Онкогематология (Jun 2021)
Application of heteroduplex analysis for CALR mutation screening detection in patients with Ph-myeloproliferative neoplasms
Abstract
Background. In accordance with the World health organization clinical guidelines, the analysis of somatic mutations in the CALR gene, as well as mutations in the JAK2 and MPL genes, are included in the list of criteria for the Ph-myeloproliferative neoplasms diagnosis.More than 50 different mutation variants have been found in the CALR gene, among which the most frequent are a 52 bp deletion (c.1092_1143del), also called type 1, and a 5 bp insertion (c.1154_1155insTTGTC), also called type 2 (88 %).The remaining 12 % are other type less frequent indels or combinations thereof.It is most convenient to use sequencing methods to identify all possible variants of CALR mutations. It is also important to develop inexpensive screening test that can detect any mutations in the analyzed DNA fragment of CALR gene. This method can be heteroduplex analysis followed by electrophoresis on polyacrylamide gel (PAGE).The objective: to develop and demonstrate the feasibility of using heteroduplex analysis with separation of the PCR product by electrophoresis on non-denaturing PAGE for the CALR exon 9 mutations detection as the screening test. Materials and methods. DNA samples of 13 CALR-positive patients with different phenotypic variants of Ph-myeloproliferative neoplasms were screened by heteroduplex analysis. For the most common variants of CALR mutations (c.1092_1143del and c.1154_1155insTTGTC), a threshold determination of the mutant allele presence was analyzed.Nucleotide sequence of exon 9 fragment was determined using Sanger sequencing. Also, all 13 samples were analyzed using the pyrosequencing method to assess the allelic burden level.Results. Heteroduplex analysis revealed mutations in exon 9 of the CALR gene in all 13 patients. The threshold determinations of the method in the case of the c.1154_1155insTTGTC and c.1092_1143del analysis are 6.25 % and 3.13 % of the mutant allele presence in the patient sample, respectively.Conclusion. The proposed variant of the heteroduplex analysis with separation of the PCR product by electrophoresis on non-denaturing PAGE can be recommended for use as the preliminary screening test which is carried out before the confirming sequencing methods for the different indels (or combinations thereof) CALR mutations determine.The presence of heteroduplexes indicates the presence of a mutation, even if the mutant product is not visualized (in case of small mutations).
Keywords
