CLL family 'Pedigree 14' revisited: 1947-2004.

The notion that inherited predisposition contributes to the development of haematological malignancies is generally thought of as being a relatively new idea. However, Videbaek made a clear enunciation of such a hypothesis in 1947, from a study of tumour incidence in relatives of patients with different leukaemias. To gain further insight into inherited susceptibility to chronic lymphocytic leukaemia (CLL), we followed up the descendants of Videbaek's 'Pedigree 14' series of families. Using the Danish medical and pedigree databases, complete tracing of 222 descendants of the original 57 family members was achieved. To date, 10 family members have been diagnosed with CLL, one with T-cell lymphoma and 17 with nonhaematological cancers, including five with breast cancer. The detailed follow up of this family provides further support for inherited predisposition to CLL and illustrates the value of follow-up studies of previously published family material for genetic analyses.

Chromosomal imbalances in familial chronic lymphocytic leukaemia: a comparative genomic hybridisation analysis.

A subset of B cell chronic lymphocytic leukaemia (CLL) is familial. Lack of large families makes it attractive to exploit methods in addition to genetic linkage analysis for the identification of a susceptibility locus. One strategy that can localise regions of the genome that may harbour tumour suppressor genes is to identify regions of chromosomal imbalance using comparative genomic hybridisation (CGH) analysis. We examined 24 familial CLL cases by CGH analysis. Losses that are documented as arising frequently in sporadic CLL were observed at a comparable frequency in familial CLL. However, gains and losses in two regions of the X chromosome - Xp11.2-p21 and Xq21-qter - appear more common in familial CLL than in sporadic CLL. This suggests these regions may harbour a susceptibility locus for CLL. There is also some evidence that chromosome regions 2p12-p14 and 4q11-q21 may harbour predisposition genes.

Genetic susceptibility to chronic lymphocytic leukemia.

There is increasing evidence that a subset of chronic lymphocytic leukemia is caused by an inherited predisposition. Here we review the evidence for an inherited predisposition, the characteristics of familial cases and evidence for the involvement of specific genes.

Analysis of CHK2 in vulval neoplasia.

Structure and expression of the Rad53 homologue CHK2 were studied in vulval neoplasia. We identified the previously described silent polymorphism at codon 84 (A>G at nucleotide 252) in the germ-line of six out of 72, and somatic mutations in two out of 40 cases of vulval squamous cell carcinomas and none of 32 cases of vulval intraepithelial neoplasia. One mutation introduced a premature stop codon in the kinase domain of CHK2, whereas the second resulted in an amino acid substitution in the kinase domain. The two squamous cell carcinomas with mutations in CHK2 also expressed mutant p53. A CpG island was identified close to the putative CHK2 transcriptional start site, but methylation-specific PCR did not detect methylation in any of 40 vulval squamous cell carcinomas, irrespective of human papillomavirus or p53 status. Consistent with this observation, no cancer exhibited loss of CHK2 expression at mRNA or protein level. Taken together, these observations reveal that genetic but not epigenetic changes in CHK2 occur in a small proportion of vulval squamous cell carcinomas.

Investigation on the role of the ATM gene in chronic myeloid leukaemia.

Chronic myeloid leukaemia (CML) is characterised by an indolent, chronic phase (CP) preceding an acute transformation to blast crisis (BC). While the BCR-ABL fusion oncogene is strongly implicated in the CP, the molecular changes underlying BC are largely unknown. The ataxia telangiectasia gene, ATM, is a candidate gene for this transformation because the complex karyotypes associated with BC of CML suggest that DNA double-strand break repair is defective and because the ABL pathway involves the interaction between the Abl and the Atm proteins. We performed a mutational analysis for ATM in CML using genomic DNA from 14 CML cell lines and 59 CML patients in BC. No clearly deleterious nucleotide changes were observed. A new polymorphism C4138T was discovered which results in a non-conservative amino acid substitution (H1380Y). This variant lies in the Atm recognition motif for the Abl protein. While ATM is unlikely to contribute substantially to CML, further investigation of the H1380Y substitution should clarify whether it has any functional effect.

Disruption of the ATM gene in breast cancer.

Mutations in the ATM gene, which maps to 11q22-23, cause the multisystem recessive syndrome ataxia-telangiectasia (AT). Breast cancer has been reported in AT patients and carriers. Sporadic breast cancer is associated with loss of heterozygosity at or in the region of ATM and chromosomal abnormalities involving 11q23. We have investigated the chromosomes, nuclei and released chromatin fibers from nine primary breast carcinoma and eight cell lines by fluorescence in situ hybridization with four fluorochrome-labeled cosmids spanning the ATM gene. The ATM gene was disrupted in one primary breast carcinoma and in the cell lines MDA-MB-231 and MCF-7. The role of these aberrations in breast carcinomas, which may lead to gene dosage or dominant negative effects on gene function, requires further investigation.

TCL1 is activated by chromosomal rearrangement or by hypomethylation.

TCL1 is an oncogene activated by recurrent reciprocal translocations at chromosome segment 14q32.1 in the most common of the mature T-cell malignancies, T-cell prolymphocytic leukemia. It acts to transport Akt1 to the nucleus and enhance Akt1's serine-threonine kinase activity. TCL1 is also expressed in the B-cell malignancy, Burkitt's lymphoma (BL). However, 14q32.1 breakpoints have not been detected in BL, and we therefore investigated in more detail how expression was activated. No evidence for rearrangement near TCL1 was found in BL. Instead, a NotI site adjacent to the TATA box in the TCL1 promoter was found to be unmethylated. By contrast, tumor cell lines not expressing TCL1 were fully methylated at this NotI site, while normal somatic cells were hemimethylated. We also found that TCL1 was expressed in B-cell chronic lymphocytic leukemia (CLL) and the related disorder splenic lymphoma with villous lymphocytes (unlike in normal mature B-cells), and that the NotI site was unmethylated on both alleles. This correlation of repression and methylation was tested in vitro. When cells with both alleles methylated at the NotI site were demethylated, TCL1 expression was induced. These data provide evidence that in mature B-cell malignancies there is an alternative mechanism of TCL1 activation that apparently involves loss of methylation of one promoter allele. We discuss the significance of this for CLL tumorigenesis and for genomewide hypomethylation in CLL.

Unusual breakpoint distribution of 8p abnormalities in T-prolymphocytic leukemia: a study with YACS mapping to 8p11-p12.

Chromosome 8 abnormalities are seen in 80% of patients with T-cell prolymphocytic leukemia (T-PLL). The abnormalities described are idic(8)(p11),t(8;8)(p11;q12),+8, and 8p+ with the involvement of 8p. To localize 8p11-p12 breakpoints in T-PLL, metaphases from seven cases were karyotyped. Those with idic(8)(p11) and add(8)(p11) were probed with a panel of contiguous YACs derived from 8p11-p12 using fluorescence in situ hybridization (FISH). Analysis of FISH results showed that 8p11-p12 breakpoints cluster into two regions. The first region is telomeric to YAC 899e2, which contains the fibroblast growth factor receptor-1 gene (FGFR1) and appears to cluster within a 1.5-MB YAC 807a2. The second region is more centromeric with breakpoints on either side of YAC 806e9, flanked by YAC 940f10 distally and YAC 910d7 proximally, the latter containing the MOZ gene. These findings showed that a segment of 8p was still present in the isodicentric, but the pattern of clustering does not seem to correspond to a breakpoint affecting a single gene. The clustering regions are likely to be hot spots for recombination and result in idic(8)(p11) and 8p+. These changes point to the pathogenesis of T-PLL involving deletion of a gene sequence on 8p and/or gain of a copy of 8q.

Linkage analysis for major histocompatibility complex-related genetic susceptibility in familial chronic lymphocytic leukemia.

Chronic lymphocytic leukemia (CLL) shows evidence of familial aggregation, but the genetic basis is poorly understood. The existence of a linkage between HLA and Hodgkin lymphoma, another B-cell disorder, coupled with the fact that CLL is frequently associated with autoimmune disease, led to the question of whether the major histocompatibility complex (MHC) region is involved in familial cases of CLL. To examine this proposition, 5 microsatellite markers on chromosome 6p21.3 were typed in 28 families with CLL, 4 families with CLL in association with other lymphoproliferative disorders, and 1 family with splenic lymphoma with villous lymphocytes. There was no evidence of linkage in these families to chromosome 6p21.3. The best estimates of the proportions of sibling pairs with CLL that share 0, 1, or 2 MHC haplotypes were not significantly different from the null expectation. This implies that genes within the MHC region are unlikely to be the major determinants of familial CLL. (Blood. 2000;96:3982-3984)

T-cell prolymphocytic leukaemia: antigen receptor gene rearrangement and a novel mode of MTCP1 B1 activation.

T-cell prolymphocytic leukaemia (T-PLL) is a sporadic, mature T-cell disorder in which there is usually an aberrant T-cell receptor alpha (TCRA) rearrangement that activates the TCL1 or MTCP1-B1 oncogenes. As mutations of the Ataxia Telangiectasia (A-T) gene, ATM, are frequent in T-PLL and as ATM seems to act as a tumour suppressor through a mechanism involving V(D)J recombination, we examined V(D)J recombination in T-PLL. Using Southern blotting and the polymerase chain reaction, two of 60 TCRG coding joints were abnormal. In all cases, both TCRD alleles were deleted, IGH was germline, and patterns of TCRB and TCRA rearrangement were normal. However, in a case harbouring t(X;7)(q28;q35), we identified TCRB segment J beta 2.7 juxtaposed to MTCP1 exon 1. This is the first time that TCRB has been implicated in MTCP1 B1 activation. The structure of the breakpoint supports a model in which translocation activates a cryptic MTCP1 promoter. This analysis of V(D)J recombination is consistent with it being a variable that is independent of ATM in T-PLL.

Familial chronic lymphocytic leukaemia: a survey and review of published studies.

B-cell chronic lymphocytic leukaemia (CLL) is the most common form of leukaemia. To gain insight into the role of inherited factors in the disease, we have conducted a survey of the family histories of 268 CLL patients and have reviewed published familial cases and epidemiological studies. The results of our survey and published studies strongly support the hypothesis that a subset of the disease can be ascribed to a genetic predisposition. The most likely genetic model for inherited predisposition appears to be dominantly acting genes with pleiotropic effects because in many families CLL appears to be associated with other lymphoproliferative disorders.

Fluorescent BAT-25 and BAT-26 analysis of T cell prolymphocytic leukaemia.

T cell prolymphocytic leukaemia (T-PLL) is a chronic mature T cell malignancy with many random cytogenetic abnormalities. These imply that maintenance of genomic integrity is impaired. This is supported by the recent finding that the ataxia telangiectasia gene, ATM, which contributes to maintaining genomic integrity, is frequently mutated in this disease. To evaluate in T-PLL the role of other genes with comparable function, a fluorescence-based semi-automated assay was developed for BAT-25 and BAT-26. These markers contain sequences that are particularly unstable in cells with DNA mismatch repair defects. Application of the assay to 20 T-PLL cases found no evidence for such defects.

Bcl10 in chronic lymphocytic leukaemia and T-cell prolymphocytic leukaemia.

Bcl10 is a cancer gene recently identified in B-cell lymphomas of mucosa-associated lymphoid tissues. It has been suggested as a target for mutation in multiple types of tumour including follicular lymphoma, T-cell acute lymphoblastic leukaemia and Sezary syndrome. To evaluate further the role of Bcl10 in human adult haematological cancers, we screened for mutations samples from 24 patients with B-cell chronic lymphocytic leukaemia (CLL) and 18 samples from patients with T-cell prolymphocytic leukaemia (T-PLL). No pathogenic mutations were detected in any of the samples analysed, strongly suggesting that Bcl10 is not involved in the development of CLL or T-PLL and that its involvement may be restricted to other haematological malignancies.

Linkage analysis for ATM in familial B cell chronic lymphocytic leukaemia.

B cell chronic lymphocytic leukaemia (CLL) shows evidence of familial aggregation, but the inherited basis is poorly understood. Mutations in the ATM gene have been demonstrated in CLL. This, coupled with a possibly increased risk of leukaemia in relatives of patients with Ataxia Telangiectasia, led us to question whether the ATM gene is involved in familial cases of CLL. To examine this proposition we typed five markers on chromosome 11q in 24 CLL families. No evidence for linkage between CLL and ATM in the 24 families studied and the best estimates of the proportion of sibling pairs that share no, one or both haplotypes at ATM were not different from their null expectations. This would imply that ATM is unlikely to make a significant contribution to the three-fold increase in risk of CLL seen in relatives of patients.