Personalis to Present Data Demonstrating Breadth of NeXT Platform for Oncology at AACR Annual Meeting 2022
Personalis, Inc. (Nasdaq: PSNL) announced its participation at the AACR Annual Meeting 2022, presenting five scientific posters from April 8-13, 2022. The company aims to showcase advances in precision oncology with a focus on genomic data and innovative techniques like the NeXT Liquid Biopsy and ImmunoID NeXT Platform. These studies highlight the ability to monitor somatic mutations in cancer patients and assess immune cell compositions, enhancing understanding of tumor biology and treatment resistance.
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“These abstracts demonstrate the full range of our capabilities in advancing the field of oncology, from a rich understanding of molecular-level interactions through clinical applications in multiple disease indications. The work also builds on the company’s strong foundation of genomic data generated with solid tumor tissue and expands into liquid biopsy with a unique, exome-wide approach,” said
Title: Applying NeXT Liquid Biopsy™, an exome-scale platform, to monitor and discover somatic variants in a broad set of cancer types
Overview: Circulating tumor cell-free DNA (ctDNA) has become a biomarker for prognosis and disease monitoring. However, studies typically utilize assays limited to a small set of genes that may miss biologically important and clinically actionable mutations. To address this limitation, we have developed a whole-exome scale cfDNA platform, NeXT Liquid Biopsy, that enables sensitive detection and tracking of somatic mutations in plasma samples across ~20,000 genes. The NeXT Liquid Biopsy platform monitors tumor variants and discovers novel mutations in the plasma, through analysis of tumor, normal and plasma samples from the same patient. The NeXT Liquid Biopsy platform enables the identification of somatic variants in liquid biopsy samples, following interventions such as surgery and treatment therapies. Here, we have applied NeXT Liquid Biopsy to profile the shedding of somatic mutations from more than 100 pan-cancer patients on an exome scale, detecting variants in well-characterized cancer driver genes and many events outside of traditional panel footprints.
Title: Accurate quantification of infiltrating B cell composition and clone diversity in tumor samples
Overview: The role of B cells as a prognostic biomarker remains elusive. For instance, infiltrating B cells in colorectal cancer have both positive and negative prognostic value. Thus, a scalable approach to quantify B cells and the B-cell receptor repertoire could yield novel insights into the role of B cells in tumor biology. To address this, we have developed immune cell quantification (InfiltrateIDTM) and immune receptor repertoire profiling (RepertoireIDTM) methods as part of the ImmunoID NeXT Platform®, an augmented, immuno-oncology-optimized exome/transcriptome platform. We show that InfiltrateID and RepertoireID accurately capture the composition and clone diversity of infiltrating B cells in tumor samples. Furthermore, we apply the two methods to explore B cell infiltration and BCR repertoires across a set of more than 650 pan-cancer samples.
Title: Exome-scale longitudinal tracking of emerging therapeutic resistance in GIST via analysis of circulating tumor DNA
Overview: Gastrointestinal stromal tumors (GIST) are lethal tumors characterized by constitutively activating mutations to KIT or PDGFRA. Transient disease control in the first-line setting is achieved via inhibition of tyrosine kinase signaling using the KIT inhibitor imatinib. As patients progress through subsequent lines of therapy, a molecularly heterogeneous disease evolves, characterized by distinct subtypes and shifting repertoires of exon-specific KIT variants that directly impact treatment outcomes. This study uses tumor-informed exome-scale liquid biopsy to identify and track the evolution of multiple resistance mechanisms in patients receiving tyrosine kinase inhibitors (TKIs) to address the unmet need of comprehensive understanding of GIST evolution in response to therapy.
Title: A high sensitivity, tumor-informed liquid biopsy platform, designed to detect minimal residual disease at part per million resolution
Overview: Tumor-informed liquid biopsy approaches have proven promising for detecting minimal residual disease (MRD) and recurrence of cancer following surgical resection or other therapy. However, current liquid biopsy MRD assays typically detect ctDNA in a range above 30 to 300 parts per million (PPM), leaving a significant fraction of MRD cases undetected, particularly soon after surgery and in early-stage cancers where ctDNA can be at very low levels. To address this,
Title: Mono-allelic immunopeptidomics data from 109 MHC-I alleles reveals variability in binding preferences and improves neoantigen prediction algorithm
Overview: This study extends the previously published MHC-I, pan-allelic neoantigen prediction algorithm, SHERPA™, with immunopeptidomics from 84 additional mono-allelic transfected cell lines, totaling data from 109 unique alleles. SHERPA achieves model generalizability and
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