High expression of lipoprotein lipase in poor risk B-cell chronic lymphocytic leukemia

Minimal residual disease in chronic lymphocytic leukaemia: is it ready for primetime?

New therapeutic modalities have substantially improved response rates and outcomes in chronic lymphocytic leukaemia (CLL), yet the mindset remains that palliation is the only goal of therapy because the disease is considered incurable. Ultimately, all patients relapse despite achieving an initial response, as minimal residual disease (MRD) persisting after therapy eventually evolves into morphological and clinical recurrence. The emergence of immune-based combination therapies capable of inducing molecular remissions, the availability of highly sensitive assays that detect MRD, and emerging data showing a longer duration of response or longer survival in patients with no detectable disease, suggest that eradicating MRD may be a reasonable option for some patients. Moreover, novel biological prognostic markers have divided CLL into favourable and unfavourable subtypes, arguing in favour of defining different goals of therapy for different patients. Clinicians are increasingly challenged with the task of how best to incorporate MRD assessment into clinical practice, especially in an era when these novel prognostic factors exist. This review summarises the current understanding of MRD from a clinical standpoint, suggests that MRD eradication maybe a reasonable option for some patients, and argues in favour of designing large randomised studies to determine whether MRD-negative remission improves outcome.

Use of prognostic factors in risk stratification at diagnosis and time of treatment of patients with chronic lymphocytic leukemia

PURPOSE OF REVIEW

To review risk stratification strategies used in chronic lymphocytic leukemia at diagnosis to predict aggressiveness of disease and, at time of treatment, to predict duration of response.

RECENT FINDINGS

Several new prognostic factors can better assist clinicians in predicting the aggressiveness of chronic lymphocytic leukemia at diagnosis and the likelihood of maintaining a prolonged remission with treatment. This article reviews older prognostic factors such as beta2-microglobulin and thymidine kinase activity that have been partially validated by recently completed large studies. New prognostic factors such as interphase cytogenetics, immunoglobulin heavy-chain gene mutational analysis, and relevant secondary surrogate markers of immunoglobulin heavy-chain gene, including methylation of the zeta-associated protein gene, lipoprotein lipase overexpression, telomere length, and telomerase activity are reviewed. Some prognostic factors (interphase cytogenetics) but not others (immunoglobulin heavy-chain gene mutational status, zeta-associated protein expression) predict the duration of response to fludarabine-based combination strategies.

SUMMARY

Recent advances in risk stratification provide clinicians with tools to better predict outcome of chronic lymphocytic leukemia at the time of treatment and response to treatment at the time of developing symptomatic disease.

ZAP-70 mRNA quantification in B-cell chronic lymphocytic leukaemia

OBJECTIVE

The mutational status of the immunoglobulin (Ig) V(H) gene in B-cell chronic lymphocytic leukaemia (B-CLL) identifies two subgroups of patients with significantly different outcomes. We investigated the association of ZAP-70 expression with IgVH mutational status in B-CLL by quantifying ZAP-70 mRNA, to evaluate its use as a surrogate marker for mutational status. The aim of this study was to develop a quantitative reverse transcriptase-polymerase chain reaction (RQ-PCR) assay for the detection of ZAP-70 expression in a group of patients whose mutational status and cytogenetics had been determined previously.

METHODS

RQ-PCR was used to analyse ZAP-70 expression from 42 B-CLL patients. B cells were purified using CD19 magnetic bead system and total RNA was isolated. RQ-PCR was performed using Taqman PCR.

RESULTS

Twenty-five patients (60%) had mutated and 17 (40%) had unmutated IgVH genes; 94% (16/17) of patients with unmutated IgVH gene were ZAP-70 positive as assessed by RQ-PCR and 92% (23/25) of patients with mutated IgVH gene were ZAP-70 negative. In three patients, ZAP-70 expression and IgVH mutational status were discordant.

CONCLUSION

This paper describes an RQ-PCR assay for the detection of ZAP-70 expression and confirms that IgV(H) unmutated CLL cells have a high expression of ZAP-70 in comparison with IgVH mutated CLL. This robust method acts as a surrogate marker for IgVH mutational status albeit with <100% concordance. However, it does provide better concordance with mutational status than that reported using flow cytometry.

Deregulated expression of fat and muscle genes in B-cell chronic lymphocytic leukemia with high lipoprotein lipase expression

Lipoprotein lipase (LPL) is a prognostic marker in B-cell chronic lymphocytic leukemia (B-CLL) related to immunoglobulin V(H) gene (IgV(H))mutational status. We determined gene expression profiles using Affymetrix U133A GeneChips in two groups of B-CLLs selected for either high ('LPL+', n=10) or low ('LPL-', n=10) LPL mRNA expression. Selected genes were verified by real-time PCR in an extended patient cohort (n=42). A total of 111 genes discriminated LPL+ from LPL- B-CLLs. Of these, the top three genes associated with time to first treatment were Septin10, DMD and Gravin (P</=0.01). The relationship of LPL+ and LPL- B-CLL gene expression signatures to 52 tissues was statistically analyzed. The LPL+ B-CLL expression signature, represented by 64 genes was significantly related to fat, muscle and PB dendritic cells (P<0.001). Exploration of microarray data to define functional alterations related to the biology of LPL+ CLL identified two functional modules, fatty acid degradation and MTA3 signaling, as being altered with higher statistical significance. Our data show that LPL+ B-CLL cells have not only acquired gene expression changes in fat and muscle-associated genes but also in functional pathways related to fatty acid degradation and signaling which may ultimately influence CLL biology and clinical outcome.

Identification of a gene on chromosome 12q22 uniquely overexpressed in chronic lymphocytic leukemia

The pathogenesis of chronic lymphocytic leukemia (CLL) is unknown but may involve aberrant activation of signaling pathways. Somatic hypermutations in rearranged immunoglobulin heavy-chain (IgVH) genes allow a division of CLL patients into 2 categories: mutated IgVH genes are associated with an indolent disease, whereas unmutated IgVH genes define an aggressive form. Using differential display to compare gene expression in CLL cells with and without IgVH hypermutations, we identified a novel gene, CLL up-regulated gene 1 (CLLU1), that was highly up-regulated in CLL cells without IgVH hypermutations. CLLU1 mapped to chromosome 12q22, within a cluster of genes that are active in germinal center B cells. However, appreciable levels of CLLU1 were detectable only in CLL cells and not in a panel of normal tissue extracts or in any other tested hematologic malignancy. High expression of CLLU1 in CLL samples occurred irrespective of trisomy 12 or large chromosomal rearrangements. CLLU1 encodes 6 mRNAs with no sequence homology to any known gene, and most transcripts appear to be noncoding. Two transcripts, however, potentially encode a peptide with remarkable structural similarity to human interleukin 4. These data, in particular the unique and restricted expression pattern, suggest that CLLU1 is the first disease-specific gene identified in CLL.

CLLU1 expression levels predict time to initiation of therapy and overall survival in chronic lymphocytic leukemia

OBJECTIVES

Chronic lymphocytic leukemia (CLL) is an incurable disease with a highly variable clinical course. IgV(H) mutational status, chromosomal aberrations, CD38 expression and ZAP-70 expression are prognostic markers in CLL, however, they are not exclusively confined to this disease. We recently identified a novel CLL-specific gene (CLL upregulated gene1, CLLU1) that is exclusively upregulated in CLL cells. Here we describe our evaluation of the prognostic significance of CLLU1 in CLL.

METHODS

A cohort of 59 previously untreated CLL patients was studied. We determined the expression levels of two CLLU1 transcripts, cDNA1 and CDS, by quantitative RT-PCR. The relation between CLLU1 expression and time to therapy, overall survival and presence or absence of ZAP-70, CD38, chromosomal aberrations or IgV(H) mutations in the 59 patients was analyzed.

RESULTS

Analyzed as a continuous, quantitative parameter CLLU1 levels significantly predicted time from diagnosis to initiation of therapy (P < or = 0.0003) Analyzed as a categorical parameter, by segregation of the patients into groups with cDNA1 or CDS expression above or below the median, the CLLU1 levels significantly predicted time from diagnosis to initiation of therapy (P = 0.001) and predicted overall survival with borderline significance (P < or = 0.05). Patient stratification according to clinical stage, cytogenetics, IgV(H) mutational status, ZAP-70 and CD38, demonstrated significantly increased CLLU1 expression in all investigated CLL poor risk groups. CLLU1 expression levels contributed additional prognostic information to ZAP-70-positive patients.

CONCLUSIONS

CLLU1 is the first identified CLL specific gene. The CLLU1 mRNA expression level can predict time to initiation of treatment and survival in CLL patients.

Clinical implications of ZAP-70 expressionin chronic lymphocytic leukemia

Chronic lymphocytic leukemia (CLL) is a disease with an extremely heterogeneous prognosis. Because of this and because of the lack of a truly effective therapy, treatment of CLL must be adapted to the individual risk of each patient. Over the last quarter of century, prognosis of patients with CLL has been based on clinical features. In the last few years a number of biological prognostic parameters have been identified. Among them, the expression of ZAP-70 in neoplastic B lymphocytes is increasingly being recognized as of paramount importance to predict outcome. Patients with a low percentage (<20%) of ZAP-70 positive neoplastic B lymphocytes have a much better prognosis that those with a higher proportion (>20%) of ZAP-70 positive neoplastic B lymphocytes.

New developments in the diagnosis, prognosis and treatment of chronic lymphocytic leukemia

PURPOSE OF REVIEW

The remarkable progress witnessed over the past few years in the diagnosis, prognosis, and therapy of chronic lymphocytic leukemia has profoundly changed the clinical approach to this disease. This review focuses on the most recent advances in the diagnostic and prognostic examination of patients with chronic lymphocytic leukemia, with particular emphasis on their implications in clinical management, taking into account the broadening of the therapeutic possibilities available today.

RECENT FINDINGS

Through the biologic improvements achieved during the past few years it is now possible to effectively stratify chronic lymphocytic leukemia patients prognostically at presentation on the basis of several laboratory parameters. Furthermore, the availability of purine analogs and monoclonal antibodies and the extension of autografting and allografting procedures have allowed the achievement of higher response rates, including molecular remissions. With the aim of investigating whether early and aggressive treatment intervention may improve the survival of patients with a poor prognosis, new therapeutic trials have been specifically designed.

SUMMARY

A complete biologic and clinical examination now allows the establishment of a correct diagnostic characterization of patients with chronic lymphocytic leukemia and to identify patients with early disease with a different prognostic likelihood. Multicenter prospective trials, in which the enrolled patients are stratified and treated according to their prognostic risk, will determine the best treatment for the different categories of patients. It is likely that in the near future each chronic lymphocytic leukemia patient can be offered a targeted treatment algorithm based on the clinical and biologic characteristics at presentation.

Hematopathology Approaches to Diagnosis and Prognosis of Indolent B-Cell Lymphomas

The advent of new technologies has contributed to improvements in the diagnosis and classification of the non-Hodgkin lymphomas (NHL). Use of a more extensive test menu of paraffin active monoclonal antibodies for immunohistochemistry, molecular cytogenetic studies including standard cytogenetics, multi-color fluorescence in-situ hybridization (FISH), polymerase chain reaction and locus-specific FISH, as well as developments in high-resolution techniques including microarray gene expression profiling and array comparative genomic hybridization (CGH) allow more accurate diagnosis and precise definition of biomarkers of value in risk stratification. The identification of disease-specific gene lists resulting from expression profiling provides a number of potential protein targets that can be validated using immunohistochemistry. We will highlight how improvements in our understanding of lymphoma biology rapidly facilitate the development of new diagnostic reagents that could be used to alter clinical practice. These changing trends allow the development of new diagnostic strategies used to render accurate sub-classification of entities within the category of indolent B-cell lymphomas, including their distinction from related but more aggressive disorders, such as mantle cell lymphoma. A comprehensive understanding of the biology of these distinct lymphoid tumors will allow us to identify novel disease-related genes and should facilitate the development of improved diagnostics, outcome prediction, and personalized approaches to treatment.