarkably, many novel and distinct classes of peptides are also capable of binding APRIL at the ligand receptor interface.     

The Expression of BAFF, APRIL and TWEAK Is Altered in Eczema Skin but Not in the Circulation of Atopic and Seborrheic Eczema Patients

The TNF family cytokines BAFF (B-cell activating factor of the TNF family) and APRIL (a proliferation-inducing ligand) are crucial survival factors for B-cell development and activation. B-cell directed treatments have been shown to improve atopic eczema (AE), suggesting the involvement of these cytokines in the pathogenesis of AE. We therefore analyzed the expression of these TNF cytokines in AE, seborrheic eczema (SE) and healthy controls (HC). The serum/plasma concentration of BAFF, APRIL and a close TNF member TWEAK (TNF-like weak inducer of apoptosis) was measured by ELISA. The expression of these cytokines and their receptors in skin was analyzed by quantitative RT-PCR and immunofluorescence. Unlike other inflammatory diseases including autoimmune diseases and asthma, the circulating levels of BAFF, APRIL and TWEAK were not elevated in AE or SE patients compared with HCs and did not correlate with the disease severity or systemic IgE levels in AE patients. Interestingly, we found that the expression of these cytokines and their receptors was altered in positive atopy patch test reactions in AE patients (APT-AE) and in lesional skin of AE and SE patients. The expression of APRIL was decreased and the expression of BAFF was increased in eczema skin of AE and SE, which could contribute to a reduced negative regulatory input on B-cells. This was found to be more pronounced in APT-AE, the initiating acute stage of AE, which may result in dysregulation of over-activated B-cells. Furthermore, the expression levels of TWEAK and its receptor positively correlated to each other in SE lesions, but inversely correlated in AE lesions. These results shed light on potential pathogenic roles of these TNF factors in AE and SE, and pinpoint a potential of tailored treatments towards these factors in AE and SE.     

Raised intrathecal levels of APRIL and BAFF in patients with systemic lupus erythematosus: relationship to neuropsychiatric symptoms

Introduction  

The tumour necrosis factor (TNF) family ligands BAFF (B-cell activating factor of TNF family) and APRIL (a proliferation-inducing ligand) are essential for B-cell survival and function. Elevated serum levels of BAFF and APRIL have been reported earlier in patients with systemic lupus erythematosus (SLE). Since autoantibody formation in the central nervous system (CNS) is a distinct feature of neuropsychiatric SLE (NPSLE), we have investigated whether NPSLE is associated with an enhanced intrathecal production of APRIL and BAFF.     

Serum B-cell activating factor predicts prognosis in nasal type,extranodal NK/T cell lymphoma

B-cell activating factor (BAFF) plays important roles in a variety of lymphoid malignancies. Compared with healthy adults, patients with non-Hodgkin lymphoma had higher level of serum BAFF, and it corresponded with disease severity, response for therapy and clinical outcome. Latent membrane protein 1 (LMP1) encoded by Epstein-Barr virus (EBV) which is a known agent of nasal, extranodal NK/T cell lymphoma (ENKTCL) can switch the BAFF activating promoter leading to higher expression of BAFF in EBV-related tumor cells. However, the relationship between BAFF and ENKTCL has not been reported. Here we proposed a hypothesis that BAFF might play a regulatory role in ENKTCL development and maintenance. Our results showed that serum BAFF in ENKTCL patients was significantly higher than that in control group and negatively correlated with patients’ survival. It may be a valuable prognostic factor and deserved further study.     

Formation of virus-like clusters is an intrinsic property of the tumor necrosis factor family member BAFF (B cell activating factor)

The oligomeric state of BAFF (B cell activing factor), a tumor necrosis factor (TNF) family cytokine that plays a critical role in B cell development and survival, has been the subject of recent debate. Myc-tagged BAFF starting at residue Gln136 was previously reported to crystallize as trimers at pH 4.5, whereas a histidine-tagged construct of BAFF, starting at residue Ala134, formed a virus-like cluster containing 60 monomers when crystallized at pH 9.0. The formation of the BAFF 60-mer was pH dependent, requiring pH >or= 7.0. More recently, 60-mer formation was suggested to be artificially induced by the histidine tag, and it was proposed that BAFF, like all other TNF family members, is trimeric. We report here that a construct of BAFF with no amino-terminal tag (Ala134-BAFF) can form a 60-mer in solution. Using size exclusion chromatography and static light scattering to monitor trimer to 60-mer ratios in BAFF preparations, we find that 60-mer formation is pH-dependent and requires histidine 218 within the DE loop of BAFF. Biacore measurements established that the affinity of Ala134-BAFF for the BAFF receptor BAFFR/BR3 is similar to that of myc-Gln136-BAFF, which is exclusively trimeric in solution. However, Ala134-BAFF is more efficacious than myc-Gln136-BAFF in inducing B cell proliferation in vitro. We additionally show that BAFF that is processed and secreted by 293T cells transfected with full-length BAFF, or by a histiocytic lymphoma cell line (U937) that expresses BAFF endogenously, forms a pH-dependent 60-mer in solution. Our results indicate that the formation of the 60-mer in solution by the BAFF extracellular domain is an intrinsic property of the protein, and therefore that this more active form of BAFF may be physiologically relevant.     

BAFF inhibits autophagy promoting cell proliferation and survival by activating Ca2+-CaMKII-dependent Akt/mTOR signaling pathway in normal and neoplastic B-lymphoid cells

B cell activating factor from the TNF family (BAFF) is implicated in not only the physiology of normal B cells, but also the pathophysiology of aggressive B cells related to malignant and autoimmune diseases. Autophagy plays a crucial role in balancing the beneficial and detrimental effects of immunity and inflammation. However, little is known about whether and how excessive BAFF mediates autophagy contributing to B-cell proliferation and survival. Here, we show that excessive human soluble BAFF (hsBAFF) inhibited autophagy with a concomitant reduction of LC3-II in normal and B-lymphoid (Raji) cells. Knockdown of LC3 not only potentiated hsBAFF inhibition of autophagy, but also attenuated hsBAFF activation of Akt/mTOR pathway, thereby diminishing hsBAFF-induced B-cell proliferation/viability. Further, we found that hsBAFF inhibition of autophagy was Akt/mTOR-dependent. This is supported by the findings that hsBAFF increased mTORC1-mediated phosphorylation of ULK1 (Ser757); Akt inhibitor X, mTORC1 inhibitor rapamycin, mTORC1/2 inhibitor PP242, expression of dominant negative Akt, or knockdown of mTOR attenuated hsBAFF-induced phosphorylation of ULK1, decrease of LC3-II level, and increase of cell proliferation/viability. Chelating intracellular free Ca²⁺ ([Ca²⁺]_i) with BAPTA/AM or preventing [Ca²⁺]_i elevation using EGTA or 2-APB profoundly blocked hsBAFF-induced activation of Akt/mTOR, phosphorylation of ULK1 and decrease of LC3-II, as well as increase of cell proliferation/viability. Similar effects were observed in the cells where CaMKII was inhibited by KN93 or knocked down by CaMKII shRNA. Collectively, these results indicate that hsBAFF inhibits autophagy promoting cell proliferation and survival through activating Ca²⁺-CaMKII-dependent Akt/mTOR signaling pathway in normal and neoplastic B-lymphoid cells. Our findings suggest that manipulation of intracellular Ca²⁺ level or CaMKII, Akt, or mTOR activity to promote autophagy may be exploited for prevention of excessive BAFF-induced aggressive B lymphocyte disorders and autoimmune diseases.     

Viral Preprotoxin Signal Sequence Allows Efficient Secretion of Green Fluorescent Protein by Candida glabrata, Pichia pastoris, Saccharomyces cerevisiae, and Schizosaccharomyces pombe

Besides its importance as model organism in eukaryotic cell biology, yeast species have also developed into an attractive host for the expression, processing, and secretion of recombinant proteins. Here we investigated foreign protein secretion in four distantly related yeasts (Candida glabrata, Pichia pastoris, Saccharomyces cerevisiae, and Schizosaccharomyces pombe) by using green fluorescent protein (GFP) as a reporter and a viral secretion signal sequence derived from the K28 preprotoxin (pptox), the precursor of the yeast K28 virus toxin. In vivo expression of GFP fused to the N-terminal pptox leader sequence and/or expression of the entire pptox gene was driven either from constitutive (PGK1 and TPI1) or from inducible and/or repressible (GAL1, AOX1, and NMT1) yeast promoters. In each case, GFP entered the secretory pathway of the corresponding host cell; confocal fluorescence microscopy as well as sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western analysis of cell-free culture supernatants confirmed that GFP was efficiently secreted into the culture medium. In addition to the results seen with GFP, the full-length viral pptox was correctly processed in all four yeast genera, leading to the secretion of a biologically active virus toxin. Taken together, our data indicate that the viral K28 pptox signal sequence has the potential for being used as a unique tool in recombinant protein production to ensure efficient protein secretion in yeast.     

CsBAFF,a Teleost B Cell Activating Factor,Promotes Pathogen-Induced Innate Immunity and Vaccine-Induced Adaptive Immunity

B cell activating factor (BAFF) is a member of the tumor necrosis factor family that is known to play an important role in B cell activation, proliferation, and differentiation in mammals. However, studies of BAFF in teleosts are very limited and its function, in particular that under in vivo conditions, is essentially unknown. In this study, we conducted in vivo as well as in vitro functional analyses of a BAFF homologue (CsBAFF) from the teleost fish tongue sole (Cynoglossus semilaevis). CsBAFF is composed of 261 residues and shares moderate sequence identities with known BAFFs of other teleosts. CsBAFF expression was most abundant in immune organs and was upregulated during bacterial infection. Purified recombinant CsBAFF (rCsBAFF) bound to tongue sole lymphocytes and promoted cellular proliferation and survival. The results of an in vivo study showed that CsBAFF overexpression in tongue sole significantly enhanced macrophage activation and reduced bacterial infection in fish tissues, whereas knockdown of CsBAFF expression resulted in increased bacterial dissemination and colonization in fish tissues. Furthermore, vaccination studies showed that CsBAFF enhanced the immunoprotection of a DNA vaccine and augmented the production of specific serum antibodies. Taken together, these results provide the first in vivo evidence to indicate that teleost BAFF is an immunostimulator that significantly contributes to the innate antibacterial immune response and vaccine-induced adaptive immune response.     

BAFF: a fundamental survival factor for B cells

B-cell-activating factor of the tumour-necrosis-factor family (BAFF) enhances B-cell survival--a function that is indispensable for B-cell maturation--and has a role in enhancing immune responses. Moreover, the overexpression of BAFF results in severe autoimmune disorders in mice, and elevated serum levels of BAFF occur in some patients who have autoimmune diseases. The elucidation of the role of BAFF has set the stage for a new approach to the treatment of autoimmune disease.