Your search keyword '"Epistolio, Samantha"' showing total 8 results

1. One-instrument, objective microsatellite instability analysis using high-resolution melt.

Author

Bendixen, Kamilla Kolding, Forsberg-Pho, Sofie, Dazio, Giulia, Hansen, Emeli Elisabeth, Eriksen, Sarah Kronborg, Epistolio, Samantha, Merlo, Elisabetta, Boldorini, Renzo, Venesio, Tiziana, Movilia, Alessandra, Caprera, Cecilia, Arnspang, Eva Christensen, Børgesen, Michael, Christensen, Ulf Bech, Frattini, Milo, and Petersen, Rasmus Koefoed

Subjects

IMMUNE checkpoint inhibitors, NUCLEIC acid isolation methods, MICROSATELLITE repeats, CAPILLARY electrophoresis, DISEASE progression, MELTING

Abstract

In recent years, immune checkpoint inhibitors have proved immense clinical progression in the treatment of certain cancers. The efficacy of immune checkpoint inhibitors is correlated with mismatch repair system deficiency and is exceptionally administered based exclusively on this biological mechanism independent of the cancer type. The promising effect of immune checkpoint inhibitors has left an increasing demand for analytical tools evaluating the mismatch repair status. The analysis of microsatellite instability (MSI), reflecting an indirect but objective manner the inactivation of the mismatch repair system, plays several roles in clinical practice and, therefore, its evaluation is of high relevance. Analysis of MSI by PCR followed by fragment analysis on capillary electrophoresis remains the gold standard method for detection of a deficient mismatch repair system and thereby treatment with immune checkpoint inhibitors. Novel technologies have been applied and concepts such as tumor mutation burden have been introduced. However, to date, most of these technologies require high costs or the need of matched non-tumor tissue as internal comparator. In this study, we present a novel, one-instrument, fast, and objective method for the detection of MSI (MicroSight® MSI 1-step HRM Analysis), which does not depend on the use of matched non-tumor tissue. The assay analyzes five well-described mononucleotide microsatellite sequences by real-time PCR followed by high-resolution melt and evaluates microsatellite length variations via PCR product melting profiles. The assay was evaluated using two different patient cohorts and evaluation included several DNA extraction methodologies, two different PCR platforms, and an inter-laboratory ring study. The MicroSight® MSI assay showed a high repeatability regardless of DNA extraction method and PCR platform, and a 100% agreement of the MSI status with PCR fragment analysis methods applied as clinical comparator. [ABSTRACT FROM AUTHOR]

Published

2024

2. Detection of BRAF mutations in malignant melanoma and colorectal cancer by SensiScreen® FFPE BRAF qPCR assay.

Author

Sørensen, Anna Lahn, Guldmann-Christensen, Mariann, Børgesen, Michael, Petersen, Rasmus Koefoed, Flugt, Katharina, Duelund, Julie Mejer Holmgaard, Kyneb, Majbritt Hauge, Lorenzen, Jan, Pipó-Ollé, Emma, Epistolio, Samantha, Riva, Alice, Dazio, Giulia, Merlo, Elisabetta, Meyer, Tine, Christensen, Ulf Bech, and Frattini, Milo

Subjects

BRAF genes, MELANOMA, COLORECTAL cancer, IRINOTECAN, GENETIC mutation

Abstract

Mutations in BRAF exon 15 lead to conformational changes in its activation loops, resulting in constitutively active BRAF proteins which are implicated in the development of several human cancer types. Different BRAF inhibitors have been developed and introduced in clinical practice. Identification of BRAF mutations influences the clinical evaluation, treatment, progression and for that reason a sensitive and specific identification of BRAF mutations is on request from the clinic. Here we present the SensiScreen® FFPE BRAF qPCR Assay that uses a novel real-time PCR-based method for BRAF mutation detection based on PentaBases proprietary DNA analogue technology designed to work on standard real-time PCR instruments. The SensiScreen® FFPE BRAF qPCR Assay displays high sensitivity, specificity, fast and easy-to-use. The SensiScreen® FFPE BRAF qPCR Assay was validated on two different FFPE tumour biopsy cohorts, one cohort included malignant melanoma patients previously analyzed by the Cobas® 4800 BRAF V600 Mutation Test, and one cohort from colorectal cancer patients previously analyzed by mutant-enriched PCR and direct sequencing. All BRAF mutant malignant melanoma patients were confirmed with the SensiScreen® FFPE BRAF qPCR Assay and additional four new mutations in the malignant melanoma cohort were identified. All the previously identified BRAF mutations in the colorectal cancer patients were confirmed, and additional three new mutations not identified with direct sequencing were detected. Also, one new BRAF mutation not previously identified with ME-PCR was found. Furthermore, the SensiScreen® FFPE BRAF qPCR Assay identified the specific change in the amino acid. The SensiScreen® FFPE BRAF qPCR Assay will contribute to a more specific, time and cost saving approach to better identify and characterize mutations in patients affected by cancer, and consequently permits a better BRAF characterization that is fundamental for therapy decision. [ABSTRACT FROM AUTHOR]

Published

2023

3. A new sensitive and fast assay for the detection of EGFR mutations in liquid biopsies.

Author

Jensen, Steffen Grann, Epistolio, Samantha, Madsen, Cesilie Lind, Kyneb, Majbritt Hauge, Riva, Alice, Paganotti, Alessia, Barizzi, Jessica, Petersen, Rasmus Koefoed, Børgesen, Michael, Molinari, Francesca, Boldorini, Renzo, Lorenzen, Jan, Sørensen, Erik, Christensen, Ulf Bech, Høgdall, Estrid, and Frattini, Milo

Subjects

*EPIDERMAL growth factor receptors, *CIRCULATING tumor DNA, *NON-small-cell lung carcinoma, *NUCLEIC acids

Abstract

Background: A major perspective for the use of circulating tumor DNA (ctDNA) in the clinical setting of non-small cell lung cancer (NSCLC) is expected as predictive factor for resistance and response to EGFR TKI therapy and, especially, as a non-invasive alternative to tissue biopsy. However, ctDNA is both highly fragmented and mostly low concentrated in plasma and serum. On this basis, it is important to use a platform characterized by high sensitivity and linear performance in the low concentration range. This motivated us to evaluate the newly developed and commercially available SensiScreen® EGFR Liquid assay platform (PentaBase) with regard to sensitivity, linearity, repeatability and accuracy and finally to compare it to our already implemented methods. The validation was made in three independent European laboratories using two cohorts on a total of 68 unique liquid biopsies. Results: Using artificial samples containing 1600 copies of WT DNA spiked with 50% - 0.1% of mutant copies across a seven—log dilution scale, we assessed the sensitivity, linearity, repeatability and accuracy for the p.T790M, p.L858R and exon 19 deletion assays of the SensiScreen® EGFR Liquid assay platform. The lowest value detectable ranged from 0.5% to 0.1% with R2≥0,97 indicating good linearity. High PCR efficiency was shown for all three assays. In 102 single PCRs each containing theoretical one copy of the mutant at initiating, assays showed repeatable positivity in 75.5% - 80.4% of reactions. At low ctDNA levels, as in plasma, the SensiScreen® EGFR Liquid assay platform showed better sensitivity than the Therascreen® EGFR platform (Qiagen) and equal performance to the ctEGFR Mutation Detection Kit (EntroGen) and the IOT® Oncomine cell-free nucleic acids assay (Thermo Fisher Scientific) with 100% concordance at the sequence level. Conclusion: For profiling clinical plasma samples, characterized by low ctDNA abundance, the SensiScreen® EGFR Liquid assay is able to identify down to 1 copy of mutant alleles and with its high sensitivity, linearity and accuracy it may be a competitive platform of choice. [ABSTRACT FROM AUTHOR]

Published

2021

4. Non-small cell lung cancer (NSCLC), EGFR downstream pathway activation and TKI targeted therapies sensitivity: Effect of the plasma membrane-associated NEU3

Author

Forcella, M, Oldani, M, Epistolio, S, Freguia, S, Monti, E, Fusi, P, Frattini, M, Forcella, Matilde, Oldani, Monica, Epistolio, Samantha, Freguia, Stefania, Monti, Eugenio, Fusi, Paola, Frattini, Milo, Forcella, M, Oldani, M, Epistolio, S, Freguia, S, Monti, E, Fusi, P, Frattini, M, Forcella, Matilde, Oldani, Monica, Epistolio, Samantha, Freguia, Stefania, Monti, Eugenio, Fusi, Paola, and Frattini, Milo

Abstract

Adenocarcinoma of Non-Small Cell Lung Cancer (NSCLC) is a severe disease. Patients carrying EGFR mutations may benefit from EGFR targeted therapies (e.g.: gefitinib). Recently, it has been shown that sialidase NEU3 directly interacts and regulates EGFR. In this work, we investigate the effect of sialidase NEU3 overexpression on EGFR pathways activation and EGFR targeted therapies sensitivity, in a series of lung cancer cell lines. NEU3 overexpression, forced after transfection, does not affect NSCLC cell viability. We demonstrate that NEU3 overexpression stimulates the ERK pathway but this activation is completely abolished by gefitinib treatment. The Akt pathway is also hyper-activated upon NEU3 overexpression, but gefitinib is able only to decrease, and not to abolish, such activation. These findings indicate that NEU3 can act directly on the ERK pathway through EGFR and both directly and indirectly with respect to EGFR on the Akt pathway. Furthermore, we provide evidence that a healthy mucosa cell line (with EGFR wild-type gene sequence) is slightly sensitive to gefitinib, especially in the presence of NEU3 overexpression, thus hypothesizing that NEU3 overexpressing patients may benefit from EGFR targeted therapies also in absence of EGFR point mutations. Overall, the expression of NEU3 may be a novel diagnostic marker in NSCLC because, by its ability to stimulate EGFR downstream pathways with direct and indirect mechanisms, it may help in the identification of patients who can profit from EGFR targeted therapies in absence of EGFR activating mutations or from new combinations of EGFR and Akt inhibitors.

Published

2017

5. Non-small cell lung cancer (NSCLC), EGFR downstream pathway activation and TKI targeted therapies sensitivity: Effect of the plasma membrane-associated NEU3.

Author

Forcella, Matilde, Oldani, Monica, Epistolio, Samantha, Freguia, Stefania, Monti, Eugenio, Fusi, Paola, and Frattini, Milo

Subjects

CANCER treatment, NON-small-cell lung carcinoma, EPIDERMAL growth factor receptors, CELL membranes, GENE targeting, GENETIC overexpression, MOLECULAR biology

Abstract

Adenocarcinoma of Non-Small Cell Lung Cancer (NSCLC) is a severe disease. Patients carrying EGFR mutations may benefit from EGFR targeted therapies (e.g.: gefitinib). Recently, it has been shown that sialidase NEU3 directly interacts and regulates EGFR. In this work, we investigate the effect of sialidase NEU3 overexpression on EGFR pathways activation and EGFR targeted therapies sensitivity, in a series of lung cancer cell lines. NEU3 overexpression, forced after transfection, does not affect NSCLC cell viability. We demonstrate that NEU3 overexpression stimulates the ERK pathway but this activation is completely abolished by gefitinib treatment. The Akt pathway is also hyper-activated upon NEU3 overexpression, but gefitinib is able only to decrease, and not to abolish, such activation. These findings indicate that NEU3 can act directly on the ERK pathway through EGFR and both directly and indirectly with respect to EGFR on the Akt pathway. Furthermore, we provide evidence that a healthy mucosa cell line (with EGFR wild-type gene sequence) is slightly sensitive to gefitinib, especially in the presence of NEU3 overexpression, thus hypothesizing that NEU3 overexpressing patients may benefit from EGFR targeted therapies also in absence of EGFR point mutations. Overall, the expression of NEU3 may be a novel diagnostic marker in NSCLC because, by its ability to stimulate EGFR downstream pathways with direct and indirect mechanisms, it may help in the identification of patients who can profit from EGFR targeted therapies in absence of EGFR activating mutations or from new combinations of EGFR and Akt inhibitors. [ABSTRACT FROM AUTHOR]

Published

2017

6. SensiScreen® KRAS exon 2-sensitive simplex and multiplex real-time PCR-based assays for detection of KRAS exon 2 mutations.

Author

Riva, Alice, Epistolio, Samantha, Merlo, Elisabetta, Frattini, Milo, BØrgesen, Michael, Andersen, Christina, Christensen, Ulf Bech, Guldmann-Christensen, Mariann, Voogd, Kirsten, Hamilton-Dutoit, Stephen, Hauge Kyneb, Majbritt, Yding Wolff, Tine, and Lorenzen, Jan

Subjects

*POLYMERASE chain reaction, *SARCOMA, *CANCER genetics, *GENETIC mutation, *GENOTYPES, *LABORATORY rats, *DIAGNOSIS, *GENETICS

Abstract

Activating mutations in codon 12 and codon 13 of the KRAS (Kirsten rat sarcoma viral oncogene homolog) gene are implicated in the development of several human cancer types and influence their clinical evaluation, treatment and prognosis. Numerous different methods for KRAS genotyping are currently available displaying a wide range of sensitivities, time to answer and requirements for laboratory equipment and user skills. Here we present SensiScreen® KRAS exon 2 simplex and multiplex CE IVD assays, that use a novel real-time PCR-based method for KRAS mutation detection based on PentaBase’s proprietary DNA analogue technology and designed to work on standard real-time PCR instruments. By means of the included BaseBlocker™ technology, we show that SensiScreen® specifically amplifies the mutated alleles of interest with no or highly subdued amplification of the wild type allele. Furthermore, serial dilutions of mutant DNA in a wild type background demonstrate that all SensiScreen® assays display a limit of detection that falls within the range of 0.25–1%. Finally, in three different colorectal cancer patient populations, SensiScreen® assays confirmed the KRAS genotype previously determined by commonly used methods for KRAS mutation testing, and notably, in two of the populations, SensiScreen® identified additional mutant positive cases not detected by common methods. [ABSTRACT FROM AUTHOR]

Published

2017

7. Detection of BRAF mutations in malignant melanoma and colorectal cancer by SensiScreen® FFPE BRAF qPCR assay.

Author

Sørensen AL, Guldmann-Christensen M, Børgesen M, Petersen RK, Flugt K, Duelund JMH, Kyneb MH, Lorenzen J, Pipó-Ollé E, Epistolio S, Riva A, Dazio G, Merlo E, Meyer T, Christensen UB, and Frattini M

Subjects

Humans, Proto-Oncogene Proteins B-raf genetics, DNA Mutational Analysis methods, Mutation, Real-Time Polymerase Chain Reaction methods, Melanoma, Cutaneous Malignant, Melanoma metabolism, Colorectal Neoplasms genetics

Abstract

Mutations in BRAF exon 15 lead to conformational changes in its activation loops, resulting in constitutively active BRAF proteins which are implicated in the development of several human cancer types. Different BRAF inhibitors have been developed and introduced in clinical practice. Identification of BRAF mutations influences the clinical evaluation, treatment, progression and for that reason a sensitive and specific identification of BRAF mutations is on request from the clinic. Here we present the SensiScreen® FFPE BRAF qPCR Assay that uses a novel real-time PCR-based method for BRAF mutation detection based on PentaBases proprietary DNA analogue technology designed to work on standard real-time PCR instruments. The SensiScreen® FFPE BRAF qPCR Assay displays high sensitivity, specificity, fast and easy-to-use. The SensiScreen® FFPE BRAF qPCR Assay was validated on two different FFPE tumour biopsy cohorts, one cohort included malignant melanoma patients previously analyzed by the Cobas® 4800 BRAF V600 Mutation Test, and one cohort from colorectal cancer patients previously analyzed by mutant-enriched PCR and direct sequencing. All BRAF mutant malignant melanoma patients were confirmed with the SensiScreen® FFPE BRAF qPCR Assay and additional four new mutations in the malignant melanoma cohort were identified. All the previously identified BRAF mutations in the colorectal cancer patients were confirmed, and additional three new mutations not identified with direct sequencing were detected. Also, one new BRAF mutation not previously identified with ME-PCR was found. Furthermore, the SensiScreen® FFPE BRAF qPCR Assay identified the specific change in the amino acid. The SensiScreen® FFPE BRAF qPCR Assay will contribute to a more specific, time and cost saving approach to better identify and characterize mutations in patients affected by cancer, and consequently permits a better BRAF characterization that is fundamental for therapy decision., Competing Interests: ALS, MB, RKP, EPO, KF, MHK, JL and UBC received salaries from Eurostars. ALS, MB, RKP, EPO, KF and UBC are employees of PentaBase A/S. The funding organization did not play a role in the study design, data collection and analysis, decision to publish, or preparation of the manuscript and only provided financial support in the form of authors’ salaries and/or research materials. SensiScreen FFPEBRAF qPCR is part of a marketed product portfolio of PentaBase A/S. This does not alter our adherence to PLOS ONE policies on sharing data and materials., (Copyright: © 2023 Sørensen et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

8. SensiScreen®KRAS exon 2-sensitive simplex and multiplex real-time PCR-based assays for detection of KRAS exon 2 mutations.

Author

Riva A, BØrgesen M, Guldmann-Christensen M, Hauge Kyneb M, Voogd K, Andersen C, Epistolio S, Merlo E, Yding Wolff T, Hamilton-Dutoit S, Lorenzen J, Christensen UB, and Frattini M

Subjects

Cohort Studies, Colorectal Neoplasms genetics, DNA, Neoplasm genetics, Genotype, Humans, Tumor Cells, Cultured, Biological Assay methods, Colorectal Neoplasms diagnosis, Exons, Multiplex Polymerase Chain Reaction methods, Mutation genetics, Proto-Oncogene Proteins p21(ras) genetics, Real-Time Polymerase Chain Reaction methods

Abstract

Activating mutations in codon 12 and codon 13 of the KRAS (Kirsten rat sarcoma viral oncogene homolog) gene are implicated in the development of several human cancer types and influence their clinical evaluation, treatment and prognosis. Numerous different methods for KRAS genotyping are currently available displaying a wide range of sensitivities, time to answer and requirements for laboratory equipment and user skills. Here we present SensiScreen® KRAS exon 2 simplex and multiplex CE IVD assays, that use a novel real-time PCR-based method for KRAS mutation detection based on PentaBase's proprietary DNA analogue technology and designed to work on standard real-time PCR instruments. By means of the included BaseBlocker™ technology, we show that SensiScreen® specifically amplifies the mutated alleles of interest with no or highly subdued amplification of the wild type allele. Furthermore, serial dilutions of mutant DNA in a wild type background demonstrate that all SensiScreen® assays display a limit of detection that falls within the range of 0.25-1%. Finally, in three different colorectal cancer patient populations, SensiScreen® assays confirmed the KRAS genotype previously determined by commonly used methods for KRAS mutation testing, and notably, in two of the populations, SensiScreen® identified additional mutant positive cases not detected by common methods.

Published

2017