IntroductionNon-invasive mutation testing using circulating tumour DNA (ctDNA) is an attractive premise. This could enable patients without available tumour sample to access more treatment options.Materials & MethodsPeripheral blood and matched tumours were analysed from 45 NSCLC patients. We investigated the impact of pre-analytical variables on DNA yield and/or KRAS mutation detection: sample collection tube type, incubation time, centrifugation steps, plasma input volume and DNA extraction kits.Results2 hr incubation time and double plasma centrifugation (2000 x g) reduced overall DNA yield resulting in lowered levels of contaminating genomic DNA (gDNA). Reduced “contamination” and increased KRAS mutation detection was observed using cell-free DNA Blood Collection Tubes (cfDNA BCT) (Streck), after 72 hrs following blood draw compared to EDTA tubes. Plasma input volume and use of different DNA extraction kits impacted DNA yield.ConclusionThis study demonstrated that successful ctDNA recovery for mutation detection in NSCLC is dependent on pre-analytical steps. Development of standardised methods for the detection of KRAS mutations from ctDNA specimens is recommended to minimise the impact of pre-analytical steps on mutation detection rates. Where rapid sample processing is not possible the use of cfDNA BCT tubes would be advantageous.
The DNA methyl-transferase 3A gene (DNMT3A) is the third most frequently mutated gene in cytogenetically normal acute myeloid leukemia (CN-AML) patients (20-30 %), who belong to a group of patients with intermediate risk. About 60 % of mutations in this gene have been identified in the arginine codon R882. To date, there is no consensus on whether these mutations can be used as biomarkers for monitoring of minimal residual disease and management of preemptive AML therapy. We studied the occurrence of mutations in the DNMT3A gene in our cohort of patients and their persistence during AML treatment. Using next-generation sequencing, we identified four mutations in 11/25 of our analyzed patients--frequent R882C and R882H mutations, rare Y735S mutation, and a novel L347P mutation. Mutation R882C was detected in 5/11, R882H in 4/11 patients, and Y735S and L347P in one patient each. In 4/7 patients initially carrying mutations in the R882 codon, we found the persistence of mutations also during complete remission with, however, no correlation to AML kinetics. Our findings suggest that mutations in the DNMT3A gene can only be used as a biomarker for those AML patients in whom DNMT3A mutation is lost after therapy.
Background and Aims In chronic myeloid leukemia (CML) and Philadelphia chromosome-positive (Ph+) acute lymphoblastic leukemia (ALL) patients resistant to tyrosine kinase inhibitors (TKIs), BCR-ABL1 mutation status is an essential component of the therapeutic decision algorithm. Capillary Sanger sequencing (SS) is currently the gold standard for mutation screening of the BCR-ABL1 kinase domain (KD), despite key technical limitations including limited sensitivity and no discrimination between compound and polyclonal mutations. Benchtop next-generation sequencers have recently been introduced as potential diagnostic platforms and there is growing interest in their clinical application. In the framework of the IRON-II (Interlaboratory RObustness of Next-generation sequencing) international consortium, 10 laboratories from 7 countries (Italy, Germany, United Kingdom, Spain, Austria, Turkey, Czech Republic) have engaged in the set-up, standardization and validation of a laboratory-developed screening assay for BCR-ABL1KD mutations based on the Roche 454 amplicon deep-sequencing technology. Methods Fusion primers were designed to generate four partially overlapping amplicons by nested reverse transcription (RT)-polymerase chain reaction (PCR), the first amplification step needed to select for the translocated ABL1 allele. Fusion primers were barcoded with multiplex identifiers (MIDs) consisting of 10-base pair tags allowing multiplexing of twelve clinical samples (forty-eight amplicons) in a single NGS run. The assay was designed in a ready-to-use 96-well plate format containing lyophilized oligonucleotide primers. Results Different primer designs and primer-MID combinations were evaluated for their performances. Sequencing runs generated an average of 97,432 reads (range, 59,459-151,335). For the primer design selected for further evaluation, the coverage per amplicon ranged between 1,449 and 5,997 sequencing reads. To explore the sensitivity and accuracy of the assay, serial dilutions of BaF3 cell lines harboring four different known mutations (Y253F, E255K, T315I, M351T) into an unmutated BaF3 cell line (50%:50%; 25%:75%; 10%:90%; 5%:95%; 2%:98%; 1%:99%) were sequenced in parallel in two distinct laboratories (Bologna and Jena). In both centers, results showed a high linearity of mutation calling and accuracy of mutation detection and quantitation over the entire range of dilutions, down to 1% mutation abundance. Intra-run reproducibility and inter-run reproducibility were confirmed by a series of experiments in which a set of samples was resequenced in the same and in independent runs, respectively, with and without repetition of the RT and PCR steps. Importantly, we demonstrated that reproducibility could be maintained over a wide dynamic range of amplicon coverage (from 100 to 5,000 independent sequencing reads). A total of 554 clinical samples (2,216 amplicons) were analyzed by the 10 laboratories - including 517 clinical samples analyzed in parallel by NGS and SS and 30 clinical samples analyzed in parallel by NGS, SS and conventional pyrosequencing. Three hundred and ninety-four of 398 (99%) variants detected by SS were also detected by NGS. In addition, comparison between NGS, SS and conventional pyrosequencing results showed very good concordance with respect to the estimation of variant abundance. NGS allowed to detect additional, low level mutations (>1% but<10-15%, i.e. undetectable by SS) in 294/554 (53%) samples. In a subset of twenty randomly selected samples, low level mutations were confirmed by independent methods (restriction fragment length polymorphism or allele-specific oligonucleotide-PCR). Compound mutations as against polyclonality could be resolved in all the clinical samples harboring multiple mutations mapping 450 bp apart or closer. Longitudinal retrospective analysis of CML and Ph+ ALL clinical samples showed that NGS could have identified TKI-resistant mutations earlier than SS, thus allowing more timely therapeutic intervention. Conclusions Our results indicate the technical feasibility, accuracy and robustness of NGS for BCR-ABL1 KD mutation screening and represent an important step forward towards its routine application in a clinical setting. An international ring trial to test inter-laboratory reproducibility of BCR-ABL1 mutation detection by NGS is now about to start. Disclosures: Soverini: Novartis: Consultancy; Bristol-Myers Squibb: Consultancy; ARIAD: Consultancy. Kohlmann:MLL Munich Leukemia Laboratory: Employment. Machova Polakova:Novartis: Honoraria, Research Funding; Bristol-Myers Squibb: Honoraria, Research Funding. Lion:Pfizer: Honoraria, Membership on an entity’s Board of Directors or advisory committees, Research Funding; Bristol-Myers Squibb: Honoraria, Membership on an entity’s Board of Directors or advisory committees, Research Funding; Novartis: Honoraria, Membership on an entity’s Board of Directors or advisory committees, Research Funding. Haferlach:MLL Munich Leukemia Laboratory: Employment, Equity Ownership. Hochhaus:ROCHE: Research Funding. Martinelli:NOVARTIS: Consultancy, Speakers Bureau; BMS: Consultancy, Speakers Bureau; PFIZER: Consultancy; ARIAD: Consultancy.
To the Editor: This is the 5th article in a series of short articles concerning iron deficiency and the role of intravenous (IV) iron. As the author of this series, for this article on the role of IV iron in restless legs syndrome (RLS), I will take a short license to describe our own experience. RLS, also known as Willis-Ekbom disease, is associated with largely nocturnal, rest-induced, distressing urges to move the legs [1]. Insomnia, interference with partner comfort and cramps are common, resulting in decreased quality of life. Four years ago, two key opinion leaders in sleep medicine specializing in RLS, approached me with the query of infusing a total dose infusion of low molecular weight iron dextran in iron replete, but not overloaded, patients with RLS. Our observed initial clinical benefit was transformative, with an observed immediate clinical benefit of significant magnitude. It is, therefore, not surprising that the role of IV iron as primary therapy for RLS has become a major clinical research interest. Subsequently, in 2013 we began screening anemia referrals with, in addition to standard blood work, a 13-item sleep-vitality questionnaire and the 13-item Cambridge Hopkins RLS diagnostic questionnaire [2]. These scales evaluate tiredness, weakness and energy levels. The remaining items evaluate aspects of sleep. Over a one year period, 343 new patients were screened with 252 meeting inclusion criteria. The results were enlightening, revealing a four to five fold increment, or 35% incidence of RLS in the iron deficient population.Treatment of RLS is suboptimal. Medications such as pregabalin and pramepexole are widely used but associated with significant fatigue. Subsequently, a far more felicitous and seamless, single infusion of IV iron may provide significant therapeutic advantage. This contention is supported by an observational study reporting that the significant majority of RLS sufferers have moderate to severe disease [3].RLS is associated with reduced brain iron making the total dose infusion of IV iron appealing. Oral iron, in addition to near ubiquitous dietary perturbation has limited benefit [4]. In those with RLS without iron deficiency, iron absorption across the intestinal epithelium into the blood is limited. Two controlled studies using equivalent doses given in a total dose infusion (1,000 mg) but administered as multiple small boluses of iron sucrose revealed marginal and no benefit, respectively [5,6]. The role of total dose infusion is considered controversial. Published evidence reported extraordinary response rates but unacceptable toxicity. Ondo administered 1,000 mg of high molecular weight iron dextran, now no longer available, over 4-5 hr and observed a very high response rate. Unfortunately a 10% incidence of serious adverse events, blunted the enthusiasm for this therapy [7] High molecular weight iron dextran is known to be associated with a marked increase in observed serious adverse events, but now that it is removed from market, the relevancy is moot. In our series o...
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