Characterization of B cell lymphoma in patients with Sjogren's syndrome and hepatitis C virus infection. (57/235)

OBJECTIVE: To characterize the clinical and immunologic patterns of expression, response to therapy, and outcome of patients with Sjogren's syndrome (SS) and associated hepatitis C virus (HCV) infection who developed B cell lymphoma. METHODS: Various international reference centers constituted a multicenter study group with the purpose of creating a registry of patients with SS-HCV who developed B cell lymphoma. A protocol form was used to record the main characteristics of SS, chronic HCV infection, and B cell lymphoma. RESULTS: Twenty-five patients with SS-HCV with B cell lymphoma were included in the registry. There were 22 (88%) women and 3 (12%) men (mean age 55, 58, and 61 years at SS, HCV infection, and lymphoma diagnosis, respectively). The main extraglandular SS manifestations were cutaneous vasculitis in 15 (60%) patients and peripheral neuropathy in 12 (48%); the main immunologic features were positive rheumatoid factor (RF) in 24 (96%) and type II cryoglobulins in 20 (80%). The main histologic subtypes were mucosa-associated lymphoid tissue (MALT) lymphoma in 11 (44%) patients, diffuse large B cell lymphoma in 6 (24%), and follicular center cell lymphoma in 6 (24%). Fifteen (60%) patients had an extranodal primary location, most frequently in the parotid gland (5 patients), liver (4 patients), and stomach (4 patients). Twelve (52%) of 23 patients died after a median followup from the time of lymphoma diagnosis of 4 years, with lymphoma progression being the most frequent cause of death. Survival differed significantly between the main types of B cell lymphoma. CONCLUSION: Patients with SS-HCV and B cell lymphoma are clinically characterized by a high frequency of parotid enlargement and vasculitis, an immunologic pattern overwhelmingly dominated by the presence of RF and mixed type II cryoglobulins, a predominance of MALT lymphomas, and an elevated frequency of primary extranodal involvement in organs in which HCV replicates (exocrine glands, liver, and stomach).  (+info)

Hepatitis C virus infection, cryoglobulinaemia, and beyond. (58/235)

Hepatitis C virus (HCV) infection is the major cause of mixed cryoglobulinaemia (MC), an immune complex (IC)-mediated systemic vasculitis mainly involving the small blood vessels. The precise mechanism of cryoprotein production is currently unknown. HCV virions and non-enveloped core protein participate in the formation of cold-insoluble ICs. Cryoglobulinaemic patients represent a distinct HCV-infected population, in that significant HCV enrichment of lymphoid cells is accompanied by evidence of productive virus infection and increased frequency of B cells. Liver, the major target organ of HCV, is the site of accumulation of inflammatory infiltrates that shares many architectural features with lymphoid tissue and reflects a distorted homeostatic balance between factors that enhance cellular recruitment, proliferation and retention, and those that decrease cellularity (cell death and emigration). There is now overwhelming evidence of a direct contribution to B-cell growth and survival through production of a variety of cytokines and chemokines. Liver tissue over-expression and abnormal circulating levels of B-cell activating factor belonging to the TNF family can provide effective costimulatory mechanisms to sustain the B-cell clonal expansion, which constitutes molecular stigmata of MC. Indolent lymphoproliferation might act as the starting point of chronic, multistage lymphomagenesis. An innovative therapeutic strategy is directed to 'eradication of the virus' and deletion of B-cell clonalities.  (+info)

The complement system in cryoglobulinaemia. Interaction with immunoglobulins and lipoproteins. (59/235)

Serum from a patient with an IgM-lipoprotein cryoglobulin, both before and after removal of the cryoprecipitate at 0 degrees C, had extremely low levels of whole complement (C), C1, C4 and C2, while amounts of the remaining components were normal or only slightly reduced. The cryopredipitate, when added to fresh normal human serum, reproduced this pattern of C fixation. Separation of the patients's serum at 37 degrees C into its lipoprotein, IgG and IgM fractions revealed that the IgM alone would precipitate at 0 degrees C. This precipitation was unaffected by the patients's IgG, but was markedly enhanced by extremely small amounts of the patient's d less than 1-075 lipoprotein fraction or of homologous very low density lipoprotein (VLDL). Aggregation occurred even at 37 degrees C in the presence of VLDL. Fixation of semi-purified human C1 paralleled these results closely: it occurred with the patient's IgM alone at 0 degrees but not at 37 degrees C, while IgM in the presence of the patient's lipoprotein, or of VLDL from normal serum, fixed C1 strongly at 37 degrees as well as at 0 degrees C. Fab dimers and monomers prepared from the patient's IgM did not aggregate in the cold, even in the presence of lipoprotein, and did not inhibit the aggregation of intact IgM in the presence of VLDL, at any temperature. All three highly purified IgM cryoglobulins, and three of four IgG cryoglobulins, fixed C1 strongly. The IgG preparation which failed to fix C1 was the only one which had lost its cryoprecipitability during purification. Measurement of C3 or whole C levels may be an insensitive method for detecting C fixation in cryoglobulinaemia. It is suggested that analysis for C1, C4 or C2 should be employed instead.  (+info)

Hepatitis C virus infection, type III cryoglobulinemia, and necrotizing vasculitis. (60/235)

A 53-year-old man with chronic hepatitis-C virus infection presented with livedo reticularis, purpura, and leg ulcers. A skin biopsy specimen showed a necrotizing vasculitis. The skin biopsy specimen and serology confirmed the diagnosis of type-III cryoglobulinemia. Bone marrow and peripheral blood showed proliferation of atypical CD5-positive B cells that included a monoclonal population. There is growing evidence that chronic hepatitis-C infection can result in immune dysregulation and expansion of autoimmune B cells that produce cryoglobulins.  (+info)

Cryofibrinogenemia associated with Sjogren's syndrome: a case of successful treatment with high-dose corticosteroid. (61/235)

Cryofibrinogenemia (CF) has not been often reported as a complication of various rheumatic diseases. We describe a 44-year-old woman with CF associated with Sjogren's syndrome (SS), who developed digital necrotic ulcerations and purpura of the lower legs. Cryoprecipitate was detected in her plasma, and immunoelectrophoresis showed that the cryoprecipitate was cryofibrinogen. Alprostadil was intravenously administered, but the ulceration was aggravated. Subsequently, administration of high-dose prednisolone (PSL) at 60 mg/day was started, and the ulceration remarkably improved. Cryofibrinogen, detected before the administration of high-dose PSL, was negative after PSL. This is the first case presentation of CF associated with SS successfully treated with high-dose corticosteroid.  (+info)

All-trans-retinoic acid aggravates cryoglobulin-associated membranoproliferative glomerulonephritis in mice. (62/235)

BACKGROUND: Transgenic (tg) mice overexpressing thymic stromal lymphopoietin (TSLP) develop mixed cryoglobulinaemia with renal disease closely resembling human cryoglobulinaemic membranoproliferative glomerulonephritis (MPGN), as well as systemic inflammation involving lung, liver and skin as a result of cryoglobulin deposits. We assessed the effect of all-trans-retinoic acid (ATRA), a powerful anti-inflammatory agent, on this model of cryoglobulinaemic MPGN. METHODS: Groups of male TSLP tg mice and wild-type controls were treated with either ATRA (20 mg/kg) or vehicle 3 times weekly by intraperitoneal injection for 4 or 8 weeks, when mice were then sacrificed. Routine histology and immunohistochemistry for collagen IV, alpha-smooth muscle actin, Mac-2 and Ki67 were performed. Immunoglobulin levels were measured by enzyme-linked immunosorbent assay. RESULTS: ATRA unexpectedly exacerbated renal injury in TSLP tg mice with increased glomerular extracellular matrix, mesangial cell activation, glomerular cell proliferation, glomerular macrophage influx and immune complex deposition. Systemic injuries involving liver and lung, and the amount of circulating cryoglobulins were all worsened by ATRA treatment. Furthermore, ATRA resulted in increased IgG1 and IgM levels, the main components of the cryoglobulins in TSLP tg mice, and a manifestation of an enhanced Th2 immune response. CONCLUSIONS: ATRA is not protective but instead aggravates cryoglobulinaemic MPGN and its systemic manifestations in TSLP tg mice. We speculate these findings may be due to augmented production of pathogenic immunoglobulins and/or an enhanced systemic Th2 response. Although disappointing, our results also suggest caution in the application of retinoid therapy to human disease based on the largely positive animal data reported to date.  (+info)

Primary chronic cold agglutinin disease: an update on pathogenesis, clinical features and therapy. (63/235)

Chronic cold agglutinin disease (CAD) is a subgroup of autoimmune hemolytic anemia. Primary CAD has traditionally been defined by the absence of any underlying or associated disease. The results of therapy with corticosteroids, alkylating agents and interferon-alpha have been poor. Cold reactive immunoglobulins against erythrocyte surface antigens are essential to pathogenesis of CAD. These cold agglutinins are monoclonal, usually IgMkappa autoantibodies with heavy chain variable regions encoded by the V(H)4-34 gene segment. By flowcytometric and immunohistochemical assessments, a monoclonal CD20+kappa+B-lymphocyte population has been demonstrated in the bone marrow of 90% of the patients, and lymphoplasmacytic lymphoma is a frequent finding. Novel attempts at treatment for primary CAD have mostly been directed against the clonal B-lymphocytes. Phase 2 studies have shown that therapy with the chimeric anti-CD20 antibody rituximab produced partial response rates of more than 50% and occasional complete responses. Median response duration, however, was only 11 months. In this review, we discuss the clinical and pathogenetic features of primary CAD, emphasizing the more recent data on its close association with clonal lymphoproliferative bone marrow disorders and implications for therapy. We also review the management and outline some perspectives on new therapy modalities.  (+info)

A critical appraisal of current practice in the detection, analysis, and reporting of cryoglobulins. (64/235)

To assess current practice in the detection, analysis, and reporting of cryoglobulins, a questionnaire was sent to 140 laboratories. Only 36% of laboratories used standard procedures (tube preheating, transport in container, and sedimentation and/or centrifugation at 37 degrees C) to ensure that the temperature did not drop below 37 degrees C until after serum separation. Time periods allowed for cryoprecipitation at 4 degrees C varied from 12 h to 9 days, with 30% of laboratories allowing precipitation for <3 days. After cryoprecipitation, 81% of laboratories resolubilized the cryoprecipitate at 37 degrees C, and 77% further immunotyped the cryoprecipitate. After analysis, 5% referred the sample for confirmation, 58% provided a nonquantitative report, and 37% reported the cryoglobulin concentration in the cryoprecipitate as cryocrit, total protein concentration, and/or immunoglobulin concentration. Only 3 laboratories (2%) provided cryoprecipitate-specific reference values for total protein content, and none provided reference values for immunoglobulins. We believe standardization is needed for cryoglobulin detection to avoid missed diagnoses and improve the comparability of results. Laboratories should ensure that sample temperature does not drop below 37 degrees C until after serum separation. The serum should cryoprecipitate at 4 degrees C for at least 3 (preferably 7) days. The cryoprecipitate should be washed and resolubilized at 37 degrees C for further analysis.  (+info)