Imaging at an x-ray absorption edge using free electron laser pulses for interface dynamics in high energy density systems.

Tuning the energy of an x-ray probe to an absorption line or edge can provide material-specific measurements that are particularly useful for interfaces. Simulated hard x-ray images above the Fe K-edge are presented to examine ion diffusion across an interface between Fe2O3 and SiO2 aerogel foam materials. The simulations demonstrate the feasibility of such a technique for measurements of density scale lengths near the interface with submicron spatial resolution. A proof-of-principle experiment is designed and performed at the Linac coherent light source facility. Preliminary data show the change of the interface after shock compression and heating with simultaneous fluorescence spectra for temperature determination. The results provide the first demonstration of using x-ray imaging at an absorption edge as a diagnostic to detect ultrafast phenomena for interface physics in high-energy-density systems.

Social identity, social networks and recovery capital in emerging adulthood: A pilot study.

BACKGROUND: It has been argued that recovery from substance dependence relies on a change in identity, with past research focused on 'personal identity'. This study assessed support for a social identity model of recovery in emerging adults through examining associations between social identity, social networks, recovery capital, and quality of life. METHODS: Twenty participants aged 18-21 in residential treatment for substance misuse were recruited from four specialist youth drug treatment services - three detoxification facilities and one psychosocial rehabilitation facility in Victoria, Australia. Participants completed a detailed social network interview exploring the substance use of groups in their social networks and measures of quality of life, recovery capital, and social identity. RESULTS: Lower group substance use was associated with higher recovery capital, stronger identification with non-using groups, and greater importance of non-using groups in the social network. Additionally, greater identification with and importance of non-using groups were associated with better environmental quality of life, whereas greater importance conferred on using groups was associated with reduced environmental quality of life. CONCLUSIONS: Support was found for the role of social identity processes in reported recovery capital and quality of life. Future research in larger, longitudinal samples is required to improve understanding of social identity processes during treatment and early recovery and its relationship to recovery stability.

Acetaminophen injection: a review of clinical information including forms not available in the United States.

Acetaminophen injection is an antipyretic and analgesic agent recently marketed in the United States as Ofirmev. A recent review published in the Journal of Pain & Palliative Care Pharmacotherapy focused on the labeled uses of acetaminophen injection in the United States. A variety of studies were excluded that may be of interest to clinicians. This addendum provides these citations and further insight into the strategy used to develop the review. Acetaminophen injection represents another agent for multimodal pain management.

Removing meperidine from the health-system formulary--frequently asked questions.

Meperidine is FDA-approved for relieving moderate to severe pain and has been widely used since its introduction in the 1930s. However, the drug is no longer considered a first-line analgesic. Many clinicians recommend that meperidine be removed from health-systems or that its use be restricted, due to concerns about adverse reactions, drug interactions, and normeperidine neurotoxicity. In addition, clinical evidence shows that meperidine has no advantage over other opioids for biliary colic or pancreatitis. The formulary status of meperidine has been extensively discussed at University of Utah Hospitals and Clinics. The Pharmacy and Therapeutics Committee has been working with hospital staff to assess the impact of either removing meperidine from the formulary, or limiting its use. The Drug Information Service developed this document to help pharmacists respond to prescribers' questions and to alleviate the prescribers' concerns about these changes. Information is provided comparing meperidine with other opioids, including dosage equivalency, pharmacodynamics, pharmacokinetics, cost, adverse effects, and drug interactions. Where available, alternatives to meperidine are suggested for various indications.

Antitumor effects of nonconjugated murine Lym-2 and human-mouse chimeric CLL-1 monoclonal antibodies against various human lymphoma cell lines in vitro and in vivo.

Lym-2 is a murine monoclonal antibody (MoAb) directed towards a human class II molecule variant reactive with both normal and neoplastic human B lymphocytes. Previous studies have shown that signals transmitted by class II molecules that stimulate normal lymphocytes can be inhibitory for B-cell lymphoma growth by signaling activation-induced cell death. Therefore, we sought to evaluate the effects of nonconjugated murine Lym-2 and a human-mouse chimeric Lym-2 (chCLL-1; with murine variable regions and human constant regions) MoAb on the growth of various human lymphomas by using both in vitro and in vivo assays. Cell lines derived from Burkitt's lymphomas, diffuse large cell B-cell lymphomas, anaplastic large-cell lymphomas, and Epstein-Barr virus-induced B-cell lymphomas were incubated with Lym-2 or chCLL-1 in vitro, and effects on proliferation were determined by [3H]-thymidine incorporation. The effects of Lym-2 in vitro were also compared with those of Lym-1, which is a similar MoAb that has been evaluated clinically. After immobilization, which enhances crosslinking of the MoAbs, both Lym-2 and chCLL-1 were capable of directly inhibiting the growth of various lymphoma lines in vitro. These human lymphomas were then transferred into mice with severe combined immunodeficiency to evaluate the efficacy of these MoAbs in vivo. Treatment with either murine Lym-2 or the chimeric chCLL-1 were significantly effective in improving the survival of tumor-bearing mice. These results indicate that stimulation by nonconjugated chCLL-1 may offer a biological approach to the treatment of various human lymphomas.

The protein product of the proto-oncogene c-cbl forms a complex with phosphatidylinositol 3-kinase p85 and CD19 in anti-IgM-stimulated human B-lymphoma cells.

Multiple signal transduction cascades, consisting of multiple interacting proteins, are activated following stimulation through most cell surface receptors, including the immunoglobulin receptor of B lymphocytes. In this report, we investigated the multimolecular complexes formed following anti-Ig stimulation of a human B-lymphoma cell line, resulting in activation of phosphatidylinositol 3-kinase (PI3K). PI3K is a lipid kinase that consists of an 85-kD regulatory subunit, bound to a 110-kD catalytic subunit. CD19 is a 95-kD B-cell surface marker that contains a consensus binding motif for PI3Kp85 in the cytoplasmic domain and recruits PI3K activity in activated B cells. The protein product of the c-cbl protooncogene is a 120-kD protein that is expressed in early B-lineage cells and in myeloid cells and is phosphorylated on tyrosine following receptor-mediated signaling in T and B lymphocytes. We demonstrate here that phosphorylated c-cbl complexes with CD19 and with PI3Kp85 via its C-terminal SH2 domain, and that both c-cbl and CD19 are associated with active PI3K in anti-Ig-stimulated cells. Although we cannot differentiate between a three-component, c-cbl/CD19/p85 complex and individual two-component complexes, these studies suggest that c-cbl may function as a docking protein, possibly linking distinct signal transduction pathways.

T cell activation via the disialoganglioside GD3: analysis of signal transduction.

The monoclonal antibody (mAb) R24 is a murine immunoglobulin G3 (IgG3) that reacts with the GD3 disialoganglioside present on melanoma cells as well as a subset of T cells. R24 mAb has induced antitumor responses both alone and in combination with interleukin-2 (IL-2) in clinical trials. We have reported T cell activation via GD3 as measured by the induction of tyrosine phosphorylation. In this study a more detailed analysis of signal transduction after ligation of GD3 was performed in an attempt to understand the mechanism of in vivo therapeutic benefits observed. Analysis of subsequent events indicated that GD3 engagement resulted in phospholipase C(gamma) phosphorylation and calcium flux. When ras-associated events were examined, GD3 signaling resulted in ras activation as determined by GDP/GTP conversion as well as dose-and time-dependent IP3 activation. In addition, the majority of the IP3 activation by GD3 was inhibited by herbimycin A pretreatment. Elucidation of the nature and potential role of this moiety in GD3 signal transduction should be useful. Collectively, these data suggest a novel mechanism of T cell activation via a single, non-protein, surface moiety. This novel form of T cell-mediated activation may permit the delivery and local activation of effector cells at the tumor resulting in site-specific activation of the immune system.

Phosphatidylinositol-3-kinase activity is required for the anti-ig-mediated growth inhibition of a human B-lymphoma cell line.

Stimulation of B lymphocytes through the Ig receptor initiates a cascade of biochemical changes, which can ultimately lead to either activation and growth, or cell-cycle arrest and cell death. One of the critical events that occurs in both cases is the activation of tyrosine kinases, and the resulting phosphorylation of a variety of proteins on tyrosine residues. In this report we identify one of the substrates of phosphorylation as the 85-kD subunit of the enzyme phosphatidylinositol-3 kinase (PI3K), and show that both anti-IgM and anti-IgD stimulation results in an increase in the anti-phosphotyrosine-precipitable PI3K activity. Furthermore, we show that the potent and specific inhibitor of PI3K, Wortmannin, can completely abrogate anti-Ig-mediated growth inhibition without affecting tyrosine kinase induction or protein kinase C (PKC) activation. Treatment of intact cells with Wortmannin results in an irreversible decrease in anti-Ig-induced PI3K activity, suggesting that the effect of Wortmannin on anti-Ig-mediated growth inhibition is caused by its inactivation of PI3K activity. Taken together, these data show that activation of PI3K is a critical component of the anti-Ig-initiated signaling cascade that leads to growth inhibition of human B lymphoma cells.

Regulation of JAK3 expression and activation in human B cells and B cell malignancies.

Members of the Janus family (JAK) of protein tyrosine kinases are critical enzymes in signaling pathways via hematopoietin receptors. We have cloned JAK3, which unlike other known family members (JAK1, JAK2, and TYK2) is preferentially expressed in hematopoietic cells but not in a variety of other cells. Functionally, JAK3 and JAK1 are coupled to the receptors for IL-2, IL-4, IL-7, IL-9, and IL-15 in T cells and NK cells. Because of the importance of IL-2, IL-4, and IL-7 in B cell physiology, we sought to determine whether JAK3 was also present in B lymphocytes and whether it was involved in signaling via cytokines that are important for B cell development and function. In this report, we demonstrate that JAK3 is expressed in normal human peripheral blood B cells at levels that are comparable to those in T cells. In addition, the levels were found to be markedly up-regulated following stimulation with staphylococcal protein A Cowan and anti-CD40 Abs. In addition, IL-4 and IL-7 induced the rapid tyrosine phosphorylation of JAK3 and JAK1, and IL-4 activated both JAK3 and JAK1 phosphotransferase activity. JAK3 protein was also detected in immature B cell lines, but not in more well differentiated cell lines. Additionally, JAK3 was detected in lysates from bone marrow lymphoblasts of patients with B cell precursor acute lymphocytic leukemia and cell lines derived from human B cell lymphomas. Together, these data suggest that the regulation of JAK3 expression and activity is likely to be important in B cell development and function.

Antibodies to CD40 prevent Epstein-Barr virus-mediated human B-cell lymphomagenesis in severe combined immune deficient mice given human peripheral blood lymphocytes.

CD40 is expressed on both normal and neoplastic B lymphocytes. Signal transduction through CD40 in vitro has been shown to exert stimulatory effects on normal B cells and inhibitory effects on Epstein-Barr virus (EBV)-induced B-cell lymphoma lines and some other cell lines derived from patients with aggressive histology lymphoma. The transfer of normal human peripheral blood lymphocytes (huPBL) from EBV-seropositive donors into severe combined immune deficient (SCID) mice has been previously shown to result in the generation of human B-cell lymphomas. These tumors are similar to the highly aggressive EBV-induced lymphomas that can arise clinically after transplantation or in the setting of immunodeficiency. Treatment of huPBL-SCID chimeric mice with anti-CD40 or anti-CD20 monoclonal antibodies (MoAb) significantly delayed the development of EBV-induced B-cell lymphoma. However, the effects of the two MoAb were mechanistically distinct. Anti-CD40 treatment prevented lymphoma generation, while still allowing for functional human B-cell engraftment in the huPBL-SCID mice compared with mice receiving no treatment, all of which succumbed to lymphoma. By contrast, treatment with anti-CD20 significantly inhibited total human B-cell engraftment in the SCID recipients, which accounted for the absence of lymphomas. In vitro assays examining the transformation of human B cells by EBV also indicated that anti-CD40 could directly inhibit EBV-transformation, whereas anti-CD20 antibodies had no effect. Thus, anti-CD40 exerts selective effects to allow for the engraftment of normal human B cells and prevent the emergence of EBV lymphomas. Stimulation of CD40 by antibodies or its physiologic ligand may, therefore, be of significant clinical use in the prevention of EBV-induced B lymphomas that may arise when EBV-seropositive individuals receive immunosuppressive regimens after transplantation or in immune deficiency states, such as acquired immune deficiency syndrome.

Anti-IgM induces transforming growth factor-beta sensitivity in a human B-lymphoma cell line: inhibition of growth is associated with a downregulation of mutant p53.

We wished to examine the role of transforming growth factor-beta (TGF-beta) in the regulation of human lymphoma cell growth. The RL cell line is an immunoglobulin M (IgM)+, IgD+ B lymphoma cell line, which does not constitutively express receptors for TGF-beta, and thus has lost the ability to respond to the inhibitory effects of TGF-beta. We demonstrate here that anti-Ig antibodies can efficiently upregulate the expression of TGF-beta receptors and promote sensitivity to growth inhibition by TGF-beta. Furthermore, because TGF-beta has been shown to function in late G1 of the cell cycle, we examined the ability of TGF-beta to modulate two tumor suppressor proteins known to be critical regulators of the G1/S transition, Rb and p53. Rb is a 105- to 110-kD phosphoprotein, which has been shown to maintain its growth suppressive function when it is found in the hypophosphorylated state. Wild-type p53 is a 53-kD phosphoprotein that appears to be important in preventing cell-cycle progression and promoting apoptosis in cells with DNA damage, whereas mutant p53 can overcome those functions. We show here that TGF-beta treatment of phorbol myristate acetate (PMA) or anti-Ig-activated RL cells results in growth inhibition through a dual effect on Rb and mutant p53. After TGF-beta treatment, we observe a predominance of Rb in the hypophosphorylated, growth suppressive form. In addition, we show a decrease in levels of mRNA and protein for mutant p53. We also show that, although these changes are sufficient to halt progression through the cell cycle, the cells do not appear to undergo extensive programmed cell death following 72 hours of TGF-beta treatment. Thus, although these lymphoma cells maintain the capacity to be negatively growth regulated by TGF-beta, the ability of TGF-beta to induce apoptosis must be independently controlled.

Detection of p53 mutations in B cell non-Hodgkin's lymphoma cell lines.

The p53 tumor suppressor gene is frequently mutated within its evolutionarily conserved regions in a number of human cancers. Previous reports demonstrated mutations of this gene in both Burkitt's lymphoma and B cell chronic lymphocytic leukemia. However, dissimilar results were obtained in non-Hodgkin's lymphoma (NHL). In one study, no mutation was detected in 43 NHL tissues. A second study reported p53 mutations in eight (all with advanced stage disease) out of 48 tissues obtained from Japanese NHL patients. Using both immunoblotting and radio-immunoprecipitation, we detected mutant p53 proteins in nine out of 10 B cell lines established from NHL tissues. The mutations were confirmed by reverse transcription polymerase chain reaction-mediated single-strand conformational polymorphism (RT-PCR-SSCP) analysis in eight cell lines. The high frequency of p53 mutation in NHL B cell lines and the relatively low frequency of p53 mutations in fresh lymphoma tissue suggests that p53 gene alteration may play a role in lymphomagenesis and/or disease progression in a subset of B cell lymphomas and that the p53 mutation conveys a proliferative advantage on lymphoma cells that permits their in vitro growth.

Epstein-Barr virus-induced human B-cell lymphoma arising in HuPBL-SCID chimeric mice: characterization and the role of CD40 stimulation in their treatment and prevention.

The transfer of human peripheral blood lymphocytes (huPBL) from EBV-seropositive donors into mice with severe combined immune deficiency (SCID) has been shown previously to result in the generation of human EBV-induced B-cell lymphomas. These lymphomas are similar to the aggressive lymphomas that arise clinically in immunocompromised individuals. We have assessed the p53 status of these human B-lymphomas and the clonality of cell lines established from tumors growing in the huPBL-SCID mice. While the lymphoma cell lines were demonstrated to be pauciclonal by Southern analysis, none of the lines demonstrated mutated p53 as determined by immunoprecipitation studies using antibodies specific for mutant p53. The cell lines were all positive for CD40, a marker present on normal and neoplastic B cells. Antibodies to CD40 significantly inhibited the growth of these EBV-transformed B-cell lymphomas both in vitro and in vivo. When partially purified human B cells were incubated with either anti-CD40 or anti-IgM in the presence of EBV-containing supernatants in vitro, only anti-CD40 prevented transformation by EBV. Treatment of huPBL-SCID mice with anti-CD40 also prevented the occurrence of the EBV lymphomas. However, long-term human B-cell engraftment was not inhibited as determined by the presence of serum human immunoglobulin in the chimeric mice. Overnight incubation of the huPBL with anti-CD40 did not prevent the incidence of lymphomas in huPBL-SCID chimeras suggesting that continuous exposure to anti-CD40 is required. These studies suggest that anti-CD40 may be of significant clinical use in the treatment or prevention of EBV-induced B-cell lymphomas.

Inhibition of human B-cell lymphoma growth by CD40 stimulation.

CD40 is a molecule present on B lymphocyte lineage cells that is important in B-cell differentiation and activation. Signaling through CD40 has been shown to exert costimulatory signals on normal B cells resulting in proliferative and differentiation responses. Examination of several B-cell lymphomas showed cell-surface expression of the CD40 molecule. Incubation of these lymphomas with anti-CD40 antibodies resulted in significant growth inhibition in vitro. Cross-linking of the CD40 antibodies resulted in even greater inhibition of proliferation. A recombinant soluble human CD40 ligand was also shown to inhibit lymphoma proliferation. When various human B-cell lymphomas were transferred into mice with severe combined immune deficiency, the treatment of the mice with anti-CD40 antibodies resulted in significant increases in survival showing that anti-CD40 is efficacious after in vivo administration. Thus, CD40 stimulation by either the antibody or soluble ligand directly inhibits human B-cell lymphoma growth and therefore, may be of significant clinical use in their treatment.

Growth inhibition of human lymphoma cell lines by the marine products, dolastatins 10 and 15.

BACKGROUND: Dolastatins 10 and 15 are small peptides isolated from the marine sea hare Dolabella auricularia. In vitro studies of these peptides have demonstrated antimitotic and antiproliferative activity and growth inhibition in hematopoietic progenitor cells. PURPOSE: The purpose of our in vitro study was to determine the biological effects of these marine peptides on growth of human lymphoma cell lines and to investigate mechanisms by which the dolastatins may act. METHODS: Cell lines DB, HT, RL, and SR were grown from the ascites or pleural effusion of four patients with lymphoma. The DB, HT, and RL cell lines are of B-cell origin, and the SR cell line appears to be a less differentiated lymphoid cell type. Cells from these lines were cultured in the presence of vincristine or dolastatin 10 or 15. [3H]Thymidine-uptake assays were used to measure effects on DNA synthesis. Cell cycle analysis using propidium iodide was performed to measure drug-induced cell-cycle arrest. DNA fragmentation was used as an assay for drug-induced apoptosis and was measured by agarose gel electrophoresis. RESULTS: In the three B cell lines, dolastatin 10 was more effective than dolastatin 15. Values for concentrations required for inhibition of proliferation by 50% (IC50) were .00013-.0013 nM for dolastatin 10 in each cell line; values for dolastatin 15 were approximately .13 nM in DB and HT cells and .0013-.013 nM in RL cells. SR cells were more sensitive to dolastatin 15 than to dolastatin 10 (IC50 = .00013-.0013 nM versus .0013-.013 nM). Both dolastatins arrested more than 70% of cells in mitosis in all cell lines. This effect was reversed if the drug was removed by 4 hours, but by 8 hours of exposure, reversal was not possible. Both dolastatins 10 and 15 produced apoptosis in DB and HT cells but not in the other two cell lines. CONCLUSIONS: We have demonstrated that dolastatins 10 and 15 have a profound antiproliferative effect on four different human lymphoma cell lines and that the dolastatins are approximately 3-4 logarithms more effective as antiproliferative compounds, on a molar basis, than vincristine--a clinically useful, antiproliferative agent. These data support the hypothesis that apoptosis, as measured by DNA fragmentation, appears to be a cell-specific response and may not be directly related to the antimitotic effect of the dolostatins. IMPLICATIONS: Our results suggest that these compounds may be good candidates for development as antineoplastic agents.

Preclinical evaluation of bryostatin as an anticancer agent against several murine tumor cell lines: in vitro versus in vivo activity.

We have examined the ability of bryostatin 1 to inhibit the in vitro growth and in vivo development of a panel of four murine tumors of diverse tissue origins. A wide range of antiproliferative responses was observed for the four tumors. At 100 ng/ml the in vitro growth of the Renca renal adenocarcinoma, the B16 melanoma, the M5076 reticulum cell sarcoma, and the L10A B-cell lymphoma were inhibited by 0, 40, 40, and 94% respectively. All three cell lines sensitive to bryostatin in vitro responded to multiple dose, 1 microgram/injection/day in vivo i.p., bryostatin therapy. Only the in vitro resistant Renca tumor failed to respond to bryostatin in vivo. The correlation between in vitro and in vivo antitumor efficacy suggests a direct mechanism of antitumor activity for bryostatin. Both local regional therapy (M5076 i.p.) and systemic therapy (B16 lung metastases and L10A s.c. tumors) with bryostatin were successful at prolonging survival time. Multiple i.p. doses of bryostatin at a minimum level of 0.5-1.0 microgram/injection were required to observe significant in vivo antitumor effects. The success of in vivo administration of bryostatin in mice bearing 8-10-mm s.c. masses of L10A lymphoma (5-10 x 10(9)) and our further observation that five of a panel of six human B-cell lymphoma cell lines were sensitive to the growth inhibitory effects of bryostatin in vitro suggest that bryostatin may be effective in treating lymphoid malignancies in humans.

Anti-IgM-mediated growth inhibition of a human B lymphoma cell line is independent of phosphatidylinositol turnover and protein kinase C activation and involves tyrosine phosphorylation.

The RL cell line is an EBV-negative, surface IgM, IgD-positive B lymphoma line, which is significantly growth arrested in the presence of acrylamide-linked antibodies to the surface IgM receptor. We demonstrate here that activation of protein kinase C (PKC) with PMA abrogates anti-IgM-induced phosphoinositide turnover and Ca2+ mobilization; however, growth inhibition is not affected. In addition, inhibitors of PKC are unable to reverse the anti-IgM-mediated growth inhibition. Two-dimensional gel electrophoresis reveals a different pattern of protein phosphorylation after treatment of RL with PMA or anti-IgM. These data strongly suggest that anti-IgM-induced growth inhibition does not rely on phospholipase C-mediated phosphoinositide turnover, Ca2+ mobilization, or PKC activation. On the other hand, the phosphatase inhibitor orthovanadate results in an augmentation of proteins phosphorylated on tyrosine and the growth inhibition which follows anti-IgM treatment. Furthermore, protein tyrosine kinase inhibitors, genistein and herbimycin A, are able to reverse the anti-IgM-induced inhibition of growth. These data demonstrate that multiple signaling pathways are activated by the interaction of anti-IgM with its ligand, and suggest that tyrosine kinase activation is a critical component of the inhibitory response.

Growth inhibition of a human lymphoma cell line: induction of a transforming growth factor-beta-mediated autocrine negative loop by phorbol myristate acetate.

Transforming growth factor-beta (TGF-beta) exerts profound inhibitory effects on a number of cell types, including normal B- and T-lymphocytes. In contrast, we have found a number of lymphoid tumor cell lines to be insensitive to the antiproliferative effects of TGF-beta 1 or TGF-beta 2. Binding and cross-linking with radioiodinated TGF-beta 1 demonstrated either low or absent expression of all three TGF-beta receptor species on three B-cell tumor lines, but T-cell and non-T, non-B tumors expressed large numbers of receptors. Treatment of the B-cell lines with phorbol 12-myristate 13-acetate (PMA) induced the expression of TGF-beta receptors and inhibited proliferation in all three lines in a dose- and time-dependent manner. The cell lines constitutively produced TGF-beta mRNA and released small amounts of latent TGF-beta; however, PMA induced the release of active TGF-beta. A neutralizing antibody to TGF-beta was able to reverse the PMA-induced growth inhibition of the malignant lymphoma cell line, RL, and addition of exogenous TGF-beta reversed the effect of the neutralizing antibody. Thus, TGF-beta can inhibit human lymphoma cell growth in vitro through an autocrine mechanism. Some lymphoma cells appear to have escaped from TGF-beta negative regulation by failing to express functional TGF-beta receptors and/or by failing to secrete active TGF-beta receptors and/or by failing to acts to inhibit lymphoma cell growth is by inducing the expression of TGF-beta receptors and the secretion of active TGF-beta, thereby reestablishing an autocrine growth-inhibitory loop.

Phorbol ester-induced, cell-cycle-specific, growth inhibition of human B-lymphoma cell lines.

The activation, growth, and differentiation of three B-cell- and one non-B-cell-derived human lymphoma cell lines were examined after treatment with protein kinase C-activating phorbol esters. Treatment with these agents resulted in early activation events similar to those observed in normal B cells. However, in contrast to their growth-promoting effect on normal human B lymphocytes, exposure to these phorbol esters induced profound growth inhibition of the three B-cell-derived lymphoma lines. Maximal inhibition was achieved within 24 hours of culture initiation and could be reversed if the phorbol ester was removed after 12, but not 20, hours in culture. Cell-cycle analysis of phorbol ester-treated lymphoma cells revealed a G1/S block in one line, whereas cells from the other two lines accumulated in G2/M. These data demonstrate that protein kinase C-binding phorbol esters can interrupt the cell cycle in two places in actively dividing human B-lymphoma cells. These findings may prove valuable with regard to potential therapy of human malignant lymphomas.