Guidelines for the diagnosis and treatment of chronic lymphocytic leukemia: a report from the International Workshop on Chronic Lymphocytic Leukemia updating the National Cancer Institute-Working Group 1996 guidelines.

Standardized criteria for diagnosis and response assessment are needed to interpret and compare clinical trials and for approval of new therapeutic agents by regulatory agencies. Therefore, a National Cancer Institute-sponsored Working Group (NCI-WG) on chronic lymphocytic leukemia (CLL) published guidelines for the design and conduct of clinical trials for patients with CLL in 1988, which were updated in 1996. During the past decade, considerable progress has been achieved in defining new prognostic markers, diagnostic parameters, and treatment options. This prompted the International Workshop on Chronic Lymphocytic Leukemia (IWCLL) to provide updated recommendations for the management of CLL in clinical trials and general practice.

Familial cancer associated with a polymorphism in ARLTS1.

BACKGROUND: The finding of hemizygous or homozygous deletions at band 14 on chromosome 13 in a variety of neoplasms suggests the presence of a tumor-suppressor locus telomeric to the RB1 gene. METHODS: We studied samples from 216 patients with various types of sporadic tumors or idiopathic pancytopenia, peripheral-blood samples from 109 patients with familial cancer or multiple cancers, and control blood samples from 475 healthy people or patients with diseases other than cancer. We performed functional studies of cell lines lacking ARLTS1 expression with the use of both the full-length ARLTS1 gene and a truncated variant. RESULTS: We found a gene at 13q14, ARLTS1, a member of the ADP-ribosylation factor family, with properties of a tumor-suppressor gene. We analyzed 800 DNA samples from tumors and blood cells from patients with sporadic or familial cancer and controls and found that the frequency of a nonsense polymorphism, G446A (Trp149Stop), was similar in controls and patients with sporadic tumors but was significantly more common among patients with familial cancer than among those in the other two groups (P=0.02; odds ratio, 5.7; 95 percent confidence interval, 1.3 to 24.8). ARLTS1 was down-regulated by promoter methylation in 25 percent of the primary tumors we analyzed. Transfection of wild-type ARLTS1 into A549 lung-cancer cells suppressed tumor formation in immunodeficient mice and induced apoptosis, whereas transfection of truncated ARLTS1 had a limited effect on apoptosis and tumor suppression. Microarray analysis revealed that the wild-type and Trp149Stop-transfected clones had different expression profiles. CONCLUSIONS: A genetic variant of ARLTS1 predisposes patients to familial cancer.

Binet's staging system and VH genes are independent but complementary prognostic indicators in chronic lymphocytic leukemia.

PURPOSE: Rai's and Binet's staging systems have contributed significantly to the identification of major prognostic groups in chronic lymphocytic leukemia (CLL), though they fail to accurately predict disease progression at the individual level. Biologic factors, such as the mutational status of the immunoglobulin heavy-chain variable genes (VH, cytogenetics, CD38 expression, and some serum markers, have recently improved prognostic assessment in CLL. In this study, we analyzed the prognostic value of VH mutational status within the different stages of Binet's classification in 145 patients. PATIENTS AND METHODS: Our series consisted of 83 VH mutated (MT) and 62 VH unmutated (UM) patients. MT cases predominated within Binet's stage A (70%), whereas UM cases predominated among stages B and C (62%). RESULTS: Median overall survival (OS) was 84 months for UM patients and was not achieved for the MT group (70% 12-year survival, P <.0001). Concerning Binet's stage A, both median OS and progression-free survival were significantly shorter for UM patients when compared with those of MT patients (97 months v not achieved, P =.0017; and 42 v 156 months, P <.0001), which compared favorably with the classical A' and A" substaging. The VH mutational profile could also segregate stage B and C patients into two groups with different survival patterns (median OS, 78 v 120 months for UM and MT patients, respectively; P =.002). CONCLUSION: The significant survival differences observed between the VH mutational groups, among stage A and stage B and C patients, indicate that Binet's classification and VH genes are independent prognostic variables and are most likely complementary.

Perspectives in chronic lymphocytic leukemia biology and management.

Considerable progress has been achieved in the comprehension of the pathogenesis, prognosis, assessment, and treatment of chronic lymphocytic leukemia. However, this progress also has introduced new enigmas in the fields of biology, prognosis, and treatment. This article discusses some unanswered questions in these different topics.

Monocyte-derived dendritic cells in chronic lymphocytic leukemia.

Chronic lymphocytic leukemia (CLL) results from the accumulation of small mature, slowly dividing, monoclonal B lymphocytes. The clinical course of this disease is heterogeneous, with some patients progressing rapidly with early death whilst others exhibit a more stable, possibly, non-progressing disease lasting many years. Despite progress in therapy, relapse invariably occurs and the disease remains incurable. The clinical management of CLL is therefore challenging and considerable effort has been directed towards novel therapeutic strategies aimed at reducing the disease relapse rate. Recent insights into the role of dendritic cells as the pivotal antigen-presenting cells that initiate immune responses may provide the basis for generating more effective antitumor immune responses. Consequently, dendritic cells constitute an attractive approach in the context of CLL. However, understanding the relation between dendritic cells and the cellular immune response is crucial to elucidation of how to manipulate immune responses. After summarizing general properties of dendritic cells, this review focus on the approaches exploiting monocyte-derived dendritic cells in CLL, which should help design of novel treatment strategies in this disease.

[Cell therapy by dendritic cells in chronic lymphoid leukemia: state of the art]. / La thérapie cellulaire par des cellules dendritiques dans la leucémie lymphoïde chronique : état de la question.

Chronic lymphocytic leukemia (CLL) results from the accumulation of small mature, slowly dividing, monoclonal B lymphocytes. The clinical course of this disease is heterogeneous, with some patients progressing rapidly with early death whilst others exhibit a more stable, possibly, non-progressing disease lasting many years. Despite progress in therapy, relapse invariably occurs and the disease remains uncurable. The clinical management of CLL is therefore challenging and considerable effort has been directed towards novel therapeutic strategies aimed at reducing the disease relapse rate. Recent insights into the role of dendritic cells as the pivotal antigen-presenting cells that initiate immune responses may provide the basis for generating more effective antitumor immune responses. Consequently, dendritic cells constitute an attractive approach in the context of CLL. However, understanding the relation between dendritic cells and the cellular immune response is crucial to elucidation of how to manipulate immune responses. After summarizing general properties of dendritic cells, this review focus on the approaches exploiting monocyte-derived dendritic cells in CLL, which should help design of novel treatment strategies in this disease.

[Chronic lymphoid leukemia: a single disease or 2 distinct diseases?]. / La Leucémie Lymphoïde chronique: une maladie unique ou deux maladies distinctes?

Chronic Lymphocytic Leukemia (CLL) most commonly arises from a malignant clone of B cells with a characteristic phenotype, an autoreactive activity and an increased resistance to apoptosis. It is far from uniform in presentation and clinical course. About one-third of patients never require treatment and have a long survival; in another third an initial indolent phase is followed by progression of the disease; the remaining third of patients have aggressive disease at the outset and need immediate treatment. During recent years the development of biologic markers has allowed a better definition of prognosis in CLL. Serum levels of beta 2-microglobulin, LDH, and soluble CD23 can help predict disease activity, but the presence in the leukemic B cells of cytogenetic abnormalities like 11q or 11p deletions, the presence of the CD38 marker or somatic mutations in the immunoglobulin heavy chain genes are better predictors of rapid progression and survival. These recent results could suggest that there are two types of chronic lymphocytic leukemia: one arises from relatively less differentiated (immunologically naive) B cells with unmutated heavy chain genes, and has a poor prognosis; the other evolves from more differentiated B cells (memory B cells) with somatically mutated heavy chain genes, and has a good prognosis. However, all CLL patients share a same morphology, phenotype and overexpression of the bcl-2 and p27Kip1. In addition, recent data derived from gene expression profiling analysis failed to clearly distinguish unmutated and mutated cases and favor the view that all cases of CLL have a common cell origin and/or a common mechanism of malignant transformation.

Strong correlation between VEGF and MCL-1 mRNA expression levels in B-cell chronic lymphocytic leukemia.

Expression of the anti-apoptotic myeloid cell leukemia-1 (MCL-1) gene is a novel prognostic factor in B-cell chronic lymphocytic leukemia (B-CLL). Vascular and endothelial growth factor (VEGF) and interleukin-6 (IL-6) are able to upregulate MCL-1 via autocrine signaling loops. In 88 B-CLL patients, we found a strong correlation of MCL-1 gene expression with VEGF (P<10(-7)) but not with IL-6 mRNA levels. VEGF but not IL-6 expression influenced patient prognosis. VEGF may be a positive autocrine in vivo regulator of MCL-1 in B-CLL. Inhibition of VEGF and its signaling may prove to be useful in the treatment of B-CLL patients.

Trinucleotide repeat dynamic mutation identifying susceptibility in familial and sporadic chronic lymphocytic leukaemia.

Chronic lymphocytic leukaemia (CLL) has a strong hereditary component, but an understanding of predisposition genes is poor. Anticipation with familial CLL has been reported, although the molecular mechanism is unknown. Expansion of trinucleotide repeat sequences underlies anticipation observed in neurodegenerative disease. A polymerase chain reaction-based assay was used to analyse the stability of ten CCG- and CAG-trinucleotide repeat tracts in 18 CLL families and 140 patients with the sporadic form of the disease. The study suggests that anticipation, if it occurs in CLL, is not linked to CCG- and CAG-repeat expansion, however, variation in repeat length at certain loci (FRA16A) may permit identification of susceptible family members. In addition, polymorphisms with prognostic significance were identified. These were high length (but not expanded) repeats at FRA11B (P = 0.01), ATXN1 (P = 0.032) and ATXN3 (P = 0.022), all associated with poor risk disease.

Over 20% of patients with chronic lymphocytic leukemia carry stereotyped receptors: Pathogenetic implications and clinical correlations.

The chronic lymphocytic leukemia (CLL) immunoglobulin repertoire is biased and characterized by the existence of subsets of cases with closely homologous ("stereotyped") complementarity-determining region 3 (CDR3) sequences. In the present series, 201 (21.9%) of 916 patients with CLL expressed IGHV genes that belonged to 1 of 48 different subsets of sequences with stereotyped heavy chain (H) CDR3. Twenty-six subsets comprised 3 or more sequences and were considered "confirmed." The remaining subsets comprised pairs of sequences and were considered "potential"; public database CLL sequences were found to be members of 9 of 22 "potential" subsets, thereby allowing us to consider them also "confirmed." The chance of belonging to a subset exceeded 35% for unmutated or selected IGHV genes (eg, IGHV1-69/3-21/4-39). Comparison to non-CLL public database sequences showed that HCDR3 restriction is "CLL-related." CLL cases with selected stereotyped immunoglobulins (IGs) were also found to share unique biologic and clinical features. In particular, cases expressing stereotyped IGHV4-39/IGKV1-39-1D-39 and IGHV4-34/IGKV2-30 were always IgG-switched. In addition, IGHV4-34/IGKV2-30 patients were younger and followed a strikingly indolent disease, contrasting other patients (eg, those expressing IGHV3-21/IGLV3-21) who experienced an aggressive disease, regardless of IGHV mutations. These findings suggest that a particular antigen-binding site can be critical in determining the clinical features and outcome for at least some CLL patients.

Perspectives on the use of new diagnostic tools in the treatment of chronic lymphocytic leukemia.

Recently, considerable progress has been made in the identification of molecular and cellular markers that may predict the tendency for disease progression in patients with chronic lymphocytic leukemia (CLL) or detect minimal residual disease after therapy. These developments have created uncertainty for clinicians who hope to incorporate the use of these markers and new disease-assessment tools into standard clinical practice. However, clinical trials are required to determine whether poor-prognosis leukemia-cell markers, such as expression of unmutated immunoglobulin genes or the zeta-associated protein of 70 kDa (ZAP-70), can be used as the basis for determining the time or type of therapy. Pending the outcome of such trials, treatment decisions outside the context of a clinical trial still should be based on guidelines established by the most recent National Cancer Institute-sponsored Working Group.

CLL biology and prognosis.

Chronic lymphocytic leukemia (CLL) follows an extremely variable course with survival ranging from months to decades. Recently, there has been major progress in the identification of molecular and cellular markers that may predict the tendency for disease progression in CLL patients. In particular, the mutational profile of Ig genes and some cytogenetic abnormalities have been found to be important predictors of prognosis in CLL. However, this progress has raised new questions about the biology and prognosis of the disease, some of which are addressed here. Such questions include: 1) What is the role of the B-cell receptor (BCR) in CLL pathogenesis? 2) Is CLL one disease? 3) Is CLL an accumulative disease? 4) What is the normal counterpart of the CLL B lymphocyte? 5) Have the Rai and Binet staging systems become obsolete? 6) Which is the best surrogate for Ig mutational profiles?

Different isoforms of BSAP regulate expression of AID in normal and chronic lymphocytic leukemia B cells.

Activation-induced cytidine deaminase (AID) is key to initiating somatic hypermutation (SHM) and class switch recombination (CSR), but its mode of action and regulation remains unclear. Since Pax-5 and Id-2 transcription factors play an opposing role in AID regulation, we have studied the expression of Pax-5, Id-2, and prdm-1 genes in 54 chronic lymphocytic leukemia (CLL) B cells. In 21 cases, presence of AID is constantly associated with high expression of the complete form of the Pax-5 gene (Pax-5a) and lower expression of the Id-2 and prdm-1 transcripts. In 33 cases, the absence of AID expression and CSR is associated with a reduction of Pax-5a and the appearance of a spliced form with a deletion in exon 8 (Pax-5/Delta-Ex8). Stimulation with CD40L+interleukin 4 (IL-4) induces CSR, the presence of AID transcripts, up-regulation of Pax-5a and down-regulation of Pax-5/Delta-Ex8, and Id-2 and prdm-1 transcripts. Pax-5a and Pax-5/Delta-Ex8 are translated into 2 isoforms of the B-cell-specific activator protein (BSAP) and both are able to bind the AID-promoter region. Overall, these results suggest that Pax-5/Delta-Ex8 could play an important role in the control of its own transcription and indirectly in AID expression and CSR.

Lower levels of surface B-cell-receptor expression in chronic lymphocytic leukemia are associated with glycosylation and folding defects of the mu and CD79a chains.

Low levels of B-cell-receptor (BCR) expression are the hallmark of tumoral B lymphocytes in B-cell chronic lymphocytic leukemia (B-CLL). These cells also respond inadequately to stimulation through the BCR. This receptor consists of a surface immunoglobulin associated with a CD79a/CD79b heterodimer. We previously showed that the intracellular synthesis of BCR components, from transcription onward, is normal. Here, we investigated the glycosylation status and cellular localization of mu, CD79a, and CD79b chains in 10 CLL patients differing in surface immunoglobulin M (IgM) expression. We reported a severe impairment of the glycosylation and folding of mu and CD79a. These defects were associated with the retention of both chains in the endoplasmic reticulum and lower levels of surface IgM expression. In contrast, no clear impairment of glycosylation and folding was observed for CD79b. No sequence defects were identified for BCR components and for the chaperone proteins involved in BCR folding processes. These data show, for the first time, that lower levels of BCR surface expression observed in CLL are accounted for by an impaired glycosylation and folding of the mu and CD79a chains.

The LPL/ADAM29 expression ratio is a novel prognosis indicator in chronic lymphocytic leukemia.

Although the zeta-associated protein of 70 kDa (ZAP-70) is overexpressed in patients with chronic lymphocytic leukemia (CLL) displaying unmutated IGVH genes and poor prognosis, a previous microarray study from our group identified overexpression of LPL and ADAM29 genes among unmutated and mutated CLL, respectively. To assess the prognostic value of these genes, we quantified their expression by real-time quantitative polymerase chain reaction (PCR) in a cohort of 127 patients with CLL and correlated this with clinical outcome, IGVH mutational status, and ZAP-70 protein expression. IGVH mutational status, ZAP-70, and the LPL and ADAM29 mRNA ratios (L/A ratio) were predictive of event-free survival for the whole cohort and for patients with stage A disease. In patients in stage B and C, the L/A ratio was an independent prognostic factor, whereas ZAP-70 did not predict survival. Simultaneous usage of the L/A ratio and ZAP-70 expression allowed an almost perfect (99%) assessment of the IGVH status in the 80% of patients with concordant results (L/A+, ZAP-70+ or L/A-, ZAP-70-). LPL and ADAM29 gene expression could also be determined by a simple competitive multiplex reverse transcription PCR assay. Overall, quantification of LPL and ADAM29 gene expression is a strong prognostic indicator in CLL, providing better prognostic assessment than ZAP-70 in advanced stages of the disease.

Geographic patterns and pathogenetic implications of IGHV gene usage in chronic lymphocytic leukemia: the lesson of the IGHV3-21 gene.

We studied immunoglobulin variable heavy-chain (IGHV) repertoire and mutational status in 553 patients with chronic lymphocytic leukemia (CLL) from the Mediterranean area to gain insight into the potential pathogenetic role of antigenic stimulation. The most commonly represented IGHV genes mirrored the usage of normal B cells, with the exception of IGHV1-18, IGHV3-30.3, and IGHV4-59 that were underrepresented. The IGHV3-21 gene, frequently expressed in Northern European CLL, was present only in 16 cases (2.9%). Based on HCDR3 cluster analysis, cases using IGHV3-21 could be grouped in 2 subsets of similar frequency. The first one (7 of 16 cases) carried a similar HCDR3 amino acid sequence (common-HCDR3 subset), virtually identical to the Scandinavian IGHV3-21 CLL. These cases used the IGHJ6 gene; 4 of 7 were unmutated; 6 of 7 carried the V(lambda)2-14 (IGLV3-21) light-chain gene with a similar LCDR3. All expressed CD38 and had a progressive disease. The second subset (9 of 16) was characterized by heterogeneous HCDR3 rearrangements (nonhomogeneous-HCDR3 subset), diverse IGHJ and IGV light-chain gene usage, variable IGHV mutational status (5 of 9 unmutated), variable CD38 expression, and variable clinical course (4 of 9 progressed). The first subset suggests a potential antigenic element rarely encountered in the Mediterranean area, possibly responsible for a negative outcome. The second subset may reflect the physiologic heterogeneity of expression of IGHV3-21 rearrangements in the normal repertoire and is characterized by a variable clinical outcome.

[Autoantibodies, tolerance and autoimmunity]. / Autoanticorps, tolérance et auto-immunité.

In 1900, the group from Metchnikoff suggested the concept of autoimmunization by demonstrating the presence of autoantibodies in normal conditions; which was opposed to the concept of horror autotoxicus raised by Ehrlich. Landsteiner's description of the transfusion compatibility rules and 50 year-later work from Burnett's and Medawar's groups lead to the clonal deletion theory as a general explanation of tolerance and autoimmunity. However, more recent work succeeded demonstrating that autoreactive B cells constitute a substantial part of the B-cell repertoire and that this autoreactive repertoire secretes the so-called natural autoantibodies (NAA) characterized by their broad reactivity mainly directed against very well conserved public epitopes. They fulfill the definition of an autoantibody since they are self-reactive, but they are not self-specific. As yet, NAA directed against determinants of polymorphism have not been reported. The presence of this repertoire in normal conditions challenges the clonal deletion theory as a unique explanation for self-tolerance. However, if we take into account that this autoreactive B-cell repertoire is not self-specific, this contradiction may not be a real one opposition. Indeed, the Lansteiner's rule that a subject belonging to group A will never produce anti-A antibodies and will always produce natural antibodies against the B-cell group, could never be challenged. Clonal deletion is probably accounting for this phenomenum. However, the serum of healthy adult individuals frequently exhibits low titers of anti-I antibodies, which is a precursor molecule of AB0 antigen system. The mechanism accounting for deletion of B cells directed against critical determinants like antigens A and B in the red blood cell system and allowing the production of autoantibodies against I remain elusive.

Defective assembly of the B-cell receptor chains accounts for its low expression in B-chronic lymphocytic leukaemia.

B-cell chronic lymphocytic leukaemia (B-CLL) characteristically displays low amounts of B-cell receptor (BCR), which mainly consists of the heterodimer CD79a/CD79b bound non-covalently with the surface immunoglobulin (SIg). This heterodimer is required for SIg expression and BCR signalling. To better define the mechanisms related to low BCR expression, we have investigated transcription, protein synthesis, assembly and transport of the BCR in B-CLL cells. Our results demonstrated that: (1) there was no major defect in transcriptional expression of the B29 (CD79b) gene; (2) the BCR components were intracellularly detected, thus adequately synthesized, in almost all patients; (3) neither a genetic defect in the transmembrane region of SIg, which associated with CD79a/CD79b, nor a genetic abnormality in the chaperone protein calnexin that is involved in folding and assembly of the BCR were found; (4) a constant defect in the assembly of IgM and CD79b chains occurred leading to abnormal accumulation of both chains in different intracellular compartments; (5) in a majority of CLL patients all of the nascent IgM failed to be processed into mature chains and remained unsuitable for transport. These findings demonstrated that a post-transcriptional defect located at the BCR intracellular assembly and/or trafficking levels could be involved in its low surface expression in B-CLL.

Transgenic B lymphocytes expressing a human cold agglutinin escape tolerance following experimental infection of mice by Mycoplasma pulmonis.

Several microbial infections, including Mycoplasma pneumoniae respiratory infection, are capable, in man, of transiently inducing the expression of anti-red blood cell autoantibody called cold agglutinins (CA). To analyze the mechanisms by which immune tolerance is broken following a mycoplasma infection, we used transgenic mice expressing a pathogenic human CA, designated CA-GAS, specific for sialylated carbohydrates. In these mice peripheral deletion of autoreactive B lymphocytes and receptor editing, prevent the development of autoimmune hemolytic anemia. Experimental infections of transgenic mice with Mycoplasma pulmonis resulted in a high anti-mycoplasma antibody response (despite a severe B cell depletion at the onset of infection), and an important induction of serum CA concentrations, reaching in some mice pathological titers. Whereas in naïve mice, only a small percentage of CA-expressing cells could be detected, in infected mice, a majority of circulating B lymphocytes were large B220(-) cells, which expressed the transgenic immunoglobulin. Immunization of the transgenic mice with keyhole limpet hemocyanin and Freund's adjuvant, to nonspecifically stimulate the expression of the passenger transgenes, only moderately increased the CA titers. These results indicate that M. pulmonis infection is capable of breaking immune tolerance in the CA-transgenic mice, in part through specific activation of CA-expressing B lymphocytes. This experimental infection mimics the induction of CA in humans and provide an animal model for studying the genesis of the autoimmune hemolytic anemia.