Affiliation of authors: Department of Pathology and Laboratory Medicine, University of Rochester Medical Center, Rochester, NY
Correspondence to: Paul G. Rothberg, PhD, Department of Pathology and Laboratory Medicine, 601 Elmwood Ave., Box 626, Rochester, NY 14642 (e-mail: Paul_Rothberg{at}urmc.rochester.edu).
We read with interest the report of Moshynska et al. (1) on the discovery of two different insertional mutations at the same position in the promoter of the MCL-1 gene in chronic lymphocytic leukemia (CLL) specimens. The insertions, of 6 or 18 nucleotides, were associated with increased expression of MCL-1 mRNA and protein and with a poorer prognosis for the patients. In preparation for the development of a rapid and focused assay for these mutations, we searched the DNA sequence database at the National Center for Biotechnology Information (http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=Nucleotide) for genomic sequences of the MCL-1 gene. The sequence described by Moshynska et al. as being wild type was found in accession numbers AF162676 and AF198614. However, the 18-bp insertion was the sequence of record in accession numbers AL356356 and AF147742.
We therefore considered the possibility that the mutations discovered by Moshynska et al. (1) exist as germline variants. The assay we devised involves polymerase chain reaction (PCR) and polyacrylamide gel electrophoresis. We searched for the mutations/polymorphisms in 24 individuals using anonymized DNAs from the peripheral blood of people who had been tested for genetic disease and had not been selected with regard to the presence or absence of malignancy. We found clear evidence for the existence of at least three size variants in this region. Figure 1 shows an example of such an analysis. Lane 1 contains a DNA fragment that was confirmed by sequence analysis (data not shown) to have the same sequence as the wild-type allele in Fig. 1 of Moshynska et al. (1). Lane 2 shows a clear separation of a larger form, and lane 3 reveals heteroduplex bands consistent with a polymorphism that did not resolve by gel electrophoresis. Sequence analysis of the DNA fragments generated by the PCR shown in lane 3 revealed two overlapping sequences, one consistent with the wild-type allele and the other corresponding to the 6-bp insertion described by Moshynska et al. (1) (data not shown). A similar analysis of a specimen with the larger DNA fragment such as that seen in lane 2 revealed the presence of two overlapping sequences, the wild-type sequence and the 18-bp insertion (1) (data not shown). These data strongly suggest that the different forms of the MCL-1 promoter reported by Moshynska et al. (1) exist as germline polymorphisms. We did not study a sufficient number of specimens to establish an allele frequency for the variant forms; however, each variant was detected more than once.
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REFERENCES
(1) Moshynska O, Sankaran K, Pahwa P, Saxena A. Prognostic significance of a short sequence insertion in the MCL-1 promoter in chronic lymphocytic leukemia. J Natl Cancer Inst 2004;96:67382.
(2) Zhou P, Qian L, Kozopas KM, Craig RW. Mcl-1, a Bcl-2 family member, delays the death of hematopoietic cells under a variety of apoptosis-inducing conditions. Blood 1997;89:63043.
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