A hypomorphic IgH-chain allele affects development of B-cell subsets and favours receptor editing

The quality and quantity of BCR signals impact on cell fate decisions of B lymphocytes. Here, we describe novel gene-targeted mice, which in the context of normal VDJ recombination show hypomorphic expression of immunoglobulin μ heavy chain (μHC) mRNA levels and hence lower pre-BCR and BCR levels. Hypomorphic expression of μHC leads to augmented selection processes at all stages of B-cell development, noticeably at the expansion of pre-B cells, the positive selection of immature B lymphocytes in the bone marrow and the selection of the follicular (FO), marginal zone (MZ) and B1 B-lymphocyte compartment in peripheral lymphoid organs. Immature as well as mature FO and MZ B lymphocytes in the peripheral lymphoid organs express lower levels of the receptor for B-cell activating factor (BAFF). In addition, hypomorphic expression of the BCR favours receptor editing. Together, our results highlight the critical importance of pre-BCR and BCR receptor levels for the normal development of B-lymphocyte subpopulations in the context of intact VDJ recombination and a diverse antibody repertoire.     

Tolerance and immunity in antigen-specific B-lymphocyte lines: early receptor binding of either antigen or tolerogen initiates an immune response

Studies of the effect of tolerance-inducing compounds on B lymphocytes have been complicated by the fact that it is technically difficult to completely isolate the antigen-specific B cell from the effects of T cells or T-cell factors. We have used our cell lines of nonmalignant dinitrophenyl (DNP)-specific B lymphocytes derived from normal mice, which have no contaminating T cells, to study the effect of DNP-murine IgG2a (DNP-MGG), a tolerogen which is not normally immunogenic, on antigen-specific B lymphocytes. Preincubation with DNP-MGG for 48 hr, both in the presence and absence of T-cell factors from EL-4 supernatant prior to adding the antigen DNP-Ficoll, can induce tolerance in cell line B lymphocytes. The suppression is antigen-specific since preincubation with fluorescein-MGG or unconjugated MGG does not suppress the anti-DNP response. At least a 36-hr incubation is required for tolerance induction in B lymphocytes, but a 6-hr preincubation with DNP-MGG augments the immune response to DNP-Ficoll. Lymphocytes incubated for 6 or 24 hr with DNP-MGG prior to adding EL-4 supernatant and filler cells without DNP-Ficoll exhibited an immune response equal to that elicited by DNP-Ficoll and T-cell factors. A 6-hr pulse with a DNP-conjugated polymer of D-glutamic acid and D-lysine (DNP-dGL), a B-cell tolerogen which does not bind to Fc receptors, elicited the same immune response as seen with a 6-hr pulse of DNP-MGG but a 48-hr preincubation with DNP-dGL induced tolerance. Thus, it is likely that the initial binding of the tolerogen to the immunoglobulin receptor on the mature B cell elicits an activation signal similar to that seen with the antigen. The suppressive effect of the tolerogen itself appears to occur at a later stage of the process of the B-cell activation, proliferation, and differentiation.     

Specificity of monoclonal antibodies to an EBV transformed B-cell line

Monoclonal antibodies were produced against an Epstein Barr virus (EBV) transformed human B-cell line with the following HLA specificities: HLA A2, B27, Cw2, Dr3,2. Antibodies from three clones, Mab B1, Mab B2 and B3 reacted with human Ia-like molecules on peripheral blood B cells, some monocytes, CLL cells, lymphoblastoid B-cell lines and some mixed leukocyte culture (MLC)-activated T cells, but were unreactive with leukoagglutinin (LA) and Concanavalin A (Con A)-activated T blasts and T-cell lines. Antibodies obtained from three other clones (Mab 4, 5 and 6) reacted with a mw 80,000 protein present on peripheral lymphocytes and on most of the lymphoblastoid T-and B-cell lines tested.     

Role of class II histocompatibility antigens in Staphylococcus aureus protein A-induced activation of human T lymphocytes

The capacity of peripheral blood monocytes and B lymphocytes to support staphylococcal protein A (SpA)-induced proliferation of autologous and allogeneic T cells, as well as the role of major histocompatibility complex (MHC) class I and II molecules in this activation process, were investigated. Highly purified peripheral T lymphocytes did not proliferate in response to SpA, but their response was reconstituted by both irradiated (or mitomycin C-treated) monocytes and B lymphocytes. The effect of B cells on the SpA-induced T-cell response could not be explained by a contamination of residual accessory cells because long-term continuous B-cell lines restored SpA-induced T-cell DNA synthesis as effectively as did monocytes. Support of SpA responsiveness by B cells could not be accounted for by polyclonal binding of SpA to cell surface immunoglobulins, since the ability of SpA-unreactive and SpA-reactive B cells was comparable. The cells from two human leukemic lines--K562 and Raji--showed the same ability in supporting the pokeweed mitogen-induced T-cell response, but the class II-positive Raji cells were much more effective than class II-negative K562 cells in restoring the T-cell responsiveness to SpA. Monoclonal antibodies specific for monomorphic determinants of MHC class II antigens, as well as their F(ab')2 fragments, consistently inhibited the SpA-induced proliferative response, whereas antibodies specific for MHC class I antigens were without effect. The antibodies specific for class II antigens appeared to act at the level of accessory cell, since pretreatment with these antibodies inhibited the ability of SpA-pulsed monocytes or Raji cells to present SpA to autologous or allogeneic T lymphocytes, respectively. These data indicate that either monocytes or normal and lymphoblastoid B cells can act as accessory cells for the proliferative response of human T cells to soluble SpA and that monomorphic determinants of MHC class II molecules play an important role in this activation process.     

Polyclonal activation of primed rat B cells

In recent years, murine and human virgin B lymphocytes have been used to examine the steps necessary for polyclonal activation. In these models mitogens are used in conjunction with lymphokines to determine which signals are responsible for regulating B-cell triggering, proliferation, and differentiation. While progress has been made in understanding these events as they occur in virgin B cells, very little evidence exists to suggest whether these models of activation also apply to the memory B-cell population. In this report we have described an antigen-specific, secondary in vitro immune response using cells isolated from lymph nodes draining the site of antigen injection. Unfractionated cells, B cells, and size-fractionated cells from dinitrophenyl-keyhole limpet hemocyanin (DNP-KLH)-primed rats were challenged in vitro with DNP-KLH, lipopolysaccharide plus dextran sulfate (LPS/DxS), and T-cell factors. We have consistently found, under all these conditions, that antigen challenge of primed cells results in the production of DNP-specific IgG antibody while stimulation with LPS/DxS plus T-cell factors results only in the polyclonal activation of virgin B cells; no antigen-specific IgG secretion is seen. This suggests that acquisition of memory status is associated with a loss in responsiveness to LPS/DxS-induced differentiation.     

Effects of GSM-modulated radiofrequency electromagnetic fields on B-cell peripheral differentiation and antibody production

We examined the effects of in vivo exposure to a GSM-modulated 900 MHz RF field on B-cell peripheral differentiation and antibody production in mice. Our results show that exposure to a whole-body average specific absorption rate (SAR) of 2 W/kg, 2 h/day for 4 consecutive weeks does not affect the frequencies of differentiating transitional 1 (T1) and T2 B cells or those of mature follicular B and marginal zone B cells in the spleen. IgM and IgG serum levels are also not significantly different among exposed, sham-exposed and control mice. B cells from these mice, challenged in vitro with LPS, produce comparable amounts of IgM and IgG. Moreover, exposure of immunized mice to RF fields does not change the antigen-specific antibody serum level. Interestingly, not only the production of antigen-specific IgM but also that of IgG (which requires T-B-cell interaction) is not affected by RF-field exposure. This indicates that the exposure does not alter an ongoing in vivo antigen-specific immune response. In conclusion, our results do not indicate any effects of GSM-modulated RF radiation on the B-cell peripheral compartment and antibody production and thus provide no support for health-threatening effects.     

Activation of T Cells by Autoantigen Immobilized by Specific Antibodies

A convenient microtiter-plate assay that uses immobilized antibody to capture specific antigens for presentation to T cells has been developed. Initial experiments used KLH as the antigen, immune antisera and draining lymph node cells from immunized NOD mice as the source of antibody and T cells, and spleen cells from naive NOD mice as the source of antigen-presenting cells (APCs). The resulting proliferation of the T cells was shown to be antibody- and antigen-specific, suggesting that the APCs had internalized and processed the captured antigen, presenting it to the T cells in the form of peptide/MHC complexes. The approach was also tested for an autoimmune disease as part of an effort to identify autoantigens responsible for the proliferation of T cells in the synovial fluid of rheumatoid arthritis patients. When immunoglobulin from autologous synovial fluid was captured on plates coated with anti-human immunoglobulin antibodies, the addition of HLA-DR4 peripheral blood mononuclear cells as APCs and synovial fluid-reactive HLA-DR4-restricted T-cell clones resulted in significant proliferation, indicating that the specific antigen in the crude synovial fluid was human immunoglobulin. This response was also shown to be antigen-specific and HLA-DR4-restricted. This assay format should permit the definition of autoantigens by capturing with antibodies to crude autoantigen extracts, followed by the addition of the appropriate APC and T-cell populations.     

Dendritic cells genetically modified to express CD40 ligand and pulsed with antigen can initiate antigen-specific humoral immunity independent of CD4+ T cells

We have investigated whether dendritic cells genetically modified to express CD40 ligand and pulsed with antigen can trigger B cells to produce antigen-specific antibodies without CD4+ T-cell help. Dendritic cells modified with a recombinant adenovirus vector to express CD40 ligand and pulsed with heat-killed Pseudomonas induced naive B cells to produce antibodies against Pseudomonas in the absence of CD4+ T cells in vitro, initiated Pseudomonas-specific humoral immune responses in vivo in wild-type and CD4-/- mice, and protected immunized wild-type and CD4-/-, but not B-cell -/- mice, from lethal intrapulmonary challenge with Pseudomonas. Thus, genetic modification of dendritic cells with CD40 ligand enables them to present a complex mixture of microbial antigens and establish CD4+ T cell-independent, B cell-mediated protective immunity against a specific microbe.     

Demonstration of T-cell-dependent and T-cell-independent components of 8-mercaptoguanosine-mediated adjuvanticity

The contribution of T cells to potentiation of humoral immunity by the C8-substituted guanine ribonucleosides and the origin of the increased numbers of antigen-responsive B cells generated consequent to their action have been investigated. Augmentation of the antigen-specific antibody response by these nucleosides, exemplified by 8-mercaptoguanosine (8MGuo), can be separated into T-cell-dependent and T-cell-independent components, both by use of the T-cell tropic immunosuppressive agent, cyclosporin A, and by experiments using separated populations of T and B cells. Augmentation of adjuvanticity by T cells is hypothesized to involve a B-cell subpopulation not otherwise subject to the action of 8MGuo. This subpopulation could potentially arise by either of two mechanisms, one whereby preexisting antigen-specific B cells undergo clonal expansion, and one in which cells not normally participating in the response are recruited in the absence of clonal expansion. Although the former mechanism makes a minor contribution to adjuvanticity, the latter mechanism appears to be the dominant one, insofar as models in which 8MGuo-induced proliferation fails to occur (such as after irradiation, or in the SJL mouse) nonetheless exhibit strong adjuvant effects. Analysis of precursor frequency of antigen-specific B cells indicates that for each mature, antigen-responsive B cell present in adult murine spleen, an average of four additional cells can be recruited by the conjoint actions of antigen and 8MGuo. One group subject to such recruitment is the immature antigen-specific B cell, whose degree of functional maturity is accelerated in the presence of antigen and 8MGuo.     

Assessing the replicative history of human T cells

Upon encountering antigen, T cells clonally expand and differentiate into effector cells that directly or indirectly eliminate antigen-bearing pathogens. When renewed contact with the same pathogen occurs the immune response is mounted in a faster and more accurate way, a process that is referred to as immunological memory. The basis for T-cell memory is at least partially provided by an enhanced precursor frequency of antigen-specific T cells, and an increased responsiveness of primed T cells to activation signals. In contrast to B cells, which acquire mutations in the immunoglobulin genes after antigenic challenge, somatic markers are lacking that distinguish unprimed (or naive) from primed (encompassing memory and effector) T cells. Instead, differential expression of cell surface molecules on subsets of T cells and measures for replicative history can be used to obtain insight into the antigen-driven development of the T-cell compartment. Apart from fundamental issues addressing lineage relationships between naive, memory and effector T cells and the cellular basis for long-term T-cell memory, these types of studies have proved to be valuable in understanding T-cell reconstitution in situations of severe T-cell depletion, i.e., after chemotherapy, treatment with depleting CD4 monoclonal antibodies or during HIV infection.     

B-cell expansion in the presence of the novel 293-CD40L-sCD40L cell line allows the generation of large numbers of efficient xenoantigen-free APC

BACKGROUND: CD40-activated B lymphocytes have been used successfully as potent APC for the induction of T-cell responses. However, the 3T3-CD40L cell line, regularly used for engagement of CD40 on the B-cell surface, is a potential source of xenoantigens. This may affect the specificity of T cells stimulated with CD40-activated B cells, especially when generation of T-cell lines specific for endogenously processed Ag is desired. METHODS: To develop a system that allows efficient expansion of B cells in the absence of sources of xenoantigens, we created a human 293-CD40L-sCD40L cell line that produces soluble CD40L and expresses CD40L on the cell surface. B cells from patients with hematologic malignancies were expanded on the 293-CD40L-sCD40L cells and used for stimulation of either naive or in vivo primed donor T cells in three HLA-identical patient-donor combinations. RESULTS: The 293-CD40L-sCD40L cell line was able to stimulate B-cell growth with an efficiency superior to that of the commonly used 3T3-CD40L cell line. In all cases T-cell lines and, subsequently, T-cell clones were generated that showed reactivity against patient and not donor B cells, suggesting their specificity for minor histocompatibility antigens (mHAg). DISCUSSION: B cells activated with GMP grade 293-CD40L-sCD40L can be used in a variety of applications. In particular, they may be suitable for ex vivo stimulation of T cells prior to donor lymphocyte infusion (DLI), which may enhance its graft versus leukemia (GvL) effect.     

Absence of OKT4-positive lymphocytes in black African subjects

Some black Africans whose lymphocytes lack the OKT4 surface antigen, but which react with other monoclonal antibodies recognizing the human inducer T-cell subset are described. In addition, three members of a family showed lymphocytes which reacted weakly with the OKT4 antibody but reacted normally with the other monoclonal antibodies. Mitogen-induced proliferation of these cells as well as their ability to assist B lymphocytes to mature into antibody-producing cells was normal. Although the mode of inheritance of these variants of the OKT4 epitope cannot yet be determined, it appears as though these polymorphisms are not uncommon in black Africans.     

Expression of L-selectin and efficient binding to high endothelial venules do not modulate the dissemination potential of murine B-cell lymphoma

The homing receptor L-selectin is essential for the migration of naive lymphocytes into peripheral lymph nodes. In contrast to naive lymphocytes, activated and memory cells down-regulate L-selectin and enter peripheral lymph nodes by an L-selectin-independent mechanism. In view of the concept that lymphomas present the malignant counterparts of normal lymphocytes at a defined stage of differentiation, it has been suggested that in contrast to lymphomas with a memory/activated cell phenotype, L-selectin is essential for dissemination of lymphomas that represent naive cells. 38C-13 is a murine B-cell lymphoma with an immature naive cell phenotype. 38C-13 cells express high levels of L-selectin and bind to lymph node high endothelial venules in an L-selectin-dependent manner. In this study we demonstrate that treatment of 38C-13 tumor-bearing mice with anti-L-selectin antibodies did not inhibit tumor dissemination to peripheral lymph nodes. Moreover, L-selectin-negative 38C-13 variant cells disseminated as efficiently as wild-type cells. Thus, in spite of its expression, L-selectin is not required and does not affect the metastatic potential of the tumor. L-selectin of the malignant cells and of normal lymphocytes appears to be functionally different. Thus, whereas antibody cross-linking of L-selectin resulted in down-modulation of the receptor in normal lymphocytes, cross-linking had no effect on L-selectin expression in 38C-13 cells, suggesting that, in spite of comparable levels of surface expression in normal and malignant cells, L-selectin may be functionally impaired in some malignant cells. Received: 9 November 2000 / Accepted: 11 January 2001     

The thymus microenvironment in regulating thymocyte differentiation

The thymus plays a crucial role in the development of T lymphocytes providing an inductive microenvironment in which committed progenitors undergo proliferation, T-cell receptor gene rearrangements and thymocyte differentiation into mature T-cells. The thymus microenvironment forms a complex network of interaction that comprises non lymphoid cells (e.g., thymic epithelial cells, TEC), cytokines, chemokines, extracellular matrix elements (ECM), matrix metalloproteinases and other soluble proteins. The thymic epithelial meshwork is the major component of thymic microenvironment, both morphologically and phenotypically limiting heterogeneous regions in thymic lobules and fulfilling an important role during specific stages of T-cell maturation. The process starts when bone marrow–derived lymphocyte precursors arrive at the outer cortical region of the thymic gland and begin to mature into functional T lymphocytes that will finally exit the thymus and populate the peripheral lymphoid organs. During their journey inside the thymus, thymocytes must interact with stromal cells (and their soluble products) and extracellular matrix proteins to receive appropriate signals for survival, proliferation and differentiation. The crucial components of the thymus microenvironment and their complex interactions during the T-cell maturation process with the objective of contributing to a better understanding of the function of the thymus as well as assist in the search for new therapeutic approaches to improve the immune response in various pathological conditions are summarized here.     

Uncoupling lymphocyte proliferation from differentiation: Dissimilar dose-response relations for pokeweed mitogen-induced proliferation and differentiation of normal human lymphocytes

Dose-response relations for pokeweed mitogen (PWM)-induced B- and T-cell proliferation and differentiation of human peripheral blood B lymphocytes were derived. For each tested concentration of PWM used in stimulating mononuclear cells, proliferation, assayed by cell population size and distribution of cells with respect to cell cycle phases; and differentiation, assayed by incidence of cytoplasmic immunoglobulin, were determined as a function of time following PWM stimulation. Balanced T- and non-T-cell proliferation occurred without necessarily being associated with B-cell differentiation. Differentiation, in contrast, was not observed without proliferation. The onset of balanced T- and non-T-cell proliferation preceded the differentiation of B lymphocytes into plasmacytoid cells bearing detectable cytoplasmic immunoglobulin. The dose-response relations for PWM-induced proliferation and differentiation were dissimilar. Optimum proliferation occurred at a PWM concentration $\text{1}\text{100}$ of that required to induce differentiation. The results indicate that while B- and T-cell proliferation may be necessary for B-cell differentiation, it is not sufficient. Proliferation can be uncoupled from differentiation. The dissimilarity of the dose-response relations for the two responses makes it improbable that PWM triggers a unique cellular process seminal to proliferation coupled inevitably to subsequent differentiation.     

Regression of Epstein-Barr virus-induced B-cell transformation in vitro involves virus-specific CD8+ T cells as the principal effectors and a novel CD4+ T-cell reactivity

T-cell memory to Epstein-Barr virus (EBV) was first demonstrated through regression of EBV-induced B-cell transformation to lymphoblastoid cell lines (LCLs) in virus-infected peripheral blood mononuclear cell (PBMC) cultures. Here, using donors with virus-specific T-cell memory to well-defined CD4 and CD8 epitopes, we reexamine recent reports that the effector cells mediating regression are EBV latent antigen-specific CD4+ and not, as previously assumed, CD8+ T cells. In regressing cultures, we find that the reversal of CD23+ B-cell proliferation was always coincident with an expansion of latent epitope-specific CD8+, but not CD4+, T cells; furthermore CD8+ T-cell clones derived from regressing cultures were epitope specific and reproduced regression when cocultivated with EBV-infected autologous B cells. In cultures of CD4-depleted PBMCs, there was less efficient expansion of these epitope-specific CD8+ T cells and correspondingly weaker regression. The data are consistent with an effector role for epitope-specific CD8+ T cells in regression and an auxiliary role for CD4+ T cells in expanding the CD8 response. However, we also occasionally observed late regression in CD8-depleted PBMC cultures, though again without any detectable expansion of preexisting epitope-specific CD4+ T-cell memory. CD4+ T-cell clones derived from such cultures were LCL specific in gamma interferon release assays but did not recognize any known EBV latent cycle protein or derived peptide. A subset of these clones was also cytolytic and could block LCL outgrowth. These novel effectors, whose antigen specificity remains to be determined, may also play a role in limiting virus-induced B-cell proliferation in vitro and in vivo.     

Activated B lymphocytes: stimulators of an augmented autologous mixed leukocyte reaction

The characteristics of the non-T cell(s) which stimulate T-lymphocyte proliferation in the autologous mixed leukocyte reaction (AMLR) have been at issue since this in vitro reaction was first described. Dendritic cells have been shown to be the most potent stimulator cells, but B cells, null cells, and macrophages have also been demonstrated to have the capacity to stimulate autologous T-cell proliferation. A cell preparation obtained from human peripheral blood was highly enriched for surface immunoglobulin-positive B cells. These cells were activated by brief culture with various B-cell mitogens and then compared to untreated B cells with regard to stimulatory activity in the AMLR. Mitogen-activated B cells were markedly augmented in their capacity to stimulate autologous T-cell proliferation when compared with untreated B cells. Fractionation of the B-cell preparation into high- and low-density subpopulations demonstrated that the high-density cells, enriched in resting B cells, had minimal stimulatory activity but could be activated to have increased AMLR-stimulatory capacity. Proliferation of the activated B lymphocytes was not required for the generation of the augmented AMLR. Response to both untreated and mitogen-activated B cells was a property of T4-positive T lymphocytes. The increase in stimulatory capacity was associated with a decrease in cell surface immunoglobulin, but no significant alteration in the percentage or fluorescence intensity of anti-Ia staining cells was detected. Activated B cells which are generated in vivo may acquire the capacity to generate T effector cells or factors important in the regulation of B-cell function.     

Different roles of the CD2 and LFA-1 T-cell co-receptors for regulating cytotoxic, proliferative, and cytokine responses of human V gamma 9/V delta 2 T cells

BACKGROUND: Human V gamma 9/V delta 2 T lymphocytes recognize nonpeptidic antigens in a manner distinct from the classical antigen recognition by alpha beta T cells. The apparent lack of major histocompatibility (MHC) restriction and antigen processing allows very fast responses against pathogenic insults. To address the potential functional requirement for accessory molecules, we investigated the roles of the CD2 and lymphocyte function-associated antigen (LFA)-1 T-cell co-receptors in antigen-induced activities of human V gamma 9/V delta 2 T-cell clones. MATERIALS AND METHODS: Human peripheral blood V gamma 9/V delta 2 T lymphocytes were cloned and their cytotoxicity against Daudi lymphoma was measured by a standard 51Cr-release assay. The responses of V gamma 9/V delta 2 T lymphocytes to nonpeptidic antigens were assessed using DNA synthesis and cytokine ELISA assays. Monoclonal antibodies specific for various molecules with potential T-cell accessory functions were utilized in blocking assays. RESULTS: All of our V gamma 9/V delta 2 T-cell clones displayed the Th1 phenotype. The anti-LFA-1 antibody strongly inhibited the cytotoxicity of V gamma 9/V delta 2 T cells against Daudi B-cell lymphoma; whereas, it had no influence on the antigen-induced cytokine release or proliferation. In contrast, antibodies against CD2 and LFA-3 had no effect on the lytic activity of V gamma 9/V delta 2 T cells, but strongly inhibited the cytokine release and proliferation. However, the CD2-LFA-3 interaction was not an absolute requirement for the cytokine release and the DNA synthetic activity of antigen-stimulated V gamma 9/V delta 2 T cells, since the inhibitory effect could be reversed by addition of exogenous interleukin 2 (IL-2). CONCLUSIONS: These novel observations indicate that the signals generated by different accessory molecules and IL-2 can contribute in an integrated fashion to the regulation of V gamma 9/V delta 2 T cells. These interactions may be important for the effectiveness of V gamma 9/V delta 2 T-cell responses.     

Impaired naive and memory B-cell responsiveness to TLR9 stimulation in human immunodeficiency virus infection

Toll-like receptor 9 (TLR9) agonists such as unmethylated bacterial CpG DNAs activate B lymphocytes directly, potentially influencing their function and homeostasis. To assess B-cell responsiveness to TLR9 agonists in human immunodeficiency virus (HIV) disease, we examined the ability of naive and memory B cells to proliferation and to increase surface expression of CD80 in response to CpG oligonucleotides (ODN). CpG ODN induced expression of CD80 similarly in B cells from HIV-infected persons and from healthy controls. In contrast, proliferation responses to CpG ODN were markedly impaired in both naive and memory B-cell subsets from HIV-infected persons. Naive B-cell proliferation defects were related to plasma HIV RNA and, among memory B cells, to the frequencies of CD21-negative cells. Importantly, TLR9 mRNA levels were significantly diminished in freshly prepared naive B cells and especially so in memory B cells from HIV-positive viremic donors, suggesting a possible underlying mechanism for the observed functional impairments. Dose-response studies indicated that optimal induction of CD80 expression was achieved with much lower concentrations of CpG ODN than optimal induction of proliferation. We propose that the relatively low threshold of activation that is required for CD80 induction by CpG ODN might explain the preservation of this response in B cells from HIV-infected persons despite diminished TLR9 expression. Impaired responsiveness to TLR9 agonists may contribute to defects in humoral immunity in HIV infection.