Interleukin-15: a novel cytokine with regulatory properties on normal and neoplastic B lymphocytes.

IL-15 is a recently discovered cytokine that shares biological activities with IL-2. Although the biological functions displayed by these two molecules overlap to some extent, they are produced by different cell types and bind to distinct receptorial structures. Both cytokines transduce signals through the beta (p75) and gamma (p64) chains of the IL-2R system, but IL-15, like IL-2, binds to its own specific alpha chain, referred to as IL-15Ralpha. Similarly to IL-2, IL-15 is able to trigger both the proliferation and immunoglobulin production by normal B-lymphocytes. These biological functions may be acquired however only when B-cells have been preactivated in vitro with polyclonal mitogens, or alternatively, when they are cultured in association with other stimuli. By contrast, leukemic cells from patients with chronic B-cell malignancies, including B-cell chronic lymphocytic leukemia and hairy cell leukemia, proliferate to IL-15 regardless of in vitro preactivation. This peculiar IL-15 responsiveness distinguishes malignant B-cells from normal B-lymphocytes. Furthermore, the proliferation elicited by IL-15 in B-CLL and HCL is mainly related to the presence of the beta and gamma chains of the IL-2R system on malignant B-lymphocytes.

Role of bronchoalveolar lavage in predicting survival of patients with human immunodeficiency virus infection.

In this multicenter study, we investigated the prognostic factors that influence the risk of death in patients with human immunodeficiency virus (HIV) infection. Clinical and laboratory indices obtained from 161 HIV-seropositive patients who underwent a detailed morphologic and immunophenotypic evaluation of bronchoalveolar lavage (BAL) and peripheral blood cell populations were retrospectively analyzed. In 155 patients, death occurred within the 48-mo follow-up (mean follow-up: 14.8 mo; range: 1 to 48 mo). In the univariate analysis, the patient's age (> 30 yr), HIV disease status, HIV transmission category, number of opportunistic pathogens isolated from the BAL, percentage of BAL neutrophils, and low number of BAL CD4 T cells were predictive of increased mortality. In contrast, the presence of an alveolitis or an increase in the numbers of alveolar macrophages and CD3 T cells was associated with a decreased mortality. In the multivariate analysis, significant independent predictors were age, risk factor for HIV, and presence of an alveolitis. Furthermore, patients with a low number of BAL CD4 T cells had a particularly poor prognosis while the CD4 T-cell count in the peripheral blood (< 50 cells/mm3 in the majority of our patients) had a negligible effect on predicting survival. Our findings suggest the clinical utility of BAL analysis in patients infected with HIV.

B lymphocytes from patients with chronic lymphoproliferative disorders are equipped with different costimulatory molecules.

Several costimulatory molecules play a key role in the differentiation of B lymphocytes and in T-B-cell interactions. In this study, we addressed the question of whether different receptors and counter-receptors may be expressed on malignant B lymphocytes from chronic B-cell malignancies. Using flow cytometry and reverse transcription PCR analyses, the expression of molecules belonging to the tumor necrosis factor receptor (TNFR) and tumor necrosis factor ligand (TNFL) families, as well as the expression of CD80 and CD86 molecules, was analyzed in normal B cells and in different chronic lymphoproliferative disorders of B-cell type, including B-cell chronic lymphocytic leukemia (CLL), mantle cell lymphoma, hairy cell leukemia (HCL), and HCL variant. Different patterns of expression of TNFR and TNFL superfamily molecules were demonstrated among B-cell malignancies. In particular, CD40 was commonly observed on all B cells (both tumor and normal), whereas its ligand (CD40L), which is usually undetectable on resting normal B lymphocytes, was expressed in CLL and HCL but not in other chronic lymphoproliferative disorders. CD27 was not shown in normal B cells, although it was present in all malignancies and with particularly high density in mantle cell lymphoma. CD70 was widely distributed on tumor B lymphocytes, but not on the CD5+ normal counterpart. CD30 was strongly expressed in HCL variant and weakly in B-cell CLL, whereas its ligand showed a wide pattern of expression, including all neoplastic and normal B cells. TNFR II (CD120b) and CD80 were distributed on neoplastic B cells from all groups, usually at an intermediate to high degree of intensity, whereas the CD86 molecule was present at lower intensity than CD80. Finally, reverse transcription PCR analysis confirmed the presence of CD40L, CD30, and CD30L mRNAs in those B cells expressing the corresponding membrane-bound proteins at low density. Our data indicate that TNFR and TNFL molecules are of use clinically both in differentiating B-cell malignancies from the normal counterpart (i.e., CD27, CD70, CD40L, CD30, and CD80) and in defining different chronic B-cell disorders (i.e., CD40L, CD27, and CD30). Interestingly, the observation that several receptors and their ligands (i.e., CD40/CD40L, CD30/CD30L, and CD27/CD70) can be expressed on the same cell suggests that these molecules play a role in initiating and maintaining the neoplastic process by mediating B-T and B-B interactions.

Interleukin-15 triggers activation and growth of the CD8 T-cell pool in extravascular tissues of patients with acquired immunodeficiency syndrome.

The impairment of interleukin-2 (IL-2) production occurs very early after human immunodeficiency virus (HIV) infection as a consequence of the quantitative depletion of Th1 cells. Despite the shift in cytokine production, most individuals develop an oligoclonal expansion of major histocompatibility complex restricted, HIV-specific CD8+ cytotoxic T lymphocytes (CTL) in different organs, suggesting that other cytokines replace IL-2 in initiating the tissue infiltration of CD8+ T cells. In this study we show that IL-15, a product of monocyte-macrophages and non-T cells and which has overlapping biological activities with IL-2, is involved in local cell networks accounting for the activation and expansion of CD8+ T-cell pools in a highly affected organ, ie, the lung. IL-15 induced proliferation of T cells obtained from the lower respiratory tract of HIV-infected patients with T-cell alveolitis and severe depletion of CD4+ T cells. Lung lymphocytes were CD45R0+/CD8+ T cells spontaneously expressing activation markers (CD69 and HLA-DR) and equipped with the receptorial subunits which bind IL-15, notably the beta and gamma chains of the IL-2 receptor (IL-2R) and the recently identified IL-15 binding-protein termed IL-15R alpha. Similar phenotypic findings were obtained after incubation of normal T cells with IL-15, which induced CD8+ T cells to express activation markers and to proliferate. The block of the IL-2R beta/IL-2R gamma complex with specific monoclonal antibodies abolished the T-cell stimulatory activity of IL-15 while the combination of IL-15 and tumor necrosis factor-alpha upregulated the proliferative response of lung T lymphocytes. The hypothesis that the tissue growth of lung CD8+ lymphocytes may involve cytokines produced from cells other than T lymphocytes was confirmed by the evidence that pulmonary macrophages expressed high levels of IL-15 and that anti-IL-15 antibodies inhibited the accessory function of alveolar macrophages on mitogen-induced CD8+ T-cell proliferation. Together, these results suggest that macrophage-derived cytokines produced at sites of T-cell infiltration play a role in the activation of HIV-specific CD8+ T-cell-mediated immune response.

Selection of T lymphocytes bearing limited TCR-Vbeta regions in the lung of hypersensitivity pneumonitis and sarcoidosis.

Hypersensitivity pneumonitis (HP) and sarcoidosis are interstitial lung disorders (ILD) characterized by a lymphocytic alveolitis that, in the active phase of the disease, is sustained by different T-cell subsets, i.e., CD8+ cells in HP and CD4+ lymphocytes in sarcoid patients. To address the question of whether a bias in T-cell selection occurs in the lung of patients with HP and sarcoidosis, we analyzed the T-cell receptor beta chain variable region (TCR-Vbeta) repertoire by flow cytometry and polymerase chain reaction (PCR) analyses in blood and lung lymphocytes of 14 HP and 25 sarcoid patients. To verify whether these cells can be activated in vitro through the TCR, blood and lung lymphocytes were also assessed for their responsiveness to different superantigenic stimuli represented by staphylococcal enterotoxins, including SEA, SEB, SEC1, SEC2, SED, and SEE. Flow cytometry and PCR analyses demonstrated an overexpression of cells bearing Vbeta2, Vbeta3, Vbeta5, Vbeta6, and Vbeta8 gene segments in the lung of HP patients as compared with the peripheral blood. In sarcoid patients cells bearing Vbeta2, Vbeta5, and Vbeta6 gene segments in the lung of HP patients as compared with the peripheral blood. In sarcoid patients cells bearing Vbeta2, Vbeta5, and Vbeta6 gene segments were overrepresented in the lung rather than in the blood. Both in HP and sarcoid patients almost all T cells bearing the dominant Vbeta segment belonged to the T-cell subset that sustains the alveolitis, i.e., CD8 in HP patients and CD4 in sarcoid subjects. Follow-up studies demonstrated that the recovery of the alveolitis was characterized by the disappearance of cells bearing a limited T-cell repertoire. Interestingly, T-lymphocyte response to different superantigens demonstrated that the proliferation elicited by different staphylococcal toxins was more pronounced in the lung than in the blood. Taken together, our findings indicate a compartmentalization of cells bearing discrete Vbeta gene products in the pulmonary microenvironment and suggest that the expansion of specific Vbeta region subsets occurring in the lung might result from triggering by a specific antigen. In fact, the removal from exposure in HP patients or specific treatment in sarcoidosis resulted in the decrease of the overrepresented cell population accounting for the lymphocytic alveolitis.

Interleukin-15 triggers the proliferation and cytotoxicity of granular lymphocytes in patients with lymphoproliferative disease of granular lymphocytes.

The recently cloned cytokine interleukin-15 (IL-15) shares several functional activities with IL-2 in different cell systems. Although IL-15 does not show sequence homology with IL-2, it uses components of the IL-2 receptor (IL-2R) for binding and signal transduction, namely, p75 (beta) and the p64 (gamma) chains of IL-2R. To evaluate whether IL-15 is involved in the activation of granular lymphocytes (GL) in patients with lymphoproliferative disease of granular lymphocytes (LDGL), we evaluated the ability of IL-15 to stimulate GL proliferation, cytotoxic function, and the role of IL-2R beta and gamma molecules on relevant cells. Our results show that IL-15 stimulates cell proliferation and cytotoxic activity of GL in LDGL patients. Reverse-transcriptase polymerase chain reaction (RT-PCR) and phenotypic analyses using the anti-IL-2R gamma-chain-specific TUGh4 monoclonal antibody (MoAb) indicate that both CD3+ and CD3- GL express the p64 IL-2R, a result previously unknown. IL-15 activity was inhibited by antibodies against p75 and p64 IL-2R chains, while no inhibitory effects are detectable with anti-p55 IL-2R antibody. The association of anti-p75 and anti-p64 IL-2R MoAbs resulted in a nearly complete (95%) inhibition of IL-15-induced GL proliferation. Using RT-PCR analysis, we demonstrated that highly purified CD3+ and CD3- GL did not express mRNA for IL-15 or IL-2. By contrast, a clear-cut IL-15 mRNA signal was detected by RT-PCR in patients' peripheral blood mononuclear cells, with monocytes likely accounting for the source of IL-15 in LDGL patients. However, even in concentrated supernatants from enriched monocyte populations, we could not demonstrate the presence of IL-15 protein. Using anti-IL-15 specific MoAbs, a membrane-bound form of this cytokine was demonstrated both on CD3+ and CD3- LDGL cells. By RT-PCR analysis, purified GL from these patients were found to express the message for IL-15 receptor alpha chain. Taken together, these results indicate that both CD3+ and CD3- GL are stimulated by IL-15 and that this cytokine mediates its activity through the beta and gamma chains of the IL-2R, providing further suggestions for the interpretation of the mechanisms that lead to cell expansion in patients with LDGL.

Lung lymphocytes: origin, biological functions, and laboratory techniques for their study in immune-mediated pulmonary disorders.

Different types of immunocompetent cells, including T lymphocytes and alveolar macrophages, account for pulmonary host defense. Taking advantage of the availability of the monoclonal antibody technique, cell culture facilities, pure recombinant cytokines, and molecular probes for their genes, in the last few years it has been possible to keenly study the different steps that lead to the compartmentalization of immune response in human lung. Furthermore, the immunological analysis of cells retrieved from bronchoalveolar lavage (BAL) allowed recognition of the importance of immune mechanisms in the evolution of immune-mediated pulmonary disorders. The purpose of this review is to summarize recent advances on the immunologic characterization of lung lymphocytes in health and disease. Following a brief description of the pathways through which the pulmonary lymphoid system contributes to removing potentially harmful inhaled antigenic materials, available laboratory techniques to evaluate the lymphoid component of the pulmonary immune system and their byproducts are discussed. These techniques cover methods for preparing lymphocytes from the BAL fluid and for characterizing lung lymphocytes both in cell suspensions and pulmonary tissue biopsies. Other sections of this review describe the techniques for measuring the immunologic effector functions of lung lymphocytes. We also provide the reader with a flavor of the molecular biology methods used to characterize lymphocytes in the pulmonary microenvironment. The final sections of the review article highlight the pathogenetic role envisaged for lymphoid cells in pulmonary disease states and emphasize the importance of the BAL analysis in the clinical management of the most relevant immune-mediated lung disease.

The CD5/CD72 receptor system is coexpressed with several functionally relevant counterstructures on human B cells and delivers a critical signaling activity.

The CD5 molecule is expressed on T cells and, at a lower density, on a minor B cell subset (CD5+ B cells). The pan-B Ag CD72 was recently identified as the CD5 counterstructure, and several data suggest the involvement of this ligand pair in T-B cell cognate interaction. However, the functional role of CD5 and CD72 molecules within the B cell compartment is still unknown. In this work we studied umbilical cord blood CD5+ B cells (B-1a), adult splenic CD5- B cells (B-2), and CD5+ B cells from patients with chronic lymphocytic leukemia. Flow cytometry analysis and proliferation assays were used to determine 1) the ability of B-1a and B-2 cells to coexpress functionally relevant counterligands other than CD5 and CD72, and 2) the signaling capacity of CD5 and CD72 in terms of B cell activation and proliferation. To this purpose, freshly isolated or preactivated normal and neoplastic B cells were cultured with agonistic anti-CD5 or anti-CD72 mAbs in the presence or the absence of cytokines equipped with B cell activity. Our data demonstrate that CD5 and CD72 molecules are coexpressed with other ligand pairs usually involved in T-B cell cognate interaction on B-1a cells, but not on B-2 cells. CD5 and/or CD72 engagement delivers critical costimulatory signals in B-1a, B-2, and B cells from patients with chronic lymphocytic leukemia, but with different requirements and patterns. Besides suggesting the potential involvement of B-1a lymphocytes in B-B cell interactions during T-independent B cell responses, our results indicate that CD5 and CD72 counterstructures play a functional role in the B cell compartment.

Role of IL-15, IL-2, and their receptors in the development of T cell alveolitis in pulmonary sarcoidosis.

Recent data suggest that the newly discovered cytokine IL-15 cooperates with IL-2 in driving T cell-mediated immune responses. The aim of this study was to determine the role of IL-15 in the regulatory networks leading to the development of T cell alveolitis in the lung of patients with sarcoidosis. We demonstrated that alveolar macrophages (AMs) isolated from the bronchoalveolar lavage of patients with active sarcoidosis expressed IL-15 mRNA and membrane and cytoplasmic IL-15, while AMs from healthy subjects and patients with inactive sarcoidosis did not. Pulmonary CD4+ T cells from sarcoid patients were equipped with the IL-2R subunits, which are able to bind IL-15, i.e., the IL-2R beta/IL-2R gamma complex, and proliferated in response to IL-15. Interestingly, the T cell proliferation elicited by IL-15 was comparable with that determined by IL-2. Following the addition of graded amounts of IL-15, IL-2-pulsed T cells showed a significant increase in their stimulation. TNF-alpha up-regulated the IL-15-mediated proliferative response of bronchoalveolar lavage T lymphocytes. Following the block of the IL-2R beta- and gamma-chains with specific mAbs, the stimulatory activity of IL-15 was abolished. The evaluation of the IL-2R on sarcoid AMs demonstrated the constitutive expression of alpha- and gamma-chain mRNA and proteins. Taken together, these findings demonstrate that IL-15 triggers the growth of sarcoid T cells through the IL-2R beta/IL-2R-gamma complex and raise the possibility that AMs may deliver proliferative signals for the development of the T cell alveolitis. Modulation of IL-2R on AMs could represent a critical variable in regulating local inflammatory responses.

Skewing of the T-cell receptor repertoire in the lung of patients with HIV-1 infection.

OBJECTIVES: A bias of the use of T-cell receptor (TCR) V beta regions has been reported both in peripheral blood and in several tissues in patients with AIDS, including lymph nodes, spleen and salivary glands. Although the disease is frequently characterized by an infiltration of T cells in the lung interstitium, no information is presently available on the configuration of the TCR repertoire in this microenvironment. This study was performed to address the question of whether a bias in T-cell selection occurs in the lung of patients with AIDS. METHODS: TCR beta-chain variable region (TCR-V beta) repertoire was analysed by flow cytometry and polymerase chain reaction (PCR) analyses in blood and lung lymphocytes of 13 patients with HIV-1 infection at different stages of the disease. Blood and lung lymphocytes were also assessed for their responsiveness to different superantigenic stimuli represented by staphylococcal enterotoxins (SEA, SEB, SEC1, SEC2, SED and SEE). RESULTS: Flow cytometry analysis in AIDS patients demonstrated an overexpression of cells bearing V beta 2 and V beta 3 gene segments in the lung compared with peripheral blood of the same subjects, as well as to lung and blood lymphocytes of normal controls. PCR analysis performed in AIDS patients extended these observations and demonstrated a significant bias also in the use of T cells bearing V beta 7 and V beta 9 gene regions in the lung compartment with respect to the blood. Virtually all T cells bearing the overrepresented V beta segment belong to the CD8 subset. Interestingly, T-lymphocyte response to different superantigens demonstrated a low proliferative rate in the lung with respect to the blood in HIV-1-infected patients. CONCLUSIONS: These findings indicate a compartmentalization of cells bearing discrete V beta gene products in the pulmonary microenvironment of patients with AIDS and suggest that the expansion of specific-V beta region subsets occurring in the lung might result from triggering by a superantigen.

Expression of tumor necrosis factor-receptor superfamily members by lung T lymphocytes in interstitial lung disease.

Recently, a novel receptor superfamily has been identified whose members interact with a parallel family of ligands showing homology to tumor necrosis factor (TNF). To investigate the role of these receptor structures in the pulmonary environment, we evaluated the expression of some members of the TNF-receptor (CD27, CD30, CD40, CD95/Fas, CD120a, and CD120b) and TNF-ligand (CD40L, CD70/CD27L, CD30L, and mTNFalpha) superfamilies by bronchoalveolar lavage (BAL) T cells recovered from healthy subjects and patients with interstitial lung disease (ILD). Lung T lymphocytes recovered from control subjects showed a slight expression of CD27 but did not bear CD30, CD40, CD120a, or CD120b antigens. CD27 expression was restricted to normal CD4+ cells. Fas antigen (CD95), which is involved in activation-driven T-cell suicide, and the ligand for CD27 (CD70) were weakly expressed by normal BAL T-cell subpopulations. In patients with sarcoidosis, the majority of pulmonary T lymphocytes were CD4+ cells that expressed low levels of CD27 antigen and an upregulation of CD95 and CD70 molecules. When we characterized lymphocytes accumulating in the lung of patients with HIV infection and hypersensitivity pneumonitis, we demonstrated that T cells accounting for the CD8 alveolitis bore TNF-receptor type 2 (CD120b) at high density and were CD70+ while CD40L, CD30L, or mTNF-alpha expression were not found. The discrete surface expression of the TNF-receptors and TNF-ligands on alveolar T-cell subsets suggests that these molecules play a role in the immune regulatory mechanisms that ultimately lead to the alveolitis in the pulmonary microenvironment of interstitial lung disease.

Analysis of the T cell receptor in the lymphoproliferative disease of granular lymphocytes: superantigen activation of clonal CD3+ granular lymphocytes.

To investigate whether cell populations in CD3+ lymphoproliferative disease of granular lymphocytes (LDGLs) were skewed toward the use of specific V beta regions, we studied the repertoire of T-cell receptor (TCR) V beta gene products in 18 patients, as well as their relationship to the clonal bands in the Southern blot and the activation mediated by superantigens. Using a panel of monoclonal antibodies (mAbs) for conserved V beta segments and PCR, a dominant population expressing a specific V beta region was demonstrated in all patients. In five (27%) cases, granular lymphocytes (GLs) were found to express the V beta 13.1, while V beta 8 and V beta 6 were each expressed in three (17%) cases. The remaining cases were characterized by the proliferation of TCR V beta 2, V beta 3, V beta 4, V beta 9, V beta 12, V beta 16, and V beta 20. This finding indicates a biased usage of a limited TCR V beta in LDGLs, since nearly 60% of the cases utilized only three families of the TCR V beta genes. In all of the cases studied, we proved that the subset recognized by mAb and PCR was identical to that accounting for the extra band(s) of the Southern blot. This finding confirms the clonal nature of the population identified according to TCR V beta expression both by phenotype and PCR. On functional grounds, we evaluated whether GLs can be activated through the specific TCR using the superantigens recognizing discrete V beta families, such as staphylococcal proteins, including SEA, SEB, SEC1, SEC2, SED, and SEE. We demonstrated that the TCR-alpha/beta of clonal GLs in LDGL patients is functionally active in delivering cytotoxic and proliferative signals upon superantigen activation.

Alveolar macrophages as a cell source of cytokine hyperproduction in HIV-related interstitial lung disease.

Pulmonary macrophages play an important role in the pathogenesis of the acquired immunodeficiency syndrome (AIDS). They are known to be discrete target cells for human immunodeficiency virus (HIV), and compelling evidence is accumulating that alveolar macrophages (AMs) from HIV-infected patients behave as versatile secretory cells that, acting as antigen-presenting cells, release a great variety of cytokines. The secretory products of AMs, pivotal to their immune effects, may contribute to localized immune dysregulation as well as to primary lung damage and clinical disease. Pulmonary macrophages are also thought to facilitate retroviral spread by their direct infection, by presenting HIV antigens to uninfected T cells, and by secreting cytokines that transactivate HIV expression. This review briefly considers the events underlying the role of AMs in the pulmonary defense mechanisms against HIV and AIDS-related opportunistic infections. Following a brief overview of immune mechanisms taking place in the lungs of HIV-infected subjects, we describe the specific role of AMs in the immune mechanisms devoted to recognizing and removing HIV-infected cells and controlling the local growth of opportunists. The pathogenetic role envisaged for macrophages in lung damage are also reviewed in the context of the known biology of these cells. Finally, this review examines the relevance of the retroviral infection of AMs in terms of pathogenesis of the HIV-related interstitial lung disease.

Serologic and molecular evidence for a possible pathogenetic role of viral infection in CD3-negative natural killer-type lymphoproliferative disease of granular lymphocytes.

We studied a series of 18 patients with CD3- lymphoproliferative disease of granular lymphocytes (LDGL) for evidence of chronic viral infection, including Epstein-Barr (EBV), hepatitis B (HBV), hepatitis C (HCV), human T lymphotropic virus (HTLV), and human immunodeficiency virus (HIV). Although all patients tested had serologic evidence for past infection with EBV, polymerase chain reaction (PCR) analysis of peripheral blood mononuclear cell (PBMC) DNA utilizing specific EBV primers demonstrated the presence of EBV-DNA in only six of 17 CD3- LDGL cases. A previous history of HBV infection, as defined by the presence of circulating IgG anti-HBc antibodies associated with either HBsAg positivity or negativity, was documented in seven cases; however, viral DNA was not detected in PBMC of these patients using PCR with specific HBV primers. Specific anti-HCV antibodies, confirmed by recombinant immunoblot assay, were detected in five CD3- LDGL patients; PCR analysis demonstrated the presence of viral RNA in PBMC of two of these cases. No patient had antibodies to HTLV-I/II or HIV-1/2. Five patients were infected by more than one virus (two with HBV and EBV and three with HBV and HCV). Our results provide serologic evidence for past viral infection in the large majority of CD3- NK-type LDGL patients. These data suggest that viral infection may have played a role early in disease pathogenesis and may no longer be necessary in sustaining GL proliferation in CD3- NK-type LDGL.

Leukemic cells in hairy cell leukemia and B cell chronic lymphocytic leukemia release soluble TNF receptors.

The two tumor necrosis factor receptors (TNF-Rs) exist in their soluble form in different biological fluids. In this study we investigated the concentrations of soluble tumor necrosis factor receptors (sTNF-Rs) in the culture supernatants of leukemic cells and in the serum obtained from 33 patients: 12 with hairy cell leukemia (HCL) and 21 with B cell chronic lymphocytic leukemia (B-CLL). In seven patients with HCL, sTNF-Rs were also evaluated following in vivo treatment with interferon-alpha (IFN-alpha). Purified leukemic cells from patients with HCL and B-CLL spontaneously released sTNF-R75 but not sTNF-R55. The levels of sTNF-R75 were higher in supernatants obtained from cultured hairy cells than from cultures of B-CLL cells. The shedding of sTNF-R75 was further increased both in HCL and B-CLL subjects by some B cell-related stimuli, including BCGF, PMA, SAC and was partially inhibited by IFN-alpha in patients with HCL. Sera from HCL patients presented increased levels of both sTNF-Rs with respect to normal controls. Treatment of HCL patients with IFN-alpha resulted in a decrease in serum levels of sTNF-Rs, particularly sTNF-R75. These findings suggest that leukemic cells account for the increased serum levels of sTNF-R75 observed in patients with HCL and B-CLL, but not for sTNF-R55.

Expression of TNF receptors by T cells and membrane TNF-alpha by alveolar macrophages suggests a role for TNF-alpha in the regulation of the local immune responses in the lung of HIV-1-infected patients.

High amounts of TNF-alpha are released by alveolar macrophages (AMs) in the lungs of patients with HIV-1 infection. To investigate the role of this cytokine in the local immune response, we studied the expression of surface receptors for TNF-alpha (TNF-Rs) and the presence of the transmembrane form of TNF-alpha (mTNF-alpha) on bronchoalveolar lavage (BAL) cells recovered from 14 patients with HIV-1 infection. The role of TNF-alpha both in the events leading to the T cell alveolitis and as a mediator of cytotoxicity was also evaluated. TNF-R expression was determined by flow cytometry on BAL CD8 lymphocytes and AMs (i.e., the cells that account for the alveolitis in HIV-1 infection). We found that CD8 cells express the 75-kDa (CD120a) but not the 55-kDa (CD120a) TNF-Rs, whereas AMs were devoid of TNF-R expression. More than 90% of BAL T cells efficiently bound TNF-alpha; when T cells were tested for their proliferative capacity, an up-regulation of the IL-2-mediated proliferation by TNF-alpha was observed, suggesting that this cytokine may drive the in situ proliferation of CD120b+ T cells. As shown by flow cytometry analysis and immunoprecipitation with anti-TNF-alpha Ab, mTNF-alpha expression was observed on AMs but not on alveolar T cells. Fixed AMs showed high levels of killing against TNF-sensitive targets. Taken together, our data demonstrate the selective expression of TNF-Rs and mTNF-alpha on cells accumulating within the alveolar spaces of patients with HIV-1 infection, pointing to the compound role of TNF-alpha in the local immune responses.

Serum levels of tumour necrosis factor-alpha in patients with B-cell chronic lymphocytic leukaemia.

Serum levels of tumour necrosis factor-alpha (TNF-alpha) have been evaluated in the peripheral blood of 91 patients with B-cell chronic lymphocytic leukaemia (B-CLL), and have been correlated with the clinical stage (according to Rai's staging system) and relevant haematological and immunological data. Increased values were detected, compared to 36 normal age-matched controls (36 pg/ml +/- 5 versus 0.11 pg/ml +/- 0.08; P < 0.05). An increase of TNF-alpha serum levels was observed in all stages including stage 0, with a progressive increase in relation to the stage of the disease. A significant relationship between serum TNF-alpha levels and the number of circulating monocytes (P < 0.002) and an inverse correlation with the level of the haemoglobin (P < 0.001) was established, as defined by the Pearson's correlation test. In contrast, no correlation was observed between TNF-alpha serum levels and the other parameters taken into account, including the white blood cell and platelet counts, the absolute number of peripheral blood (PB) lymphocytes, CD5+ B lymphocytes, CD57+ lymphocytes, serum levels of lactic dehydrogenase, total serum immunoglobulins and the serum levels of IgG, IgA and IgM. These data suggest that, in addition to the B-CLL neoplastic cells, the PB monocytes may be involved in the release of TNF-alpha.