-
[show abstract]
[hide abstract]
ABSTRACT: B-cell terminal differentiation into antibody secreting plasma cells (PCs) features a transcriptional shift driven by the activation of plasma cell lineage determinants such as Blimp-1 and Xbp-1, together with the extinction of Pax5. Little is known about the signals inducing this change in transcriptional networks and the role of the B-cell receptor (BCR) in terminal differentiation remains especially controversial. Here, we show that tonic BCR signal strength influences PC commitment in vivo. Using immunoglobulin light chain transgenic mice expressing suboptimal surface BCR levels and LMP2A knock-in animals with defined BCR-like signal strengths, we show that weak, antigen-independent constitutive BCR signaling facilitates spontaneous PC differentiation in vivo and in vitro in response to TLR agonists or CD40/IL4. Conversely, increasing tonic signaling completely prevents this process which is rescued by lowering surface BCR expression or through the inhibition of Syk phosphorylation. These findings provide new insights into the role of basal BCR signaling in PC differentiation and point to the need to resolve a strong BCR signal in order to guarantee terminal differentiation.
European Journal of Immunology 12/2012; · 5.10 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Background
Fanconi syndrome (FS) is a rare renal disorder featuring proximal tubule dysfunction that may occur following tubular reabsorption of a monoclonal light chain (LC), in patients with multiple myeloma. FS may precede the recognition of multiple myeloma by several years. In most cases, crystalline inclusions of monoclonal κ LCs are observed within the lysosomes of proximal tubular cells (PTCs) and probably participate in their functional alteration.Methods
To investigate the mechanism implicated in proximal tubule dysfunction, we compared the effects of κ LC-CHEB obtained from a patient with myeloma-associated FS to those of control κ LC-BON obtained from a patient without evidence of FS, on the viability and proliferation of two different PTC lines.ResultsOur data suggest that the tubular atrophy in myeloma-associated FS does not result from increased apoptosis of PTCs, but from their impaired capacity to proliferate and renew. Indeed, in vitro incubation of cultured PTCs with physiological amounts of the nephrotoxic κ LC-CHEB was sufficient to cause a depression in DNA synthesis and in cell proliferation. This effect was observed neither with control κ LC-BON nor in the absence of κ LC.Conclusions
The reduced turnover of PTCs may affect tubular repair and regeneration. In addition, the reduced proliferation of myeloma cells producing the same monoclonal κ LC might explain the frequent association of FS with smoldering multiple myeloma.
Nephrology Dialysis Transplantation 09/2012; · 3.40 Impact Factor
-
Virginie Pascal,
Brice Laffleur,
Arnaud Debin,
Armelle Cuvillier,
Marjolein van Egmond,
Daniel Drocourt,
Laurent Imbertie,
Céline Pangault-Lorho,
Karin Tarte,
Gérard Tiraby, Michel Cogné
[show abstract]
[hide abstract]
ABSTRACT: Background. While most Ab-based therapies use IgG because of their well-known biologic properties, some functional limitations of these antibodies call for the development of derivatives with other therapeutic functions. Although less abundant than IgG in serum, IgA is the most abundantly produced Ig class in humans. Besides the specific targeting of its dimeric form to mucosal areas, IgA was shown to more efficiently recruit polymorphonuclear neutrophils against certain targets than IgG1. Design and methods. In this study, we investigated the various pathways by which anti tumor effects can be mediated by anti-CD20 IgA against lymphoma cells. Results. We found that polymeric human IgA was significantly more effective than human IgG1 in mediating direct killing or growth inhibition of target cells in the absence of complement. We also demonstrated that this direct killing was able to indirectly induce the classical pathway of the complement cascade although to a lesser extent than direct recruitment of complement by IgG. Recruitment of the alternative complement pathway by specific IgA was also observed. In addition to activating complement for lysis of lymphoma cell lines or primary cells from lymphoma patients, we showed that monomeric anti-CD20 IgA can effectively protect mice against tumor development in a passive immunization strategy and we demonstrated that this protective effect may be enhanced in mice expressing the human FcαRI receptor on their neutrophils. Conclusions. We show that anti-CD20 IgA antibodies have original therapeutic properties against lymphoma cells, with strong direct effects, ability to recruit neutrophils for cell cytotoxicity and even recruitment of complement, although largely through an indirect way.
Haematologica 06/2012; · 6.42 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Mantle cell lymphoma (MCL) is a malignant lymphoproliferative B-cell disorder that does not occur spontaneously in mice but experimental mice model have been developed. Recently two different mice models prone to develop MCL-like lymphomas were generated: c-myc-3'RR/Cdk4(R24C) mice and c-myc-3'RR/p53+/- mice. Comparison of their gene expression profiles does not highlight specific differences other than those in relation with their specific mutational status (i.e., Cdk4(R24C) mutation or p53 mutations). We propose that similarly to typical human MCL and its blastoid or cyclin-D1 variants that correspond to the same genetic entity, MCL-like lymphomas of c-myc-3'RR/ p53+/- mice and c-myc-3'RR/Cdk4(R24C) mice represent a spectrum of the same entity.
Oncotarget 05/2012; 3(5):586-93. · 4.78 Impact Factor
-
Medecine sciences: M/S 05/2012; 28(5):551-4. · 0.64 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Remodeling of immunoglobulin genes by activation-induced deaminase (AID) is required for affinity maturation and class-switch recombination in mature B lymphocytes. In the immunoglobulin heavy chain locus, these processes are predominantly controlled by the 3' cis-regulatory region. We now show that this region is transcribed and undergoes AID-mediated mutation and recombination around phylogenetically conserved switchlike DNA repeats. Such recombination, which we term locus suicide recombination, deletes the whole constant region gene cluster and thus stops expression of the immunoglobulin of the B cell surface, which is critical for B cell survival. The frequency of this event is approaching that of class switching and makes it a potential regulator of B cell homeostasis.
Science 04/2012; 336(6083):931-4. · 31.20 Impact Factor
-
Laureline Berthelot,
Christina Papista,
Thiago T Maciel,
Martine Biarnes-Pelicot,
Emilie Tissandie,
Pamela H M Wang,
Houda Tamouza,
Agnès Jamin,
Julie Bex-Coudrat,
Aurelie Gestin, [......],
Patrick England,
Evangéline Pillebout,
Francine Walker,
Eric Daugas,
François Vrtosvnik,
Martin Flamant,
Marc Benhamou, Michel Cogné,
Ivan C Moura,
Renato C Monteiro
[show abstract]
[hide abstract]
ABSTRACT: IgA nephropathy (IgAN) is a common cause of renal failure worldwide. Treatment is limited because of a complex pathogenesis, including unknown factors favoring IgA1 deposition in the glomerular mesangium. IgA receptor abnormalities are implicated, including circulating IgA-soluble CD89 (sCD89) complexes and overexpression of the mesangial IgA1 receptor, TfR1 (transferrin receptor 1). Herein, we show that although mice expressing both human IgA1 and CD89 displayed circulating and mesangial deposits of IgA1-sCD89 complexes resulting in kidney inflammation, hematuria, and proteinuria, mice expressing IgA1 only displayed endocapillary IgA1 deposition but neither mesangial injury nor kidney dysfunction. sCD89 injection into IgA1-expressing mouse recipients induced mesangial IgA1 deposits. sCD89 was also detected in patient and mouse mesangium. IgA1 deposition involved a direct binding of sCD89 to mesangial TfR1 resulting in TfR1 up-regulation. sCD89-TfR1 interaction induced mesangial surface expression of TGase2 (transglutaminase 2), which in turn up-regulated TfR1 expression. In the absence of TGase2, IgA1-sCD89 deposits were dramatically impaired. These data reveal a cooperation between IgA1, sCD89, TfR1, and TGase2 on mesangial cells needed for disease development. They demonstrate that TGase2 is responsible for a pathogenic amplification loop facilitating IgA1-sCD89 deposition and mesangial cell activation, thus identifying TGase2 as a target for therapeutic intervention in this disease.
Journal of Experimental Medicine 03/2012; 209(4):793-806. · 13.85 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Mantle cell lymphoma (MCL) is a B-cell malignancy characterized by a monoclonal proliferation of lymphocytes with the co-expression of CD5 and CD43, but not of CD23. Typical MCL is associated with overexpression of cyclin D1, and blastoid MCL variants are associated with Myc (alias c-myc) translocations. In this study, we developed a murine model of MCL-like lymphoma by crossing Cdk4(R24C) mice with Myc-3'RR transgenic mice. The Cdk4(R24C) mouse is a knockin strain that expresses a Cdk4 protein that is resistant to inhibition by p16(INK4a) as well as other INK4 family members. Ablation of INK4 control on Cdk4 does not affect lymphomagenesis, B-cell maturation, and functions in Cdk4(R24C) mice. Additionally, B cells were normal in numbers, cell cycle activity, mitogen responsiveness, and Ig synthesis in response to activation. By contrast, breeding Cdk4(R24C) mice with Myc-3'RR transgenic mice prone to develop aggressive Burkitt lymphoma-like lymphoma (CD19(+)IgM(+)IgD(+) cells) leads to the development of clonal blastoid MCL-like lymphoma (CD19(+)IgM(+)CD5(+)CD43(+)CD23(-) cells) in Myc/Cdk4(R24C) mice. Western blot analysis revealed high amounts of Cdk4/cyclin D1 complexes as the main hallmark of these lymphomas. These results indicate that although silent in nonmalignant B cells, a defect in the INK4-Cdk4 checkpoint can participate in lymphomagenesis in conjunction with additional alterations of cell cycle control, a situation that might be reminiscent of the development of human blastoid MCL.
American Journal Of Pathology 02/2012; 180(4):1688-701. · 4.89 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: V(D)J recombination occurs during the antigen-independent early steps of B-cell ontogeny. Multiple IgH cis-regulatory elements control B-cell ontogeny. IGCR1 (intergenic control region 1), the DQ52 promoter/enhancer, and the intronic Emu enhancer, all three located upstream of Cmu, have important roles during V(D)J recombination, whereas there is no clue about a role of the IgH regulatory region (RR) encompassing the four transcriptional enhancers hs3a, hs1,2, hs3b, and hs4 during these early stages. To clarify the role of the RR in V(D)J recombination, we totally deleted it in the mouse genome. Here, we show that V(D)J recombination is unaffected by the complete absence of the IgH RR, highlighting that this region only orchestrates IgH locus activity during the late stages of B-cell differentiation. In contrast, the earliest antigen-independent steps of B-cell ontogeny would be under the control of only the upstream Cmu elements of the locus.
Journal of Biological Chemistry 01/2012; 287(11):8356-60. · 4.77 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Class switching and plasma cell differentiation occur at a high level within all mucosa-associated lymphoid tissues. The different classes of membrane immunoglobulin heavy chains are associated with the Igα/Igβ heterodimer within the B-cell receptor (BCR). Whether BCR isotypes convey specific signals adapted to the corresponding differentiation stages remains debated but IgG and IgA membranes have been suggested to promote plasma cell differentiation. We investigated the impact of blocking expression of the IgA-class BCR through a 'αΔtail' targeted mutation, deleting the Cα immunoglobulin gene membrane exon. This allowed us to evaluate to what extent class switching and plasma cell differentiation can be concurrent processes, allowing some αΔtail(+/+) B cells with an IgM BCR to directly differentiate into IgA plasma cells and yield serum secreted IgA in spite of the absence of membrane IgA(+) B lymphocytes. By contrast, in secretions the secretory IgA was very low, indicating that J-chain-positive plasma cells producing secretory IgA overwhelmingly differentiate from previously class-switched membrane IgA(+) memory B cells. In addition, although mucosa-associated lymphoid tissues are a major site for plasma cell accumulation, αΔtail(+/+) mice showed that the gut B-cell lineage homeostasis is not polarized toward plasma cell differentiation through a specific influence of the membrane IgA BCR.
Immunology 01/2012; 136(1):54-63. · 3.32 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Mice are widely available laboratory animals that can easily be used for the production of antibodies against a broad range of antigens, using well-defined immunization protocols. Such an approach allows optimal in vivo affinity maturation of the humoral response. In addition, high-affinity antibodies arising in this context can readily be further characterized and produced as monoclonals after immortalizing and selecting specific antibody-producing cells through hybridoma derivation. Using such conventional strategies combined with mice that are either genetically engineered to carry humanized immunoglobulin (Ig) genes or engrafted with a human immune system, it is thus easy to obtain and immortalize clones that produce either fully human Ig or antibodies associating variable (V) domains with selected antigen specificities to customized human-like constant regions, with defined effector functions. In some instances, where there is a need for in vivo functional assays of a single antibody with a known specificity, it might be of interest to transiently express that gene in mice by in vivo gene transfer. This approach allows a rapid functional assay. More commonly, mice are used to obtain a diversified repertoire of antibody specificities after immunization by producing antibody molecules in the mouse B cell lineage from mouse strains with transgene Ig genes which are of human, humanized, or chimeric origin. After in vivo maturation of the immune response, this will lead to the secretion of antibodies with optimized antigen binding sites, associated to the desired human constant domains. This chapter focuses on two simple methods: (1) to obtain such humanized Ig mice and (2) to transiently express a human Ig gene in mice using hydrodynamics-based transfection.
Methods in molecular biology (Clifton, N.J.) 01/2012; 901:149-59.
-
[show abstract]
[hide abstract]
ABSTRACT: Physiology usually combines polyclonal antibodies of multiple classes in a single humoral response. Beyond their common ability to bind antigens, these various classes of human immunoglobulins carry specific functions which can each serve specific goals. In many cases, the function of a monoclonal therapeutic antibody may thus be modulated according to the class of its constant domains. Depending on the immunoglobulin class, different functional assays will be used in order to evaluate the functional activity of a monoclonal antibody.
Methods in molecular biology (Clifton, N.J.) 01/2012; 901:295-317.
-
[show abstract]
[hide abstract]
ABSTRACT: Immunoglobulin (Ig) genes naturally acquire frequent premature termination codons during the error-prone V(D)J recombination process. Although B cell differentiation is linked to the expression of productive Ig alleles, the transcriptional status of nonfunctionally recombined alleles remains unclear. Here, we tracked transcription and posttranscriptional regulation for both Ig heavy-chain (IgH) alleles in mice carrying a nonfunctional knock-in allele. We show that productively and nonproductively VDJ-rearranged alleles are transcribed throughout B cell development, carry similar active chromatin marks, and even display equivalent RNA polymerase II (RNAPII) loading after B cell stimulation. Hence, these results challenge the idea that the repositioning of one allele to heterochromatin could promote the silencing of nonproductive alleles. Interestingly, the efficiency of downstream RNA surveillance mechanisms fluctuates according to B cell activation and terminal differentiation: unspliced nonfunctional transcripts accumulate in primary B cells, while B cell activation promotes IgH transcription, RNA splicing, and nonsense-mediated mRNA decay (NMD). Altogether, IgH transcription and RNA splicing rates determine by which RNA surveillance mechanisms a B cell can get rid of nonproductive IgH mRNAs.
Molecular and cellular biology 01/2012; 32(1):107-17. · 6.06 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Although c-myc is classically described as the driving oncogene in Burkitt's lymphoma (BL), deregulation and mutations of c-myc have been reported in multiple solid tumors and in other mature B cell malignancies such as mantle cell lymphoma (MCL), myeloma, and plasma cell lymphoma (PCL). After translocation into the IgH locus, c-myc is constitutively expressed under the control of active IgH enhancers. Those located in the IgH 3' regulatory region (3'RR) are master control elements of class switch recombination and of the transcriptional burst associated with plasma cell differentiation. c-myc-3'RR mice are prone to lymphomas with rather homogeneous, most often BL-like, phenotypes with incomplete penetrance (75% tumor incidence) and long latencies (10-12 mo). To reproduce c-myc-induced mature B cell lymphomagenesis in the context of an additional defect often observed in human lymphomas, we intercrossed c-myc-3'RR with p53(+/-) mice. Double transgenic c-myc-3'RR/p53(+/-) mice developed lymphoma with short latency (2-4 mo) and full penetrance (100% tumor incidence). The spectrum of B lymphomas occurring in c-myc-3'RR/p53(+/-) mice was widened, including nonactivated (CD43(-)) BL, activated (CD43(+)) BL, MCL-like lymphoma, and PCL, thus showing that 3'RR-mediated deregulation of c-myc can promote various types of B lymphoproliferation in cells that first acquired a p53 defect. c-myc/p53(+/-) mice closely reproduce many features of BL, MCL, and PCL and provide a novel and efficient model to dissect the molecular events leading to c-myc-induced lymphomagenesis and an important tool to test potential therapeutic agents on malignant B cells featuring various maturation stages.
The Journal of Immunology 12/2011; 187(11):5772-82. · 5.79 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: B-cell fate and responses are modulated by soluble mediators and direct cellular interactions. Migration properties also vary during differentiation, commitment and activation. In many cells, modulation of responses to stimuli involves cell surface glycans, whose architecture depends on the simultaneous expression of multiple enzymes. By looking at the glycosylation-related gene expression patterns among B-cell populations, we determined in this study that the strongest variations were observed for CSGalNAcT-1 and EXTL1. These are enzymes involved in the biosynthesis of alternative forms of glycosaminoglycans (GAGs), namely chondroitin sulfate and heparan sulfate, respectively. These two enzymes showed inverse fluctuations in progenitors, resting B cells and activated B cells, suggesting a developmentally regulated switch between chondroitin and heparan sulfate synthesis. To explore whether these variations contributed to optimal B-cell differentiation, we overexpressed EXTL1 in the B-cell lineage of transgenic mice, yielding a partial differentiation blockade at the pro-B to pre-B transition. In the periphery, this defect was almost fully compensated for in vivo, with normal-size B-cell compartments and normal serum immunoglobulin levels in the transgenic EXTL1 mice. The peripheral B cells from EXTL1 transgenics were only affected with regard to their in vitro responses to polyclonal activation, showing reduced proliferation. Together the data suggest that despite their low amounts in lymphocytes, the heparan sulfate chains decorating the endogenous GAGs appear to be regulators of B-cell physiology.
European Journal of Immunology 11/2011; 41(12):3632-44. · 5.10 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: B-cell fate and responses are modulated by soluble mediators and direct cellular interactions. Migration properties also vary during differentiation, commitment and activation. In many cells, modulation of responses to stimuli involves cell surface glycans, whose architecture depends on the simultaneous expression of multiple enzymes. By looking at the glycosylation-related gene expression patterns among B cell populations, we determined in this study that the strongest variations were observed for CSGalNAcT-1 and EXTL1. These are enzymes involved in the biosynthesis of alternative forms of glycosaminoglycans, namely chondroitin sulphate and heparan sulphate respectively. These two enzymes showed inverse fluctuations in progenitors, resting B cells and activated B cells, suggesting a developmentally regulated switch between chondroitin and heparan sulphate synthesis. To explore whether these variations contributed to optimal B cell differentiation, we over-expressed EXTL1 in the B-cell lineage of transgenic mice, yielding a partial differentiation blockade at the pro-B to pre-B transition. In the periphery, this defect was almost fully compensated for in vivo, with normal-size B-cell compartments and normal serum immunoglobulin levels in the transgenic EXTL1 mice. The peripheral B cells from EXTL1 transgenics were only affected with regard to their in vitro responses to polyclonal activation, showing reduced proliferation. Together the data suggest that, despite their low amounts in lymphocytes, the heparan sulphate chains decorating the endogenous glycosaminoglycans appear to be regulators of B-cell physiology.
European Journal of Immunology 10/2011; · 5.10 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Gliadins, and primarily α-gliadins containing several sequences such as aa 31-49, aa 56-88 (33-mer), aa 57-68, and aa 69-82, are critical in the induction of immune response or toxic reaction leading to the development of celiac disease (CLD). The role of IgA anti-gliadin antibodies (IgA AGA) is unknown. To this end, we prepared several humanized monoclonal IgA AGA using transgenic α1KI mice. Employing Pepscan with overlapping decapeptides of α-gliadin we observed a robust similarity between the specificity of humanized mouse monoclonal IgA AGA and IgA AGA from patients with florid CLD. The common immunodominant region included several sequential epitopes localized in the N-terminal part of α-gliadin (QFQGQQQPFPPQQPYPQPQPFP, aa 29-50, and QPFPSQQPYLQL, aa 47-58). Notably, IgA AGA produced by clones 8D12, 15B9, 9D12, and 18E2 had significant reactivity against sequences localized in the 33-mer, LQLQPFPQPQ (aa 56-65) and PQLPYPQPQPFL (aa 69-80). Humanized mouse monoclonal IgA AGA that have a known specificity are suitable as standard in ELISAs to detect serum IgA AGA of CLD patients and for studying the AGA pathogenic role in CLD, especially for analyzing the translocation of complex of specific IgA antibodies and individual gliadin peptides through enterocyte barrier.
Journal of Agricultural and Food Chemistry 03/2011; 59(7):3092-100. · 2.82 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Henoch-Schönlein purpura (HSP) and IgA nephropathy (IgAN) are characterized by mesangial deposition of polyclonal IgA eventually showing aberrant glycosylation, affinity for mesangial cells and/or co-precipitation with antigen, bacterial peptides, autoantibodies or soluble receptors. IgA were also suggested to be negatively charged and predominantly of λ type but rarely in a monoclonal form.
A gammopathy case with HSP provided us with a unique molecularly defined nephritogenic IgA1λ. Immunological analysis, biological activities, glycosylation analysis and finally IgA sequence were determined.
Compared to IgA1 from healthy subjects or IgAN patients, IgA1 CAT showed hyposialylation but no hypogalactosylation, in agreement with underexpression of sialyltransferase genes by the plasma cell clone. IgA variable domains had low pIs with negatively charged complementarity-determining regions. Weak reactivity appeared against the cationic autoantigen lactoferrin, which was, however, absent from kidney deposits. Deposition also occurred in mice upon injection of only the polymeric form of IgA1 CAT, despite whether or not co-injected with lactoferrin.
This monoclonal model of IgA nephritogenicity strongly suggests that beside hinge region glycosylation, V domains play a role in IgA stability and pathogenicity and supports the hypothesis that responses against cationic epitopes from pathogens or autoantigens may select negatively charged complementarity-determining regions prone either to bind charged structures of the mesangium or to promote by themselves IgA aggregation and deposition.
Nephrology Dialysis Transplantation 03/2011; 26(12):3930-7. · 3.40 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Renal Fanconi syndrome (FS) is a generalized dysfunction of proximal tubular epithelial cells leading to the urinary leak of essential metabolites like phosphate, uric acid, glucose, amino acids and low molecular weight proteins. From inherited forms involving mutations on apparently unrelated genes to acquired forms induced by drugs, heavy metals or monoclonal immunoglobulin (Ig) light chains (LC), heterogeneous causalities of FS have complicated the understanding of this pathology for a long time. Experimental models of FS have allowed researchers to face the challenge and have helped unravel the main mechanisms disturbing proximal tubule reabsorption. Administration of cadmium to animals first demonstrated an inhibition of Na/K/ATPase activity, highlighting how a single toxic component could induce the general sodium-linked transport defect observed in FS. Today, genetically modified mice allow the development of reliable and reproducible experimental models for inherited or acquired forms of FS. One of the most exciting advances offered by these models is the unexpected major role of endocytosis in the function of the proximal tubule revealed by megalin and ClC-5 knockout mice. Using gene-targeted insertion, a transgenic mouse for LC-associated FS, the most frequent adult form of FS, has also been recently developed and represents a major step in the development of models of this pathology. Beyond deciphering molecular and cellular events at the origin of FS, these models also represent essential tools for the development of therapeutic strategies.
Contributions to nephrology 01/2011; 169:247-61. · 1.49 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Antigen receptor gene loci are among the most complex in mammals. The IgH locus, encoding the immunoglobulin heavy chain (IgH) in B-lineage cells, undergoes major transcription-dependent DNA remodeling events, namely V(D)J recombination, Ig class-switch recombination (CSR), and somatic hypermutation (SHM). Various cis-regulatory elements (encompassing promoters, enhancers, and chromatin insulators) recruit multiple nuclear factors in order to ensure IgH locus regulation by tightly orchestrated physical and/or functional interactions. Among major IgH cis-acting regions, the large 3' regulatory region (3'RR) located at the 3' boundary of the locus includes several enhancers and harbors an intriguing quasi-palindromic structure. In this review, we report progress insights made over the past decade in order to describe in more details the structure and functions of IgH 3'RRs in mouse and human. Generation of multiple cellular, transgenic and knock-out models helped out to decipher the function of the IgH 3' regulatory elements in the context of normal and pathologic B cells. Beside its interest in physiology, the challenge of elucidating the locus-wide cross talk between distant cis-regulatory elements might provide useful insights into the mechanisms that mediate oncogene deregulation after chromosomal translocations onto the IgH locus.
Advances in Immunology 01/2011; 110:27-70. · 5.76 Impact Factor
