Idiotypic vaccination as a treatment for a B cell lymphoma

To develop a model for the active immunotherapy of human B cell malignancy we vaccinated tumor-bearing animals with a well defined tumor associated Ag, the idiotypic Ig. The tumor used was the mouse B cell lymphoma BCL1, a highly malignant tumor in which transfer of a single tumor cell to a syngeneic mouse is capable of causing disease and eventual death. Varying doses (10(2) to 10(4] of BCL1 cells were given to mice on day 0 of the experiment, and treatment by active immunization was initiated on day 3. Immunization with purified, tumor-derived, idiotypic IgM (BCL1 IgM) coupled to keyhole limpet hemacyanin (KLH) was highly effective in treating mice challenged with 10(2) or 10(3) BCL1 cells, but less effective in mice that had received 10(4) tumor cells. Immunization with unconjugated BCL1 IgM showed no signficant therapeutic benefit. Coupling of the IgM to KLH led to higher levels of anti-idiotypic antibody after immunization; however, the higher levels were probably not responsible for the control of the malignancy as there was no correlation in healthy immunized animals between the levels of anti-idiotypic antibody, measured immediately before tumor challenge, and survival. This lack of correlation is due to the emergence of variant tumors in such protected mice. A more significant factor in the therapeutic advantage of KLH conjugation could be that immunization with BCL1 IgM-KLH led to an earlier induction of the anti-idiotypic response than immunization with BCL1 IgM and, as the BCL1, lymphoma divides rapidly, the speed of induction of the immune response may be important in outstripping tumor cell growth. Mice with BCL1 tumour showed some evidence of immunosuppression as indicated by a reduced ability to mount an immune response against KLH. Although it is not possible to model spontaneous human lymphoma accurately, the generation of a functional anti-idiotypic response capable o eliminating a malignant animal lymphoma in situ opens up the possibility of a limited trial of active immunotherapy in selected human patients.     

Anti-idiotypic mechanisms involved in suppression of a mouse B cell lymphoma, BCL1

Immunization of BALB/c mice with idiotypic IgM rescued by hybridization from the syngeneic BCL1 lymphoma protects specifically against challenge with tumor cells, with 83% surviving greater than 100 days compared with controls (38 +/- 10 days). Spleens from long-term survivors (greater than 6 mo) with no macroscopically visible tumor, when examined with anti-idiotypic antibody, showed a range of apparently dormant tumor with BCL1 cells present at 2 to 50% of total. A spectrum of protection against tumor resulted from immunization, and tumor emerging in the period 53 to 173 days postpassage was investigated for expression of idiotype. It was found that cells from individual mice expressed variable amounts of idiotypic IgM at the cell surface, although it was always detectable in the intracellular compartment. Unlike typical BCL1 cells, tumor cells developing in immune spleens often secreted little idiotypic IgM either in vitro or in vivo. This modulation of expression and secretion of idiotype was detected even in the apparent absence of serum anti-idiotypic antibody. On passage of spleen cells from the long-term survivors into naive animals, BCL1 tumor developed and killed the recipients in a way indistinguishable from routine tumor passage. These tumor cells, however, both expressed and secreted IgM of the same idiotype as the original tumor. It appears therefore that tumor development in immunized mice is suppressed by a process that includes modulation but not selection of the tumor cell idiotypic determinants. Analysis of possible mechanisms of suppression revealed the presence of cytotoxic anti-idiotypic antibody at variable levels in sera of immunized mice, and splenic T cells that proliferated specifically in response to idiotypic IgM. Only low levels of cytotoxic T cells were found. Passive transfer studies demonstrated a major role for antibody in protection against tumor, with no significant enhancement by immune lymphocytes.     

An in vitro line of the B cell tumor BCL1 can be activated by LPS to secrete IgM1

An in vitro line of the B cell tumor BCL1 was developed. The cell line carried u-, S-, and A-chains on the cell surface as judged by analysis of surface iodinated proteins but did not secret Ig. ASfter stimulation with LPS, limpid A, or bacterial lipoprotein, 20 to 40% of the tumor cells matured to IgM secretors when detected in a plaque assay. Two other polyclonal B cell activators, namely dextransulphate and PPD, had at most a marginal stimulatory effect. The ability of the cells to become activated to IgM secretion as well as the expression of cell surface IgM and IgD makes the BCL1 unique among murine B cell tumors.     

Recognition of a B cell lymphoma by anti-idiotypic T cells

Idiotypic IgM derived from a B cell lymphoma can act as a tumor-associated Ag, in that immunization with this purified protein generates an anti-idiotypic immune response that specifically suppresses tumor development. Spleens of immune mice contain T cells that proliferate in response to idiotypic IgM. However, idiotypic Ag is presented to the T cells most efficiently in its natural form at the surface of the lymphoma cells, than as soluble IgM plus presenting cells. Variant tumors that display either little or no idiotypic IgM at the cell surface, but which are otherwise indistinguishable from parental tumor, induce a weak response or fail to stimulate the T cells, respectively. Anti-idiotypic lines and clones have been derived from the splenic T cells by growth in the presence of irradiated tumor cells. Phenotypic analysis revealed that cells from both lines and clones express CD3 and CD4 Ag, but not CD8. Recognition of tumor Id, which required no added presenting cells, was inhibited by antibody against MHC class II Ag, and variably by anti-CD4. Proliferative responses were inhibited by anti-idiotypic antibodies, but also by antibodies against the constant region of the mu H chain, indicating that perturbation of the surface IgM abrogates availability of idiotypic determinants to the T cells.     

Idiotypic variation in a human B lymphoma cell line

The Ig Id of a B cell lymphoma serves as a distinct marker of the malignant clone and thus as a tumor-specific target for antibody therapy. Somatic variation of the Ig genes expressed by B cell tumors can lead to loss of reactivity with anti-Id antibodies and escape of tumors from the therapeutic effects of such antibodies. In our study, we have used anti-Id antibodies to screen for variants within a cell line derived from a patient with a large cell lymphoma of the B cell type. Cells were simultaneously stained on their surface for idiotypic and for isotypic Ig determinants using reagents labeled with different fluorochromes. Tumor cells expressing intact Ig molecules with alteration of their idiotypic determinants were isolated with the fluorescence activated cell sorter. Idiotypic variation was an ongoing process in vitro with Id- variants being generated at a rate of 2.7 x 10(-4)/cell per generation and Ig- cells being produced at a rate of 1.31 x 10(-5)/cell per generation. Subcloned variants expressed subtle differences in reactivity with a panel of three non-cross-blocking anti-Id antibodies. Analysis of Ig gene rearrangements by the Southern blotting technique using a JH probe established that the variants and the original tumor cells were all clonally related. Immunoprecipitation of surface labeled Ig molecules from the variant subclones disclosed major alterations of the lambda-L chains with no gross alterations of the mu-H chains. Related studies have established that the tumor cells undergo rearrangement and expression of new lambda-L chain genes.     

Growth inhibition of a B cell leukemia: evidence implicating an anti-idiotype immune response for protective tumor immunity

BCL1, a spontaneous surface IgM (mu lambda)-positive (sIgM+) B cell leukemia of BALB/c (Igha) origin rarely grows in the Ig heavy chain (Igh) congenic mouse C.B-20 (Ighb) but is highly metastatic and lethal in the host strain of origin. Previous studies indicated that BCL1 tumor immunity in C.B-20 mice was associated with a T cell-mediated immune response against H-40, a minor histocompatibility (H) antigen controlled by a gene linked to the Igh locus. However, we observed that BCL1 leukemia grew progressively in BAB-14 (Igha/b) mice, a strain capable of generating an anti-H-40 immune response. This suggested that anti-H-40 immunity was insufficient for protection and implied that an Igh-V (variable) region gene product was also important for BCL1 growth inhibition. We therefore evaluated the role of two possible Igh-V region-linked gene products in BCL1 growth inhibition; namely, an Igh-V region-linked minor H antigen or alternatively the BCL1 IgM idiotype (Id). We could find no evidence for an Igh-V region-linked minor H antigen because immunosuppressed (500 R) CB-20 mice reconstituted with C.B-20 anti-BAB-14 splenocytes were susceptible to BCL1 growth, whereas recipients reconstituted with C.B-20 anti-BALB/c splenocytes were resistant to BCL1 challenge. In contrast, C.B-20 mice immunized against purified BCL1 IgM protein could adoptively confer BCL1 tumor immunity. C.B-20 mice immunized against other BALB/c IgM myeloma proteins containing either lambda or kappa light chains failed to protect C.B-20 mice suggesting that recognition of a unique determinant (Id) and not an allotype was crucial for tumor immunity. The BCL1 mu-chain appeared to make the major contribution to the idiotypic determinant because a hybridoma product composed of BCL1 mu-chains and BALB/c kappa-chains still elicited BCL1 immunity. Adoptive transfer of C.B-20 anti-BCL1 Id splenocytes into irradiated recipients that prevented an anti-H-40 response due to H-40 tissue expression failed to adoptively confer BCL1 immunity. Thus, these data suggest that BCL1 growth inhibition requires a T cell-mediated response against both H-40 and the BCL1 Id; these responses must be elicited concurrently in the tumor-bearing host to achieve protective BCL1 immunity.     

Role of DNA synthesis in secretion of immunoglobulin from murine B cells stimulated by T cell derived lymphokines

We have investigated whether cell division is required for induction of Ig secretion from three types of B cells, which represent distinct activation states: normal splenic B cells, anti-Ig-treated B cells, and a monoclonal murine B cell tumor, BCL1. Polyclonal Ig secretion was stimulated in vitro by LPS or by lymphokines produced by EL-4 cells (EL-4 SN), which includes B cell growth factor II (BCGF II). LPS and EL-4 SN were mitogenic for all three cell populations and stimulated substantial IgM secretion from both B cells and anti-Ig blasts. Aphidicolin, a reversible inhibitor of DNA synthesis, abolished IgM secretion from B cells and anti-Ig blasts induced by either mitogen, indicating that Ig-secreting cells in these cultures are part of a cycling population. BCL1 tumor cells respond to BCGF II (but not to interleukin 2 or B cell stimulatory factor 1) with IgM secretion and cell division, allowing a direct assessment of the influence of BCGF II-stimulated cell division on secretion of IgM. Secretion by these cells during the first 24 hr of culture was not substantially affected by aphidicolin, but secretion at 48 or 72 hr was markedly inhibited. Culture of BCL1 cells for 48 hr with aphidicolin alone had no effect on cell viability or on subsequent responsiveness if the drug was removed, eliminating non-specific toxicity as an explanation of the drug's effect. Addition of aphidicolin during the last 24 hr of culture to either normal B cells or BCL1 cells was much less effective at inhibiting IgM secretion. These results indicate that the cells that secrete IgM in response to BCGF II also synthesize DNA when exposed to this factor. Thus, induction of high-rate Ig secretion from murine B cells by some stimuli, including BCGF II, may require at least one round of cell division.     

Characterization of the spontaneous murine B cell leukemia (BCL1). III. Evidence for monoclonality by using an anti-idiotype antibody.

We have raised an anti-idiotypic antibody against the cell surface IgM of the murine BCL1 tumor cells. This antiserum reacts exclusively with the IgM expressed on the tumor cells and detects a unique population of cells in the spleen and blood of the tumor-bearing mice. When these cells are stimulated in vitro with LPS, they secrete an IgM bearing the same idiotype as the cell surface Ig. These results are discussed in terms of a model for the immunotherapy of a chronic lymphocytic leukemia-like syndrome in mice.     

Idiotype variants emerging after anti-idiotype monoclonal antibody therapy of a murine B cell lymphoma

One of the difficulties encountered with the treatment of human B cell malignancies with anti-Id antibodies is the emergence of Id variants. The current study was designed to investigate this phenomenon further by using the murine B cell lymphoma model 38C13. Tumors were harvested that developed despite treatment with the anti-Id antibody S1C5 in mice inoculated with 38C13 cells and evaluated by immunofluorescence. Various phenotypes were found among escaping tumor cells. Some cells continued to react with S1C5 whereas others lost S1C5 reactivity. Among these latter cells, some continued to express surface IgM kappa, whereas others no longer expressed surface mu or kappa. After Id variant cell lines were established, immunofluorescence and ELISA of cell lysates from the surface IgM kappa- lines revealed persistent intracellular mu H chain but no detectable kappa. Surface IgM kappa+ lines were fused with myeloma cells and the Ig proteins secreted by the resultant hybridomas analyzed. The apparent m.w. of the mu-chains of these rescued Ig was the same as wild-type 38C13, whereas the kappa-chains were either the same or different in m.w. from the wild type. The IgM kappa of the variant line, T3C, weakly reacted with S1C5 and did not react with other anti-Id antibodies. The IgM kappa of the other variants were nonreactive with all the antibodies. Immunofluorescence of these surface Ig+ variants confirmed this finding. Some of the surface Ig+ and Ig- variant lines grew identically to wild-type tumor in vivo, but only the weakly S1C5-reactive variant T3C was inhibited in its growth by S1C5. Moreover, T3C was the only one of these lines capable of being lysed in vitro with S1C5 by antibody-dependent cellular cytotoxicity. Further studies revealed that surface Ig+ and Ig- variants emerge in escaping tumors with similar frequency and that these variants represent a major mode of tumor escape from anti-Id treatment in this model.     

STAT3 regulates the growth and immunoglobulin production of BCL(1) B cell lymphoma through control of cell cycle progression

STAT3 is constitutively phosphorylated on tyrosine(705) in self-renewing, CD5(+) murine B-1 lymphocytes. Nuclear extracts from untreated primary B-1 or CD5(+) BCL(1) B lymphoma cells were found to contain immunoreactive STAT3 protein that binds to a sis-inducible element present in the promoter of the p21(waf1/cip1) tumor suppressor gene and is constitutively phosphorylated on serine(727). To determine the functional significance of constitutive STAT3 activation in B lymphoma cells, a specific STAT3 antisense oligonucleotide was developed and used to examine basal BCL(1) cell growth and IgM production. Abrogating STAT3 expression in BCL(1) cells inhibited their proliferative capacity and induced a corresponding decrease in secretion of IgM. Cell cycle analysis showed a block in progression through G1 in BCL(1) cells treated with the STAT3 antisense oligonucleotide. These results indicate that STAT3 controls cell growth and immunoglobulin secretion by enhancing progression through the G1 phase of the cell cycle in BCL(1) B cell lymphoma.     

Cancer dormancy. VII. A regulatory role for CD8+ T cells and IFN-gamma in establishing and maintaining the tumor-dormant state

Dormant tumor cells resistant to ablative cancer therapy represent a significant clinical obstacle due to later relapse. Experimentally, the murine B cell lymphoma (BCL1) is used as a model of tumor dormancy in mice vaccinated with the BCL1 Ig. Here, we used this model to explore the cellular mechanisms underlying dormancy. Our previous studies have demonstrated that T cell-mediated immunity is an important component in the regulation of tumor dormancy because Id-immune T cells adoptively transferred into passively immunized SCID mice challenged with BCL1 cells significantly increased the incidence and duration of the dormant state. We have extended these observations and demonstrate that CD8+, but not CD4+, T cells are required for the maintenance of dormancy in BCL1 Ig-immunized BALB/c mice. In parallel studies, the transfer of Id-immune CD8+ cells, but not Id-immune CD4+ cells, conferred significant protection to SCID mice passively immunized with nonprotective levels of polyclonal anti-Id and then challenged with BCL1 cells. Furthermore, the ability of CD8+ T cells to induce a state of dormancy in passively immunized SCID mice was completely abrogated by treatment with neutralizing alpha-IFN-gamma mAbs in vivo. In vitro studies demonstrated that IFN-gamma alone or in combination with reagents to cross-link the surface Ig induced both cell cycle arrest and apoptosis in a BCL1 cell line. Collectively, these data demonstrate a role for CD8+ T cells via endogenous production of IFN-gamma in collaboration with humoral immunity to both induce and maintain a state of tumor dormancy.     

Anti-idiotypic antibodies recognizing stable epitopes limit the emergence of idiotype variants in a murine B cell lymphoma.

The emergence of Id variants is a major escape mechanism from anti-Id therapy of human B cell malignancies and of the murine B cell lymphoma 38C13. To determine what impact the epitope specificity of anti-Id antibodies has on the prevention of emergence of such Id variants in the 38C13 lymphoma, anti-Id mAb of varying epitope specificity for the Id of 38C13 tumor cells were produced and studied. Some antibodies, produced by immunizing mice with both the wild-type 38C13 IgM and variant IgM, cross-reacted with wild-type 38C13 IgM and with all four members of a panel of variant IgM. These anti-Id did not react with separated 38C13 IgM H or L chains by Western blot, but did react with the cytoplasmic H chain of the surface Ig- variant cell line T2D that expresses the same H chain as wild-type 38C13 in its cytoplasm but does not express any associated L chain. In contrast, anti-Id of narrower specificity did not react with this H chain. This indicated that the broadly cross-reactive antibodies recognized a stable epitope on 38C13 H chain. When a broadly cross-reactive antibody MS11G6 was compared to S1C5, an antibody of narrower specificity, MS11G6, was superior at preventing tumor growth in mice inoculated with 38C13 cells. Moreover, no surface Ig+ variants emerged in escaping tumors in the MS11G6-treated group, whereas such variants were common in the S1C5 treated group. Both anti-Id were of equal efficacy in eliminating wild-type 38C13 cells by using 38C13 cells in tumor inoculums that had just been cloned in vitro, but MS11G6 was also capable of preventing the growth of several surface Ig+ variant cell lines in vivo. We conclude that anti-Id recognizing more stable Id determinants can limit the emergence of Id variants and therefore be more effective therapeutic agents. This finding is of additional importance as additional in vivo and immunophenotypic studies demonstrated that the generation of Id variants was an ongoing process both in cloned parental 38C13 cells and its variants.     

Treatment of mice bearing BCL1 lymphoma with bispecific antibodies

Bispecific antibodies with specificity for the CD3/TCR complex of CTL and a target cell Ag can bridge both cell types and trigger cellular cytoxicity. We have produced bispecific antibodies, directed against the surface-expressed Id of the mouse BCL1 lymphoma and the mouse CD3 complex, by hybrid-hybridoma fusion. Two recombination Ig were purified to homogeneity: B1 X 7D6F, which is univalent for Id and CD3 binding and B1 X 7D6M, which is univalent for Id binding but has lost the CD3 binding because of association of the anti-CD3 H chain with the inappropriate L chain. In vitro studies indicate that bridging the TCR/CD3 complex of resting T cells with tumor IgM Id and the appropriate bispecific antibody induced proliferation and secretion of IL-2. Furthermore, in cytotoxicity assays using 51Cr-labeled tumor cells, preactivated T cells could be targeted with the bispecific antibody to give complete lysis of the Ag+ tumor. Finally, the activity of the bispecific antibody was confirmed in vivo. Animals treated i.v. with 5 micrograms of bispecific antibody 9 days after receiving BCL1 cells were cured. Furthermore, when these animals were checked at 150 days for dormant or variant tumors, as have been reported after other forms of immunotherapy in this model, none could be found. Immunotherapy experiments comparing a mixture of control antibodies with the bispecific antibody demonstrate that tumor cell-T cell bridging is established in vivo and is required for therapeutic success. These results indicate the importance of bispecific antibodies as a novel form of treatment for cancer.     

Ig isotype switching in B lymphocytes. Isolation and characterization of clonal variants of the murine Ly-1+ B cell lymphoma, CH12, expressing isotypes other than IgM

We have selected and cloned variant cells from the murine B cell lymphoma, CH12, that produce a variety of other Ig isotypes in addition to or in place of the original IgM and IgD. Variants were selected by flow cytometry and automated cloning and isotype production was analyzed by membrane immunofluorescence and ELISA of culture fluids. Variants have been isolated that produce the single isotypes IgA, IgG2b, and IgG3, as well as variants that produce more than one isotype simultaneously, i.e., IgM, IgD, and IgA; IgG2b and IgA; IgG3 and IgA. All isotypes have been seen as cell surface proteins and all except IgD have been found in culture supernatants. All isotypes display the same idiotype and Ag-binding specificity for phosphatidyl choline as the original IgM and all are translated from the same VDJH and VJ kappa gene assemblies. Production of more than one isotype by a variant clone is due to simultaneous production of all the isotypes by each cell within the clone. The finding that the variants producing more than one isotype are all tetraploid suggests the interesting possibility that each isotype is derived from an independently switching chromosome. All isotype variants can be stimulated by LPS to secrete the appropriate Ig isotype at an increased rate similar to the IgM expressing parent. The variants differ in stability; some have remained stable for more than 9 months in culture, whereas other have undergone further isotype switching. The facts that some isotypes have not been seen, that multistep switching has occurred, and that many variants produce IgA in addition to another isotype are discussed in relation to current notions of isotype switching mechanisms.     

Rejection of tumors of the B cell lineage by idiotype-vaccinated mice

Idiotypic determinants of immunoglobulins of malignant B lymphocytes and plasma cells are tumor-specific antigens and have been used extensively in immunotherapy studies. The mechanisms involved in resistance to tumor challenge following idiotype vaccination are poorly understood. Although a predominant role has been attributed to anti-idiotype antibodies, both humoral and cellular immune responses are probably involved. Cell-mediated responses may be particularly effective against tumor cell variants that do not express the idiotype on the cell surface and are therefore resistant to anti-idiotype antibodies but continue to produce one of the original immunoglobulin polypeptides that may be processed and presented to T cells. In this report we describe two experimental models of idiotype vaccination in which antibodies are unlikely to play a role, and hence tumor immunity is attributed to cell-mediated responses. One model consists of the murine B lymphocyte tumor 38C-13 and its idiotype-negative variant DB2, which has lost the idiotypic specificity of the parental 38C-13 cell line through the production of a different light chain but expresses the original heavy chain. Vaccination of mice with the purified IgM of 38C-13 induced resistance to 38C-13 tumor cells as well as to the variant cells. Although immunized mice produced high levels of anti-idiotype antibodies that bound to 38C-13 cells, no binding of antibodies to DB2 cells occurred. The finding that idiotype-vaccinated mice were resistant to idiotype-negative DB2 cells suggested that cellular mechanisms are involved in mediating resistance. The second model consists of the two plasma cell line JLμs and JLμm, which produce IgM with an identical specificity. Whereas one of them (JLμs) secretes the IgM, the other one(JLμm) can neither secrete nor deposit it on the cell surface. Immunization against JLμs IgM followed by tumor challenge resulted in prolonged survival of both JLμs- and JLμm-challenged mice. Although sera of immunized mice contained high levels of anti-idiotype antibodies, they did not react with the plasmacytoma cells. Similarly to the results obtained in the 38C-13 experimental model, these results suggest that a non-antibody-mediated mechanism was involved in the resistance of mice to tumor growth. Received: 11 June 1998 / Accepted: 26 November 1998     

Activity of a partially purified human BCGF on murine assays for B cell stimulatory factors. II. Synergy between two distinct BCGF II-like factors in promoting B cell differentiation

We have previously identified two BCGF II-like factors which can be distinguished by their differential reactivity in several murine BCGF II assays. Prototype sources of these two factors are a partially purified preparation derived from PHA-P-stimulated human peripheral blood T lymphocytes (designated human BCGF), and supernatant from antigen-stimulated D10.G4.1 murine T cells (designated D10 sup). Extending the characterization of these two factors, we show here that human BCGF and D10 sup both cause tritiated thymidine ([3H]TdR) incorporation and IgM secretion by T cell-depleted, in vivo-activated, large murine B cells. In contrast, only the human BCGF consistently induced proliferation and IgM secretion by T cell-depleted, small murine B cells. When simultaneously added to cultures, D10 sup and human BCGF synergized to produce optimal IgM secretion by large murine B cells and murine BCL1 B lymphoma cells. The same factors were tested in an IgM-specific plaque assay, and a similar synergistic response was observed for the large B cells, but not for the BCL1 cells. The combination of factors also produced maximal [3H]TdR incorporation by large murine B cells. In contrast, the addition of human BCGF totally abrogated D10 sup-induced BCL1 proliferation. Together, these data suggest that the synergies observed in IgM secretion result from an increased production of plaque-forming cells (PFC) in cultures of large B cells and an increase in IgM production per responding cell in BCL1 cells. Kinetic analysis of the time of action of the two BCGF II-like lymphokines in the induction of the PFC response by large B cells indicated that human BCGF was required within the first 24 hr of a 4-day culture period, while D10 sup could be added as late as the final 15 hr without significant diminution of the response. In summary, these data provide further support for the existence of two distinct B cell stimulatory factors which cause growth and differentiation of activated B cells, and indicate that these two factors synergize to produce optimal Ig secretion. For ease of discussion, the activity in the human BCGF preparation is referred to as BCGF IIA, and the activity in D10 sup is referred to as BCGF IIB.     

Molecular characterization of a supratypic cross-reactive idiotype associated with IgM autoantibodies

Neoplastic B cells from patients with chronic lymphocytic leukemia (CLL) or small lymphocytic lymphomas (SLL) frequently express surface Ig reactive with the mouse mAb, Lc1. Raised against a human monoclonal IgM with rheumatoid factor activity, Lc1 detects a major cross-reactive Id (CRI) present on the H chain of many monoclonal IgM autoantibodies. In contrast to other major autoantibody-CRI investigated to date, we note that the Lc1-CRI is expressed by subpopulation of cells in the germinal centers, as well as in the mantle zones, of secondary human B cell follicles. To examine the molecular basis for Lc1 expression, we used the polymerase chain reaction to isolate the functionally rearranged Ig VH genes of monoclonal Lc1-reactive B cell populations from six unrelated patients with CLL or SLL. Although the neoplastic B cells from most patients with CLL or SLL express the CD5 surface differentiation Ag, the lymphoma cells from one patient with SLL were CD5-negative. We find that the Lc1-reactive cells from each cell population have Ig rearrangements involving a VH gene of the VH4 subgroup. However, the VH4 genes rearranged in different Lc1-reactive tumor populations may originate from at least two disparate germ-line VH4 genes. Also, in contrast to the CD5-positive tumor populations, we find evidence for intraclonal diversity in the functionally rearranged VH4 genes of the CD5-negative SLL. Collectively, this study discerns a degeneracy in the VH4 genes that can encode the Lc1 CRI, indicating the term "supratypic cross-reactive idiotype" may best describe the specificity of the Lc1 mAb. Also, this study suggests that expression of CD5 may delineate categories of B cell SLL that differ in their relative rates of constitutive Ig V gene somatic mutation.     

Generation of somatic variants of a B cell hybrid mediated by a non-cytolytic L3T4+ idiotype-specific T cell

We previously reported that idiotype (Id)-loss, stable somatic variants of a B cell hybrid, 2C3E1, are generated both in vitro and in vivo, after interaction of the Id-positive tumor cells with autologous Id-specific effector T cells. The present investigation was undertaken to elucidate further the nature and functional characteristics of the effector T cells. We report here that the idiotype-specific cells mediating the generation of Id- tumor variants are Thy1+ L3T4+ Lyt-2- cells, which respond to specific idiotypic stimulation by secreting IL-2 in vitro. No IL-2 is secreted in response to unrelated Ig or an Id/Ig-2C3E1 tumor variant. Furthermore, the Id-specific T cells exert strong suppressive effects on the expression of 2C3E1 Ig and the effects can be reversed by blocking the L3T4+ T cells with monoclonal anti-L3T4 antibody in vitro during the initial 3 days of co-culture. After 4 days, the T cell-mediated suppression of the 2C3E1-Id is irreversible. In addition to the in vitro studies we have determined that the administration of anti-L3T4 mAb to mice just before priming with idiotype-bearing tumor cells also abrogates the suppressive effects of the idiotype primed spleen cells on Ig expression of 2C3E1. To study the Id-specific effector T cells in more detail we have generated functional Id-specific L3T4+ T cell lines. These T cell lines have been shown to recapitulate the generation of Id- tumor variants that we observed with Id-primed spleen cells. It is concluded that L3T4+, Id-specific Ts cells are responsible for the generation of somatic variants of the B cell hybrid 2C3E1 and that the induction or selection of these variants progresses from a reversible phase to an irreversible phase.     

STAT3-mediated up-regulation of BLIMP1 Is coordinated with BCL6 down-regulation to control human plasma cell differentiation

STAT family members have been implicated in regulating the balance between B cell lymphoma (BCL)6 and B lymphocyte induced maturation protein (BLIMP)1 to control plasma cell differentiation. We previously showed that STAT5 induces BCL6 to block plasma cell differentiation and extend the life span of human B cells. The heterogeneity in STAT activation by cytokines and their effects on B cell differentiation prompted us to investigate the effect of STAT3 activation in plasma cell differentiation. First stimulation with IL-21, which promotes plasma cell differentiation, induced robust and prolonged STAT3 activation in primary human B cells. We then investigated effects of direct STAT3 activation on regulation of plasma cell genes, cellular phenotype, and Ig production. Activation of a tamoxifen-regulated STAT3-estrogen receptor fusion protein triggered BLIMP1 mRNA and protein up-regulation, plasma cell phenotypic features, and Ig secretion. When STAT3 was activated by IL-21 in B cells ectopically expressing BCL6, BLIMP1 was up-regulated, but only partial plasma cell differentiation was achieved. Lastly, through coexpression of BCL6 and STAT3-ER, we verified that STAT3 activation functionally mimicked IL-21 treatment and that STAT3-mediated BLIMP1 up-regulation occurred despite high BCL6 expression levels indicating that BCL6 is not the dominant repressor of BLIMP1. Thus, up-regulation of BLIMP1 alone is not sufficient for differentiation of primary human B cells into plasma cells; concomitant down-regulation of BCL6 is absolutely required for completion of the plasma cell differentiation program.     

Temperature-sensitive transport of glycoproteins to the surface of a variant mouse lymphoma cell line.

The expression of mouse mammary tumor virus (MMTV) glycoproteins on the surface of stably infected mouse lymphoma cell line W7MG1 is dramatically increased by glucocorticoid hormones. A variant cell line, W7M.TS1, was selected from W7MG1 for its lack of expression of MMTV glycoproteins on the cell surface in response to treatment with glucocorticoid. Hormonal stimulation of MMTV RNA levels and hormone-induced cytolysis occurred normally in the variant cells. Furthermore, the rates of production of the precursor and mature forms of MMTV glycoproteins in the presence of glucocorticoid were similar in variant and wild-type cells. However, the accumulation of MMTV glycoproteins on the cell surface after hormone treatment was delayed by about 8 h in the variant relative to wild-type cells. The steady-state level of a constitutively expressed cellular protein, T200, on the variant cell surface was comparable to that on wild-type cells. However, in pulse-chase experiments, the appearance of newly synthesized T200 on the cell surface was delayed in the variant compared with wild-type cells. Another glucocorticoid hormone response, removal of H-2 class I antigens from the cell surface, was also delayed in the variant relative to wild-type cells, suggesting that turnover or internalization of cell surface glycoproteins may also be affected in the variant. The defects in the variant cell line were observed at 37 degrees C, but not at 31 degrees C; the variant cells grew normally at both temperatures. This variant phenotype defines a new genetic entity that is important for transport of glycoproteins between internal microsomal compartments and the cell surface.