A forward primer end-labeled with [-32P]ATP and recognizing each IH region was paired with a reverse primer recognizing the related CH region. IgA. In addition, we decided the DNA sequences of the upstream evolutionary conserved sequence (ECS)-I promoter regulatory regions that control germline IH-CH transcription and class switch DNA recombination (CSR) to IgG1, IgG2 and IgG4. IgM+IgD+ B cells from patients with SLE, but not those from RA or healthy control subjects, underwent spontaneous CSR, as assessed by expression of germline I1-C1, I2-C2, I3-C3, I4-C4 and I1-C1 transcripts, mature (switched) VHDJH-C1, VHDJH-C2, VHDJH-C3 and VHDJH-C1 transcripts and secreted IgG and IgA. Although polymorphic DNA sequences were identified in the ECS-I1, ECS-I2 and ECS-I4 promoter regions, the transcription factor-binding sites that mediate germline I-C transcription were conserved in patients and controls. However, distinct patterns of nuclear protein binding to an ECS-I promoter sequence that contains both positive and negative regulatory elements were observed in SLE patients and controls. These results support a role for exogenous signals, such as through CD40 ligation, rather than altered genomic sequence, in the increased production of class switched autoantibodies in SLE. Keywords: Immunoglobulin, DNA, Lupus B cells, SLE, Polymorphism INTRODUCTION Systemic lupus erythematosus (SLE), the prototype systemic autoimmune disease, is usually characterized by B cell activation, hypergammaglobulinemia and autoantibodies that mediate tissue injury.[1C3] The predominant lupus autoantibodies are directed at chromatin and its components, such as histoneCDNA complexes, or at peptide or nucleic acid components of complex intracellular particles, such as small nuclear ribonucleoprotein particles and ribosomes.[2C8] Low affinity IgM antibodies to antigens such as DNA, PSN632408 RNA and Ro are present in sera from normal individuals and asymptomatic relatives of patients.[9C12] The important attribute of the pathogenic autoantibodies found in patients with SLE, those most prominent in glomerular deposits in lupus nephritis, is that they are IgG produced by an oligoclonal expansion of B cells. These IgG autoantibodies are high affinity, cationic and have undergone somatic mutation.[1,13C25] Individual SLE patients and lupus mice indicate that onset of clinical disease is associated with switching of autoantibodies from IgM to IgG.[26C31] Case reports of selective IgM deficiency, in the setting of IgG and IgA deposits in lupus kidneys, also support the pathogenic importance of class switched antibodies.[28] Of the four IgG subclasses, IgG1 and IgG3 anti-DNA autoantibodies are the most common in patient sera, while IgG1, IgG2, and IgG3, the IgG species with the most potent complement fixing activity, are most frequently found in renal deposits.[14C16,18C25] The biologic activities conferred by PSN632408 the heavy (H) chain constant (C) segment facilitate transfer into extravascular spaces, complement activation and binding to Fc receptors, endowing autoantibodies with Rabbit polyclonal to SP1 the expression of full proinflammatory and pathogenic potential.[13,18C20,23] The predominance of IgG over IgM among pathogenic autoantibodies and autoantibody-producing B cells in human SLE indicates that IgH chain CSR from IgM to IgG is an important mechanism underlying development of disease. The generation of pathogenic class-switched autoantibodies in PSN632408 SLE may reflect intrinsic abnormalities in the B cell itself, or may, alternatively, be an expression of augmented cell surface and cytokine-mediated help delivered by T cells, dendritic cells or macrophages. An intrinsic propensity of lupus B cells to proliferate and undergo accelerated class switch DNA recombination (CSR) has been suggested by experiments that documented increased numbers of IgG-secreting cells among high density peripheral blood B cells, even when cultured in the absence of mitogens or exogenous cytokines.[32,33] Genetic factors may contribute to accelerated Ig class switching, as suggested by the development of IgG anti-histone/DNA autoantibodies and drug-induced lupus in only a subset of procainamide-treated individuals.[34] In the NZB NZW F1 murine lupus model, the accelerated Ig class switching observed is controlled by the NZW genome.[35] In addition to genetic factors that may confer altered sensitivity or regulation of the Ig CSR mechanism in certain individuals, extrinsic signals, particularly those delivered through CD40 and cytokine receptors, may establish a profile of intracellular signaling molecules that is supportive of Ig CSR.[36C40] To further dissect the role of intrinsic genetic factors vs. extrinsic signals to the B cells in the accelerated Ig class switching in SLE, we have determined the expression of intracellular germline IH-CH and mature (switched) VHDJH-CH transcripts and secreted IgG and IgA in SLE and control B cells. In addition, we have analyzed the genomic sequence of the evolutionary conserved sequence (ECS)-I promoter regulatory regions in DNA from SLE patients and.
A forward primer end-labeled with [-32P]ATP and recognizing each IH region was paired with a reverse primer recognizing the related CH region